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EP3767208A1 - Refrigerator and control method therefor - Google Patents

Refrigerator and control method therefor Download PDF

Info

Publication number
EP3767208A1
EP3767208A1 EP19199607.3A EP19199607A EP3767208A1 EP 3767208 A1 EP3767208 A1 EP 3767208A1 EP 19199607 A EP19199607 A EP 19199607A EP 3767208 A1 EP3767208 A1 EP 3767208A1
Authority
EP
European Patent Office
Prior art keywords
drawer
opening
closing
motor
lifting unit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP19199607.3A
Other languages
German (de)
French (fr)
Inventor
Kwang Hyun Choi
Chang Won Kim
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
LG Electronics Inc
Original Assignee
LG Electronics Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by LG Electronics Inc filed Critical LG Electronics Inc
Publication of EP3767208A1 publication Critical patent/EP3767208A1/en
Pending legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D11/00Self-contained movable devices, e.g. domestic refrigerators
    • F25D11/02Self-contained movable devices, e.g. domestic refrigerators with cooling compartments at different temperatures
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D25/00Charging, supporting, and discharging the articles to be cooled
    • F25D25/005Charging, supporting, and discharging the articles to be cooled using containers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D25/00Charging, supporting, and discharging the articles to be cooled
    • F25D25/02Charging, supporting, and discharging the articles to be cooled by shelves
    • F25D25/024Slidable shelves
    • F25D25/025Drawers
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B88/00Drawers for tables, cabinets or like furniture; Guides for drawers
    • A47B88/40Sliding drawers; Slides or guides therefor
    • A47B88/453Actuated drawers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D23/00General constructional features
    • F25D23/02Doors; Covers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D25/00Charging, supporting, and discharging the articles to be cooled
    • F25D25/02Charging, supporting, and discharging the articles to be cooled by shelves
    • F25D25/028Cooled supporting means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D29/00Arrangement or mounting of control or safety devices
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D29/00Arrangement or mounting of control or safety devices
    • F25D29/003Arrangement or mounting of control or safety devices for movable devices
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B88/00Drawers for tables, cabinets or like furniture; Guides for drawers
    • A47B88/90Constructional details of drawers
    • A47B2088/901Drawers having a lifting mechanism
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B2210/00General construction of drawers, guides and guide devices
    • A47B2210/17Drawers used in connection with household appliances
    • A47B2210/175Refrigerators or freezers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D2323/00General constructional features not provided for in other groups of this subclass
    • F25D2323/02Details of doors or covers not otherwise covered
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D2325/00Charging, supporting or discharging the articles to be cooled, not provided for in other groups of this subclass
    • F25D2325/021Shelves with several possible configurations
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D2700/00Means for sensing or measuring; Sensors therefor
    • F25D2700/02Sensors detecting door opening

Definitions

  • the present invention relates generally to a refrigerator and a control method therefor.
  • a refrigerator is a home appliance that keeps food at low temperatures in a storage space therein sealed by doors.
  • a refrigerator is configured to be able to keep stored food in an optimal state by cooling the storage space using cold air produced by heat exchange with a refrigerant circulating in a refrigeration cycle.
  • refrigerators have become larger and multifunctional according to trend of changes in dietary life and high quality of products, and refrigerators having various structures and convenience devices considering convenience of users and allowing efficient use of inner spaces have been released.
  • Refrigerators are classified into various types according to an arrangement of storage spaces and a structure of doors opening and closing the storage spaces.
  • Refrigerators are classified into a swinging-type refrigerator in which a storage space is opened and closed by swinging of a swinging door and a drawer-type refrigerator in which a drawer is opened and closed as a drawer works.
  • the drawer is often disposed in a lower portion of the refrigerator.
  • a user should bend over at the waist while keeping away from the refrigerator by appropriate distance for opening of the drawer.
  • Korean Patent Application Publication No. 10-2009-0102577 Korean Patent Application Publication No. 10-2009-0102576
  • Korean Patent Application Publication No. 10-2013-0071919 Korean Patent Application Publication No. 10-2018-0138083 , etc., disclose such refrigerators.
  • U.S. Patent No. 9,377,238 discloses a refrigerator provided with a lifting mechanism for raising/lowering a bin provided in a refrigerator compartment.
  • the lower bin door may be slightly opened by shock or vibration occurring when the user manually closes the bin door or when an upper door is opened/closed. At this point, when nothing is done, freshness of stored food in the refrigerator may be reduced and leakage of cold air may be caused.
  • an objective of the present invention is to provide a refrigerator and a control method therefor in which opening/closing of a drawer and raising/lowering of a lifting unit is automatically performed according to a manipulation of a user.
  • Another objective of the present invention is to provide a refrigerator and a control method therefor in which a drawer part and a lifting unit are stably operated even when the drawer is maintained in a closed state for a long time.
  • a further objective of the present invention is to provide a refrigerator and a control method in which an additional closing operation of the drawer is performed for a set time after closing of the drawer was completed, thereby preventing slight-opening of the drawer.
  • Yet another objective of the present invention is to provide a refrigerator and a control method in which the drawer is prevented from being slightly opened according to an opening/closing of other doors or drawers.
  • Still another objective of the present invention is to provide a refrigerator and a control method in which, when the drawer is maintained in a closed state, an additional closing operation of the drawer is performed for each set period, thereby preventing possibility of the slight-opening in the closed state of the drawer.
  • a control method for a refrigerator having a door and/or drawer, the control method comprising: detecting, by a controller, a closing completion of the drawer; operating an opening/closing motor in the closing direction of the drawer when the controller determines that a peripheral door or another drawer is closed and/or when an opening/closing sensor detects that the closing of the drawer is completed.
  • a control method for a refrigerator comprising: inputting a manipulation of a user; opening a drawer by an operation of an opening/closing motor according to the user manipulation; elevating a lifting unit to a set height by an operation of a lifting motor when an opening completion sensor detects that opening of the drawer is completed; stopping the lifting unit by stopping the operation of the lifting motor when a lifting sensor detects that the elevation of the lifting unit to the set height is completed; lowering the lifting unit by an operation of the lifting motor when a lowering signal of the lifting unit is input; and closing the drawer by an operation of the opening/closing motor after the operation of the lifting motor is stopped when the lifting sensor detects that lowering of the lifting unit is completed, the control method further comprising: after the closing of the drawer is completed, further operating the drawer by further operating the opening/closing motor when an opening/closing sensor detects that the closing of the drawer is completed.
  • the opening/closing motor may be further operated for a set time.
  • the opening/closing motor may be rotated in a closing direction of the drawer.
  • the opening/closing motor may be operated for each set period.
  • the opening/closing motor may be operated for the set time from when the closing completion of the drawer is detected.
  • the opening/closing motor may be rotated in a closing direction of the drawer.
  • a control method for a refrigerator comprising: detecting, by a controller, the closing completion of a drawer; detecting, by the controller, a state of opening/closing of a peripheral door when the closing of the drawer is completed; further operating an opening/closing motor in the closing direction of the drawer when the controller determines that the peripheral door is closed.
  • the opening/closing motor may be operated for a set time from when the closing completion of the drawer is detected.
  • the opening/closing motor may be operated in a closing direction of the drawer for each set period.
  • the set period may be any one hour selected from 1 to 12 hours.
  • a refrigerator comprising: a cabinet provided with an upper storage space and a lower storage space; a drawer movable in forward and rearward direction in the lower storage space for opening and closing the lower storage space; an opening/closing motor providing power for opening and closing of the drawer; a manipulation unit for inputting a manipulation of a user to operate the drawer; and a controller electrically connected to the opening/closing motor and the manipulation unit, wherein the controller is further configured to operate the opening/closing motor in a closing direction of the drawer when inputting a user manipulation for closing the drawer or when the closing of the drawer is completed and/or when determining that a peripheral door or another drawer is closed.
  • the refrigerator may further comprise an opening completion sensor for detecting that opening of the drawer is completed.
  • the refrigerator may further comprise a lifting unit provided in the drawer which is operated by a lifting motor, wherein a lifting sensor is provided for detecting whether an elevation of the lifting unit is completed.
  • a lowering signal for the lifting unit is based on a predetermined time or based on a user input.
  • a refrigerator comprising: a cabinet provided with an upper storage space and a lower storage space; a drawer provided to be moved forward and rearward in the lower storage space and opening and closing the lower storage space; an opening/closing motor providing power for opening and closing of the drawer; a manipulation unit where a manipulation of a user is input to operate the drawer; and a controller electrically connected to the opening/closing motor and the manipulation unit, wherein the controller further operates the opening/closing motor in a closing direction of the drawer when the drawer is closed by inputting the user manipulation.
  • the opening/closing motor may be further operated for a set time from when the closing completion of the drawer is detected.
  • the opening/closing motor may be operated in a closing direction of the drawer for each set period.
  • a refrigerator comprising: a cabinet provided with an upper storage space and a lower storage space; a door opening and closing the upper storage space; an upper drawer provided to be moved forward and rearward in an upper portion of the lower storage space and opening and closing the upper portion thereof; a lower drawer provided to be moved forward and rearward in a lower portion of the lower storage space and opening and closing the lower portion thereof; an opening/closing motor providing power for opening and closing of the lower drawer; and a controller electrically connected to the opening/closing motor, wherein the controller operates the opening/closing motor in a closing direction of the lower drawer when determining that the door or the upper drawer is closed.
  • the controller may operate the opening/closing motor in a closing direction of the lower drawer for each set period.
  • the opening/closing motor may be operated by inputting a manipulation of the user to open/close the drawer. After the lifting unit is elevated, the opening/closing motor may be operated once more to allow the drawer to be normally closed.
  • the drawer may be closed once more by further operation the opening/closing motor in a closed direction of the drawer. Thus, slight-opening of the drawer may be prevented.
  • the drawer may be restrained after the opening/closing motor is further operated.
  • the additional operation of the opening/closing motor may be performed for each set period. Thus, it is possible to prevent the slight-opening of the drawer which is caused various factors when the drawer is closed for a long time.
  • the opening/closing motor may be further operated for a set time from when a closing completion of the drawer is detected.
  • the set time may be 0.5 seconds.
  • the refrigerator of the present invention may have multiple doors, as any one or more doors are opened or closed, the other door may be shaken and slightly opened. Specifically, in the case of doors sharing the same storage space, when one door is opened or closed, the other door may be slightly opened and closed due to negative pressure. To prevent this, when opening/closing of peripheral doors is detected, the opening/closing motor may be further operated to close the drawer once more.
  • the additional operation of the opening/closing motor may be performed for the set time and may be repeated for each set period.
  • the drawer When each operation of the drawer is completed, the drawer may be restrained to maintain stability of the drawer.
  • the refrigerator and the control method therefor according to the present invention have the following effects.
  • the drawer is configured to be automatically opened and closed and configured such that a storage room inside the drawer is partly raised while the drawer is opened, so the user does not need to excessively bend over to store food inside the drawer disposed below, which means ease of use is improved.
  • the drawer is configured such that the storage room inside the drawer is partly raised while the drawer is opened. Therefore, the user does not need to excessively bend over to store food inside the drawer disposed below, which means ease of use is remarkably improved.
  • a lifting sensor detecting whether elevation of a lifting unit is completed is provided so that an operation state of the lifting unit can be determined accurately.
  • the lifting sensor is provided in a front panel, and the elevation state of the lifting unit can be determined through operation of a driving unit. Therefore, it is possible to accurately determine the elevation state of the lifting unit without providing any electrical device in a drawer part.
  • the drawer is closed once more even when the drawer is normally closed, so that it is possible to prevent slight-opening of the drawer which may occur in case.
  • a refrigerator having multiple doors may have the slight-opening according to opening/closing of peripheral doors. Therefore, in the present invention, the drawer is closed once more by detecting opening/closing of peripheral doors, thereby preventing slight-opening of the drawer according to opening/closing of the peripheral doors.
  • slight-opening of the drawer may occur by specific factors even when the drawer is maintained in a closed state for a long time. Therefore, the drawer is closed once more for each set period for preventing the slight-opening, preventing the slight-opening of the drawer according to opening/closing of the peripheral doors.
  • the slight-opening or uncompleted closing of the drawer may be corrected or prevented. Therefore, freshness of stored food or other items can be maintained.
  • FIG. 1 is a front view illustrating a refrigerator according to an embodiment of the present invention.
  • FIG. 2 is a sectional view schematically illustrating a lower drawer of the refrigerator according to the embodiment of the present invention.
  • a refrigerator 1 according to the embodiment of the resent invention includes: a cabinet 10 providing a storage space; and doors 2 closing an open front surface of the cabinet 10.
  • the storage space in the cabinet 10 may be partitioned into multiple spaces.
  • the multiple spaces may include an upper storage space 11 which is an upper portion of the cabinet 10 and functions as a refrigerator compartment and a lower storage space 12 which is a lower portion of the cabinet 10 and functions as a freezer compartment.
  • the upper portion and the lower portion of the cabinet may be provided as independent spaces maintained at different or even the same temperatures rather than provided as a refrigerator compartment and a freezer compartment, respectively.
  • the upper portion and the lower portion of the cabinet may be called an upper space and a lower space.
  • the doors 2 include: a swinging door 20 for opening and closing the upper space in a swinging manner; and a drawer 30 for opening and closing the lower space by pushing and pulling manner as a drawer works. So in its simplest version, there might a refrigerator having one door and one drawer. However, the number of doors and drawers is not limited.
  • the lower space may further be partitioned.
  • an upper drawer 30 provided at an upper portion of the lower space and a lower drawer 30 provided at a lower portion of the lower space.
  • the lower space is partitioned into two or more spaces, and accordingly, two or more drawers 30 are provided and disposed for each space.
  • the swinging door 20 and the drawers 30 are made of a metal material and form an exterior of the refrigerator exposed to the front.
  • the present invention has been described with reference to a refrigerator provided with the swinging door 20 and the drawers 30, the present invention is not limited thereto, and the present invention can be applied to all types of refrigerators provided with a drawer and also to refrigerators provided only with a drawer.
  • the swinging door 20 provided at the upper portion may be called an upper door, and the drawers 30 provided at the lower portion may be called lower doors.
  • At least a part of the swinging door 20 may be formed of a transparent panel assembly 21.
  • the transparent panel assembly 21 has a structure allowing a user to see inside the refrigerator.
  • a lighting unit (not illustrated) may be provided at the storage space or on a rear surface of the swinging door 20.
  • the inside of the refrigerator becomes illuminated according to on-off of the lighting unit, thereby allowing a user to selectively see inside the refrigerator through the transparent panel assembly 21.
  • the transparent panel assembly 21 may be configured with multiple panels. A heat insulating space is defined between the multiple panels, thereby preventing reduction of the cooling performance inside the refrigerator.
  • a display 211 may be provided inside the transparent panel assembly 21. Therefore, a screen is displayed by the transparent panel assembly 21.
  • the display 211 may be installed on the entire surface of the transparent panel assembly 21 or may be partially installed. It is also possible that the display 211 is installed on the entire surface of the transparent panel assembly 21, and a screen is partially displayed.
  • the transparent panel assembly 21 may include a touch sensor to touch the screen displayed by the display 211 and to input a command for an operation of the refrigerator 1. Therefore, the screen displayed by the display 211 may function as a manipulation unit, and the display 211 may be called the manipulation unit.
  • the transparent panel assembly 21 may be configured with a separate door which opens and closes an opening of the transparent panel assembly 21 to allow access to a basket 212 provided in the swinging door 20. That is, the swinging door 20 may be configured as double doors to open and close both the swinging door 20 and the transparent panel assembly 21.
  • the swinging door 20 may have no transparent panel assembly 21.
  • an additional display may be provided on a front surface of the swinging door 20 to display an operating state of the refrigerator 1.
  • a first proximity sensor 213 may be provided at one side of the front surface of the swinging door 20.
  • the first proximity sensor 213 is provided to sense the proximity of the user, and may be configured as a device, such as an ultrasonic sensor or a laser sensor, capable of detecting that the user is in front of the refrigerator 1.
  • one side of the swinging door 20 may be provided with a first manipulation unit 214 that manipulates the opening of the drawers 30.
  • the first manipulation unit 214 may be disposed on one side of left and right sides of the swinging door 20 and may not be exposed to the outside.
  • the first manipulation unit 214 may be disposed inside the swinging door 20 and configured as a touch sensor so that a user inputs an operation command by touching the surface of the swinging door 20.
  • the opening/closing and raising/lowering operation of the drawers 30 are set by manipulation of the first manipulation unit 214.
  • the opening/closing and raising/lowering operation of each drawer 30 may be consecutively and automatically performed through a single manipulation.
  • the opening/closing and raising/lowering operation of the drawer 30 may be performed by a separate manipulation depending on a user's setting.
  • the setting state of the opening/closing, and raising/lowering operation of the drawers 30 may be displayed on the display 211.
  • an operation setting of the drawers 30 through the display 211 may also be possible.
  • the input for the operation of the drawers 30 may be valid only when the proximity of the user is sensed by the first proximity sensor 213. That is, when the user stands in front of the refrigerator 1 to use the refrigerator 1, the first proximity sensor 213 senses the user. In this state, when a manipulation signal of the first manipulation unit 214 is input, the drawers 30 are operated thereby. Therefore, the opening/closing and raising/lowering of the drawers 30 caused by an incorrect operation can be prevented.
  • the swinging door 20 may be provided with a second manipulation unit 301.
  • the second manipulation unit 301 may be provided on a lower front surface of the swinging door 20, and the second manipulation unit 301 may be configured to be operated in a touch manner or a button manner.
  • the second manipulation unit 301 may also be provided in the drawers 30.
  • a third manipulation unit 302 may be provided at a lower end of the lower drawer 30.
  • the third manipulation unit 302 may be configured to output an imaginary switch by projecting an image on the floor and to receive an operation command in a manner that the user approaches the corresponding region.
  • the opening/closing and raising/lowering operation of the drawers 30 may be input through the third manipulation unit 302.
  • the third manipulation unit 302 may be interrupted by the user when the lower doors is automatically opened and closed. Thus, the third manipulation unit 302 may be used only for the raising operation of the lower drawer 30 other than the opening operation of the lower drawer 30.
  • the cabinet 10 may also be provided with a sensor (not illustrated) detecting whether the swinging door 20 is closed or opened.
  • the closing/opening sensor for the swinging door 20 communicates with a controller (refer to a numerical reference 90 of FIG. 16 ) of the drawers 30, which will be described later.
  • the controller 90 may sense whether the swinging door 20 is closed or opened.
  • the drawers 30 are manipulated to be automatically opened/closed and/or raised/lowered by at least one of the multiple manipulation units 214, 301, and 302. Only one of the multiple manipulation units 214, 301, and 302 may be provided as needed.
  • the multiple manipulation units 214, 301, and 302 are provided and function to open/close and raise/lower the drawers 30.
  • the drawers 30 may be opened/closed and raised/lowered according to a combination manipulation or a sequential manipulation of the multiple manipulation units 214, 301, and 302.
  • the drawer 30 When manipulating the manipulation units 214, 301, and 302 to store food inside the lower drawer 30, the drawer 30 may be pushed out forward, and then a container 36 inside the drawer 30 may be raised.
  • the container 36 has a predetermined height.
  • the container 36 is seated in a lifting unit 80 to be described later.
  • the total height is sum of the height of the lifting unit 80 and the height of the container 36.
  • the lifting unit 80 is located at a point where it is easy to access to the container 36 or easy to pick up the container 36.
  • the container 36 is fully accommodated in the drawer part 32 when the drawer 30 is opened and closed, and the container 36 is located at a position above the lower storage space 12 when the lifting unit 80 is elevated.
  • a shape of the container 36 is not limited, but may have a shape corresponding to the size of a front space (refer to S1 of FIG. 3 ).
  • the container 36 preferably has a predetermined height so that food stored therein does not escape even when the lifting unit 80 is elevated.
  • the drawer 30 may be automatically opened and closed by an opening/closing motor 14 and pinions 141 which are provided in the cabinet 10 and racks 34 provided on a lower surface of the drawer 30.
  • the container inside the lower drawer 30 may be raised by a driving unit 40 and the lifting unit 80 provided in the drawer 30.
  • the drawers 30 of the present invention and the configuration for the operation of the drawers 30 will be described in more detail.
  • the refrigerator 1 having two drawers 30 will be described as an example.
  • drawer 30 described below refer to a lower drawer disposed at the bottom among the two drawers 30 unless otherwise indicated, and may be simply called a drawer or a door for convenience.
  • the embodiment of the present invention is not limited to the number and shape of the drawers, and it will be applicable to all refrigerators provided with a drawer in a lower storage space, which is opened and closed as a drawer works.
  • FIG. 3 is a perspective view illustrating the container of the lower drawer, the container being separated from the lower drawer.
  • FIG. 4 is an exploded-perspective view frontal illustrating the drawer part and a front panel of the lower drawer, which are separated from each other.
  • the drawer 30 includes the front panel 31 opening and closing the lower storage space; and the drawer part 32 coupled to a rear surface of the front panel 31 and pushed in and out with the front panel 31.
  • the front panel 31 is exposed to the outside of the cabinet 10 to provide the exterior of the refrigerator 1, and the drawer part 32 is disposed inside the cabinet 10 to provide a storage room.
  • the front panel 31 and the drawer part 32 are coupled to each other and opened and closed.
  • the drawer part 32 is always located on the back of the front panel 31 and provides a space for storing food or accommodating containers.
  • the inside of the drawer part 32 defines the storage room opened upward, and the outside of the drawer part 32 is configured by multiple plates (reference numerals 391, 392, and 395 in FIG. 13 ).
  • the plates 391, 392, and 395 may be made of a metal material such as stainless.
  • An inner surface as well as an outer surface of the drawer part 32 may be embodied by stainless so that the entire the drawer part 32 is embodied by stainless or has a stainless texture.
  • a machine room 3 may be disposed at the rear of the drawer 30, the machine room 3 including equipment (not illustrated) such as a compressor and a condenser constituting a refrigeration cycle are provided.
  • the rear of the drawer part 32 is configured such that an upper end protrudes backward more than a lower end, and the rear surface of the drawer part 32 may include an inclined surface 321.
  • Opposite lateral sides of the drawer part 32 are provided with rails 33 guiding the drawer 30 to be opened and closed.
  • the rails 33 allow the drawer 30 to be mounted in the cabinet 10 in an opened and closed manner.
  • the rails 33 may be configured to be shielded by outer side plates 391 so as not to be exposed to the outside.
  • the rails 33 may be configured to have a multi-stage extendable rail structure.
  • the rails 33 are provided with rail brackets 331, and the rail brackets 331 may extend on the opposite lateral sides of the drawer part 32 from each one side of the rails 33.
  • the rail brackets 331 are fixedly coupled to inner wall surfaces of the refrigerator.
  • the rails 33 allow the drawer part 32, that is, the drawer 30, to be mounted in the cabinet 10 in an opened and closed manner.
  • the rails 33 may be provided at lower ends of the opposite lateral sides of the drawer part 32.
  • the rails 33 are mounted in a manner that the lower ends of the opposite lateral sides of the drawer part 32 are seated from above the rails 33, and thus, the rails 33 may be called under rails.
  • the racks 34 are provided on the bottom surface of the drawer part 32.
  • the racks 34 are disposed on opposite sides and linked to the opening/closing motor 14 mounted in the cabinet 10 to enable automatic opening and closing of the drawer 30. That is, the opening/closing motor 14 is driven when the manipulation unit 22 or 301 is manipulated so that the drawer 30 is able to be opened and closed as the racks 34 moves.
  • the drawer 30 is able to be opened and closed stably be the rails 33.
  • the inside of the drawer part 32 may be divided into a front space S1 and a rear space S2.
  • the lifting unit 80 which is elevated up and down and the container 36 which is disposed on the lifting unit 80 and raised with the lifting unit 80 may be disposed.
  • the container 36 is illustrated in the form of an open basket, the container 36 may be a closed box structure such as a kimchi container, and multiple containers 36 may be stacked or arranged side by side.
  • the front space S1 is opened out of the storage space, and the rear space S2 is fully or partly located inside the storage space of the cabinet 10.
  • Such structure may be limited in the pushing-out distance of the drawers 30 by the racks 34 or the rails 33.
  • the longer the pushing-out distance the greater the moment applied to the drawer 30 in the opened state.
  • it is difficult to maintain a stable state and the rails 33 or the racks 34 may be deformed or broken.
  • the lifting unit 80 and the container 36 are accommodated in the front space S1, and the lifting unit 80 is moved up and down so that food or the container 36 accommodated on the lifting unit 80 can be raised together.
  • the lifting unit 80 and the container 36 are accommodated in the front space S1, and the lifting unit 80 is moved up and down so that food or the container 36 accommodated on the lifting unit 80 can be raised together.
  • the lifting unit 80 is provided below the container 36. Therefore, when putting the container 36, the lifting unit 80 is covered by the container 36, and any configuration of the lifting unit 80 is not exposed to the outside.
  • the rear space S2 may be provided with a drawer cover 37.
  • the front space S1 and rear space S2 may be partitioned by the drawer cover 37.
  • front and top surfaces of the rear space S2 are shielded so that unused spaces are not exposed to the outside.
  • the rear space S2 may have a pocket or a container corresponding to a shape of the rear space.
  • the lifting unit 80 inside the drawer part 32 may be simply detached and mounted in order to utilize the entire space inside the drawer part 32.
  • the lifting unit 80 and the drawer cover 37 may be separated to utilize the entire space inside the drawer part 32.
  • the exterior of inner and outer surfaces of the drawer part 32 is provided by the plates (refer to reference numerals 391, 392, and 395 of FIG. 12 ) which shield the components mounted on the drawer part 32 to make the exterior neat.
  • the multiple plates may be provided and made of stainless to provide an elegant and neat exterior.
  • the front panel 31 and drawer part 32 constituting the drawer 30 may have a structure that can be detached from each other.
  • the detachable structure of the front panel 31 and the drawer part 32 allows easy assembling and easy repair.
  • the rear surface of the front panel 31 and the front surface of the drawer part 32 are coupled to each other and configured to allow to provide power for raising the lifting unit 80 when the front panel 31 and the drawer part 32 are coupled to each other.
  • the driving unit (refer to reference numeral 40 of FIG. 6 ) for raising the lifting unit 80 may be disposed in the front panel 31 and selectively connected with the front panel 31 and the drawer part 32.
  • the driving unit (refer to reference numeral 40 of FIG. 6 ) provided in the front panel 31 is composed of components operated by input of power and components transmitting power to the lifting unit 80. Therefore, when repair of the driving unit (refer to reference numeral 40 of FIG. 6 ) is required, it is possible to easily perform the repair by removing the front panel 31 and replacing the front panel 31.
  • the front panel 31 and the drawer part 32 are coupled by a pair of drawer frames 316.
  • Each of the drawer frames 316 include a front panel engaging portion 316a extending in the vertical direction and engaged with the front panel 31 and a drawer engaging portion 316b extending rearward from a lower end of the front panel engaging portion 316a.
  • the front panel engaging portion 316a may be engaged with the front panel 31 by an additional engaging member or may be engaged with one side of the front panel 31 with a simple engaging structure.
  • the drawer engaging portion 316b may be disposed to be inserted each opposite side of the drawer part 32 to be adjacent to each of the rails 33.
  • the drawer engaging portion 316b may be provided in the drawer part 32 in combination with the rail 33.
  • the drawer engaging portion 316b may be inserted into the drawer part 32 and supports the drawer part 32.
  • the drawer engaging portion 316b may be engaged with the drawer part 32 by an additional engaging member or by a structure in which the drawer engaging portion 316b and the drawer part 32 are combined with each other.
  • drawer holes 35 are formed in the front surface of the drawer part 32 to expose a portion of the lifting unit 80.
  • the front panel 31 is configured to substantially open and close the storage space of the cabinet 10 and provide the front exterior of the refrigerator 1.
  • the exterior of the front panel 31 is configured by an outer case 311 providing the front surface and a part of a circumferential surface, a front panel liner 314 providing the rear surface, an upper decoration 312 and a lower decoration 313 providing upper and lower surfaces.
  • the inside of the front panel 31 which is between the outer case 311 and the front panel liner 314 may be filled with an insulator (not illustrated).
  • FIG. 5 is a rear view illustrating the front panel.
  • FIG. 6 is a rear view illustrating a panel cover of the front panel, the panel cover being removed from the front panel.
  • FIG. 7 is a perspective view illustrating the driving unit and the lifting unit connected to each other.
  • FIG. 8 is a front perspective view illustrating the driving unit.
  • FIG. 9 is a front perspective view illustrating an inner structure of the driving unit.
  • FIG. 10 is a partially enlarged view illustrating the structure in which power is transmitted to screws of the driving unit.
  • the outer case 311 may provide the front surface of the front panel 31, and the front panel liner 314 may provide the rear surface of the front panel 31.
  • the driving unit 40 for operating the lifting unit 80 may be provided inside the front panel 31.
  • the driving unit 40 is disposed inside the front panel 31, but is provided inside a space defined by the front panel liner 314 rather than embedded in the insulator.
  • the driving unit 40 is shielded by a panel cover 315 not to be exposed to the outside.
  • the insulator may be filled between the outer case 311 and the front panel liner 314 to insulate the inside of the lower storage space 12.
  • the front panel liner 314 is configured with a front panel depression depressed inward.
  • the front panel depression may be configured in a shape corresponding to a shape of the driving unit 40 and depressed inwardly of the drawer 30.
  • front panel depression may be further depressed to mount electric components including a drawer light 318 illuminating the inside of the refrigerator.
  • the drawer light 318 may extend horizontally from the left side to the right side of the rear surface of the drawer 30 and may be positioned at the top of an inner region of a gasket 317 provided along a circumference of the rear surface of the drawer 30.
  • the drawer light 318 consists of multiple LEDs and is configured such that light emitted from the LEDs is directed inside the drawer 30, particularly, toward the inside of the drawer part 32. Accordingly, the drawer light 318 illuminate inside of the drawer part 32 in a state where the drawer 30 is opened.
  • the panel cover 315 is to provide the exterior of the rear surface of the front panel 31 and shields the driving unit 40 mounted in the front panel 31.
  • the panel cover 315 may be formed in a plate shape and shield the driving unit 40 to prevent the driving unit 40 from being exposed.
  • the panel cover 315 may be configured with a cover depression at a corresponding position in which the driving unit 40 can be covered from the rear.
  • the cover depression may be configured such that the front surface of the panel cover 315, that is, a surface facing the driving unit 40 is depressed, and the rear surface of the panel cover 315, that is, a surface facing the lower storage space protrudes.
  • Side cutouts 315a may be configured at left and right side ends of the panel cover 315.
  • the side cutouts 315a provide a space for the drawer frames 316 to be engaged with the front panel.
  • Cover holes 315b may be formed at opposite lower sides of the panel cover 315.
  • the cover holes 315b are configured such that accommodating portions 421a of levers 42 that are one kind of component of the driving unit 40 are exposed through the cover holes 315b so that it is possible to access the accommodating portions 421a through the cover holes 315b.
  • the cover holes 315b may be located at position facing the drawer holes 35.
  • the cover holes 315b and the drawer holes may communicate with each other.
  • the accommodating portions 421a and engaging portions 842c of the lifting unit 80 may be engaged with each other through the cover holes 315b and the drawer holes 35. That is, the driving unit 40 and the lifting unit 80 can be connected to each other, and thus the lifting unit 80 can be raised according to the operation of the driving unit 40.
  • a cable hole 315c through which cables connected to electrical components such as the driving unit 40 and the drawer light 318 provided in the front panel 31 come in and out may be formed at a lower center of the panel cover 315.
  • the cables coming in and out through the cable hole 315c may be connected to the cabinet 10 through the lower portion of the drawer part 32.
  • the gasket 317 is provided along the circumference of the rear surface of the front panel 31.
  • the gasket 317 may be hermetically in contact with the front surface of the cabinet 10 in a state where the drawer 30 is close.
  • the driving unit 40 may be shielded by the panel cover 315 and disposed inside the front panel 31.
  • the power of the driving unit 40 may be transmitted to the lifting unit 80.
  • the driving unit 40 simultaneously transmits the power to both left and right sides of the lifting unit 80 so that the lifting unit 80 is elevated and lowered in a level state without being inclined or biased to one side under any circumstance.
  • the driving unit 40 includes: a motor assembly 60; a pair of screw units 50 and 50a disposed on left and right sides of the motor assembly 60; and a pair of levers 42 connected to the screw units 50 and 50a, respectively.
  • the motor assembly 60 is located at the central portion in a lateral direction of the front panel 31.
  • the motor assembly 60 is configured to enable the operation of the screw units 50 and 50a and the levers 42 on both sides by driving the motor assembly 60 including one lifting motor 64.
  • the motor assembly 60 adjusts the magnitude of the deceleration and transmission force through a combination of multiple gears.
  • the motor assembly 60 has a structure in which the lifting motor 64 and the gears are arranged up and down in order to minimize a space recessed to mount the front panel 31.
  • the motor assembly 60 is configured such that width thereof in the lateral direction is wide in order to minimize the thickness thereof in the front and rear direction.
  • the lifting motor 64 constituting the motor assembly 60 may protrude toward the drawer part 32 side to minimize the depth of depression of the front panel 31 to ensure thermal insulation performance.
  • the lifting motor 64 is to provide power for elevating the lifting unit 80 and may be configured to perform forward and reverse rotation. Therefore, when the raising signal for the lifting unit 80 is input, the lifting motor 64 performs forward or reverse rotation and provides power for elevating the lifting unit 80. The lifting motor 64 is stopped when a stop signal is input due to the load of the lifting motor 64 or a detection by a sensor.
  • the motor assembly 60 includes a motor case 61 in which the lifting motor 64 is installed and a motor cover 62 coupled to the motor case 61 and covering the lifting motor 64.
  • a shaft of the lifting motor 64 may protrude toward an opposite side of the motor cover 62 from the motor case 61.
  • the motor assembly 60 may include a power transmission unit to transmit power of the lifting motor 64.
  • the power transmission unit is positioned opposite the lifting motor 64 with respect to the motor case 61.
  • the power transmission unit is composed of a combination of multiple gears, and the gears are shielded by a cover member 66 mounted on the opposite side of the lifting motor 64.
  • the power transmission unit includes a drive gear 651 connected to the shaft of the lifting motor 64 passing through the motor case 61.
  • the power transmission unit includes a first transmission gear 652 engaged with the drive gear 651 at the bottom of the drive gear 651.
  • the first transmission gear 652 may be, for example, a multi-speed gear.
  • the first transmission gear 652 may include a first gear 652a engaged with the drive gear 651 and a second gear 652b having a diameter smaller than that of the first gear 652a.
  • the first gear 652a and the second gear 652b may be spur gears.
  • the power transmission unit may include a second transmission gear 653 engaged with the first transmission gear 652.
  • the second transmission gear 653 is engaged with the first transmission gear 652 at the bottom of the first transmission gear 652.
  • the second transmission gear 653 may include a first gear 653a engaged with the second gear 652b of the first transmission gear 652 and a second gear 653b having a diameter smaller than that of the first gear 653a.
  • the first gear 653a and the second gear 653b of the second transmission gear 653 may be spur gears.
  • the second gear 653b of the second transmission gear 653 is positioned at the bottom of the first gear 652a of the first transmission gear 652.
  • the power transmission unit may include a third transmission gear 654 engaged with the second transmission gear 653.
  • the third transmission gear 654 is engaged with the second gear 653b of the second transmission gear 653 at the bottom of the second gear 653b.
  • the third transmission gear 654 may be a spur gear. A portion of the third transmission gear 654 may be positioned to overlap the second transmission gear 653 in the front and rear direction.
  • the motor case 61 may be provided with a gear shaft supporting the multiple transmission gears to be rotatable.
  • the power transmission unit may include a pair of cross gears 655 and 656 engaged with the third transmission gear 654.
  • the pair of cross gears 655 and 656 are disposed to be spaced apart from each other in the lateral direction and engaged with the third transmission gear 654 at positions where each center of rotation is lower than the center of rotation of the third transmission gear 654.
  • a cross gear 655 includes a spur gear 655a and a first helical gear 655b
  • a cross gear 656 includes a spur gear 656a and a first helical gear 656b.
  • Rotation axes of the cross gears 655 and 656 disposed on opposite sides in the lateral direction to be spaced apart from each other are parallel to each other.
  • the power transmission unit may include a pair of second helical gears 657 and 657a engaged with the cross gears 655 and 656, respectively.
  • the second helical gears 657 and 657a are engaged with the first helical gears 655b and 656b.
  • the second helical gears 657 and 657a are arranged such that rotational axes thereof cross the rotation axes of the cross gears 655 and 656.
  • the first helical gears 655b and 656b are engaged with the second helical gears 657 and 657a, respectively, in a crossing manner to transmit rotation.
  • the rotation axes of cross gears 655 and 656 extend in the front and rear direction, and the rotation axes of the second helical gears 657 and 657a extend in the up and down direction.
  • the rotation axes of the second helical gears 657 and 657a disposed on the opposite sides in the lateral direction may be inclined in respective directions in a manner being farther apart from each other from the bottom to the top.
  • the structure for power transmission can be compact, and the power transmission direction can be easily changed. In particular, even when a great power is transmitted for elevating the lifting unit 80, the noise is not greatly generated.
  • the pair of screw units 50 and 50a are disposed at the left and right sides of the motor assembly 60.
  • the pair of screw units 50 and 50a are disposed in the left and right sides inside the front panel 31.
  • the pair of screw units 50 and 50a differ only in mounting positions thereof, but the structure and shape thereof are identical.
  • the power of the lifting motor 64 is transmitted from bottom portions of the screw units 50 and 50a.
  • the screw units 50 and 50a are provided to be symmetrical about the motor assembly 60.
  • the motor assembly 60 is disposed between the screw units 50 and 50a, and the screw units 50 and 50a disposed at the opposite sides become close to each other from the top to bottom.
  • the screw units 50 and 50a include screws 52 and 52a, respectively, which receive the power of the lifting motor 64 and are rotated thereby.
  • the screws 52 and 52a extend in the up and down direction while upper ends thereof face outward and lower ends thereof face inward.
  • the screws 52 and 52a are connected to the second helical gears 657 and 657a, respectively. That is, the screws 52 and 52a rotate with the second helical gears 657 and 657a when the second helical gears 657 and 657a rotate.
  • an insertion portion may be formed in each of the second helical gears 657 and 657a, and a receiving recess may be formed in each of the screws 52 and 52a to accommodate the insertion portion.
  • the screws 52 and 52a are also disposed at the left and right sides of the motor assembly 60 to be symmetrical about the motor assembly 60.
  • the screws 52 and 52a are inclinedly disposed with the same rotation axes of the second helical gears 657 and 657a.
  • the screws 52 and 52a are farther apart from each other from the bottom to the top.
  • the screw units 50 and 50a may include screw holders 56 and 56a, respectively, through which the screws 52 and 52a pass to be coupled.
  • the screw holders 56 and 56a are moved up and down along the screws 52 and 52a when the screws 52 and 52a rotate.
  • the screw holders 56 and 56a may be coupled to the levers 42. When the screw holders 56 and 56a are moved, the levers 42 rotate.
  • each center of the screw holders 56 and 56a is formed with a holder through-hole 561.
  • the holder through-hole 561 extends each of the screw holders 56 and 56a from the top to bottom, and each of the screws 52 and 52a is inserted and mounted to the corresponding holder through-hole 561 by passing therethrough.
  • An inner surface of the holder through-hole 561 is formed with a thread engaged with the screw.
  • Guide holes 562 may be formed at left and right sides of the holder through-hole 561.
  • the guide holes 562 are portions through which guide bars 53 and 54 to be described later pass, and the screw holders 56 and 56a are moved along the guide bars 53 and 54.
  • a bearing or other components for reducing friction may be provided on each inner surface of the guide holes 562 to facilitate the movement of the screw holders 56 and 56a.
  • the pair of the guide bars 53 and 54 pass the guide holes 562 such that stable raising is possible without any left and right movement of the screw holders 56 and 56a. In particular, even when a heavy load is applied for the driving of the lifting unit 80, the stable raising is possible, and noise is not generated.
  • the screw holder 56a may be provided with a magnet 563.
  • the screw holder 56a may be provided with a magnet mounting recess 563a having a structure into which the magnet 563 is inserted by press fitting.
  • the magnet 563 is to detect a location of the screw holder 56a. When the screw holder 56a is located at the bottom or top of the screw 52a, a lifting sensor 55 senses this.
  • the completion of raising and lowering of the lifting unit is determined by the lifting sensor 55 when detecting the magnet 563 mounted on the screw holder 56a.
  • an opposite side of a rear surface of the screw holder 56a provided with the magnet 563, that is, a front surface of the screw holder may have a structure in which each holder connector 564 is mounted, and also a front surface of the screw holder 56 has the same.
  • Holder connectors 564 are to connect the levers 42 and the screw holders 56 and 56a.
  • the holder connectors 564 are fixedly mounted to the screw holders 56 and 56a. That is, the holder connectors 564 are coupled to the screw holders 56 and 56a while penetrating the levers 42.
  • Each of the levers 42 may include a rectangular slot 426 so that the holder connectors 564 do not interfere while the levers 42 rotate.
  • the levers 42 are to connect the screw holders 56 and 56a and the lifting unit 80. Opposite ends of each of the levers 42 are coupled to the screw holders 56 and 56a and the lifting unit 80.
  • Each of the screw units 50 and 50a may include a housing 51 accommodating the screws 52 and 52a.
  • a pair of housings 51 provide outer shapes of the screw units 50 and 50a and define space accommodating the screws 52 and 52a and the screw holders 56 and 56a.
  • an opened portion of the housing 51 may be covered by a cover member 66 to be described later.
  • the housings 51 may be made of a plate-shaped metal material and bent or may be made of a plastic material.
  • Each of the housings 51 includes a first accommodating portion 511 where the screws 52 and 52a are accommodated and a second accommodating portion 512 where the second helical gears 657 and 657a are accommodated.
  • the first accommodating portion 511 and the second accommodating portion 512 are partitioned by a partition wall 513.
  • the second accommodating portion 512 is located below the first accommodating portion 511.
  • the second accommodating portion 512 partly accommodates the cross gears 655 and 656. That is, the cross gears 655 and 656 and the second helical gears 657 and 657a are connected respectively in the second accommodating portion 512.
  • Each of the housings 51 is provided with one or more guide bars 53 and 54 guiding the screw holders 56 and 56a to move upward.
  • the one or more guide bars 53 and 54 extend alongside the screws 52 and 52a while spaced apart from the screws 52 and 52a.
  • each of the screws 52 and 52a may be disposed between the multiple guide bars 53 and 54 to prevent the screw holders 56 and 56a from being tilted either to the left or right side about the screws 52 and 52a.
  • the motor case 61 and a pair of housings 51 may be integrally provided.
  • the single cover member 66 may cover the motor case 61 and the pair of housings 51.
  • the cover member 66 is coupled to the motor case 61 and covers the power transmission unit.
  • the cover member 66 is coupled to the pair of housings 51 and covers the screws 52 and 52a, the guide bars 53 and 54, and the screw holders 56 and 56a.
  • cover member 66 includes multiple portions respectively covering and opening or closing the power transmission unit and the screw units 50 and 50a if necessary.
  • the driving unit 40 is provided in a single module form, the driving unit 40 is compact so that the driving unit 40 can be easily installed on the front panel 31.
  • the one cover member 66 covers the motor case 61 and the pair of housings 51 together, when removing the cover member 66, the power transmission unit or the inside of the housing 51 can be easily accessed, which facilitates repair.
  • the lifting sensor 55 may be provided at one screw unit 50a of the screw units 50 and 50a on the left and right sides. Since the screw units 50 and 50a on the left and right sides operate simultaneously by the one motor assembly 60, even when the lifting sensor 55 is provided only on the screw unit 50a, the operation of the lifting unit 80 is effectively detected. Therefore, the lifting sensor 55 may be provided in either of the screw units 50 and 50a disposed on the left and right sides.
  • the lifting sensor 55 determines whether the elevation of the lifting unit 80 starts and is completed. Specifically, the lifting sensor 55 determines whether the elevation of the lifting unit 80 starts and is completed based on the operation of the driving unit 40.
  • the lifting sensor 55 is mounted on the cover member 66 and disposed longitudinally along the screw unit 50a.
  • the lifting sensor 55 includes a support plate 551, sensors 552 and 553 mounted on the support plate 551, and a case 554 accommodating the support plate 551.
  • the plate-shaped support plate 551 is configured such that a pair of sensors 552 and 553 are mounted on opposite sides.
  • the support plate 551 is made of a simple plate-like material on which the sensors 552 and 553 can be fixedly mounted at detecting positions.
  • the support plate 551 is a plate where the sensors 552 and 553 are mounted.
  • the sensors 552 and 553 may be embodied by sensors detecting the magnet 563.
  • the sensors may be typical hall sensors detecting a location of the magnet. If necessary, other sensors or devices detecting the magnet 563 may be provided in place of the hall sensors.
  • One of the sensors 552 and 553 is mounted in a position corresponding to a position of the magnet 563 when the lifting unit 80 is fully elevated, and a remaining one is mounted in a position corresponding to a position of the magnet 563 when the lifting unit 80 is fully lowered. Therefore, when any one of the pair of sensors 552 and 553 senses the magnet 563, it is determined that the lifting unit 80 is fully elevated or lowered.
  • the sensors 552 and 553 detect the magnet 563, when a location of the magnet 563 is not detected anymore, it is determined that the elevation or lowering of the lifting unit 80 starts.
  • the support plate 551 provided with the sensors 552 and 553 is accommodated in the case 554.
  • the case 554 may be part of the cover member 66.
  • the case 554 is recessed on an inner surface of the cover member 66 and provides a space where the support plate 551 is accommodated. It is also possible that the case 554 is configured separately to be mounted on the cover member 66.
  • the case 554 provides a space where the support plate 551 is accommodated.
  • the support plate 551 is provided with a connector 555.
  • the connector 555 is configured to be connected to a wire extending from the pair of sensors 552 and 553 and connected to an electrical wire 555a from the outside. That is, it is possible to connect the outside electrical wire by coupling the connector 555 without need for separating the support plate 551 or the sensors 552 and 553.
  • the connector 555 may be disposed on the support plate 551 where a connector mounting portion 951 is provided.
  • FIG. 11 is a perspective view illustrating the drawer part.
  • FIG. 12 is an exploded-perspective view illustrating the drawer part.
  • the drawer part 32 includes: a drawer main body 38 providing the overall shape of the drawer part 32; the lifting unit 80 provided inside the drawer main body 38 and raising the container and food; and the multiple plates 391, 392, and 395 providing an inner appearance of the drawer part 32.
  • the drawer main body 38 may be injection-molded from a plastic material to define the entire shape of the drawer part 32.
  • the drawer main body 38 has a basket shape with an open upper surface to provide a food storage room therein.
  • a rear surface of the drawer main body 38 may be the inclined surface 321, thus preventing interference with the machine room 3.
  • the drawer frames 316 are mounted to opposite sides of the drawer part 32.
  • the drawer frames 316 are coupled to frame mounting portions 383 provided on opposite sides on a lower surface of the drawer part 32 or provided on lower portions of left and right surfaces of the drawer part 32. With the drawer frames 316 coupled to the drawer part 32, the drawer part 32 and the front panel 31 are integrally combined and opened and closed together.
  • the drawer frames 316 and the drawer part 32 may be coupled to each other by an additional coupling member or by a structure of the drawer frames 316 and the drawer part 32 are combined with each other.
  • the racks 34 are provided on the left and right sides of the lower surface of the drawer part 32.
  • the drawer part 32 is opened and closed by the racks 34.
  • the drawer part 32 is at least partially located inside the storage space in a state where the cabinet 10 is mounted.
  • the racks 34 are engaged with pinion gears 141 provided on the bottom surface of the storage space.
  • Rail mounting portions 382 where the rails 33 guiding the drawer main body 38 to be opened and closed are mounted are configured at the lower portions of the opposite lateral surfaces of the drawer main body 38.
  • the rail mounting portions 382 extend from the front end to the rear end, and spaces are provided therein to accommodate the rails 33.
  • the rails 33 have a multi-stage extendable structure in which one end thereof is fixed to the storage space inside the cabinet 10 and a remaining end is fixed to the rail mounting portions 382 so that the drawers 30 can be stably opened and closed.
  • a magnet 380 is provided on one side of the opposite lateral surfaces of the drawer main body 38.
  • An open/close sensor (refer to reference numeral 151 of FIG. 19 ) is provided inside the cabinet 10 at a position corresponding to a position of the magnet 380 when the drawer 30 is fully closed.
  • the open/close sensor 151 detects whether the drawer 30 is opened or closed. In addition, the open/close sensor 151 detects whether the closing of the drawers 30 is completed and whether the opening of the drawer 30 starts.
  • the open/close sensor 151 detects the magnet 380 provided on the one side of the drawer 30 when the drawer 30 is fully closed so that it is possible to determine whether the drawer 30 is closed.
  • the open/close sensor 151 does not detect the magnet 380 and thus it is determined that the drawer 30 is opened. That is, from a state that the open/close sensor 151 detects the magnet 380, when the magnet 380 is not detected anymore, it is determined that the opening is started.
  • a location of the magnet 380 may be changed, and according to the location of the magnet 380, a location of the open/close sensor 151 is changed.
  • the open/close sensor 151 may have a switch-like structure, but various structures detecting the opening and closing of the drawer 30 may be applied.
  • the drawer main body 38 is provided with the multiple plates 391, 392, and 395 that are made of a plate metal material such as stainless and provide a part of the interior and exterior of the drawer main body 38.
  • the outer side plates 391 are provided on left and right outer surfaces of the drawer main body 38.
  • the outer side plates 391 are mounted to the left and right surfaces of the drawer main body 38 to provide the exterior of the surfaces.
  • the outer side plates 391 prevent the components including the drawer frames 316 and the rails 33 mounted to the opposite sides of the drawer main body 38 from being exposed to the outside.
  • the reinforcing ribs 384 are provided on the outer side surfaces of the drawer main body 38 in a manner intersecting in horizontal and vertical directions.
  • the reinforcing ribs 384 increase the strength of the drawer main body 38 so that the drawer main body 38 can firmly maintain a shape thereof even though the total weight of the drawer is increased due to the driving unit 40 and the lifting unit 80.
  • the reinforcing ribs 384 support the outer side plates 391 mounted to opposite side surfaces, thereby firmly maintaining the shape of the drawer part 32.
  • Inner side plates 392 are provided on left and right inner surfaces of the drawer main body 38.
  • the inner side plates 392 are mounted to the left and right surfaces of the drawer main body 38 and provide inner left and right surfaces of the inside.
  • An inner plate 395 includes a front portion 395a, a bottom portion 395b, and a rear portion 395c which have sizes and shapes corresponding to an inner front surface, an inner bottom surface, and an inner rear surface of the drawer main body 38.
  • the inner side plates 392 and the inner plate 395 form the entire inner surfaces of the drawer main body 38 and provide a metallic texture to the inner surfaces of the drawer main body 38.
  • the entire storage room inside the drawer part 32 has a metallic texture.
  • the drawer cover 37 includes: a cover front portion 371 dividing the inside of the drawer main body 38 into the front space S1 and the rear space S2; and a cover upper portion 372 being perpendicular to the upper end of the cover front portion 371 and shielding the rear space S2 from above.
  • the lifting unit 80 is provided inside the drawer main body 38.
  • the lifting unit 80 has a structure connected to the driving unit 40 so as to be elevated and lowered in a manner that left and right sides are balanced.
  • the drawer holes 35 are formed in a lower portion of the front surface of the drawer part 32 in order to combine the lifting unit 80 and the driving unit 40.
  • the lifting unit 80 is configured in a scissor lift structure, wherein the lifting unit 80 is folded in a lowered state and unfolded in an elevated state such that the container or food seated on an upper surface thereof can be raised.
  • the lifting unit 80 includes a support plate 81, and the support plate 81 provides a surface where the container 36 or food is seated.
  • the drawer holes 35 are located underneath the upper end of the lifting unit 80, that is, an upper surface of the support plate 81. Thus, in the case that the lifting unit 80 is mounted, it is possible to prevent the drawer holes 35 from being seen inside the drawer part 32 under any circumstances.
  • the support plate 81 has a size and a shape corresponding to the front space to prevent foreign matter from entering to the lifting unit 80 provided below the front space S1 and to block the access to the lifting unit 80 to fundamentally prevent a safety accident.
  • FIG. 13 is a perspective view illustrating the lifting unit according to the embodiment of the present invention.
  • FIG. 14 is a view illustrating an upper frame of the lifting unit, the upper frame being elevated.
  • FIG. 15 is a view illustrating a lever according to the present invention being connected with the lifting unit.
  • the lifting unit 80 is provided at the bottom of the inner surface of the drawer part 32 and provided inside the drawer part 32 in a detachable manner.
  • the lifting unit 80 includes an upper frame 82, a lower frame 83, and scissor assemblies 84 disposed between the upper frame 82 and the lower frame 83.
  • the upper frame 82 is configured in a quadrangular shape corresponding to a size of the front space S1 of the drawer part 32, and the support plate 81 is seated on an upper surface thereof.
  • the upper frame 82 is a component of the lifting unit 80 which moves up and down and substantially supports food or the container 36 with the support plate 81.
  • the upper frame 82 includes a frame portion 821 configuring a periphery of the upper frame 82 and a partition portion 822 dividing an inner space of the frame portion 821 to left and right sides.
  • the frame portion 821 and the partition portion 822 are configured to shape an outline and to support the support plate 81, high strength is required. Accordingly, the frame portion 821 and the partition portion 822 may be made of a metal material, and formed in a shape in which opposite ends are bent in order to increase the strength and prevent deformation.
  • a slide guide 824 is provided on a lower side surface of the frame portion 821, the slide guide 824 accommodating ends of the scissor assemblies 84 to guide the scissor assemblies 84 to move.
  • the respective scissor assemblies 84 are disposed in opposite spaces 823 and 824 with respect to the partition portion 822.
  • the slide guide 824 is configured with a long hole 824a into which the scissor assemblies 84 are inserted. Thus, the scissor assemblies 84 move along the slide guide 824.
  • the lower frame 83 and the upper frame 82 may have the same or a similar structure but are installed to count to each other.
  • the lower frame 83 includes a frame portion and a partition portion.
  • a slide guide 834 is provided on an upper surface of the lower frame 83, the slide guide 834 accommodating ends of the scissor assemblies 84 to guide the scissor assemblies 84 to move.
  • the slide guide 834 is configured with a long hole 834a into which the scissor assemblies 84 are inserted. Thus, the scissor assemblies 84 move along the slide guide 834.
  • the respective scissor assemblies 84 are provided on the left and right sides and operated by receiving power from the single lifting motor 64. Thus, the scissor assemblies 84 can be raised by the same height at the same height.
  • Each of the scissor assemblies 84 includes a first scissor frame 841 having a quadrangular shape and a second scissor frame 845 having a quadrangular shape and rotatably connected with the first scissor frame 841.
  • the second scissor frame 845 may have a width smaller than the first scissor frame 841. Thus, the second scissor frame 845 is connected with the first scissor frame 841 while being located in a region defined by the first scissor frame 841.
  • the first scissor frame 841 includes a lower shaft (reference numeral 841a of FIG. 24 ) and an upper shaft (reference numeral 841b of FIG. 24 ) extending in the horizontal direction.
  • the lower shaft (reference numeral 841a of FIG. 24 ) is supported by the lower frame 83 in a rotatable manner, and the upper shaft (reference numeral 841b of FIG. 24 ) is disposed to penetrate the slide guide 824 of the upper frame 82.
  • the first scissor frame 841 is connected to a first rod (reference numeral 852a of FIG. 24 ) extending in a longitudinal direction and the upper shaft (reference numeral 841b of FIG. 24 ).
  • the second scissor frame 845 includes a lower shaft 851a and an upper shaft (not illustrated) extending in the horizontal direction and a first rod 852a and a second rod 852b extending in each longitudinal direction.
  • the first rod 842a of the first scissor frame 841 includes an extension portion 842b protruding to connect with one of the levers 42 and includes the engaging portion 842c provided at the end of the extension portion 842b.
  • Each of the levers 42 includes the accommodating portion 421a accommodating the engaging portion 842c to be engaged with the engaging portion 842c.
  • the end of the engaging portion 842c may be non-circular. Thus, when the lever 42 rotates while the accommodating portion 421a accommodates the engaging portion 842c, it is possible to prevent the lever 42 from slipping in the engaging portion 842c.
  • the engaging portion 842c and the extension portion 842b pass through each of the drawer holes 35, and the extension portion 842b is positioned inside each of the drawer holes 35. Therefore, the lifting unit 80 inside the drawer part 32 is connected to the driving unit 40 disposed outside the drawer part 32 by the extension portion 842b and the engaging portion 842c.
  • FIG. 16 is a block diagram schematically illustrating connections between the controller and components connected to the controller according to the embodiment of the present invention.
  • FIG. 17 is a flowchart illustrating opening/closing of the drawer and raising/lowering operation o the lifting unit.
  • FIGS. 18 to 26 are views illustrating states of the drawer when the drawer is opened/closed and/or the lifting unit is raised/lowered.
  • the multiple drawers 30 may be provided in the vertical direction.
  • the lower drawer 30 of the drawers 30 is disposed to be adjacent to the upper drawer 30 and has no handle for opening and closing. In other words, a gap between the upper drawer 30 and the lower drawer 30 is almost invisible so that the front exterior of the refrigerator 1 look neat and luxurious.
  • the opening and closing of the drawer 30 are detected by the opening/closing sensor 151 provided inside the cabinet 10.
  • the open/close sensor 151 detects the magnet 380 provided on one side surface of the drawer 30 while the drawer 30 is closed, it is determined that the drawer 30 is closed.
  • the magnet 380 is not detected, it is determined that the drawer 30 is opened.
  • the open/close sensor 151 detects whether the opening of the drawer 30 starts and the closing of the drawer 30 is completed. While the open/close sensor 151 detects the magnet 380, when the magnet 380 is not detected anymore, it is determined that the opening of the drawer 30 starts. From a state where the magnet 380 is not detected, when the magnet 380 starts to be detected, the closing of the drawer 30 is completed.
  • the user manipulates the manipulation unit so that a manipulation for opening and closing of the drawer is input.
  • the user can manipulate the multiple manipulation units 214, 301, and 302 to operate the drawer 30.
  • the first proximity sensor 213 detects the proximity of the user.
  • the opening of the drawer 30 can be started after it is determined that the manipulation input is valid only when one of the manipulation units 214, 301, and 302 is manipulated in a state where the proximity of the user is recognized by the first proximity sensor 213.
  • the controller 90 determines that the manipulation input is valid for operation of the drawer 30 and allows the opening of the drawer 30 to start.
  • the drawer 30 is not opened.
  • the controller 90 that controls the overall operation of the refrigerator 1 controls the opening/closing motor 14 to operate the opening/closing motor 14 when it is determined in the manipulation inputting step that the manipulation input is valid.
  • the drawer 30 When the opening/closing motor 14 is driven by the controller 90, the drawer 30 is opened forward.
  • the drawer 30 may be opened as the rails 33 extend.
  • the racks 34 provided on the bottom surface of the drawer 30 are combined with the pinion gears 141 rotating when the opening/closing motor 14 provided in the cabinet 10 operates, and the drawer 30 is opened and closed according to the operation of the opening/closing motor 14.
  • a pushing-out distance of the drawer 30 may be a distance that at least the front space S1 inside the drawer part 32 can be fully exposed to the outside. Therefore, as illustrated in FIGS. 19 and 20 , in a state where the drawer 30 is fully opened, the container or food is not interfered with the doors 20 and 30 disposed above or the cabinet 10 when the lifting unit 80 is elevated.
  • a rear end L1 of the front space S1 is required to be ahead of the cabinet 10 or a front end L2 of the swinging door 20 by opening the drawer in order to prevent the interference of the cabinet 10 and the swinging door 20 when the lifting unit 80 is elevated.
  • the drawer 30 may not be fully opened such that the drawer part 32 is not exposed entirely, but may be opened to a position for avoiding the interference when the lifting unit 80 is elevated.
  • the rear space S2 of the drawer part 32 is partly positioned inside the lower storage space 12. That is, a rear end L3 of the drawer part 32 is positioned inside the lower storage space 12.
  • the state where the drawer 30 is fully opened that is, the completion of opening of the drawer 30 is detected by an opening completion sensor 152 disposed in the cabinet 10 and the drawer 30.
  • the opening completion sensor 152 detects that the drawer 30 starts to be closed from the state where the opening of the drawer 30 is completed.
  • the opening completion sensor 152 is embodied by a sensor detecting a magnet 389 provided on one side of the drawer part 32 such as the racks 34 and the rails 33 to detect the state where the drawer 30 is fully opened.
  • the magnet 389 may be provided on the rails 33 of the drawer part 32, and the opening completion sensor 152 may be provided on the bottom surface of the cabinet 10.
  • the opening completion sensor 152 is provided at a position corresponding to a position of the magnet 389 in a state where the drawer 30 is fully opened. Accordingly, the state where the drawer 30 is fully opened, that is, the completion of opening of the drawer 30 is determined by the opening completion sensor 152.
  • the magnet 389 also moves together.
  • the opening completion sensor 152 does not detect the magnet 389 anymore, it is determined that the drawer 30 starts to be closed. That is, from the state where the opening completion sensor 152 detects the magnet 389, when the magnet 389 is not detected anymore, it is determined that the drawer 30 starts to be closed.
  • the magnet 389 may be provided on the racks 34.
  • the opening completion sensor 152 is provided at a position corresponding to a position of the magnet 389 in a state where the drawer 30 is fully opened. Accordingly, the state where the drawer 30 is fully opened, that is, the completion of opening of the drawer 30 is determined by the opening completion sensor 152.
  • switches may be provided at a position where the drawer 30 is fully closed and opened to detect the opening and closing of the drawer 30.
  • the drawer 30 may be detected by counting the number of revolutions of the opening/closing motor 14, by using a sensor detecting a distance between the rear surface of the front panel 31 and the front end of the cabinet 10, or by measuring time at which the drawer 30 is opened or closed.
  • the controller 90 determines that the opening of the drawer 30 is completed, and stops driving the opening/closing motor 14 to end the opening of the drawer 30.
  • the opening/closing motor 14 may be braked so as not to rotate anymore. That is, the drawer 30 is required to maintain the opened state while the lifting unit 80 provided inside the drawer 30 is operating.
  • the opening/closing motor 14 may be embodied by a motor (commonly called a braking motor or a brake motor) equipped with a brake capable of selectively restraining the motor.
  • a motor commonly called a braking motor or a brake motor
  • a brake capable of selectively restraining the motor.
  • the drawer 30 is required to maintain a fixed state where the opening and closing of the drawer 30 is impossible even when an external force is applied, at least while the lifting unit 80 is operating.
  • the opening/closing motor 14 is prevented from rotating due to a braking structure thereof even when an external force is applied. If necessary, it is also possible to maintain the opened state of the drawers 30 by restraining the drawers 30. [S130: Drawer movement restraining step]
  • the driving unit 40 and the lifting unit 80 are not operated until the drawer 30 is fully opened, and the lifting unit 80 keeps the lowest state.
  • the levers 42 and the screw holders are positioned at the lowest positions before the lifting unit 80 is elevated, and the lifting sensor 55 detects this and determines that the present state is a state where the lifting unit 80 is fully lowered.
  • the screw holder 56a is positioned at the lowest position.
  • the magnet 563 provided on the screw holder 56a is positioned corresponding to a position of a sensor 553 of the pair of sensors 552 and 553 which is located below the other one.
  • the sensor 553 which is the lower one detects the magnet 563 so that it is determined that the lifting unit 80 is fully lowered.
  • the driving unit 40 starts the operation after the user manipulates or the drawer 30 is fully opened.
  • the controller 90 directs the lifting motor 64 to operate. Then, the driving unit 40 is operated by the lifting motor, and the lifting unit 80 is elevated as illustrated in FIG. 22 .
  • the lifting motor 64 is operated by the controller 90.
  • the lifting unit 80 is configured to operate only in a circumstance where the drawer 30 is sufficiently opened such that safe lifting of food or the container 36 seated on the lifting unit 80 is ensured.
  • the lifting unit 80 is operated in a state where the drawer 30 is opened and thus the front space S1 is fully exposed to the outside so that the container 36 or stored food seated on the lifting unit 80 is not interfered by other doors 20 and 30 or the cabinet 10.
  • the lifting unit 80 may be configured to start operation after it is ensured that the drawer 30 is opened and then a set time is elapsed.
  • the elevation of the lifting unit 80 means that the scissor assemblies 84 raise the upper frame 82, and the lowering of the lifting unit 80 means that the scissor assemblies 84 lowers the upper frame 82.
  • the driving unit 40 is connected to the lifting unit 80, and thus the power can be transmitted to the lifting unit 80. As the driving unit 40 starts to operate, the power is transmitted to the lifting unit 80, and the lifting unit 80 starts to be elevated.
  • the lifting motor 64 rotates or rotates reversely according to a signal commanding raising or lowering the lifting unit 80
  • the driving unit 40 starts to operate.
  • the multiple gears between the lifting motor 64 and the screws 52 and 52a are rotated by the operation of the lifting motor 64, and thus the screws 52 and 52a are rotated.
  • the screw holders 56 and 56a are raised and thus the levers 42 are rotated.
  • first rods 842a of first scissor frames 841 connected to the levers 42 also gain height.
  • the scissor assemblies 84 can be unfolded.
  • the lifting unit 80 is elevated to the maximum height as illustrated in FIG. 23 .
  • the lifting unit 80 stops when elevated enough to access food or the container 36 seated on the lifting unit 80. In this state, it is easy to lift food or the container 36 without excessively bending over.
  • S140 Lifting unit elevating step
  • the levers 42 and the screw holders are positioned at the highest positions when the elevating of the lifting unit 80 is completed, and the lifting sensor 55 detects this and determines that the present state is a state where the lifting unit 80 is fully elevated.
  • the lifting motor 64 stops. In this state, the lifting unit 80 is positioned inside the drawer part 32, but food or the container 36 seated on the lifting unit 80 can be positioned at a higher position than the opened upper portion of the drawer part 32, which allows easy access.
  • the user does not need to excessively bend over to the lift the container 36, thereby enabling safe and convenient work.
  • the lifting unit 80 is positioned at a position lower than the top end of the drawer part 32.
  • the lifting unit 80 With reference to a position of the container 36, the lifting unit 80 is elevated with the container 36 seated thereon to a position in which a top end H1 of the container 36 is higher than a top end H2 of the lower storage space 12 on the container 36.
  • the height here is a suitable height that the user can reach to lift the container 36 without bending down.
  • the lifting unit 80 has the structure to be elevated from the inside of the drawer part 32, the lifting unit 80 can be positioned at a height that allows easy access to the container 36 when the container 36 is seated thereon. [S150: Lifting unit stopping step]
  • the lifting motor 64 is stop and a timer 91 counts stop time of the lifting motor 64. That is, the lifting unit 80 waits for the set time in a state where the elevating of the lifting unit 80 is completed.
  • the controller 90 determines whether time that is counted by the timer 91 reaches the set time. If the controller 90 determines that the set time has elapsed after the lifting unit 80 is stopped, the lifting motor 64 starts reverse rotation and the lifting unit 80 is lowered.
  • the set time may be set to approximately 90 seconds.
  • the set time may be set to a sufficient time for the user to store food.
  • the lifting unit 80 is lowered before the storing of the food is completed, thereby causing inconvenience.
  • the set time is preferably set to approximately 90 seconds.
  • the set time is set such that the user manipulates the display 211 or performs voice inputting using a mike.
  • the set time may be set to a desired time of the user.
  • the elapse of the set time may be shown on a screen through the display 211 or may be outputted to the outside through a speaker 92. Accordingly, the user can perform the storing of food while recognizing change of the set time, and can set a closing time of the drawer 30. [S161: Elapse of set time determining step]
  • the user can manipulate any one of the manipulation units 214, 301, and 302 to input a lowering manipulation of the lifting unit 80.
  • the user can determine a remaining time before the drawer 30 is closed through the screen outputted on the display 211 or the voice outputted through the speaker 92. According to the information, the user can determine a speed of storing food. When the remaining time is too long before the drawer 30 is closed, the user can manipulate any one of the manipulation units 214, 301, and 302 to forcibly manipulate for lowering of the lifting unit 80 and closing of the drawer 30.
  • the controller 90 instructs an operation of the lifting motor 64 and the lifting unit 80 starts to be lowered, as shown in FIG. 25 .
  • the lowering of the lifting unit 80 is made by reverse rotation of the lifting motor 64, and may be performed slowly through the reverse process with respect to the above-described elevation process of the lifting unit 80.
  • the lifting sensor 55 detects that the lowering of the lifting unit 80 is completed. That is, when the sensor 553 provided below detects the magnet 563, the controller 90 determines that the lowering of the lifting unit 80 is completed and stops the operation of the lifting motor 64. [S180: Lifting unit lowering step]
  • the drawer reopening step and the lifting unit lowering step may be performed consecutively.
  • the reopening of the drawer 30, the redetection of the completion of the opening of the drawer 30, and the lowering of the lifting unit 80 proceed consecutively.
  • the opening completion sensor 152 redetects that the opening of the drawer 30 is completed, the lowering of the lifting unit 80 proceeds automatically.
  • the controller 90 When the controller 90 receives a signal in which the lowering of the lifting unit 80 is completed, the controller 90 stops the operation of the lifting motor 64 and release the opening/closing motor 14. The controller 90 unbrakes the opening/closing motor 14 or releases the drawer 30 to prepare the drawer 30 to be closed. [S190: Drawer releasing step]
  • the controller 90 completely restrains the opening and closing of the drawer 30 until the lowering of the lifting unit 80 is completed so that the raising operation of the lifting unit 80 can be performed stably. In addition, the food storage can be easily and safely performed.
  • the controller 90 receives the signal in which the lowering of the lifting unit 80 is completed, the controller 90 stops the operation of the lifting motor 64 and releases the restraint.
  • the opening/closing motor 14 performs reverse rotation until the drawer 30 is fully closed.
  • the open/close sensor 151 detects that the closing of the drawer 30 is completed.
  • the controller 90 may further operate the opening/closing motor 14.
  • the opening/closing motor 14 may perform an additional operation to be rotated in a closing direction of the drawer 30. That is, in order to prevent slight-opening of the drawer 30 which occurs even when the drawer 30 performs normal closing, the drawer 30 is once again closed.
  • the opening/closing motor 14 may be operated for a set time for additional closing of the drawer 30.
  • the set time may be 0.5 seconds. It is also possible that the set time is changed using the manipulation units. [S200: Opening/closing motor additional operating step]
  • the additional operation of the opening/closing motor 14 may be performed for each set period. For example, when the drawer 30 is closed and the opening/closing motor 14 performs the additional operation and then the timer 91 counts elapse time and the counted time reaches the set period, the opening/closing motor 14 may be further operated. It is also possible that the opening/closing motor 14 is operated in the closing direction of the drawer 30.
  • the set period may be any one hour selected from 1 to 12 hours and may be changed using the manipulation units.
  • Stopping of the lifting motor 64 and the closing of the drawer 30 may proceed consecutively. That is, when the lifting unit 80 is fully lowered by the operation of the lifting motor 64, the closing of the drawer 30 proceeds immediately after the lifting motor 64 stops. It is also possible that when the drawer 30 is restrained, the releasing of the drawer 30 may proceed consecutively.
  • the present invention may further include another control method in addition to the above-described control method.
  • another control method of the refrigerator according to another embodiment of the present invention will be described in detail with reference to the accompanying drawings.
  • FIG. 27 is a flowchart illustrating a control method for the refrigerator according to the embodiment of the present invention.
  • the refrigerator 1 may have multiple doors.
  • the cabinet 10 of the refrigerator 1 may be provided with the upper storage space 11 and the lower storage space 12.
  • the swinging door 20 may open and close the upper storage space 11.
  • the lower storage space 12 may be partitioned into multiple spaces, and may include: the upper drawer 30 moved forward and rearward in the upper portion of the lower storage space 12 and opening/closing the upper portion thereof; and the lower drawer 30 moved forward and rearward in the lower portion of the lower storage space 12 and opening and closing the lower portion thereof.
  • the refrigerator 1 may have the door and the drawers, for example, may include the swinging door 20, the upper drawer and the lower drawer which are provided in the lower portion of the refrigerator.
  • the upper drawer is denoted by 30a and the lower drawer is denoted 30b for easily distinguishing the drawers 30.
  • the other peripheral doors except the lower drawer 30b may include the swinging door 20 and the upper drawer 30a.
  • the controller 90 which controls the refrigerator 1 as a whole may detect and confirm each current state of the swinging door 20, the upper drawer 30a, and the lower drawer 30b. For example, the controller 90 detects whether the swinging door 20, the upper drawer 30a, and the lower drawer 30b are opened or closed. Specifically, in the cases of the upper drawer 30a and the lower drawer 30b, the controller 90 may detect states of opening/closing, opening/closing completion, and a position of the lifting unit 80 and so on.
  • the controller 90 detects the closing completion state of the drawer 30.
  • the drawer 30 may mean at least one of the upper drawer 30a and the lower drawer 30b.
  • the controller 90 may detect whether other peripheral doors except the drawer 30 are opened or closed.
  • the controller 90 may detect whether other peripheral doors except the drawer 30 are opened or closed.
  • the lower drawer 30b it is possible to detect whether the other doors, that is, the swinging door 20 and the upper drawer 30a, are opened or closed.
  • the upper drawer 30a it is possible to detect whether other peripheral doors, that is, the swinging door 20 and the lower drawer 30b are opened or closed.
  • S220 Opening/closing peripheral doors detecting step
  • the controller 90 may further operate the opening/closing motor 14 to further close the drawer 30 in the closing direction of the drawer 30. For example, when any one door of the swinging door 20 or the upper drawer 30a performs an opening/closing operation although the lower drawer 30b is currently closed, the controller 90 detects the operation, thereby allowing the lower drawer 30b to be once again closed. [S230: Opening/closing motor additional operating step]
  • the drawer 30 is configured to be one again closed even when the drawer 30 is normally closed in order to prevent the slight-opening.
  • an opening/closing motor 14 may be configured to be operated in the closing direction of the drawer 30.
  • the timer 91 determines that whether counted time reaches the set period.
  • the set period may mean a time interval that is set to operate periodically the opening/closing motor 14 even when the drawer 30 is in the closed state. Accordingly, the controller 90 may determine that whether the counted time by the timer 91 reaches the set period. [S250: set period reaching determining step]
  • the opening/closing motor 14 When it is determined that the counted time reaches the set period, the opening/closing motor 14 is further operated. That is, even when opening/closing of the peripheral doors is not detected while the drawer 30 is in the closed state, the opening/closing motor 14 may be further operated for each set period. Thus, a function of preventing slight-opening is performed at every period.
  • S240 of time counting step is again performed to count elapse time. Accordingly, steps from S240 to S260 may be repeatedly performed. This repetition may be performed until the user inputs an additional manipulation.
  • the drawer may be provided not only in a general household refrigerator but also in special-purpose apparatuses, for example, a kimchi refrigerator and a wine refrigerator.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Refrigerator Housings (AREA)

Abstract

The present invention relates to a refrigerator and a control method therefor. A refrigerator according to the present invention is configured such that a drawer is opened by an opening/closing motor operating by inputting a manipulation of a user and a lifting unit is elevated by a lifting motor, and then the opening/closing motor is again operated, thereby allowing the drawer to be normally closed. After the drawer is normally closed, the opening/closing motor is further operated in a closed direction of the drawer to close the drawer once more. Thus, slight-opening of the drawer is prevented.

Description

  • The present application claims priority to KR Pat. Appl.No.10-2019-0085200, filed July15,2019 .
  • BACKGROUND OF THE INVENTION Field of the Invention
  • The present invention relates generally to a refrigerator and a control method therefor.
  • Description of the Related Art
  • In general, a refrigerator is a home appliance that keeps food at low temperatures in a storage space therein sealed by doors. To this end, a refrigerator is configured to be able to keep stored food in an optimal state by cooling the storage space using cold air produced by heat exchange with a refrigerant circulating in a refrigeration cycle.
  • Recently, refrigerators have become larger and multifunctional according to trend of changes in dietary life and high quality of products, and refrigerators having various structures and convenience devices considering convenience of users and allowing efficient use of inner spaces have been released.
  • The storage space of the refrigerator is opened and closed by a door. Refrigerators are classified into various types according to an arrangement of storage spaces and a structure of doors opening and closing the storage spaces.
  • Refrigerators are classified into a swinging-type refrigerator in which a storage space is opened and closed by swinging of a swinging door and a drawer-type refrigerator in which a drawer is opened and closed as a drawer works.
  • The drawer is often disposed in a lower portion of the refrigerator. In the case of the drawer being disposed in the lower portion of the refrigerator, a user should bend over at the waist while keeping away from the refrigerator by appropriate distance for opening of the drawer.
  • Accordingly, various refrigerators made to automatically open drawers have been researched and developed in recent years. In this regard, Korean Patent Application Publication No. 10-2009-0102577 , Korean Patent Application Publication No. 10-2009-0102576 , Korean Patent Application Publication No. 10-2013-0071919 , Korean Patent Application Publication No. 10-2018-0138083 , etc., disclose such refrigerators.
  • As described above, in the case of the drawer being disposed in the lower portion of the refrigerator, the user needs to bend over to take out a basket or food stored inside the drawer. When the basket or food is heavy, it may cause inconvenience or injury.
  • In order to solve this problem, various structures in which a drawer is raised have been developed.
  • Representatively, U.S. Patent No. 9,377,238 discloses a refrigerator provided with a lifting mechanism for raising/lowering a bin provided in a refrigerator compartment.
  • However, in the above-mentioned document, there is no consideration in the case where a lower bin door is not fully closed or slightly opened by various factors after the lower bin door is normally closed.
  • That is, the lower bin door may be slightly opened by shock or vibration occurring when the user manually closes the bin door or when an upper door is opened/closed. At this point, when nothing is done, freshness of stored food in the refrigerator may be reduced and leakage of cold air may be caused.
  • Documents of Related Art: KR Patent Application Publication No. 10-2009-0102577 ; KR Patent Application Publication No. 10-2009-0102576 ; KR Patent Application Publication No. 10-2013-0071919 ; KR Patent Application Publication No. 10-2018-0138083 ; and US 9,377,238 .
  • SUMMARY OF THE INVENTION
  • Accordingly, the present invention has been made keeping in mind the above problems occurring in the related art, and an objective of the present invention is to provide a refrigerator and a control method therefor in which opening/closing of a drawer and raising/lowering of a lifting unit is automatically performed according to a manipulation of a user.
  • Another objective of the present invention is to provide a refrigerator and a control method therefor in which a drawer part and a lifting unit are stably operated even when the drawer is maintained in a closed state for a long time.
  • A further objective of the present invention is to provide a refrigerator and a control method in which an additional closing operation of the drawer is performed for a set time after closing of the drawer was completed, thereby preventing slight-opening of the drawer.
  • Yet another objective of the present invention is to provide a refrigerator and a control method in which the drawer is prevented from being slightly opened according to an opening/closing of other doors or drawers.
  • Still another objective of the present invention is to provide a refrigerator and a control method in which, when the drawer is maintained in a closed state, an additional closing operation of the drawer is performed for each set period, thereby preventing possibility of the slight-opening in the closed state of the drawer.
  • The above-mentioned objectives of the present invention will not be limited only to the objectives described above. Accordingly, additional objectives of the present invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the present invention.
  • The object is solved by the features of the independent claims. Preferred embodiments are given in the dependent claims.
  • According to one aspect a control method for a refrigerator is provided, having a door and/or drawer, the control method comprising: detecting, by a controller, a closing completion of the drawer; operating an opening/closing motor in the closing direction of the drawer when the controller determines that a peripheral door or another drawer is closed and/or when an opening/closing sensor detects that the closing of the drawer is completed.
  • According to one aspect a control method for a refrigerator is provided, the control method comprising: inputting a manipulation of a user; opening a drawer by an operation of an opening/closing motor according to the user manipulation; elevating a lifting unit to a set height by an operation of a lifting motor when an opening completion sensor detects that opening of the drawer is completed; stopping the lifting unit by stopping the operation of the lifting motor when a lifting sensor detects that the elevation of the lifting unit to the set height is completed; lowering the lifting unit by an operation of the lifting motor when a lowering signal of the lifting unit is input; and closing the drawer by an operation of the opening/closing motor after the operation of the lifting motor is stopped when the lifting sensor detects that lowering of the lifting unit is completed, the control method further comprising: after the closing of the drawer is completed, further operating the drawer by further operating the opening/closing motor when an opening/closing sensor detects that the closing of the drawer is completed.
  • Preferably, from when the closing completion of the drawer is detected, the opening/closing motor may be further operated for a set time.
  • Preferably, at the further operating the drawer, the opening/closing motor may be rotated in a closing direction of the drawer.
  • Preferably, at the further operating the drawer, after the opening/closing motor is further operated, the opening/closing motor may be operated for each set period.
  • Preferably, the opening/closing motor may be operated for the set time from when the closing completion of the drawer is detected.
  • Preferably, the opening/closing motor may be rotated in a closing direction of the drawer.
  • According to one aspect a control method for a refrigerator is provided, the control method comprising: detecting, by a controller, the closing completion of a drawer; detecting, by the controller, a state of opening/closing of a peripheral door when the closing of the drawer is completed; further operating an opening/closing motor in the closing direction of the drawer when the controller determines that the peripheral door is closed.
  • Preferably, the opening/closing motor may be operated for a set time from when the closing completion of the drawer is detected.
  • Preferably, at the operating the opening/closing motor, after the opening/closing motor is operated, the opening/closing motor may be operated in a closing direction of the drawer for each set period.
  • Preferably, the set period may be any one hour selected from 1 to 12 hours.
  • According to an aspect a refrigerator is provided comprising: a cabinet provided with an upper storage space and a lower storage space; a drawer movable in forward and rearward direction in the lower storage space for opening and closing the lower storage space; an opening/closing motor providing power for opening and closing of the drawer; a manipulation unit for inputting a manipulation of a user to operate the drawer; and a controller electrically connected to the opening/closing motor and the manipulation unit, wherein the controller is further configured to operate the opening/closing motor in a closing direction of the drawer when inputting a user manipulation for closing the drawer or when the closing of the drawer is completed and/or when determining that a peripheral door or another drawer is closed.
  • Preferably, the refrigerator may further comprise an opening completion sensor for detecting that opening of the drawer is completed.
  • Preferably, the refrigerator may further comprise a lifting unit provided in the drawer which is operated by a lifting motor, wherein a lifting sensor is provided for detecting whether an elevation of the lifting unit is completed.
  • Preferably, a lowering signal for the lifting unit is based on a predetermined time or based on a user input.
  • According to one aspect a refrigerator is provided comprising: a cabinet provided with an upper storage space and a lower storage space; a drawer provided to be moved forward and rearward in the lower storage space and opening and closing the lower storage space; an opening/closing motor providing power for opening and closing of the drawer; a manipulation unit where a manipulation of a user is input to operate the drawer; and a controller electrically connected to the opening/closing motor and the manipulation unit, wherein the controller further operates the opening/closing motor in a closing direction of the drawer when the drawer is closed by inputting the user manipulation.
  • Preferably, the opening/closing motor may be further operated for a set time from when the closing completion of the drawer is detected.
  • Preferably, at the operating the opening/closing motor, after the opening/closing motor is operated, the opening/closing motor may be operated in a closing direction of the drawer for each set period.
  • According to one aspect a refrigerator is provided comprising: a cabinet provided with an upper storage space and a lower storage space; a door opening and closing the upper storage space; an upper drawer provided to be moved forward and rearward in an upper portion of the lower storage space and opening and closing the upper portion thereof; a lower drawer provided to be moved forward and rearward in a lower portion of the lower storage space and opening and closing the lower portion thereof; an opening/closing motor providing power for opening and closing of the lower drawer; and a controller electrically connected to the opening/closing motor, wherein the controller operates the opening/closing motor in a closing direction of the lower drawer when determining that the door or the upper drawer is closed.
  • Preferably, the controller may operate the opening/closing motor in a closing direction of the lower drawer for each set period.
  • In the control method for the refrigerator according to an embodiment of the present invention, the opening/closing motor may be operated by inputting a manipulation of the user to open/close the drawer. After the lifting unit is elevated, the opening/closing motor may be operated once more to allow the drawer to be normally closed.
  • After the drawer is normally closed, the drawer may be closed once more by further operation the opening/closing motor in a closed direction of the drawer. Thus, slight-opening of the drawer may be prevented.
  • The drawer may be restrained after the opening/closing motor is further operated.
  • The additional operation of the opening/closing motor may be performed for each set period. Thus, it is possible to prevent the slight-opening of the drawer which is caused various factors when the drawer is closed for a long time.
  • The opening/closing motor may be further operated for a set time from when a closing completion of the drawer is detected. The set time may be 0.5 seconds.
  • Since the refrigerator of the present invention may have multiple doors, as any one or more doors are opened or closed, the other door may be shaken and slightly opened. Specifically, in the case of doors sharing the same storage space, when one door is opened or closed, the other door may be slightly opened and closed due to negative pressure. To prevent this, when opening/closing of peripheral doors is detected, the opening/closing motor may be further operated to close the drawer once more.
  • The additional operation of the opening/closing motor may be performed for the set time and may be repeated for each set period.
  • When each operation of the drawer is completed, the drawer may be restrained to maintain stability of the drawer.
  • The refrigerator and the control method therefor according to the present invention have the following effects.
  • First, according to the present invention, the drawer is configured to be automatically opened and closed and configured such that a storage room inside the drawer is partly raised while the drawer is opened, so the user does not need to excessively bend over to store food inside the drawer disposed below, which means ease of use is improved.
  • Secondly, according to the present invention, the drawer is configured such that the storage room inside the drawer is partly raised while the drawer is opened. Therefore, the user does not need to excessively bend over to store food inside the drawer disposed below, which means ease of use is remarkably improved.
  • Third, a lifting sensor detecting whether elevation of a lifting unit is completed is provided so that an operation state of the lifting unit can be determined accurately.
  • In particular, the lifting sensor is provided in a front panel, and the elevation state of the lifting unit can be determined through operation of a driving unit. Therefore, it is possible to accurately determine the elevation state of the lifting unit without providing any electrical device in a drawer part.
  • Fourth, according to the present invention, the drawer is closed once more even when the drawer is normally closed, so that it is possible to prevent slight-opening of the drawer which may occur in case.
  • Fifth, a refrigerator having multiple doors may have the slight-opening according to opening/closing of peripheral doors. Therefore, in the present invention, the drawer is closed once more by detecting opening/closing of peripheral doors, thereby preventing slight-opening of the drawer according to opening/closing of the peripheral doors.
  • Sixth, slight-opening of the drawer may occur by specific factors even when the drawer is maintained in a closed state for a long time. Therefore, the drawer is closed once more for each set period for preventing the slight-opening, preventing the slight-opening of the drawer according to opening/closing of the peripheral doors.
  • Seventh, in the present invention, the slight-opening or uncompleted closing of the drawer may be corrected or prevented. Therefore, freshness of stored food or other items can be maintained.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • The above and other objects, features and other advantages of the present invention will be more clearly understood from the following detailed description when taken in conjunction with the accompanying drawings, in which:
    • FIG. 1 is a front view illustrating a refrigerator acc. to an embodiment of the present invention;
    • FIG. 2 is a sectional view schematically illustrating a lower drawer of the refrigerator according to the embodiment of the present invention;
    • FIG. 3 is a perspective view illustrating a container of the lower drawer, the container being separated from the lower drawer;
    • FIG. 4 is an exploded-perspective view frontal illustrating a drawer part and a front panel of the lower drawer, which are separated from each other;
    • FIG. 5 is a rear view illustrating the front panel;
    • FIG. 6 is a rear view illustrating a panel cover of the front panel, the panel cover being removed from the front panel;
    • FIG. 7 is a perspective view illustrating a driving unit and a lifting unit connected to each other;
    • FIG. 8 is a front perspective view illustrating the driving unit;
    • FIG. 9 is a front perspective view illustrating an inner structure of the driving unit;
    • FIG. 10 is a partially enlarged view illustrating the structure in which power is transmitted to screws of the driving unit;
    • FIG. 11 is a perspective view illustrating the drawer part;
    • FIG. 12 is an exploded-perspective view illustrating the drawer part;
    • FIG. 13 is a perspective view illustrating the lifting unit according to the embodiment of the present invention;
    • FIG. 14 is a view illustrating an upper frame of the lifting unit being elevated, the upper frame being elevated;
    • FIG.15 view illustr.a lever according to the present invention being connected with the lifting unit;
    • FIG. 16 is a block diagram schematically illustrating connections between a controller and components connected to the controller according to the embodiment of the present invention;
    • FIG. 17 is a flowchart illustrating a control method for a refrigerator according to opening/closing and raising/lowering of the drawer;
    • FIG. 18 is a perspective view illustrating the drawer closed;
    • FIG. 19 is a perspective view illustrating a state of the drawer fully opened;
    • FIG. 20 is a sectional view illustrating the drawer in the state illustrated in FIG. 19;
    • FIG.21 perspective view illustrating the driving unit and the lifting unit in the state of FIG. 19;
    • FIG. 22 is a sectional view illustrating the drawer part while the lifting unit is elevated;
    • FIG. 23 is a sectional view illustrating a state of the drawer part while the lifting unit is fully elevated and on standby;
    • FIG. 24 is a perspective view illustrating the driving unit and the lifting unit in the state of FIG.23;
    • FIG. 25 is a sectional view illustrating the drawer part while the lifting unit is lowered;
    • FIG. 26 is a sectional view illustrating the drawer part while the drawer is being closed; and
    • FIG. 27 is a flowchart illustrating a control method for the refrigerator according to the embodiment of the present invention.
    DETAILED DESCRIPTION OF THE INVENTION
  • Hereinbelow, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Throughout the drawings, the same reference numerals will refer to the same or like parts.
  • Advantages and features of the present invention, and a control method to achieve them will be obvious with reference to embodiments along with the accompanying drawings which are described below. However, it will be understood that present description is not intended to limit the invention to those exemplary embodiments. On the contrary, the invention is intended to cover not only the exemplary embodiments, but also various alternatives, modifications, equivalents, and other embodiments, which may be included within the scope of the invention as defined by the appended claims. Throughout the drawings, the same reference numerals will refer to the same or like parts.
  • Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.
  • FIG. 1 is a front view illustrating a refrigerator according to an embodiment of the present invention. FIG. 2 is a sectional view schematically illustrating a lower drawer of the refrigerator according to the embodiment of the present invention.
  • Referring to FIGS. 1 and 2, a refrigerator 1 according to the embodiment of the resent invention includes: a cabinet 10 providing a storage space; and doors 2 closing an open front surface of the cabinet 10.
  • The storage space in the cabinet 10 may be partitioned into multiple spaces. For example, the multiple spaces may include an upper storage space 11 which is an upper portion of the cabinet 10 and functions as a refrigerator compartment and a lower storage space 12 which is a lower portion of the cabinet 10 and functions as a freezer compartment. It is also possible that the upper portion and the lower portion of the cabinet may be provided as independent spaces maintained at different or even the same temperatures rather than provided as a refrigerator compartment and a freezer compartment, respectively. The upper portion and the lower portion of the cabinet may be called an upper space and a lower space.
  • The doors 2 include: a swinging door 20 for opening and closing the upper space in a swinging manner; and a drawer 30 for opening and closing the lower space by pushing and pulling manner as a drawer works. So in its simplest version, there might a refrigerator having one door and one drawer. However, the number of doors and drawers is not limited.
  • The lower space may further be partitioned.
  • There might be an upper drawer 30 provided at an upper portion of the lower space and a lower drawer 30 provided at a lower portion of the lower space.
  • It is also possible that the lower space is partitioned into two or more spaces, and accordingly, two or more drawers 30 are provided and disposed for each space.
  • In addition, the swinging door 20 and the drawers 30 are made of a metal material and form an exterior of the refrigerator exposed to the front.
  • Although the present invention has been described with reference to a refrigerator provided with the swinging door 20 and the drawers 30, the present invention is not limited thereto, and the present invention can be applied to all types of refrigerators provided with a drawer and also to refrigerators provided only with a drawer.
  • The swinging door 20 provided at the upper portion may be called an upper door, and the drawers 30 provided at the lower portion may be called lower doors.
  • At least a part of the swinging door 20 may be formed of a transparent panel assembly 21. The transparent panel assembly 21 has a structure allowing a user to see inside the refrigerator. For example, a lighting unit (not illustrated) may be provided at the storage space or on a rear surface of the swinging door 20. The inside of the refrigerator becomes illuminated according to on-off of the lighting unit, thereby allowing a user to selectively see inside the refrigerator through the transparent panel assembly 21.
  • The transparent panel assembly 21 may be configured with multiple panels. A heat insulating space is defined between the multiple panels, thereby preventing reduction of the cooling performance inside the refrigerator.
  • In addition, a display 211 may be provided inside the transparent panel assembly 21. Therefore, a screen is displayed by the transparent panel assembly 21.
  • The display 211 may be installed on the entire surface of the transparent panel assembly 21 or may be partially installed. It is also possible that the display 211 is installed on the entire surface of the transparent panel assembly 21, and a screen is partially displayed.
  • In addition, the transparent panel assembly 21 may include a touch sensor to touch the screen displayed by the display 211 and to input a command for an operation of the refrigerator 1. Therefore, the screen displayed by the display 211 may function as a manipulation unit, and the display 211 may be called the manipulation unit.
  • The transparent panel assembly 21 may be configured with a separate door which opens and closes an opening of the transparent panel assembly 21 to allow access to a basket 212 provided in the swinging door 20. That is, the swinging door 20 may be configured as double doors to open and close both the swinging door 20 and the transparent panel assembly 21.
  • The swinging door 20 may have no transparent panel assembly 21. In this case, an additional display may be provided on a front surface of the swinging door 20 to display an operating state of the refrigerator 1.
  • A first proximity sensor 213 may be provided at one side of the front surface of the swinging door 20. The first proximity sensor 213 is provided to sense the proximity of the user, and may be configured as a device, such as an ultrasonic sensor or a laser sensor, capable of detecting that the user is in front of the refrigerator 1.
  • In addition, one side of the swinging door 20 may be provided with a first manipulation unit 214 that manipulates the opening of the drawers 30. The first manipulation unit 214 may be disposed on one side of left and right sides of the swinging door 20 and may not be exposed to the outside.
  • The first manipulation unit 214 may be disposed inside the swinging door 20 and configured as a touch sensor so that a user inputs an operation command by touching the surface of the swinging door 20.
  • The opening/closing and raising/lowering operation of the drawers 30 are set by manipulation of the first manipulation unit 214. For example, the opening/closing and raising/lowering operation of each drawer 30 may be consecutively and automatically performed through a single manipulation. Alternatively, the opening/closing and raising/lowering operation of the drawer 30 may be performed by a separate manipulation depending on a user's setting.
  • The setting state of the opening/closing, and raising/lowering operation of the drawers 30 may be displayed on the display 211. In a case that a touch manipulation of the display 211 is possible, an operation setting of the drawers 30 through the display 211 may also be possible.
  • The input for the operation of the drawers 30 may be valid only when the proximity of the user is sensed by the first proximity sensor 213. That is, when the user stands in front of the refrigerator 1 to use the refrigerator 1, the first proximity sensor 213 senses the user. In this state, when a manipulation signal of the first manipulation unit 214 is input, the drawers 30 are operated thereby. Therefore, the opening/closing and raising/lowering of the drawers 30 caused by an incorrect operation can be prevented.
  • The swinging door 20 may be provided with a second manipulation unit 301. The second manipulation unit 301 may be provided on a lower front surface of the swinging door 20, and the second manipulation unit 301 may be configured to be operated in a touch manner or a button manner. The second manipulation unit 301 may also be provided in the drawers 30.
  • As illustrated in the drawings, a third manipulation unit 302 may be provided at a lower end of the lower drawer 30. The third manipulation unit 302 may be configured to output an imaginary switch by projecting an image on the floor and to receive an operation command in a manner that the user approaches the corresponding region. The opening/closing and raising/lowering operation of the drawers 30 may be input through the third manipulation unit 302.
  • Since the third manipulation unit 302 is provided at the lower doors, the third manipulation unit 302 may be interrupted by the user when the lower doors is automatically opened and closed. Thus, the third manipulation unit 302 may be used only for the raising operation of the lower drawer 30 other than the opening operation of the lower drawer 30.
  • In a case that the cabinet 10 has no door opening device (not illustrated) opening the swinging door 20, it is also possible to manipulate the third manipulation unit 302 to open the swinging door 20.
  • The cabinet 10 may also be provided with a sensor (not illustrated) detecting whether the swinging door 20 is closed or opened. The closing/opening sensor for the swinging door 20 communicates with a controller (refer to a numerical reference 90 of FIG. 16) of the drawers 30, which will be described later. Thus, the controller 90 may sense whether the swinging door 20 is closed or opened.
  • The drawers 30 are manipulated to be automatically opened/closed and/or raised/lowered by at least one of the multiple manipulation units 214, 301, and 302. Only one of the multiple manipulation units 214, 301, and 302 may be provided as needed.
  • The multiple manipulation units 214, 301, and 302 are provided and function to open/close and raise/lower the drawers 30. The drawers 30 may be opened/closed and raised/lowered according to a combination manipulation or a sequential manipulation of the multiple manipulation units 214, 301, and 302.
  • When manipulating the manipulation units 214, 301, and 302 to store food inside the lower drawer 30, the drawer 30 may be pushed out forward, and then a container 36 inside the drawer 30 may be raised.
  • The container 36 has a predetermined height. The container 36 is seated in a lifting unit 80 to be described later. Thus, when the lifting unit 80 is elevated, the total height is sum of the height of the lifting unit 80 and the height of the container 36. When being elevated, the lifting unit 80 is located at a point where it is easy to access to the container 36 or easy to pick up the container 36.
  • The container 36 is fully accommodated in the drawer part 32 when the drawer 30 is opened and closed, and the container 36 is located at a position above the lower storage space 12 when the lifting unit 80 is elevated.
  • A shape of the container 36 is not limited, but may have a shape corresponding to the size of a front space (refer to S1 of FIG. 3). The container 36 preferably has a predetermined height so that food stored therein does not escape even when the lifting unit 80 is elevated.
  • According to this manipulation, it is possible to easily pick up food or the container 36 inside the drawer 30 disposed at the bottom.
  • The drawer 30 may be automatically opened and closed by an opening/closing motor 14 and pinions 141 which are provided in the cabinet 10 and racks 34 provided on a lower surface of the drawer 30. In addition, the container inside the lower drawer 30 may be raised by a driving unit 40 and the lifting unit 80 provided in the drawer 30.
  • Hereinafter, the drawers 30 of the present invention and the configuration for the operation of the drawers 30 will be described in more detail. In the following description, the refrigerator 1 having two drawers 30 will be described as an example.
  • In addition, the drawer 30 described below refer to a lower drawer disposed at the bottom among the two drawers 30 unless otherwise indicated, and may be simply called a drawer or a door for convenience.
  • Furthermore, in the following description, when it is necessary to distinguish the drawer 30 disposed at the top and the drawer 30 disposed at the bottom, the upper drawer 30 and the lower drawer 30 will be described individually.
  • The embodiment of the present invention is not limited to the number and shape of the drawers, and it will be applicable to all refrigerators provided with a drawer in a lower storage space, which is opened and closed as a drawer works.
  • FIG. 3 is a perspective view illustrating the container of the lower drawer, the container being separated from the lower drawer. FIG. 4 is an exploded-perspective view frontal illustrating the drawer part and a front panel of the lower drawer, which are separated from each other.
  • Referring to FIGS. 1 to 4, the drawer 30 includes the front panel 31 opening and closing the lower storage space; and the drawer part 32 coupled to a rear surface of the front panel 31 and pushed in and out with the front panel 31.
  • The front panel 31 is exposed to the outside of the cabinet 10 to provide the exterior of the refrigerator 1, and the drawer part 32 is disposed inside the cabinet 10 to provide a storage room. In addition, the front panel 31 and the drawer part 32 are coupled to each other and opened and closed.
  • The drawer part 32 is always located on the back of the front panel 31 and provides a space for storing food or accommodating containers. The inside of the drawer part 32 defines the storage room opened upward, and the outside of the drawer part 32 is configured by multiple plates ( reference numerals 391, 392, and 395 in FIG. 13).
  • The plates 391, 392, and 395 may be made of a metal material such as stainless. An inner surface as well as an outer surface of the drawer part 32 may be embodied by stainless so that the entire the drawer part 32 is embodied by stainless or has a stainless texture.
  • In a state where the drawer 30 is closed, a machine room 3 may be disposed at the rear of the drawer 30, the machine room 3 including equipment (not illustrated) such as a compressor and a condenser constituting a refrigeration cycle are provided.
  • Thus, the rear of the drawer part 32 is configured such that an upper end protrudes backward more than a lower end, and the rear surface of the drawer part 32 may include an inclined surface 321.
  • Opposite lateral sides of the drawer part 32 are provided with rails 33 guiding the drawer 30 to be opened and closed. The rails 33 allow the drawer 30 to be mounted in the cabinet 10 in an opened and closed manner.
  • The rails 33 may be configured to be shielded by outer side plates 391 so as not to be exposed to the outside. The rails 33 may be configured to have a multi-stage extendable rail structure.
  • The rails 33 are provided with rail brackets 331, and the rail brackets 331 may extend on the opposite lateral sides of the drawer part 32 from each one side of the rails 33. The rail brackets 331 are fixedly coupled to inner wall surfaces of the refrigerator. Thus, the rails 33 allow the drawer part 32, that is, the drawer 30, to be mounted in the cabinet 10 in an opened and closed manner.
  • The rails 33 may be provided at lower ends of the opposite lateral sides of the drawer part 32. In addition, the rails 33 are mounted in a manner that the lower ends of the opposite lateral sides of the drawer part 32 are seated from above the rails 33, and thus, the rails 33 may be called under rails.
  • The racks 34 are provided on the bottom surface of the drawer part 32. The racks 34 are disposed on opposite sides and linked to the opening/closing motor 14 mounted in the cabinet 10 to enable automatic opening and closing of the drawer 30. That is, the opening/closing motor 14 is driven when the manipulation unit 22 or 301 is manipulated so that the drawer 30 is able to be opened and closed as the racks 34 moves. Here, the drawer 30 is able to be opened and closed stably be the rails 33.
  • The inside of the drawer part 32 may be divided into a front space S1 and a rear space S2. In the front space S1, the lifting unit 80 which is elevated up and down and the container 36 which is disposed on the lifting unit 80 and raised with the lifting unit 80 may be disposed.
  • Although the container 36 is illustrated in the form of an open basket, the container 36 may be a closed box structure such as a kimchi container, and multiple containers 36 may be stacked or arranged side by side.
  • When opening the drawer 30, it is impossible to fully open the drawer 30 out of the storage space due to a limitation of a pushing-out distance of the drawer part 32. Thus, the front space S1 is opened out of the storage space, and the rear space S2 is fully or partly located inside the storage space of the cabinet 10.
  • Such structure may be limited in the pushing-out distance of the drawers 30 by the racks 34 or the rails 33. The longer the pushing-out distance, the greater the moment applied to the drawer 30 in the opened state. Thus, it is difficult to maintain a stable state, and the rails 33 or the racks 34 may be deformed or broken.
  • The lifting unit 80 and the container 36 are accommodated in the front space S1, and the lifting unit 80 is moved up and down so that food or the container 36 accommodated on the lifting unit 80 can be raised together. The lifting unit 80 and the container 36 are accommodated in the front space S1, and the lifting unit 80 is moved up and down so that food or the container 36 accommodated on the lifting unit 80 can be raised together. The lifting unit 80 is provided below the container 36. Therefore, when putting the container 36, the lifting unit 80 is covered by the container 36, and any configuration of the lifting unit 80 is not exposed to the outside.
  • The rear space S2 may be provided with a drawer cover 37. The front space S1 and rear space S2 may be partitioned by the drawer cover 37. In a state where the drawer cover 37 is equipped, front and top surfaces of the rear space S2 are shielded so that unused spaces are not exposed to the outside.
  • Due to provision of the drawer cover 37, when the drawer 30 is opened, the rear space S2 is covered, and only the front space S1 is exposed, thereby providing a neat exterior. In addition, since a space other than the space where the lifting unit 80 and the container 36 are mounted is covered, it is possible to prevent problems such as food falling or getting caught in the gap during raising.
  • When separating the drawer cover 37, it is possible to access the rear space S2 and store food in the rear space S2. In order to utilize the rear space S2, the rear space S2 may have a pocket or a container corresponding to a shape of the rear space.
  • The lifting unit 80 inside the drawer part 32 may be simply detached and mounted in order to utilize the entire space inside the drawer part 32. Alternatively, the lifting unit 80 and the drawer cover 37 may be separated to utilize the entire space inside the drawer part 32.
  • The exterior of inner and outer surfaces of the drawer part 32 is provided by the plates (refer to reference numerals 391, 392, and 395 of FIG. 12) which shield the components mounted on the drawer part 32 to make the exterior neat. The multiple plates (refer to reference numerals 391, 392, and 395 of FIG. 12) may be provided and made of stainless to provide an elegant and neat exterior.
  • The front panel 31 and drawer part 32 constituting the drawer 30 may have a structure that can be detached from each other. The detachable structure of the front panel 31 and the drawer part 32 allows easy assembling and easy repair.
  • The rear surface of the front panel 31 and the front surface of the drawer part 32 are coupled to each other and configured to allow to provide power for raising the lifting unit 80 when the front panel 31 and the drawer part 32 are coupled to each other.
  • The driving unit (refer to reference numeral 40 of FIG. 6) for raising the lifting unit 80 may be disposed in the front panel 31 and selectively connected with the front panel 31 and the drawer part 32.
  • In particular, the driving unit (refer to reference numeral 40 of FIG. 6) provided in the front panel 31 is composed of components operated by input of power and components transmitting power to the lifting unit 80. Therefore, when repair of the driving unit (refer to reference numeral 40 of FIG. 6) is required, it is possible to easily perform the repair by removing the front panel 31 and replacing the front panel 31.
  • The front panel 31 and the drawer part 32 are coupled by a pair of drawer frames 316.
  • Each of the drawer frames 316 include a front panel engaging portion 316a extending in the vertical direction and engaged with the front panel 31 and a drawer engaging portion 316b extending rearward from a lower end of the front panel engaging portion 316a.
  • The front panel engaging portion 316a may be engaged with the front panel 31 by an additional engaging member or may be engaged with one side of the front panel 31 with a simple engaging structure. The drawer engaging portion 316b may be disposed to be inserted each opposite side of the drawer part 32 to be adjacent to each of the rails 33. In addition, the drawer engaging portion 316b may be provided in the drawer part 32 in combination with the rail 33.
  • With the front panel engaging portion 316a engaging with the front panel 31, the drawer engaging portion 316b may be inserted into the drawer part 32 and supports the drawer part 32. The drawer engaging portion 316b may be engaged with the drawer part 32 by an additional engaging member or by a structure in which the drawer engaging portion 316b and the drawer part 32 are combined with each other.
  • In order to connect the driving unit 40 and the lifting unit 80 with each other when the front panel 31 and the drawer part 32 are coupled to each other, drawer holes 35 are formed in the front surface of the drawer part 32 to expose a portion of the lifting unit 80.
  • The front panel 31 is configured to substantially open and close the storage space of the cabinet 10 and provide the front exterior of the refrigerator 1.
  • The exterior of the front panel 31 is configured by an outer case 311 providing the front surface and a part of a circumferential surface, a front panel liner 314 providing the rear surface, an upper decoration 312 and a lower decoration 313 providing upper and lower surfaces. The inside of the front panel 31 which is between the outer case 311 and the front panel liner 314 may be filled with an insulator (not illustrated).
  • Hereinafter, the front panel 31 constituting the drawer 30 and the driving unit 40 provided in the front panel 31 will be described in more detail with reference to the accompanying drawings.
  • FIG. 5 is a rear view illustrating the front panel. FIG. 6 is a rear view illustrating a panel cover of the front panel, the panel cover being removed from the front panel. FIG. 7 is a perspective view illustrating the driving unit and the lifting unit connected to each other. FIG. 8 is a front perspective view illustrating the driving unit. FIG. 9 is a front perspective view illustrating an inner structure of the driving unit. FIG. 10 is a partially enlarged view illustrating the structure in which power is transmitted to screws of the driving unit.
  • Referring to FIGS. 4 to 10, the outer case 311 may provide the front surface of the front panel 31, and the front panel liner 314 may provide the rear surface of the front panel 31.
  • The driving unit 40 for operating the lifting unit 80 may be provided inside the front panel 31. The driving unit 40 is disposed inside the front panel 31, but is provided inside a space defined by the front panel liner 314 rather than embedded in the insulator. In addition, the driving unit 40 is shielded by a panel cover 315 not to be exposed to the outside.
  • Specifically, the insulator may be filled between the outer case 311 and the front panel liner 314 to insulate the inside of the lower storage space 12.
  • The front panel liner 314 is configured with a front panel depression depressed inward. The front panel depression may be configured in a shape corresponding to a shape of the driving unit 40 and depressed inwardly of the drawer 30.
  • In addition, the front panel depression may be further depressed to mount electric components including a drawer light 318 illuminating the inside of the refrigerator.
  • The drawer light 318 may extend horizontally from the left side to the right side of the rear surface of the drawer 30 and may be positioned at the top of an inner region of a gasket 317 provided along a circumference of the rear surface of the drawer 30.
  • The drawer light 318 consists of multiple LEDs and is configured such that light emitted from the LEDs is directed inside the drawer 30, particularly, toward the inside of the drawer part 32. Accordingly, the drawer light 318 illuminate inside of the drawer part 32 in a state where the drawer 30 is opened.
  • The panel cover 315 is to provide the exterior of the rear surface of the front panel 31 and shields the driving unit 40 mounted in the front panel 31. The panel cover 315 may be formed in a plate shape and shield the driving unit 40 to prevent the driving unit 40 from being exposed.
  • The panel cover 315 may be configured with a cover depression at a corresponding position in which the driving unit 40 can be covered from the rear. The cover depression may be configured such that the front surface of the panel cover 315, that is, a surface facing the driving unit 40 is depressed, and the rear surface of the panel cover 315, that is, a surface facing the lower storage space protrudes.
  • Side cutouts 315a may be configured at left and right side ends of the panel cover 315. The side cutouts 315a provide a space for the drawer frames 316 to be engaged with the front panel.
  • Cover holes 315b may be formed at opposite lower sides of the panel cover 315. The cover holes 315b are configured such that accommodating portions 421a of levers 42 that are one kind of component of the driving unit 40 are exposed through the cover holes 315b so that it is possible to access the accommodating portions 421a through the cover holes 315b. The cover holes 315b may be located at position facing the drawer holes 35.
  • Accordingly, when the front panel 31 and the drawer part 32 are coupled to each other, the cover holes 315b and the drawer holes (reference numeral 35 of FIG. 13) may communicate with each other. Thus, the accommodating portions 421a and engaging portions 842c of the lifting unit 80 may be engaged with each other through the cover holes 315b and the drawer holes 35. That is, the driving unit 40 and the lifting unit 80 can be connected to each other, and thus the lifting unit 80 can be raised according to the operation of the driving unit 40.
  • It is also possible to separate only the lifting unit 80 by separating the accommodating portions 421a and engaging portions 842c while the front panel 31 and the drawer part 32 are coupled.
  • A cable hole 315c through which cables connected to electrical components such as the driving unit 40 and the drawer light 318 provided in the front panel 31 come in and out may be formed at a lower center of the panel cover 315. The cables coming in and out through the cable hole 315c may be connected to the cabinet 10 through the lower portion of the drawer part 32.
  • The gasket 317 is provided along the circumference of the rear surface of the front panel 31. The gasket 317 may be hermetically in contact with the front surface of the cabinet 10 in a state where the drawer 30 is close.
  • As described above, the driving unit 40 may be shielded by the panel cover 315 and disposed inside the front panel 31. The power of the driving unit 40 may be transmitted to the lifting unit 80. Here, the driving unit 40 simultaneously transmits the power to both left and right sides of the lifting unit 80 so that the lifting unit 80 is elevated and lowered in a level state without being inclined or biased to one side under any circumstance.
  • Hereinafter, the configuration of the driving unit 40 will be described in detail.
  • The driving unit 40 includes: a motor assembly 60; a pair of screw units 50 and 50a disposed on left and right sides of the motor assembly 60; and a pair of levers 42 connected to the screw units 50 and 50a, respectively.
  • Specifically, the motor assembly 60 is located at the central portion in a lateral direction of the front panel 31. In addition, the motor assembly 60 is configured to enable the operation of the screw units 50 and 50a and the levers 42 on both sides by driving the motor assembly 60 including one lifting motor 64.
  • In particular, the motor assembly 60 adjusts the magnitude of the deceleration and transmission force through a combination of multiple gears.
  • The motor assembly 60 has a structure in which the lifting motor 64 and the gears are arranged up and down in order to minimize a space recessed to mount the front panel 31. In particular, the motor assembly 60 is configured such that width thereof in the lateral direction is wide in order to minimize the thickness thereof in the front and rear direction.
  • The lifting motor 64 constituting the motor assembly 60 may protrude toward the drawer part 32 side to minimize the depth of depression of the front panel 31 to ensure thermal insulation performance.
  • The lifting motor 64 is to provide power for elevating the lifting unit 80 and may be configured to perform forward and reverse rotation. Therefore, when the raising signal for the lifting unit 80 is input, the lifting motor 64 performs forward or reverse rotation and provides power for elevating the lifting unit 80. The lifting motor 64 is stopped when a stop signal is input due to the load of the lifting motor 64 or a detection by a sensor.
  • The motor assembly 60 includes a motor case 61 in which the lifting motor 64 is installed and a motor cover 62 coupled to the motor case 61 and covering the lifting motor 64.
  • A shaft of the lifting motor 64 may protrude toward an opposite side of the motor cover 62 from the motor case 61. The motor assembly 60 may include a power transmission unit to transmit power of the lifting motor 64. The power transmission unit is positioned opposite the lifting motor 64 with respect to the motor case 61.
  • The power transmission unit is composed of a combination of multiple gears, and the gears are shielded by a cover member 66 mounted on the opposite side of the lifting motor 64.
  • The power transmission unit includes a drive gear 651 connected to the shaft of the lifting motor 64 passing through the motor case 61. The power transmission unit includes a first transmission gear 652 engaged with the drive gear 651 at the bottom of the drive gear 651.
  • The first transmission gear 652 may be, for example, a multi-speed gear. For example, the first transmission gear 652 may include a first gear 652a engaged with the drive gear 651 and a second gear 652b having a diameter smaller than that of the first gear 652a. The first gear 652a and the second gear 652b may be spur gears.
  • The power transmission unit may include a second transmission gear 653 engaged with the first transmission gear 652. The second transmission gear 653 is engaged with the first transmission gear 652 at the bottom of the first transmission gear 652. The second transmission gear 653 may include a first gear 653a engaged with the second gear 652b of the first transmission gear 652 and a second gear 653b having a diameter smaller than that of the first gear 653a.
  • The first gear 653a and the second gear 653b of the second transmission gear 653 may be spur gears. The second gear 653b of the second transmission gear 653 is positioned at the bottom of the first gear 652a of the first transmission gear 652.
  • Thus, due to the first transmission gear 652 and the second transmission gear 653, it is possible to prevent the width of the motor assembly 60 in the lateral direction from being extended.
  • The power transmission unit may include a third transmission gear 654 engaged with the second transmission gear 653. The third transmission gear 654 is engaged with the second gear 653b of the second transmission gear 653 at the bottom of the second gear 653b.
  • The third transmission gear 654 may be a spur gear. A portion of the third transmission gear 654 may be positioned to overlap the second transmission gear 653 in the front and rear direction.
  • The motor case 61 may be provided with a gear shaft supporting the multiple transmission gears to be rotatable.
  • The power transmission unit may include a pair of cross gears 655 and 656 engaged with the third transmission gear 654. The pair of cross gears 655 and 656 are disposed to be spaced apart from each other in the lateral direction and engaged with the third transmission gear 654 at positions where each center of rotation is lower than the center of rotation of the third transmission gear 654.
  • In order to be engaged with the third transmission gear 654, a cross gear 655 includes a spur gear 655a and a first helical gear 655b, and a cross gear 656 includes a spur gear 656a and a first helical gear 656b.
  • Rotation axes of the cross gears 655 and 656 disposed on opposite sides in the lateral direction to be spaced apart from each other are parallel to each other.
  • The power transmission unit may include a pair of second helical gears 657 and 657a engaged with the cross gears 655 and 656, respectively.
  • The second helical gears 657 and 657a are engaged with the first helical gears 655b and 656b. The second helical gears 657 and 657a are arranged such that rotational axes thereof cross the rotation axes of the cross gears 655 and 656. Thus, the first helical gears 655b and 656b are engaged with the second helical gears 657 and 657a, respectively, in a crossing manner to transmit rotation.
  • The rotation axes of cross gears 655 and 656 extend in the front and rear direction, and the rotation axes of the second helical gears 657 and 657a extend in the up and down direction. The rotation axes of the second helical gears 657 and 657a disposed on the opposite sides in the lateral direction may be inclined in respective directions in a manner being farther apart from each other from the bottom to the top.
  • As described above, by using the pair of helical gears, the structure for power transmission can be compact, and the power transmission direction can be easily changed. In particular, even when a great power is transmitted for elevating the lifting unit 80, the noise is not greatly generated.
  • The pair of screw units 50 and 50a are disposed at the left and right sides of the motor assembly 60.
  • The pair of screw units 50 and 50a are disposed in the left and right sides inside the front panel 31. The pair of screw units 50 and 50a differ only in mounting positions thereof, but the structure and shape thereof are identical.
  • The power of the lifting motor 64 is transmitted from bottom portions of the screw units 50 and 50a.
  • The screw units 50 and 50a are provided to be symmetrical about the motor assembly 60. Thus, the motor assembly 60 is disposed between the screw units 50 and 50a, and the screw units 50 and 50a disposed at the opposite sides become close to each other from the top to bottom.
  • The screw units 50 and 50a include screws 52 and 52a, respectively, which receive the power of the lifting motor 64 and are rotated thereby. The screws 52 and 52a extend in the up and down direction while upper ends thereof face outward and lower ends thereof face inward.
  • The screws 52 and 52a are connected to the second helical gears 657 and 657a, respectively. That is, the screws 52 and 52a rotate with the second helical gears 657 and 657a when the second helical gears 657 and 657a rotate. For example, an insertion portion may be formed in each of the second helical gears 657 and 657a, and a receiving recess may be formed in each of the screws 52 and 52a to accommodate the insertion portion.
  • Thus, the screws 52 and 52a are also disposed at the left and right sides of the motor assembly 60 to be symmetrical about the motor assembly 60. In addition, the screws 52 and 52a are inclinedly disposed with the same rotation axes of the second helical gears 657 and 657a. Thus, the screws 52 and 52a are farther apart from each other from the bottom to the top.
  • The screw units 50 and 50a may include screw holders 56 and 56a, respectively, through which the screws 52 and 52a pass to be coupled.
  • The screw holders 56 and 56a are moved up and down along the screws 52 and 52a when the screws 52 and 52a rotate. The screw holders 56 and 56a may be coupled to the levers 42. When the screw holders 56 and 56a are moved, the levers 42 rotate.
  • Specifically, each center of the screw holders 56 and 56a is formed with a holder through-hole 561. The holder through-hole 561 extends each of the screw holders 56 and 56a from the top to bottom, and each of the screws 52 and 52a is inserted and mounted to the corresponding holder through-hole 561 by passing therethrough. An inner surface of the holder through-hole 561 is formed with a thread engaged with the screw. Thus, when the screws 52 and 52a rotate, the screw holders 56 and 56a are movable with the screws 52 and 52a.
  • Guide holes 562 may be formed at left and right sides of the holder through-hole 561. The guide holes 562 are portions through which guide bars 53 and 54 to be described later pass, and the screw holders 56 and 56a are moved along the guide bars 53 and 54. A bearing or other components for reducing friction may be provided on each inner surface of the guide holes 562 to facilitate the movement of the screw holders 56 and 56a.
  • The pair of the guide bars 53 and 54 pass the guide holes 562 such that stable raising is possible without any left and right movement of the screw holders 56 and 56a. In particular, even when a heavy load is applied for the driving of the lifting unit 80, the stable raising is possible, and noise is not generated.
  • The screw holder 56a may be provided with a magnet 563. For example, the screw holder 56a may be provided with a magnet mounting recess 563a having a structure into which the magnet 563 is inserted by press fitting.
  • The magnet 563 is to detect a location of the screw holder 56a. When the screw holder 56a is located at the bottom or top of the screw 52a, a lifting sensor 55 senses this.
  • That is, the completion of raising and lowering of the lifting unit is determined by the lifting sensor 55 when detecting the magnet 563 mounted on the screw holder 56a.
  • Although not illustrated in detail, an opposite side of a rear surface of the screw holder 56a provided with the magnet 563, that is, a front surface of the screw holder may have a structure in which each holder connector 564 is mounted, and also a front surface of the screw holder 56 has the same.
  • Holder connectors 564 are to connect the levers 42 and the screw holders 56 and 56a. The holder connectors 564 are fixedly mounted to the screw holders 56 and 56a. That is, the holder connectors 564 are coupled to the screw holders 56 and 56a while penetrating the levers 42. Each of the levers 42 may include a rectangular slot 426 so that the holder connectors 564 do not interfere while the levers 42 rotate.
  • Since the screw units 50 and 50a are disposed on the left and right sides, virtual extension lines of the screws 52 and 52a on the left and right sides are crossed with each other outside the driving unit 40.
  • The levers 42 are to connect the screw holders 56 and 56a and the lifting unit 80. Opposite ends of each of the levers 42 are coupled to the screw holders 56 and 56a and the lifting unit 80. Each of the screw units 50 and 50a may include a housing 51 accommodating the screws 52 and 52a.
  • A pair of housings 51 provide outer shapes of the screw units 50 and 50a and define space accommodating the screws 52 and 52a and the screw holders 56 and 56a. In addition, an opened portion of the housing 51 may be covered by a cover member 66 to be described later.
  • The housings 51 may be made of a plate-shaped metal material and bent or may be made of a plastic material.
  • Each of the housings 51 includes a first accommodating portion 511 where the screws 52 and 52a are accommodated and a second accommodating portion 512 where the second helical gears 657 and 657a are accommodated.
  • The first accommodating portion 511 and the second accommodating portion 512 are partitioned by a partition wall 513. The second accommodating portion 512 is located below the first accommodating portion 511.
  • The second accommodating portion 512 partly accommodates the cross gears 655 and 656. That is, the cross gears 655 and 656 and the second helical gears 657 and 657a are connected respectively in the second accommodating portion 512.
  • Each lower portion of the screws 52 and 52a penetrates the partition wall 513, and the screws 52 and 52a penetrating partition walls 513 are engaged with the second helical gears 657 and 657a.
  • Each of the housings 51 is provided with one or more guide bars 53 and 54 guiding the screw holders 56 and 56a to move upward. The one or more guide bars 53 and 54 extend alongside the screws 52 and 52a while spaced apart from the screws 52 and 52a.
  • With respect to multiple guide bars 53 and 54 provided in each of the housings 51, each of the screws 52 and 52a may be disposed between the multiple guide bars 53 and 54 to prevent the screw holders 56 and 56a from being tilted either to the left or right side about the screws 52 and 52a.
  • The motor case 61 and a pair of housings 51 may be integrally provided. In addition, the single cover member 66 may cover the motor case 61 and the pair of housings 51.
  • That is, the cover member 66 is coupled to the motor case 61 and covers the power transmission unit. In addition, the cover member 66 is coupled to the pair of housings 51 and covers the screws 52 and 52a, the guide bars 53 and 54, and the screw holders 56 and 56a.
  • It is also possible that the cover member 66 includes multiple portions respectively covering and opening or closing the power transmission unit and the screw units 50 and 50a if necessary.
  • According to the embodiment, since the driving unit 40 is provided in a single module form, the driving unit 40 is compact so that the driving unit 40 can be easily installed on the front panel 31.
  • In addition, since the one cover member 66 covers the motor case 61 and the pair of housings 51 together, when removing the cover member 66, the power transmission unit or the inside of the housing 51 can be easily accessed, which facilitates repair.
  • The lifting sensor 55 may be provided at one screw unit 50a of the screw units 50 and 50a on the left and right sides. Since the screw units 50 and 50a on the left and right sides operate simultaneously by the one motor assembly 60, even when the lifting sensor 55 is provided only on the screw unit 50a, the operation of the lifting unit 80 is effectively detected. Therefore, the lifting sensor 55 may be provided in either of the screw units 50 and 50a disposed on the left and right sides.
  • The lifting sensor 55 determines whether the elevation of the lifting unit 80 starts and is completed. Specifically, the lifting sensor 55 determines whether the elevation of the lifting unit 80 starts and is completed based on the operation of the driving unit 40.
  • The lifting sensor 55 is mounted on the cover member 66 and disposed longitudinally along the screw unit 50a.
  • The lifting sensor 55 includes a support plate 551, sensors 552 and 553 mounted on the support plate 551, and a case 554 accommodating the support plate 551.
  • The plate-shaped support plate 551 is configured such that a pair of sensors 552 and 553 are mounted on opposite sides. The support plate 551 is made of a simple plate-like material on which the sensors 552 and 553 can be fixedly mounted at detecting positions. The support plate 551 is a plate where the sensors 552 and 553 are mounted.
  • The sensors 552 and 553 may be embodied by sensors detecting the magnet 563. The sensors may be typical hall sensors detecting a location of the magnet. If necessary, other sensors or devices detecting the magnet 563 may be provided in place of the hall sensors.
  • In addition, other configuration or device detecting a specific position of the screw holder 56a may be provided in place of the magnet 563 and the hall sensors.
  • One of the sensors 552 and 553 is mounted in a position corresponding to a position of the magnet 563 when the lifting unit 80 is fully elevated, and a remaining one is mounted in a position corresponding to a position of the magnet 563 when the lifting unit 80 is fully lowered. Therefore, when any one of the pair of sensors 552 and 553 senses the magnet 563, it is determined that the lifting unit 80 is fully elevated or lowered.
  • From a state the sensors 552 and 553 detect the magnet 563, when a location of the magnet 563 is not detected anymore, it is determined that the elevation or lowering of the lifting unit 80 starts.
  • The support plate 551 provided with the sensors 552 and 553 is accommodated in the case 554. The case 554 may be part of the cover member 66. The case 554 is recessed on an inner surface of the cover member 66 and provides a space where the support plate 551 is accommodated. It is also possible that the case 554 is configured separately to be mounted on the cover member 66.
  • The case 554 provides a space where the support plate 551 is accommodated. The support plate 551 is provided with a connector 555. The connector 555 is configured to be connected to a wire extending from the pair of sensors 552 and 553 and connected to an electrical wire 555a from the outside. That is, it is possible to connect the outside electrical wire by coupling the connector 555 without need for separating the support plate 551 or the sensors 552 and 553.
  • In the case that the support plate 551 is a plate where the sensors 552 and 553 are mounted, the connector 555 may be disposed on the support plate 551 where a connector mounting portion 951 is provided.
  • FIG. 11 is a perspective view illustrating the drawer part. FIG. 12 is an exploded-perspective view illustrating the drawer part.
  • Referring to FIGS. 3, 11, and 12, the drawer part 32 includes: a drawer main body 38 providing the overall shape of the drawer part 32; the lifting unit 80 provided inside the drawer main body 38 and raising the container and food; and the multiple plates 391, 392, and 395 providing an inner appearance of the drawer part 32.
  • Specifically, the drawer main body 38 may be injection-molded from a plastic material to define the entire shape of the drawer part 32. The drawer main body 38 has a basket shape with an open upper surface to provide a food storage room therein. A rear surface of the drawer main body 38 may be the inclined surface 321, thus preventing interference with the machine room 3.
  • The drawer frames 316 are mounted to opposite sides of the drawer part 32. The drawer frames 316 are coupled to frame mounting portions 383 provided on opposite sides on a lower surface of the drawer part 32 or provided on lower portions of left and right surfaces of the drawer part 32. With the drawer frames 316 coupled to the drawer part 32, the drawer part 32 and the front panel 31 are integrally combined and opened and closed together.
  • The drawer frames 316 and the drawer part 32 may be coupled to each other by an additional coupling member or by a structure of the drawer frames 316 and the drawer part 32 are combined with each other.
  • The racks 34 are provided on the left and right sides of the lower surface of the drawer part 32. The drawer part 32 is opened and closed by the racks 34. Specifically, the drawer part 32 is at least partially located inside the storage space in a state where the cabinet 10 is mounted. The racks 34 are engaged with pinion gears 141 provided on the bottom surface of the storage space. Thus, when the opening/closing motor 14 operates, the pinion gears 141 rotates so that the rack 34 moves and the drawer 30 is opened or closed.
  • Rail mounting portions 382 where the rails 33 guiding the drawer main body 38 to be opened and closed are mounted are configured at the lower portions of the opposite lateral surfaces of the drawer main body 38. The rail mounting portions 382 extend from the front end to the rear end, and spaces are provided therein to accommodate the rails 33.
  • The rails 33 have a multi-stage extendable structure in which one end thereof is fixed to the storage space inside the cabinet 10 and a remaining end is fixed to the rail mounting portions 382 so that the drawers 30 can be stably opened and closed.
  • A magnet 380 is provided on one side of the opposite lateral surfaces of the drawer main body 38. An open/close sensor (refer to reference numeral 151 of FIG. 19) is provided inside the cabinet 10 at a position corresponding to a position of the magnet 380 when the drawer 30 is fully closed.
  • The open/close sensor 151 detects whether the drawer 30 is opened or closed. In addition, the open/close sensor 151 detects whether the closing of the drawers 30 is completed and whether the opening of the drawer 30 starts.
  • That is, the open/close sensor 151 detects the magnet 380 provided on the one side of the drawer 30 when the drawer 30 is fully closed so that it is possible to determine whether the drawer 30 is closed.
  • When the drawer 30 starts to be opened from a closed state, the magnet 380 moves together. In this case, the open/close sensor 151 does not detect the magnet 380 and thus it is determined that the drawer 30 is opened. That is, from a state that the open/close sensor 151 detects the magnet 380, when the magnet 380 is not detected anymore, it is determined that the opening is started.
  • A location of the magnet 380 may be changed, and according to the location of the magnet 380, a location of the open/close sensor 151 is changed.
  • When the open/close sensor 151 detects the full closure of the drawers 30, the operation of the opening/closing motor 14 is stopped.
  • The open/close sensor 151 may have a switch-like structure, but various structures detecting the opening and closing of the drawer 30 may be applied.
  • The drawer main body 38 is provided with the multiple plates 391, 392, and 395 that are made of a plate metal material such as stainless and provide a part of the interior and exterior of the drawer main body 38.
  • Specifically, the outer side plates 391 are provided on left and right outer surfaces of the drawer main body 38. The outer side plates 391 are mounted to the left and right surfaces of the drawer main body 38 to provide the exterior of the surfaces. In particular, the outer side plates 391 prevent the components including the drawer frames 316 and the rails 33 mounted to the opposite sides of the drawer main body 38 from being exposed to the outside.
  • Multiple reinforcing ribs 384 are provided on the outer side surfaces of the drawer main body 38 in a manner intersecting in horizontal and vertical directions. The reinforcing ribs 384 increase the strength of the drawer main body 38 so that the drawer main body 38 can firmly maintain a shape thereof even though the total weight of the drawer is increased due to the driving unit 40 and the lifting unit 80.
  • The reinforcing ribs 384 support the outer side plates 391 mounted to opposite side surfaces, thereby firmly maintaining the shape of the drawer part 32.
  • Inner side plates 392 are provided on left and right inner surfaces of the drawer main body 38. The inner side plates 392 are mounted to the left and right surfaces of the drawer main body 38 and provide inner left and right surfaces of the inside.
  • An inner plate 395 includes a front portion 395a, a bottom portion 395b, and a rear portion 395c which have sizes and shapes corresponding to an inner front surface, an inner bottom surface, and an inner rear surface of the drawer main body 38.
  • The inner side plates 392 and the inner plate 395 form the entire inner surfaces of the drawer main body 38 and provide a metallic texture to the inner surfaces of the drawer main body 38.
  • Thus, the entire storage room inside the drawer part 32 has a metallic texture. In addition, it is possible to evenly maintain a cool temperature in the storage room and store food in the storage room evenly cooled. Furthermore, it is possible to provide an excellent appearance and provide cooling and storing performance.
  • The drawer cover 37 includes: a cover front portion 371 dividing the inside of the drawer main body 38 into the front space S1 and the rear space S2; and a cover upper portion 372 being perpendicular to the upper end of the cover front portion 371 and shielding the rear space S2 from above.
  • That is, when mounting the drawer cover 37, with respect to the inside of the drawer main body 38, only the front space S1 where the lifting unit 80 is disposed is exposed, and the rear space S2 is shielded by the drawer cover 37.
  • The lifting unit 80 is provided inside the drawer main body 38. The lifting unit 80 has a structure connected to the driving unit 40 so as to be elevated and lowered in a manner that left and right sides are balanced.
  • The drawer holes 35 are formed in a lower portion of the front surface of the drawer part 32 in order to combine the lifting unit 80 and the driving unit 40.
  • The lifting unit 80 is configured in a scissor lift structure, wherein the lifting unit 80 is folded in a lowered state and unfolded in an elevated state such that the container or food seated on an upper surface thereof can be raised.
  • The lifting unit 80 includes a support plate 81, and the support plate 81 provides a surface where the container 36 or food is seated.
  • The drawer holes 35 are located underneath the upper end of the lifting unit 80, that is, an upper surface of the support plate 81. Thus, in the case that the lifting unit 80 is mounted, it is possible to prevent the drawer holes 35 from being seen inside the drawer part 32 under any circumstances.
  • In addition, the support plate 81 has a size and a shape corresponding to the front space to prevent foreign matter from entering to the lifting unit 80 provided below the front space S1 and to block the access to the lifting unit 80 to fundamentally prevent a safety accident.
  • FIG. 13 is a perspective view illustrating the lifting unit according to the embodiment of the present invention. FIG. 14 is a view illustrating an upper frame of the lifting unit, the upper frame being elevated. FIG. 15 is a view illustrating a lever according to the present invention being connected with the lifting unit.
  • Referring to FIGS. 13 to 15, the lifting unit 80 is provided at the bottom of the inner surface of the drawer part 32 and provided inside the drawer part 32 in a detachable manner.
  • The lifting unit 80 includes an upper frame 82, a lower frame 83, and scissor assemblies 84 disposed between the upper frame 82 and the lower frame 83.
  • Specifically, the upper frame 82 is configured in a quadrangular shape corresponding to a size of the front space S1 of the drawer part 32, and the support plate 81 is seated on an upper surface thereof.
  • The upper frame 82 is a component of the lifting unit 80 which moves up and down and substantially supports food or the container 36 with the support plate 81.
  • The upper frame 82 includes a frame portion 821 configuring a periphery of the upper frame 82 and a partition portion 822 dividing an inner space of the frame portion 821 to left and right sides.
  • Since the frame portion 821 and the partition portion 822 are configured to shape an outline and to support the support plate 81, high strength is required. Accordingly, the frame portion 821 and the partition portion 822 may be made of a metal material, and formed in a shape in which opposite ends are bent in order to increase the strength and prevent deformation.
  • A slide guide 824 is provided on a lower side surface of the frame portion 821, the slide guide 824 accommodating ends of the scissor assemblies 84 to guide the scissor assemblies 84 to move.
  • The respective scissor assemblies 84 are disposed in opposite spaces 823 and 824 with respect to the partition portion 822.
  • The slide guide 824 is configured with a long hole 824a into which the scissor assemblies 84 are inserted. Thus, the scissor assemblies 84 move along the slide guide 824.
  • The lower frame 83 and the upper frame 82 may have the same or a similar structure but are installed to count to each other.
  • The lower frame 83 includes a frame portion and a partition portion. A slide guide 834 is provided on an upper surface of the lower frame 83, the slide guide 834 accommodating ends of the scissor assemblies 84 to guide the scissor assemblies 84 to move.
  • The slide guide 834 is configured with a long hole 834a into which the scissor assemblies 84 are inserted. Thus, the scissor assemblies 84 move along the slide guide 834.
  • The respective scissor assemblies 84 are provided on the left and right sides and operated by receiving power from the single lifting motor 64. Thus, the scissor assemblies 84 can be raised by the same height at the same height.
  • Therefore, even when supporting heavy loads, a pair of scissor assemblies 84 which are applied power independently on each side lift the heavy loads effectively. Here, the scissor assemblies 84 can be raised while the upper frame 82, that is, the support plate 81 maintains a horizontal state.
  • Each of the scissor assemblies 84 includes a first scissor frame 841 having a quadrangular shape and a second scissor frame 845 having a quadrangular shape and rotatably connected with the first scissor frame 841.
  • The second scissor frame 845 may have a width smaller than the first scissor frame 841. Thus, the second scissor frame 845 is connected with the first scissor frame 841 while being located in a region defined by the first scissor frame 841.
  • The first scissor frame 841 includes a lower shaft (reference numeral 841a of FIG. 24) and an upper shaft (reference numeral 841b of FIG. 24) extending in the horizontal direction.
  • The lower shaft (reference numeral 841a of FIG. 24) is supported by the lower frame 83 in a rotatable manner, and the upper shaft (reference numeral 841b of FIG. 24) is disposed to penetrate the slide guide 824 of the upper frame 82.
  • The first scissor frame 841 is connected to a first rod (reference numeral 852a of FIG. 24) extending in a longitudinal direction and the upper shaft (reference numeral 841b of FIG. 24).
  • The second scissor frame 845 includes a lower shaft 851a and an upper shaft (not illustrated) extending in the horizontal direction and a first rod 852a and a second rod 852b extending in each longitudinal direction.
  • The first rod 842a of the first scissor frame 841 includes an extension portion 842b protruding to connect with one of the levers 42 and includes the engaging portion 842c provided at the end of the extension portion 842b.
  • Each of the levers 42 includes the accommodating portion 421a accommodating the engaging portion 842c to be engaged with the engaging portion 842c.
  • The end of the engaging portion 842c may be non-circular. Thus, when the lever 42 rotates while the accommodating portion 421a accommodates the engaging portion 842c, it is possible to prevent the lever 42 from slipping in the engaging portion 842c.
  • The engaging portion 842c and the extension portion 842b pass through each of the drawer holes 35, and the extension portion 842b is positioned inside each of the drawer holes 35. Therefore, the lifting unit 80 inside the drawer part 32 is connected to the driving unit 40 disposed outside the drawer part 32 by the extension portion 842b and the engaging portion 842c.
  • Hereinafter, the drawers 30 of the refrigerator 1 according to the embodiment of the present invention having the above-described structure will be described in detail about the opening, closing, and raising operation with reference to the accompanying drawings.
  • FIG. 16 is a block diagram schematically illustrating connections between the controller and components connected to the controller according to the embodiment of the present invention. FIG. 17 is a flowchart illustrating opening/closing of the drawer and raising/lowering operation o the lifting unit. FIGS. 18 to 26 are views illustrating states of the drawer when the drawer is opened/closed and/or the lifting unit is raised/lowered.
  • Referring to the drawings, while the refrigerator 1 stores food, all of the swinging door 20 and the drawers 30 are closed as illustrated in FIG. 18. In this state, a user opens and closes the drawers 30 to store food.
  • The multiple drawers 30 may be provided in the vertical direction. The lower drawer 30 of the drawers 30 is disposed to be adjacent to the upper drawer 30 and has no handle for opening and closing. In other words, a gap between the upper drawer 30 and the lower drawer 30 is almost invisible so that the front exterior of the refrigerator 1 look neat and luxurious.
  • The opening and closing of the drawer 30 are detected by the opening/closing sensor 151 provided inside the cabinet 10. When the open/close sensor 151 detects the magnet 380 provided on one side surface of the drawer 30 while the drawer 30 is closed, it is determined that the drawer 30 is closed. When the magnet 380 is not detected, it is determined that the drawer 30 is opened.
  • The open/close sensor 151 detects whether the opening of the drawer 30 starts and the closing of the drawer 30 is completed. While the open/close sensor 151 detects the magnet 380, when the magnet 380 is not detected anymore, it is determined that the opening of the drawer 30 starts. From a state where the magnet 380 is not detected, when the magnet 380 starts to be detected, the closing of the drawer 30 is completed.
  • To open and close the lower drawer 30, the user manipulates the manipulation unit so that a manipulation for opening and closing of the drawer is input.
  • Here, the user can manipulate the multiple manipulation units 214, 301, and 302 to operate the drawer 30. When manipulating the manipulation units 214, 301, and 302, the first proximity sensor 213 detects the proximity of the user.
  • Thus, the opening of the drawer 30 can be started after it is determined that the manipulation input is valid only when one of the manipulation units 214, 301, and 302 is manipulated in a state where the proximity of the user is recognized by the first proximity sensor 213.
  • For example, when the user stands in front of the refrigerator 1 and manipulates the first manipulation unit 214, the first proximity sensor 213 generates a signal notifying that the proximity of the user is detected, and the first manipulation unit 214 generates a manipulation signal of the user. Therefore, the controller 90 determines that the manipulation input is valid for operation of the drawer 30 and allows the opening of the drawer 30 to start.
  • When the first proximity sensor 213 does not detect the proximity of the user or a manipulation is not input to one of the manipulation units 214, 301, and 302, the drawer 30 is not opened.
  • [S110: Manipulation inputting step]
  • The controller 90 that controls the overall operation of the refrigerator 1 controls the opening/closing motor 14 to operate the opening/closing motor 14 when it is determined in the manipulation inputting step that the manipulation input is valid.
  • When the opening/closing motor 14 is driven by the controller 90, the drawer 30 is opened forward. The drawer 30 may be opened as the rails 33 extend.
  • The racks 34 provided on the bottom surface of the drawer 30 are combined with the pinion gears 141 rotating when the opening/closing motor 14 provided in the cabinet 10 operates, and the drawer 30 is opened and closed according to the operation of the opening/closing motor 14.
  • It is possible to open the drawer 30 as much as illustrated in FIGS. 19 and 20. Here, a pushing-out distance of the drawer 30 may be a distance that at least the front space S1 inside the drawer part 32 can be fully exposed to the outside. Therefore, as illustrated in FIGS. 19 and 20, in a state where the drawer 30 is fully opened, the container or food is not interfered with the doors 20 and 30 disposed above or the cabinet 10 when the lifting unit 80 is elevated.
  • The state where the drawer 30 is opened will be described in detail. In the state where the drawer 30 is opened for raising, the front space S1 is required to be fully opened out of the lower storage space 12.
  • In particular, a rear end L1 of the front space S1 is required to be ahead of the cabinet 10 or a front end L2 of the swinging door 20 by opening the drawer in order to prevent the interference of the cabinet 10 and the swinging door 20 when the lifting unit 80 is elevated.
  • As illustrated in FIG. 20, the drawer 30 may not be fully opened such that the drawer part 32 is not exposed entirely, but may be opened to a position for avoiding the interference when the lifting unit 80 is elevated. Here, the rear space S2 of the drawer part 32 is partly positioned inside the lower storage space 12. That is, a rear end L3 of the drawer part 32 is positioned inside the lower storage space 12.
  • Thus, even with the weight of the container or food in addition to the weight of the drawer 30 itself including the weight of the driving unit 40 and the lifting unit 80, it is possible to ensure stable opening, closing, and raising without any sagging or damage of the rails 33 or the drawer 30.
  • The state where the drawer 30 is fully opened, that is, the completion of opening of the drawer 30 is detected by an opening completion sensor 152 disposed in the cabinet 10 and the drawer 30. In addition, the opening completion sensor 152 detects that the drawer 30 starts to be closed from the state where the opening of the drawer 30 is completed.
  • The opening completion sensor 152 is embodied by a sensor detecting a magnet 389 provided on one side of the drawer part 32 such as the racks 34 and the rails 33 to detect the state where the drawer 30 is fully opened.
  • For example, as illustrated in the drawings as an example, the magnet 389 may be provided on the rails 33 of the drawer part 32, and the opening completion sensor 152 may be provided on the bottom surface of the cabinet 10.
  • Here, the opening completion sensor 152 is provided at a position corresponding to a position of the magnet 389 in a state where the drawer 30 is fully opened. Accordingly, the state where the drawer 30 is fully opened, that is, the completion of opening of the drawer 30 is determined by the opening completion sensor 152.
  • When the drawer 30 is moved and starts to be closed from the state where the drawer 30 is fully opened (completion of opening), the magnet 389 also moves together. At this point, the opening completion sensor 152 does not detect the magnet 389 anymore, it is determined that the drawer 30 starts to be closed. That is, from the state where the opening completion sensor 152 detects the magnet 389, when the magnet 389 is not detected anymore, it is determined that the drawer 30 starts to be closed.
  • The magnet 389 may be provided on the racks 34. In this case, the opening completion sensor 152 is provided at a position corresponding to a position of the magnet 389 in a state where the drawer 30 is fully opened. Accordingly, the state where the drawer 30 is fully opened, that is, the completion of opening of the drawer 30 is determined by the opening completion sensor 152.
  • If necessary, switches may be provided at a position where the drawer 30 is fully closed and opened to detect the opening and closing of the drawer 30. Alternatively, the drawer 30 may be detected by counting the number of revolutions of the opening/closing motor 14, by using a sensor detecting a distance between the rear surface of the front panel 31 and the front end of the cabinet 10, or by measuring time at which the drawer 30 is opened or closed.
  • When the opening completion sensor 152 detects that the drawer 30 is opened to a set distance, the controller 90 determines that the opening of the drawer 30 is completed, and stops driving the opening/closing motor 14 to end the opening of the drawer 30. [S120: Drawer opening step]
  • In the state where the drawer 30 is fully opened, the opening/closing motor 14 may be braked so as not to rotate anymore. That is, the drawer 30 is required to maintain the opened state while the lifting unit 80 provided inside the drawer 30 is operating.
  • To this end, the opening/closing motor 14 may be embodied by a motor (commonly called a braking motor or a brake motor) equipped with a brake capable of selectively restraining the motor.
  • For example, when the drawer 30 is moved or closed while the lifting unit 80 is operating, there is a possibility of a safety accident. In addition, when the drawer 30 is moved or closed while the lifting unit 80 is operating, food in storage may fall or be damaged, and a lifting structure or the refrigerator itself may be damaged.
  • Therefore, the drawer 30 is required to maintain a fixed state where the opening and closing of the drawer 30 is impossible even when an external force is applied, at least while the lifting unit 80 is operating.
  • The opening/closing motor 14 is prevented from rotating due to a braking structure thereof even when an external force is applied. If necessary, it is also possible to maintain the opened state of the drawers 30 by restraining the drawers 30. [S130: Drawer movement restraining step]
  • As illustrated in FIGS. 19 and 20, the driving unit 40 and the lifting unit 80 are not operated until the drawer 30 is fully opened, and the lifting unit 80 keeps the lowest state.
  • As illustrated in FIG. 21, the levers 42 and the screw holders are positioned at the lowest positions before the lifting unit 80 is elevated, and the lifting sensor 55 detects this and determines that the present state is a state where the lifting unit 80 is fully lowered.
  • Specifically, in the state where the lifting unit 80 is fully lowered, the screw holder 56a is positioned at the lowest position. At this point, the magnet 563 provided on the screw holder 56a is positioned corresponding to a position of a sensor 553 of the pair of sensors 552 and 553 which is located below the other one. Thus, the sensor 553 which is the lower one detects the magnet 563 so that it is determined that the lifting unit 80 is fully lowered.
  • When it is determined that the lifting unit 80 is fully lowered by the detection of the lifting sensor 55, the driving unit 40 starts the operation after the user manipulates or the drawer 30 is fully opened.
  • When it is determined that the lifting unit 80 is not fully lowered by the detection of the lifting sensor 55, an abnormal signal is output and thus the driving unit 40 is not operated.
  • When the drawer 30 is opened to a set distance, the controller 90 directs the lifting motor 64 to operate. Then, the driving unit 40 is operated by the lifting motor, and the lifting unit 80 is elevated as illustrated in FIG. 22.
  • In the state where the drawer 30 is fully opened and the opening/closing motor 14 stops, the lifting motor 64 is operated by the controller 90. The lifting unit 80 is configured to operate only in a circumstance where the drawer 30 is sufficiently opened such that safe lifting of food or the container 36 seated on the lifting unit 80 is ensured.
  • That is, the lifting unit 80 is operated in a state where the drawer 30 is opened and thus the front space S1 is fully exposed to the outside so that the container 36 or stored food seated on the lifting unit 80 is not interfered by other doors 20 and 30 or the cabinet 10.
  • In order to secure the safety of the user and prevent damage to the stored food, the lifting unit 80 may be configured to start operation after it is ensured that the drawer 30 is opened and then a set time is elapsed.
  • In this embodiment, the elevation of the lifting unit 80 means that the scissor assemblies 84 raise the upper frame 82, and the lowering of the lifting unit 80 means that the scissor assemblies 84 lowers the upper frame 82.
  • The driving unit 40 is connected to the lifting unit 80, and thus the power can be transmitted to the lifting unit 80. As the driving unit 40 starts to operate, the power is transmitted to the lifting unit 80, and the lifting unit 80 starts to be elevated.
  • Specifically, when the lifting motor 64 rotates or rotates reversely according to a signal commanding raising or lowering the lifting unit 80, the driving unit 40 starts to operate. The multiple gears between the lifting motor 64 and the screws 52 and 52a are rotated by the operation of the lifting motor 64, and thus the screws 52 and 52a are rotated. As the screws 52 and 52a rotate, the screw holders 56 and 56a are raised and thus the levers 42 are rotated.
  • When the levers 42 are moved upward, the levers 42 gain height, and thus first rods 842a of first scissor frames 841 connected to the levers 42 also gain height. In addition, as the first rods 842a of the first scissor frames 841 gain height, the scissor assemblies 84 can be unfolded.
  • Accordingly, as the scissor assemblies 84 are unfolded, the upper frame 82 is raised, and the container 36 or food seated on the support plate 81 are raised. As a result, the lifting unit 80 is elevated to the maximum height as illustrated in FIG. 23.
  • As illustrated in FIG. 23, the lifting unit 80 stops when elevated enough to access food or the container 36 seated on the lifting unit 80. In this state, it is easy to lift food or the container 36 without excessively bending over. [S140: Lifting unit elevating step]
  • The levers 42 and the screw holders are positioned at the highest positions when the elevating of the lifting unit 80 is completed, and the lifting sensor 55 detects this and determines that the present state is a state where the lifting unit 80 is fully elevated.
  • When it is determined that the lifting unit 80 is fully elevated by the detection of the lifting sensor 55 as illustrated in FIG. 24, the lifting motor 64 stops. In this state, the lifting unit 80 is positioned inside the drawer part 32, but food or the container 36 seated on the lifting unit 80 can be positioned at a higher position than the opened upper portion of the drawer part 32, which allows easy access.
  • In particular, the user does not need to excessively bend over to the lift the container 36, thereby enabling safe and convenient work.
  • A state where the lifting unit 80 is elevated to the maximum will be described in detail with reference to FIG. 23. The lifting unit 80 is positioned at a position lower than the top end of the drawer part 32.
  • With reference to a position of the container 36, the lifting unit 80 is elevated with the container 36 seated thereon to a position in which a top end H1 of the container 36 is higher than a top end H2 of the lower storage space 12 on the container 36. The height here is a suitable height that the user can reach to lift the container 36 without bending down.
  • Although the lifting unit 80 has the structure to be elevated from the inside of the drawer part 32, the lifting unit 80 can be positioned at a height that allows easy access to the container 36 when the container 36 is seated thereon. [S150: Lifting unit stopping step]
  • When the lifting unit 80 reaches the set height, the lifting motor 64 is stop and a timer 91 counts stop time of the lifting motor 64. That is, the lifting unit 80 waits for the set time in a state where the elevating of the lifting unit 80 is completed.
  • The controller 90 determines whether time that is counted by the timer 91 reaches the set time. If the controller 90 determines that the set time has elapsed after the lifting unit 80 is stopped, the lifting motor 64 starts reverse rotation and the lifting unit 80 is lowered.
  • At this point, the set time may be set to approximately 90 seconds. The set time may be set to a sufficient time for the user to store food. When the set time is too short, the lifting unit 80 is lowered before the storing of the food is completed, thereby causing inconvenience. On the contrary, when the set time is too long, opened time of the drawer 30 is prolonged, thereby resulting in excessive leakage of cold air, causing reduction of the cooling performance, and increasing power consumption. Accordingly, the set time is preferably set to approximately 90 seconds.
  • It is also possible that the set time is set such that the user manipulates the display 211 or performs voice inputting using a mike. The set time may be set to a desired time of the user.
  • In a state where the lifting unit 80 is stopped and waiting, the elapse of the set time may be shown on a screen through the display 211 or may be outputted to the outside through a speaker 92. Accordingly, the user can perform the storing of food while recognizing change of the set time, and can set a closing time of the drawer 30. [S161: Elapse of set time determining step]
  • When the user completes the storing of food and closes the drawer 30 before the set time has elapsed, the user can manipulate any one of the manipulation units 214, 301, and 302 to input a lowering manipulation of the lifting unit 80.
  • The user can determine a remaining time before the drawer 30 is closed through the screen outputted on the display 211 or the voice outputted through the speaker 92. According to the information, the user can determine a speed of storing food. When the remaining time is too long before the drawer 30 is closed, the user can manipulate any one of the manipulation units 214, 301, and 302 to forcibly manipulate for lowering of the lifting unit 80 and closing of the drawer 30.
  • That is, to lower the lifting unit 80 or close the drawer 30 before the set time has finished in a state where the lifting unit 80 is elevated, the user manipulates any one of the manipulation units 214, 301, and 302. [S162: lowering manipulation inputting step]
  • When the set time is over or the lowering manipulation is inputted, the controller 90 instructs an operation of the lifting motor 64 and the lifting unit 80 starts to be lowered, as shown in FIG. 25.
  • The lowering of the lifting unit 80 is made by reverse rotation of the lifting motor 64, and may be performed slowly through the reverse process with respect to the above-described elevation process of the lifting unit 80.
  • When the lowering of the lifting unit 80 is completed as illustrated in FIG. 20, the lifting sensor 55 detects that the lowering of the lifting unit 80 is completed. That is, when the sensor 553 provided below detects the magnet 563, the controller 90 determines that the lowering of the lifting unit 80 is completed and stops the operation of the lifting motor 64. [S180: Lifting unit lowering step]
  • The drawer reopening step and the lifting unit lowering step may be performed consecutively. In particular, the reopening of the drawer 30, the redetection of the completion of the opening of the drawer 30, and the lowering of the lifting unit 80 proceed consecutively. As soon as the opening completion sensor 152 redetects that the opening of the drawer 30 is completed, the lowering of the lifting unit 80 proceeds automatically.
  • When the controller 90 receives a signal in which the lowering of the lifting unit 80 is completed, the controller 90 stops the operation of the lifting motor 64 and release the opening/closing motor 14. The controller 90 unbrakes the opening/closing motor 14 or releases the drawer 30 to prepare the drawer 30 to be closed. [S190: Drawer releasing step]
  • That is, the controller 90 completely restrains the opening and closing of the drawer 30 until the lowering of the lifting unit 80 is completed so that the raising operation of the lifting unit 80 can be performed stably. In addition, the food storage can be easily and safely performed. When the controller 90 receives the signal in which the lowering of the lifting unit 80 is completed, the controller 90 stops the operation of the lifting motor 64 and releases the restraint.
  • When the opening/closing motor 14 is released, the controller 90 directs the opening/closing motor 14 to perform reverse rotation. By reverse rotation of the opening/closing motor 14, the drawer 30 can be closed as illustrated in FIG. 26. [S200: Drawer closing step]
  • At S190 of the drawer closing step, the opening/closing motor 14 performs reverse rotation until the drawer 30 is fully closed. As illustrated in FIG. 18, in the state where the drawer 30 is fully closed, the open/close sensor 151 detects that the closing of the drawer 30 is completed.
  • When the closing of the drawer 30 is completed and the open/close sensor 151 detects the closing completion of the drawer 30, the controller 90 may further operate the opening/closing motor 14.
  • At this point, the opening/closing motor 14 may perform an additional operation to be rotated in a closing direction of the drawer 30. That is, in order to prevent slight-opening of the drawer 30 which occurs even when the drawer 30 performs normal closing, the drawer 30 is once again closed.
  • The opening/closing motor 14 may be operated for a set time for additional closing of the drawer 30. In the embodiment, the set time may be 0.5 seconds. It is also possible that the set time is changed using the manipulation units. [S200: Opening/closing motor additional operating step]
  • The additional operation of the opening/closing motor 14 may be performed for each set period. For example, when the drawer 30 is closed and the opening/closing motor 14 performs the additional operation and then the timer 91 counts elapse time and the counted time reaches the set period, the opening/closing motor 14 may be further operated. It is also possible that the opening/closing motor 14 is operated in the closing direction of the drawer 30. In the embodiment, the set period may be any one hour selected from 1 to 12 hours and may be changed using the manipulation units.
  • Stopping of the lifting motor 64 and the closing of the drawer 30 may proceed consecutively. That is, when the lifting unit 80 is fully lowered by the operation of the lifting motor 64, the closing of the drawer 30 proceeds immediately after the lifting motor 64 stops. It is also possible that when the drawer 30 is restrained, the releasing of the drawer 30 may proceed consecutively.
  • The present invention may further include another control method in addition to the above-described control method. Hereinbelow, the another control method of the refrigerator according to another embodiment of the present invention will be described in detail with reference to the accompanying drawings.
  • FIG. 27 is a flowchart illustrating a control method for the refrigerator according to the embodiment of the present invention.
  • Referring to FIG. 27, the refrigerator 1 may have multiple doors. For example, the cabinet 10 of the refrigerator 1 may be provided with the upper storage space 11 and the lower storage space 12. The swinging door 20 may open and close the upper storage space 11. The lower storage space 12 may be partitioned into multiple spaces, and may include: the upper drawer 30 moved forward and rearward in the upper portion of the lower storage space 12 and opening/closing the upper portion thereof; and the lower drawer 30 moved forward and rearward in the lower portion of the lower storage space 12 and opening and closing the lower portion thereof.
  • In the embodiment, the refrigerator 1 may have the door and the drawers, for example, may include the swinging door 20, the upper drawer and the lower drawer which are provided in the lower portion of the refrigerator. Hereinbelow, for convenience of description, the upper drawer is denoted by 30a and the lower drawer is denoted 30b for easily distinguishing the drawers 30.
  • The other peripheral doors except the lower drawer 30b may include the swinging door 20 and the upper drawer 30a.
  • In the embodiment, the controller 90 which controls the refrigerator 1 as a whole may detect and confirm each current state of the swinging door 20, the upper drawer 30a, and the lower drawer 30b. For example, the controller 90 detects whether the swinging door 20, the upper drawer 30a, and the lower drawer 30b are opened or closed. Specifically, in the cases of the upper drawer 30a and the lower drawer 30b, the controller 90 may detect states of opening/closing, opening/closing completion, and a position of the lifting unit 80 and so on.
  • Among them, the controller 90 detects the closing completion state of the drawer 30. The drawer 30 may mean at least one of the upper drawer 30a and the lower drawer 30b. [S210: Drawer closing completion detecting step]
  • In a state where the closing of the drawer 30 is completed, the controller 90 may detect whether other peripheral doors except the drawer 30 are opened or closed. For example, in the case of the lower drawer 30b, it is possible to detect whether the other doors, that is, the swinging door 20 and the upper drawer 30a, are opened or closed. In addition, in the case of the upper drawer 30a, it is possible to detect whether other peripheral doors, that is, the swinging door 20 and the lower drawer 30b are opened or closed. [S220: Opening/closing peripheral doors detecting step]
  • When the opening/closing of the peripheral door is detected, the controller 90 may further operate the opening/closing motor 14 to further close the drawer 30 in the closing direction of the drawer 30. For example, when any one door of the swinging door 20 or the upper drawer 30a performs an opening/closing operation although the lower drawer 30b is currently closed, the controller 90 detects the operation, thereby allowing the lower drawer 30b to be once again closed. [S230: Opening/closing motor additional operating step]
  • Through this process, it is possible to prevent the drawer 30 from being slightly opened in accordance to opening/closing operation of the peripheral doors. Specifically, since the upper drawer 30a and the lower drawer 30b share the same lower storage space 12, when one door is opened or closed, a negative pressure may cause the other door to shake and be slightly opened. In the present invention, the drawer 30 is configured to be one again closed even when the drawer 30 is normally closed in order to prevent the slight-opening. For that, an opening/closing motor 14 may be configured to be operated in the closing direction of the drawer 30.
  • From the time when the opening/closing motor 14 is further operated, the timer 91 counts elapse time. [S240: Time counting step]
  • The timer 91 determines that whether counted time reaches the set period. The set period may mean a time interval that is set to operate periodically the opening/closing motor 14 even when the drawer 30 is in the closed state. Accordingly, the controller 90 may determine that whether the counted time by the timer 91 reaches the set period. [S250: set period reaching determining step]
  • When it is determined that the counted time reaches the set period, the opening/closing motor 14 is further operated. That is, even when opening/closing of the peripheral doors is not detected while the drawer 30 is in the closed state, the opening/closing motor 14 may be further operated for each set period. Thus, a function of preventing slight-opening is performed at every period.
  • At S260 of opening/closing motor additional operating step, when the opening/closing motor 14 is further operated, S240 of time counting step is again performed to count elapse time. Accordingly, steps from S240 to S260 may be repeatedly performed. This repetition may be performed until the user inputs an additional manipulation.
  • Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope of the invention as disclosed in the accompanying claims. Therefore, the embodiments of the present invention are disclosed only for illustrative purposes and should not be construed as limiting the present invention.
  • As refrigerators become versatile and intelligent, the refrigerators become larger. Accordingly, the number of storage rooms where food is stored is increased and thus electrical devices and machinery related to each storage room become complicated.
  • The drawer may be provided not only in a general household refrigerator but also in special-purpose apparatuses, for example, a kimchi refrigerator and a wine refrigerator.
  • Although this specification has described the drawer provided in a general household refrigerator as an example, the present invention is apparently applicable to various apparatuses to which the drawer is applied.

Claims (14)

  1. A control method for a refrigerator having a door (20) and/or drawer (30), the control method comprising:
    detecting (S210), by a controller (90), a closing completion of the drawer (30);
    operating (S200, S220) an opening/closing motor (14) in the closing direction of the drawer (30) when the controller (90) determines that a peripheral door (20) or another drawer is closed and/or when an opening/closing sensor (151) detects that the closing of the drawer (30) is completed.
  2. The control method of claim 1, further comprising detecting (S220), by the controller (90), a state of opening/closing of the peripheral door (20) or another drawer when the closing of the drawer (30) is completed.
  3. The control method of any one of the preceding claims, further comprising at least one of:
    inputting (S110) a manipulation of a user;
    opening (S120) the drawer (30) by an operation of an opening/closing motor (14) according to the user manipulation;
    elevating (S140) a lifting unit (80) to a set height by an operation of a lifting motor (64) when an opening completion sensor (152) detects that opening of the drawer (30) is completed;
    stopping (S150) the lifting unit (80) by stopping the operation of the lifting motor (64) when a lifting sensor (55) detects that the elevation of the lifting unit (80) to the set height is completed;
    lowering (S170) the lifting unit (80) by an operation of the lifting motor (64) when a lowering signal of the lifting unit (80) is input;
    closing (S190) the drawer (30) by an operation of the opening/closing motor (14) after the operation of the lifting motor (64) is stopped when the lifting sensor (55) detects that lowering of the lifting unit (80) is completed.
  4. The control method of any one of the preceding claims, further comprising after the closing of the drawer (30) is completed (S210), further operating (S220) the drawer (30) by further operating the opening/closing motor (14) when the opening/closing sensor (151) detects that the closing of the drawer (30) is completed.
  5. The control method of any one of the preceding claims, at the further operating (S200, S220) the drawer (30), from detecting (S210) the closing completion of the drawer (30), the opening/closing motor (14) is further operated (S240) at or for a set time and/or for a set period.
  6. The control method of claim 5, wherein the opening/closing motor (14) is operated for the set time from the detection of the closing completion of the drawer (30).
  7. The control method of claim 5 or 6, wherein the set period is any one hour selected from 1 to 12 hours.
  8. A refrigerator comprising:
    a cabinet (10) provided with an upper storage space (11) and a lower storage space (12);
    a drawer (30) movable in forward and rearward direction in the lower storage space (12) for opening and closing the lower storage space (12);
    an opening/closing motor (14) providing power for opening and closing of the drawer (30);
    a manipulation unit (302) for inputting a manipulation of a user to operate the drawer (30); and
    a controller (90) electrically connected to the opening/closing motor (14) and the manipulation unit (302),
    wherein the controller (90) is further configured to operate the opening/closing motor (14) in a closing direction of the drawer (30) when inputting a user manipulation for closing the drawer (30) or when the closing of the drawer (30) is completed and/or when determining that a peripheral door (20) or another drawer (30a) is closed.
  9. The refrigerator of claim 8, further comprising an opening completion sensor (152) for detecting that opening of the drawer (30) is completed.
  10. The refrigerator of claim 8 or 9, further comprising a lifting unit (80) provided in the drawer (30) which is operated by a lifting motor (64), wherein a lifting sensor (55) is provided for detecting whether an elevation of the lifting unit (80) is completed.
  11. The refrigerator of claim 8, 9 or 10, wherein a lowering signal for the lifting unit (80) is based on a predetermined time or based on a user input.
  12. The refrigerator of any one of the preceding claims 8 -11, wherein the opening/closing motor (14) is further operated at or for a set time from detecting the closing completion of the drawer (30) and/or at the operating the opening/closing motor (14), after the opening/closing motor (14) is operated, the opening/closing motor (14) is operated in a closing direction of the drawer (30) for a set period.
  13. The refrigerator of any one of the preceding claims 8 -12, wherein the drawer is a lower drawer (30) provided to be moved forward and rearward in a lower portion of the lower storage space (11) and for opening and closing the lower portion thereof.
  14. The refrigerator of any one of the preceding claims 8 -13, further comprising at least one of:
    a door (20) for opening and closing the upper storage space (11); an upper drawer (30a) provided to be moved forward and rearward in an upper portion of the lower storage space (12) or in the upper storage space (11) for opening and closing the upper portion of the lower storage space (12) or the upper storage space (11).
EP19199607.3A 2019-07-15 2019-09-25 Refrigerator and control method therefor Pending EP3767208A1 (en)

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