EP2339277B1 - Réfrigérateur - Google Patents
Réfrigérateur Download PDFInfo
- Publication number
- EP2339277B1 EP2339277B1 EP10157229.5A EP10157229A EP2339277B1 EP 2339277 B1 EP2339277 B1 EP 2339277B1 EP 10157229 A EP10157229 A EP 10157229A EP 2339277 B1 EP2339277 B1 EP 2339277B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- ice
- disposed
- door
- compartment
- bin
- 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.)
- Active
Links
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Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/02—Doors; Covers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C5/00—Working or handling ice
- F25C5/20—Distributing ice
- F25C5/22—Distributing ice particularly adapted for household refrigerators
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C2400/00—Auxiliary features or devices for producing, working or handling ice
- F25C2400/10—Refrigerator units
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C5/00—Working or handling ice
- F25C5/02—Apparatus for disintegrating, removing or harvesting ice
- F25C5/04—Apparatus for disintegrating, removing or harvesting ice without the use of saws
- F25C5/046—Ice-crusher machines
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D2201/00—Insulation
- F25D2201/10—Insulation with respect to heat
- F25D2201/14—Insulation with respect to heat using subatmospheric pressure
Definitions
- the present disclosure relates to a refrigerator.
- a refrigerator is an apparatus that stores foods at a low temperature using low temperature air.
- the refrigerator includes a cabinet in which a storage compartment is defined and a refrigerator door opening and closing the storage compartment.
- the storage compartment may include a refrigerator compartment and a freezer compartment.
- the refrigerator door may include a refrigerator compartment door opening and closing the refrigerator compartment and a freezer compartment door opening and closing the freezer compartment.
- the refrigerator may include an ice making assembly that makes ice using cool air to store the made ice.
- the ice making assembly includes an ice maker generating the ice and an ice bin in which the ice separated from the ice maker is stored.
- the ice maker and the ice bin may be disposed inside the refrigerator compartment or in the refrigerator compartment door.
- the refrigerator compartment door may further include a dispenser for dispensing the ice stored in the ice bin.
- Embodiments provide a refrigerator including a slim refrigerator door.
- Embodiments also provide a refrigerator in which a thickness of a refrigerator door in which an ice bin is disposed becomes slim.
- One embodiment discloses a refrigerator according to claim 1.
- Fig. 1 is a perspective view of a refrigerator according to a first embodiment.
- Fig. 2 is a perspective view of the refrigerator with a portion of a refrigerator compartment door opened according to the first embodiment.
- a refrigerator 1 according to this embodiment includes a cabinet 10 defining an outer appearance thereof and refrigerator doors 11 and 14 movably connected to the cabinet 10.
- a storage compartment for storing foods is defined inside the cabinet 10.
- the storage compartment includes a refrigerator compartment 102 and a freezer compartment 104 disposed below the refrigerator compartment 102. That is, a bottom freeze type refrigerator in which a refrigerator compartment is disposed above the freezer compartment will be described as an example in this embodiment.
- the refrigerator door 11 and 14 include a refrigerator compartment door 11 opening and closing the refrigerator compartment 102 and a freezer compartment door 14 opening and closing the freezer compartment 104.
- the refrigerator compartment door 11 includes a plurality of doors 12 and 13, which are disposed at left and right sides, respectively.
- the plurality of doors 12 and 13 includes a first refrigerator compartment door 12 and a second refrigerator compartment door 13 disposed at a right side of the first refrigerator compartment door 12.
- the first refrigerator compartment door 12 may be independently movable with respect to the second refrigerator compartment door 13.
- the freezer compartment door 14 includes a plurality of doors 15 and 16, which are vertically disposed.
- the plurality of doors 15 and 16 includes a first freezer compartment door 15 and a second freezer compartment door 16 disposed below the first freezer compartment door 15.
- the first and second refrigerator compartment doors 12 and 13 may be rotatably moved, and the first and second freezer compartment doors 15 and 16 may be slidably moved.
- a dispenser 17 for dispensing water or ice cubes is disposed in one door of the first and second refrigerator compartment door 12 and 13.
- the dispenser 17 is disposed in the first refrigerator door 12 in Fig. 1 .
- an ice making assembly (that will be described later) for generating and storing the ice cubes is disposed in one door of the first and second refrigerator compartment doors 12 and 13.
- the dispenser 17 and the ice making assembly may be disposed in the first refrigerator compartment door 12 and the second refrigerator compartment door 13.
- the dispenser 17 and the ice making assembly are disposed in the refrigerator compartment door 11.
- the first refrigerator compartment door 12 and the second refrigerator compartment door 13 are commonly called the refrigerator compartment door 11.
- Fig. 3 is a perspective view of the refrigerator compartment door with an ice compartment door opened according to the first embodiment.
- Fig. 4 is a perspective view of a refrigerator compartment door in which an ice making assembly is removed from an ice compartment according to the first embodiment.
- the refrigerator compartment door 11 includes an outer case 111 and a door liner 112 coupled to the outer case 111.
- the door liner 112 defines a back surface of the refrigerator compartment door 11.
- the door liner 112 defines an ice compartment 120.
- the ice making assembly 200 for generating and storing the ice cubes is disposed inside the ice compartment.
- the ice compartment 120 is opened and closed by an ice compartment door 130.
- the ice compartment door 130 is rotatably connected to the door liner 112 by a hinge 139.
- the ice compartment since the ice compartment receives the ice making assembly 200, the ice compartment may be referred to as a receiving space.
- a handle coupling part 128 coupled to a portion of the handle 140 is defined in the door liner 112.
- the handle coupling part 128 receives the portion of the handle 140.
- the cabinet 10 includes a main body supply duct for supplying cool air to the ice compartment 120 and a main body return duct 108 for recovering the cool air from the ice compartment 120.
- the main body supply duct 106 and the main body return duct 108 may communicate with a space in which an evaporator (not shown) is disposed.
- the refrigerator compartment door 11 includes a door supply duct 122 for supplying the cool air of the main body supply duct 106 to the ice compartment and a door return duct 124 for recovering the cool air of the ice compartment 120 to the main body return duct 108.
- the door supply duct 122 and the door return duct 124 extend from an outer wall 113 of the door liner 112 to an inner wall 114 constituting the ice compartment 120.
- the door supply duct 122 and the door return duct 124 are vertically arrayed, and the door supply duct 122 is disposed over the door return duct 124.
- the positions of the door supply duct 122 and the door return duct 124 are not limited thereto.
- the door supply duct 122 is aligned and communicates with the main body supply duct 106
- the door return duct 124 is aligned and communicates with the main body return duct 108.
- the ice compartment 120 includes a cool air duct 290 guiding cool air flowing in the door supply duct 122 to the ice making assembly 200.
- the cool air duct 290 includes a passage through which cool air flows, and cool air flowing in the cool air duct 290 is finally supplied to the ice making assembly 200. Since cool air may be concentrated to the ice making assembly 200 through the cool air duct 290, the ice cubes may be rapidly generated.
- the refrigerator compartment door 11 includes a first connector 125 for supplying an electric source to the ice making assembly 200.
- the first connector 125 is exposed to the ice compartment 120.
- the refrigerator compartment door 11 includes a water supply pipe 126 for supplying water to the ice making assembly 200.
- the water supply pipe 126 is disposed between the outer case 111 and the door liner 112, and its end passes through the door liner 112 and is disposed at the ice compartment 120.
- An ice opening 127 for discharging ice is disposed at the lower side of the inner wall 114 of the door liner 112 constituting the ice compartment 120.
- An ice duct 150 communicating with the ice opening 127 is disposed at the lower side of the ice compartment 120.
- the ice duct 150 includes a passage through which the ice cubes are moved.
- Figs. 5 and 6 are perspective views of the ice making assembly according to the first embodiment.
- the ice making assembly 200 defines spaces where ice cubes are generated, and includes an ice maker 210 supporting generated ice cubes, a driving source 220 providing power for automatically rotating the ice maker 210 to remove ice cubes from the ice maker 210, a gear box 224 transmitting the power of the driving source 220 to the ice maker 210, a cover 230 covering the ice maker 210 to prevent the overflow of water when the water is supplied to the ice maker 210, and a water guider 240 guiding water supplied from the water supply pipe 126 to the ice maker 210.
- the ice making assembly 200 includes a support mechanism 250 including a seat part 215 on which the ice maker 210 is placed, an ice bin 300 storing ice cubes removed from the ice maker 210, a full ice sensor 270 for sensing full ice state of the ice bin 300, and a motor assembly 280 selectively connected to the ice bin 300.
- An electric wire connected to the motor assembly 280 and an electric wire connected to the driving source 220 are connected to a second connector 282 that is removably coupled to the first connector 125.
- the driving source 220 may include a motor that may be rotatable in both directions.
- the support mechanism 250 includes a first support part 252 and a second support part 260 coupled to the first support part 252.
- the first support part 252 is placed on the ice compartment 120.
- the motor assembly 280 is installed on the first support part 252.
- An ice opening 253 through which ice discharged from the ice bin 300 pass is disposed in the bottom surface of the first support part 252.
- the ice bin 300 is placed on the first support part 252. That is, the first support part 252 supports the ice bin 300.
- the motor assembly 280 When the ice bin 300 is placed on the first support part 252, the motor assembly 280 is connected to the ice bin 300.
- the state where the ice bin 300 is placed on the first support part 252 means the state where the ice compartment 120 accommodates the ice bin 300.
- the seat part 215 on which the ice maker 210 is placed is installed on the second support part 260.
- the ice maker 210 includes a rotation shaft 212 at a side.
- the rotation shaft 212 is rotatably coupled to the seat part 215.
- An extension part (not shown) extending from the gear box 224 is connected to another side of the ice maker 210.
- the full ice sensor 270 is installed on the second support part 260 at a position spaced apart from the ice maker 210.
- the full ice sensor 270 is disposed under the ice maker 210.
- the full ice sensor 270 includes a transmission part 271 transmitting a signal, and a receiving part 272 spaced apart from the transmission part 271 and receiving a signal from the transmission part 271.
- the transmission part 271 and the receiving part 272 are disposed in the inner space of the ice bin 300 when the ice bin 300 is placed on the first support part 252.
- Fig. 7 is a perspective view of an ice bin according to the first embodiment.
- an opening 310 is defined at an upper side of the ice bin 300.
- the ice bin 300 has a front wall 311, a rear wall 312, and sidewalls 313.
- An inclined guide surface is disposed inside the ice bin 300 to support the stored ice cubes and guide the stored ice cubes such that the ice cubes are moved downwardly by their self-weight.
- An ice storage space 315 in which the ice cubes are stored is defined by the front wall 311, the rear wall 312, the sidewalls 313, and the inclined guide surface 320.
- the inclined guide surface 320 includes a first inclined guide surface 321 and a second inclined guide surface 322.
- the first inclined guide surface 321 is inclined downwardly from one wall of the sidewalls 313 toward a central portion.
- the second inclined guide surface 322 is inclined downwardly from the other wall of the sidewalls 313 toward the central portion.
- An ice discharge member 400 is disposed between the first inclined guide surface 321 and the second inclined guide surface 322 to discharge the ice cubes received in the ice bin 300 to the outside of the ice bin 300. That is, the first inclined guide surface 321 and the second inclined guide surface 322 are disposed at left and right sides of the ice discharge member 400.
- the ice discharge member 400 includes one or more rotation blades 410 to define a predetermined space 411 in which the ice cubes are disposed.
- the ice discharge member 400 may include a plurality of rotation blades 410 to easily discharge the ice cubes.
- the ice discharge member 400 including the plurality of rotation blades 410 will be described as an example.
- the ice cubes disposed on the first inclined guide surface 321 and the second inclined guide surface 322 are moved toward the ice discharge member 40 by their self-weight. Then, the ice cubes are discharged to the outside of the ice bin 300 by an operation of the ice discharge member 400.
- a discharge part 500 having a discharge opening 510 in which the ice cubes are finally discharged is disposed between the first inclined guide surface 321 and the second inclined guide surface 322.
- the ice discharge member 400 is forwardly/reversely and rotatably (or rotatable in both directions) disposed on the discharge part 500.
- one or more fixed blades 480 interacting with the rotation blades 410 to crash the ice cubes are disposed at a side of a lower portion of the ice discharge member 400, i.e., a side of the discharge part 500.
- a plurality of fixed blades 480 may be disposed in ice bin 300.
- the ice bin 300 including the plurality of fixed blades 480 will be described as an example.
- the plurality of fixed blades 480 is spaced from each other, and the rotation blades 410 pass through a space between the plurality of fixed blades 480.
- an opening/closing member 600 selectively communicating with the discharge opening 510 and the ice storage space 315 to discharge ice cubes is disposed at the side of the lower portion of the ice discharge member 400, i.e., the side of the discharge part 500.
- An operation restriction part 650 is disposed below the opening/closing member 600 to restrict an operation range of the opening/closing member 600, thereby preventing the ice cubes from being excessively discharged.
- the discharge part 500 has a discharge guide wall 520 having a configuration corresponding to a rotational track of the rotation blade 410.
- the fixed blades 480 are disposed below the discharge guide wall 520.
- the discharge guide wall 520 prevents the crushed ice chips from remaining on the discharge part 500.
- An ice jam prevention part 330 protruding toward the rotation blade 410 is disposed on a back surface 312 of the front wall 311 of the ice bin 300 to prevent the ice cubes from being jammed between the rotation blades 410 and the front wall 311 of the ice bin 300.
- Fig. 8 is an exploded perspective view of the ice bin.
- the plurality of rotation blades 410 is fixed to a rotation axis 420.
- the rotation axis 420 passes through a connection plate 428 connected to a support plate 425 and the motor assembly (see reference numeral 280 of Fig. 6 ).
- the rotation axis 420 is horizontally disposed within the ice bin 300.
- the plurality of rotation blades 410 is disposed spaced from each other in a direction parallel to an extending direction of the rotation axis 420.
- the rotation axis 420 is connected to one side of each of the plurality of fixed blades 480. That is, the rotation axis 420 passes through the plurality of fixed blades 480.
- a through-hole 481 through which the rotation axis 420 passes is defined in the respective fixed blades 480.
- the through-hole 481 may have a diameter greater than that of the rotation axis 420 such that the fixed blades 480 are not moved when the rotation axis 420 is rotated.
- the plurality of rotation blades 410 and the plurality of fixed blades 480 may be alternately disposed in the direction parallel to the extending direction of the rotation axis 420.
- each of the plurality of fixed blades 480 is fixed to a lower side of the discharge guide wall 520.
- a fixing member 485 is connected to the other side of the respective fixed blades 480 and inserted into a groove 521 defined in the discharge guide wall 520.
- the opening/closing member 600 may be provided in one or plurality.
- the opening/closing member 600 is disposed at a lateral side of the plurality of fixed blades 480.
- the opening/closing member 600 is rotatably disposed on the discharge part 500.
- the opening/closing member 600 may be formed of an elastic material or supported by an elastic member 640 such as a spring.
- the ice discharge member 400, the fixed blade 480, and the opening/closing member 600 are disposed within the ice bin 300, and then, a front plate 311a constituting the front wall 311 of the ice bin 300 is disposed.
- a cover member 318 may be disposed at a lower portion of a front surface of the front plate 311a to prevent the opening/closing member 600 or the fixed blade 480 from being exposed to the outside.
- Fig. 9 is an exploded perspective view of an ice discharge member.
- an elastic member 429 having a coil shape is disposed between the support plate 425 and the connection plate 428 to elastically support the connection plate 428.
- an insertion member 421 is inserted into a front end of the rotation axis 420.
- the motor assembly (see reference numeral 280 of Fig. 6 ) includes a connection member 320 selectively connected to the connection plate 428.
- a protrusion 430 on which the connection member 320 is hooked is disposed on the connection plate 428.
- connection member 320 When the protrusion 430 and both ends of the connection member 320 are aligned with each other in a state where a user receives the ice bin 300 into the ice compartment 120, the connection member 320 is not hooked on the protrusion 430. In this case, the guide plate 428 is moved toward the support plate 425 by the elastic member 429.
- connection plate 428 is moved backwardly by the elastic member 429, and thus, both ends of the connection member 320 is hooked on the protrusion 430.
- the support plate 425 has an inclined surface 426 to smoothly move the ice cubes disposed on a lateral surface of the support plate 425 toward the plurality of rotation blades 410.
- Fig. 10 is a front view of a rotation blade of the ice bin.
- the respective rotation blades 410 include a central portion 412 through which the rotation axis 420 passes and extension parts 413 radially extending from the central portion 412.
- a through-hole 415 through which the rotation axis 420 passes is defined in the central portion 412.
- the through-hole may have a non-circular shape or a long hole shape to smoothly transmit a rotation force of the rotation axis 420 to the central portion 412.
- the plurality of extension parts 413 may be spaced from each other.
- a space 411 in which the ice cubes are disposed is defined between the two extension parts 413 adjacent to each other.
- the respective extension parts 413 have a width gradually increasing from the central portion 412 toward the outside.
- a hook part 416 is disposed on an end of the extension part 413 to prevent the ice cubes disposed in the space 411 from overflowing.
- a crash part having a saw-tooth shape is disposed at one side of the extension part 413 to crash the ice by interacting with the fixed blade 480.
- a smooth surface is disposed at the other side of the extension part 413 to move the ice cubes to a side opposite to the crash part 418 while the ice cubes are maintained in the ice cube state.
- the crash part 418 of one extension part 418 is disposed at a side opposite to the smooth surface of the other extension part 418 in one space 411.
- Fig. 11 is a front view of the ice discharge member, a fixed blade, and an opening/closing member of the ice bin.
- the plurality of rotation blades 410 when the rotation blade 410 is connected to the rotation axis 420, the plurality of rotation blades 410 does not completely overlap, but is disposed in a slightly twisted state from a front side toward a rear side.
- the plurality of rotation blades 410 does not completely overlap each other, but is disposed in a state in which the behind rotation blade 410 is rotated by a predetermined angle.
- the ice cubes contact the crush part 418 of the first rotation blade 410 and thus are crushed. Thereafter, the crushed ice cubes sequentially contract the crush part 418 of the second rotation blade 410, and then the crush part 418 of the third rotation blade 410 with a predetermined time interval.
- the rotation force of the ice discharge member 400 may be concentrated into the respective crush parts 418 to significantly improve the ice crush efficiency.
- the crush part 488 having the saw-tooth shape may be disposed on the fixed blade 480 to crush the ice cubes.
- the opening/closing member 600 is disposed in a lateral direction of the fixed blade 480.
- the opening/closing member 600 includes a rotation part 605 rotatably disposed within the ice bin 300.
- the rotation part 605 is elastically supported by the elastic member 640 having a torsion spring shape.
- the elastic member 640 has one end fixed to the ice bin 300 and the other end seated on a surface of the opening/closing member 600 to elastically support the opening/closing member 600.
- the opening/closing member 600 has a rounded first guide surface 610 and a second guide surface 612 connected to the rotation part 605. At this time, the second guide surface 612 and the second inclined guide surface (see reference numeral 322 of Fig. 6 ) constitutes a continuous surface.
- Fig. 12 is a perspective view of the opening/closing member of Fig. 11 .
- the opening/closing member 600 may be provided in plurality.
- the plurality of opening/closing members 600 is independently moved with respect to each other.
- a single opening/closing member 600 is disposed within the ice bin 300, other ice cubes may be discharged through a gap at which the ice is not disposed when the ice cubes are not discharged but stay on only a portion of the first guide surface 610 of the opening/closing member 600.
- the other opening/closing member 600 on which the ice cubes are not hooked may maintain a close state to prevent the ice cubes from being unnecessarily discharged.
- the elastic member 640 may be disposed on each of the plurality of opening/closing members 600.
- the respective opening/closing members 600 include a hook jaw 615 to prevent the ice cubes jammed between the opening/closing members 600 and the plurality of rotation blades 410 from being discharged to the outside when each of the opening/closing members 600 is in the close state.
- the hook jaw 615 may be disposed on an end of a top surface of the first guide surface 610.
- Fig. 13 is a front view illustrating the inside of the ice bin
- Fig. 14 is a bottom view of the ice bin.
- the first inclined guide surface 321 is disposed adjacent to the plurality of fixed blades 480.
- the second inclined guide surface 322 is disposed adjacent to the opening/closing member 600 through which the ice cubes are discharged.
- a discharge guide wall 520 connected to the first inclined guide surface 321 is disposed at a side of the discharge part 500.
- the second inclined guide surface is divided into two sections. This is done for adjusting a movement speed of the ice cubes moved along the second inclined guide surface 322 toward the ice discharge member 400 to prevent the ice cubes being broken out.
- the second inclined guide surface 322 includes an outwardly inclined guide surface 322b connected to the sidewalls 313 of the ice bin 300 and an inwardly inclined guide surface 322a connected to the outwardly inclined guide surface 322b and disposed adjacent to the ice discharge member 400.
- the inwardly inclined guide surface 322a is inclined at an angle less than that of the outwardly inclined guide surface 322b. Thus, the ice cubes downwardly moved along the outwardly inclined guide surface 322b are reduced in speed at the inwardly inclined guide surface 322a.
- the second guide surface 612 of the opening/closing member 600 is disposed at an end of the inwardly inclined guide surface 322a to constitute a continuous surface together with the inwardly inclined guide surface 322a.
- the opening/closing member 600 closes the discharge opening 510, the second guide surface 612 and the inwardly inclined guide surface 322a form the continuous surface to reduce the movement speed of the ice cubes.
- the opening/closing member 600 opens the discharge opening 510, the second guide surface 612 is downwardly moved to guide the ice cubes toward the discharge opening 510.
- An inclination end point 321a of the first inclined guide surface 321 is disposed at a position higher than that of the rotation axis 420 of the ice discharge member 400. This is done for preventing fragments of the ice cubes crushed at a position at which the fixed blade 480 is disposed from being upwardly moved again.
- the discharge guide wall 520 may have a curvature corresponding to that of the rotational track of the rotation blade 410.
- the second inclined guide surface 322 may be inclined at an angle less than that of the first inclined guide surface 321.
- the inwardly inclined guide surface 322a of the second inclined guide surface 322 may be inclined at the substantially same angle as that of the second guide surface 612 of the opening/closing member 600 to form a continuous surface.
- the rotation part 605 of the opening/closing member 600 is disposed at a position lower than that of the rotation axis 420 of the ice discharge member 400 such that the second inclined guide surface 322 is inclined at an angle less than that of the first inclined guide surface 321.
- the operation restriction part 650 for restricting an opening angle of the opening/closing member 600 is disposed below the opening/closing member 600.
- the operation restriction part 650 includes a vertically disposed first rib 651, a second rib 652 spaced from the first rib 651 and having a height greater than that of the first rib 651, and an inclined contact part 653 connecting an upper portion of the first rib 651 to an upper portion of the second rib 652.
- the opening/closing member 600 is stopped by contacting the contact part 653.
- the opening/closing member 600 may be provided in plurality. Also, the opening/closing members 600 may have maximum opening angles different from each other, respectively.
- Fig. 15 is a plan view of the ice bin.
- the ice jam prevention part 330 is disposed inside the front wall 311 of the ice bin 300.
- the ice jam prevention part 330 protrudes or extends inwardly from the front wall 311 of the ice bin 300.
- the ice jam prevention part 330 disposed in a space between the rotation blade 410 disposed at the most front side of the plurality of rotation blades 410 and the front wall 311.
- the ice jam prevention part 330 may be disposed above a portion at which the crushed ice cubes are discharged.
- Fig. 16 is a vertical sectional view of the refrigerator compartment door of the first embodiment.
- Fig. 17 is an enlarged view illustrating a portion B of Fig. 16 .
- Fig. 18 is a view of a state in which an ice maker is rotated to separate ice from the ice maker of Fig. 16 .
- the ice bin 300 is substantially vertically disposed below the ice maker 210 in a state where the ice making assembly 200 is disposed within the ice compartment 120.
- an inlet 301a of the opening 310 of the ice bin 300 is disposed at a position lower than that of the ice maker 210.
- the ice bin 300 when the ice compartment door 130 closes the ice compartment 120, the ice bin 300 is not disposed in a first region A between the ice compartment door 130 and the ice maker 210. That is, the ice bin 300 may be disposed in a second region except for the first region between the ice compartment door 130 and the ice maker 210 in an entire region of the ice compartment 120.
- the ice bin 300 does not need to dispose the ice bin 300 in the first region A because the ice maker 210 is tuned over by its rotation operation to separate ice cubes I from the ice maker 210 due to ice cubes' self-weight, thereby dropping into the ice bin 300. That is, since the ice cubes I separated from the ice maker 210 do not pass through the first region A, the ice bin need not be disposed in the first region A.
- the ice compartment door 130 may be disposed further adjacent to the ice maker 210. As a result, a total thickness of the refrigerator compartment door 11 may be reduced. That is, the refrigerator compartment door 11 may be slim.
- the plurality of rotation blades 410 may be disposed spaced from each other in a direction parallel to the extending direction of the rotation axis 420.
- the plurality of rotation blades 410 may be disposed within a range of a front-rear width W of the ice maker 210.
- a portion of the plurality of ice cubes separated from the ice maker 210 directly drops into at least one rotation blade of the plurality of rotation blades 410. That is, the ice cubes I separated from the ice maker 210 drop down by their self-weight, and one or more ice cubes I of the dropping ice cubes I directly contact at least one rotation blade 410.
- a dropping direction of the ice cubes I separated from the ice maker 210 crosses the extending direction of the rotation axis 420.
- the dropping direction of the ice cubes I separated from the ice maker 210 is substantially parallel to a virtual surface defined when the plurality of rotation blades 410 is rotated.
- a horizontal distance from the ice compartment door 130 to the rotation shaft 212 of the ice maker 210 is greater than the shortest horizontal distance from the ice compartment door 130 to the discharge opening 510.
- a plurality of insulation material different from each other is disposed within the refrigerator compartment door 11 to insulate the refrigerator compartment from the outside.
- the plurality of insulation materials includes a first insulation material 116 and a second insulation material 117.
- the first insulation material 116 includes a vacuum insulation panel (VIP)
- the second insulation material 117 includes expanded poly styrene (EPS) or expanded polyurethane.
- the first insulation material 116 is disposed between a surface 112a recessed for defining the ice compartment 120 of the door liner 112 and the outer case 111. At this time, since the ice bin 300 is disposed in the ice compartment, the first insulation material 116 may be disposed between the outer case 111 and the ice bin 300. Also, the first insulation material 116 faces the ice bin 300.
- the first insulation material 116 may be disposed at a front side of the ice bin 300.
- the first insulation material 116 may have a vertical length equal to or greater than that of the ice bin 300.
- the first insulation material 116 may have the vertical length equal to or greater than that of the ice compartment 120. The is done because the ice compartment is effectively insulated from the outside when the first insulation material 116 has the vertical length equal to or greater than that of the ice compartment 120.
- the first insulation material 116 may be fixed to the outer case 111.
- the first insulation material 116 may be attached to an inner surface of the outer case 111 by an adhesive 118.
- the outer case 111, the adhesive 118, the first insulation material 116, the second insulation material 117, and the door liner 112 are sequentially disposed.
- the first insulation material 116 and the second insulation material 17 are disposed in front and rear directions to form a layer, thereby preventing heat from being transferred in the front and rear directions of the refrigerator compartment door 11.
- the VIP may include a core material formed of compressed glass fiber and an envelope material surrounding the core.
- a glass fiber is dispersed on an inorganic binder, and then, a plurality of glass fiber boards manufactured using a paper manufacturing method is stacked to form the core material.
- the envelope material having a stacked structure of a passivation layer, a metal barrier layer, and an adhesive layer is formed.
- a getter manufactured by packaging CaO powder using a pouch is formed.
- the getter is attached to a top surface of the core material or inserted into the top surface of the core material to form the envelope material as an encapsulant.
- the core material is inserted into the encapsulant and sealed in a vacuum state to complete the VIP.
- the plurality of glass fiber boards each having a thickness of about 4 nm to about 10 nm, is stacked to form the core material.
- the glass fiber board is manufactured by dispersing the glass fiber on the inorganic binder.
- a single fiber having a diameter of about 0.1 ⁇ m to about 10 ⁇ m may be used as the glass fiber.
- waterglass formed of water, silica powder, and NaOH may be used as the inorganic binder.
- the glass fiber board having a superior insulation board property with porosity of about 80% or more may be manufactured.
- the glass fiber has a diameter of less than about 0.1 ⁇ m, it may be difficult to form a board configuration because of very fine particles.
- the glass fiber board has a pore diameter exceeding about 20 ⁇ m to deteriorate the insulation property.
- the envelope material includes the adhesive layer, the metal barrier layer formed on a top surface of the adhesive layer, and the passivation layer, which are sequentially stacked.
- the adhesive layer is a layer that is thermally fused to another layer by a heat sealing to maintain a vacuum state.
- the adhesive layer may be formed of one or more thermoplastic films selected from the group consisting of high density polyethylene (HDPE), low density polyethylene (LDPE), linear low density polyethylene (LLDPE), cast polypropylene (CPP), oriented polypropylene (OPP), polyvinylidene chloride (PVDC), polyvinyl chloride (PVC), ethylene vinylacetate (EVA), and ethylene vinyl alcohol (EVOH).
- the adhesive layer may have a thickness of about 1 ⁇ m to about 100 ⁇ m to provide a sufficient sealing property.
- a metal thin film having a thickness of about 6 ⁇ m to about 7 ⁇ m is formed on the adhesive layer as the barrier layer to interrupt gas and protect the core material.
- an Al foil may be generally used as a metal barrier layer. Since Al is a metal material, crack phenomenon may occur when the metal material is folded. Thus, to avoid the crack phenomenon, the passivation layer may be disposed on the metal barrier layer.
- a poly ethylene terephtalate (PET) film having a thickness of about 10 ⁇ m to about 14 ⁇ m and a nylon film having a thickness of about 20 ⁇ m to about 30 ⁇ m are stacked to form the passivation layer of the envelope material.
- PET poly ethylene terephtalate
- nylon film having a thickness of about 20 ⁇ m to about 30 ⁇ m
- a vinyl-based resin layer may be coated on the PET to prevent the PET/nylon film from being damaged.
- the getter includes the pouch containing CaO.
- CaO powder having purity of about 95% or more is used, and the pouch includes a crepe paper and a PP-impregnated nonwoven fabric to secure moisture absorption performance of about 25% or more.
- the getter may have a thickness of 2 mm or less.
- the insulation property may be maximized.
- the VIP may have an insulation effect increased several times higher than that of an existing an expanded poly styrene or an expanded polyurethane.
- the expanded polyurethane has a thermal conductivity of about 0.03 kcal/mhr°C
- the VIP has a thermal conductivity of about 0.002 kcal/mhr°C to about 0.006 kcal/mhr°C.
- the ice compartment 120 should be maintained at a temperature of about 0 degree, like the freezer compartment 104.
- the ice compartment may be effectively insulated from the outside, and also, the freezer compartment door may be reduced in thickness.
- a thickness between the recessed surface 112a in which the ice compartment 120 is defined and the outer case 111 is reduced, a portion at which the ice compartment is defined in the freezer compartment door 11 may be reduced in thickness.
- An opening (not shown) into which a liquid for foaming is injected may be defined in the freezer compartment door 11. After the foaming process is completed, the opening may be covered by an opening cover (not shown).
- first insulation material 160 and a second insulation material 162 which are different from each other, may be disposed within the ice compartment door 130 to insulate the ice compartment 120 from the refrigerator compartment 102.
- the first insulation material 160 may be a VIP
- the second insulation material 162 may be an expanded poly styrene or expanded polyurethane. Since the ice compartment door 130 is reduced in thickness due to the VIP, the insulation performance may be improved.
- the dispenser 17 includes a dispenser housing 171.
- the dispenser housing 171 has a recessed surface 171a to define a space in which a vessel or cup for receiving the dispensed ice cubes is disposed.
- a horizontal distance D1 from a line L1 defined on a surface equally dividing the ice compartment 120 to the outer case 111 is less than that D2 from the recessed surface 171a to the outer case 111.
- the line L1 passes through an inlet 152 and an outlet 154 of the ice duct 150.
- the rotation axis 420 passes through the surface equally dividing the ice compartment 120.
- a horizontal distance D3 from the outer case 111 disposed at a side of the inlet 152 of the ice duct 150 to the door liner 112 is less than that D4 from the outer case 111 disposed at a side of the outlet 154 of the ice duct 150 to the door liner 112.
- Fig. 19 is a front view of a state in which ice chips are discharged from the ice bin
- Fig. 20 is a front view of a state in which ice cubes are discharged from the ice bin.
- the driving source 220 is operated to separate the ice cubes from the ice maker 210.
- a power of the driving source 220 is transmitted to the ice maker 210 by the gear box 224 to rotate the ice maker 210 on a whole.
- the ice cubes are separated by the twisting operation of the ice maker 210.
- the twisting operation of the ice maker 210 is performed, one end and the other end of the ice maker 210 are twisted by their relative motion.
- the ice cubes are separated from the ice maker 210. Since a principle of the twisting operation of the ice maker 210 is well-known, detailed descriptions will be omitted.
- the ice cubes separated from the ice maker 210 drop into the ice bin 300 through the inlet 301a of the opening 310 of the ice bin 300.
- at least one ice cube separated from the ice maker 210 may drop onto the plurality of rotation blades 410, another the ice cubes may drop onto the first inclined guide surface 321, and further another ice cubes may drop onto the second inclined guide surface 322.
- the ice cubes disposed in the space 411 of the plurality of rotation blades 410 are disposed on the fixed blade 480 by the rotation of the rotation blades 410.
- the ice cubes disposed in the space 411 may be the ice cubes directly dropping onto the plurality of rotation blades 410 or the ice cubes sliding along the first inclined guide surface 321.
- the opening/closing member 600 may prevent the ice cubes disposed on the second inclined guide surface 322 from being discharged.
- the ice cubes disposed in the space 411 of the plurality of rotation blades 410 may be the ice cubes directly dropping onto the plurality of rotation blades 410 or the ice cubes sliding along the second inclined guide surface 322.
- the opening/closing member 600 is downwardly rotated (in a counterclockwise direction when viewed in Fig. 19 ) by the compression force of the ice cubes and the rotation blades 410.
- a space is defined between an end of the extension part 413 of the respective rotation blades 410 and an end of the opening/closing member 600. Then, the ice cubes are moved into the space, and finally, the ice cubes are discharged to the outside.
- a summary of the movement of the ice cubes within the ice bin 300 is as follows.
- the ice cubes dropping onto the plurality of rotation blades 410 are downwardly moved when the plurality of rotation blades 410 is rotated.
- the ice cubes dropping onto the first inclined guide surface 321 are moved into the space 411 by their self-weight when the plurality of rotation blades 410 is rotated in the first direction.
- the plurality of rotation blades 410 is rotated, the ice cubes within the space 411 are downwardly moved.
- the ice cubes dropping onto the second inclined guide surface 322 are moved into the space 411 by their self-weight when the plurality of rotation blades 410 is rotated in the second direction.
- the plurality of rotation blades 410 is rotated, the ice cubes within the space 411 are downwardly moved.
- the ice cubes disposed on the respective inclined surfaces 321 and 322 are not moved in a state where the operation of the plurality of rotation blades 410 is stopped.
- the stored ice cubes may be discharged to the outside by the rotation operation of the plurality of rotation blades 410 without requiring an additional transfer unit within the ice bin 300.
- the ice cubes within the ice bin 300 are moved only from upper side to lower side, i.e., the inlet 301a of the ice bin 300 to the discharge opening 510 except for the mutual movement between the ice cubes.
- Fig. 21 is a side view of the refrigerator compartment door.
- the door liner 112 when viewed from the outside of the refrigerator compartment door 11, the door liner 112 has a top surface 181, a pair of lateral surfaces 182 extending from both ends of the top surface 181, a bottom surface connecting lower ends of the pair of lateral surface 182 to each other, and a back surface 184 connecting the top surface, the pair of lateral surface 182, and the bottom surface 183 to each other.
- the back surface 184 may have a height difference.
- the back surface 184 includes a first back surface 184a on which the ice compartment 120 is defined and a second back surface 184b facing the dispenser 17.
- the first back surface 184a and the second back surface 184b are connected to each other by a connection surface 185.
- Each of the lateral surfaces 182 includes a first lateral surface 182a connected to the first back surface 184a and a second back surface 182b disposed on the back surface 184b.
- a first width W1 of the first lateral surface 182a may be less than that a second width W2 of the second lateral surface 182b due to a change of the position of the recessed surface 112a of the door liner 112 according to the VIP and the decrease of the thickness of the ice bin 300 according to the ice bin having the improved structure.
- a horizontal distance from a front surface of the outer case 111 to the first back surface 184a is less than that from the front surface of the outer case 111 to the second back surface 184b.
- a portion at which the ice compartment 120 is defined has a thickness less than that of a portion at which the dispenser 17 is disposed.
- the ice compartment door 130 is disposed in a space defined by a width difference between the first lateral surface 182a and the second lateral surface 182b. That is, the ice compartment door 130 is disposed at a side of the first back surface 184a. When the ice compartment door 130 closes the ice compartment 120, at least portion of the ice compartment door 130 is disposed directly below the connection surface 185.
- the refrigerator compartment door 11 does not significantly increase in thickness even through the ice compartment door 130 is disposed at the side of the first bask surface 184a.
- Fig. 22 is a perspective view of a refrigerator according to a second embodiment.
- This embodiment is equal to the first embodiment except for a kind of refrigerator and a position of an ice making assembly. Thus, only specific portions of this embodiment will now be described.
- a refrigerator 70 of this embodiment may be a side-by-side type refrigerator in which a refrigerator compartment 712 and a freezer compartment 714 are disposed at left and right sides, respectively.
- the freezer compartment 712 is opened and closed by a freezer compartment door 720
- the refrigerator compartment 714 is opened and closed by a refrigerator compartment door 730.
- the refrigerator compartment door 720 includes an outer case and a door liner, like the refrigerator compartment door 720 of the first embodiment.
- the refrigerator 70 includes an ice making assembly 740 for generating ice cubes.
- the ice making assembly 740 includes an ice maker 750 for generating the ice cubes and an ice bin 760 for storing the ice cubes separated from the ice maker 750.
- the ice making assembly has the same structure as that of the first embodiment except positions of the ice maker and the ice bin.
- the ice maker 750 is disposed in the freezer compartment 712, and the ice bin 760 is separably disposed in the freezer compartment door 720.
- the freezer compartment door 720 closes the freezer compartment 712, the ice bin 760 is disposed below the ice maker 750.
- a first insulation material and a second insulation material may be disposed within the refrigerator compartment door 720.
- the first insulation material is disposed between the ice bin 760 and the outer case.
- the refrigerator compartment door may be reduced in thickness by a VIP.
- Fig. 23 is a perspective view of a refrigerator according to a third embodiment.
- This embodiment is equal to the second embodiment except for a position of an ice making assembly. Thus, only specific portions of this embodiment will now be described.
- a freezer compartment door 770 of this embodiment includes a door liner 772 defining an ice compartment 774.
- the ice compartment 774 includes an ice making assembly 780.
- the ice making assembly 780 has the same structure as that of the first embodiment.
- a first insulation material and a second insulation material may be disposed in the freezer compartment door 770.
- the freezer compartment door may be reduced in thickness due to the first insulation material (e.g., VIP) and the improved ice bin.
- first insulation material e.g., VIP
- Fig. 24 is a perspective view of a refrigerator according to a fourth embodiment
- Fig. 25 is a perspective view of a state in which an ice bin of Fig. 24 is rotated.
- This embodiment is equal to the first embodiment except for a position of an ice making assembly. Thus, only specific portions of this embodiment will now be described.
- a bottom freeze type refrigerator as an example will be described as an example.
- An ice bin 860 is disposed in one of refrigerator compartment doors 820 and 830.
- Other components e.g., an ice maker 850
- freezer compartment 812 e.g., freezer compartment 812.
- a structure in which the ice bin 860 is disposed in the left freezer compartment door 820 will be described.
- a VIP may be disposed in the refrigerator compartment door 820. Since this is previously described, detailed descriptions will be omitted.
- An insulation case 870 for insulating a space in which ice cubes are generated from the refrigerator compartment 812 is disposed in the refrigerator compartment 812.
- the ice maker 850 is disposed within the insulation case 870.
- a bottom surface of the insulation case 870 may be opened, and thus, the ice cubes generated in the ice maker 850 may drop down.
- the refrigerator compartment door 820 includes an outer case 820a and a door liner 820b.
- a dike 821 for installing the ice bin 860 is disposed on the door liner 820b.
- the dike 821 may be integrated with the door liner 820b. Alternatively, the dike 821 may be separately manufactured and coupled to the door liner 820b.
- the dike 821 has a top surface 823 in which an opening 823a through which ice cubes pass is defined, both lateral surfaces 822, a bottom surface 824, and a back surface 825.
- a sealer 823b may be disposed on the opening 823a.
- the dike 821 may not have a top surface, and thus, a separate cover having an opening may be disposed on the dike 821 or coupled to an upper portion of the ice bin 860 to cover the ice bin 860.
- a mounting part 826 on which the ice bin 860 is mounted is disposed on the dike 821.
- the mounting part 826 may be recessed from the back surface 825 toward the outer case 820a.
- the ice bin 860 may be separately disposed on the mounting part 826 or rotatably connected to the mounting part 826.
- the ice bin 860 may be separated from the mounding part 826 even through the ice bin 860 is rotatably disposed on the mounting part 826.
- Fig. 25 illustrates a structure in which the ice bin 860 is rotatably connected to the mounding part 826.
- the ice bin 890 is a region in which the ice cubes are stored, an inner space of the ice bin 860 should be maintained at a temperature similar to that of the freezer compartment. That is, the refrigerator compartment 812 should be maintained at a temperature of greater than about 0 degree, and the inner space of the ice bin 860 should be maintained at a temperature of less than about 0 degree.
- the refrigerator compartment door 820 closes the refrigerator compartment 812, the ice bin 860 is disposed within the refrigerator compartment 812.
- the ice bin 860 may include an insulated bin cover 862.
- the dike 821 may perform an insulation function. That is, the dike 821 may serve as an insulation case.
- a filler 880 is disposed on a side of the dike 821.
- the filler 880 prevents cool air from leaking through a space between the refrigerator compartment doors 820 and 830 when the plurality of refrigerator compartment doors 820 and 830 is closed.
- a heater 882 for preventing frost from being generated on the filler may be disposed within the filler 880.
- the cool air is supplied to the ice bin 860.
- the ice bin 860 is disposed below the insulation case 870.
- the cool air within the insulation case 870 and the ice cubes generated in the ice maker 850 are supplied to the ice bin 860.
- a return passage 827 is disposed at the other side of the dike 821.
- a cool air return duct 814 is disposed in a sidewall of the refrigerator compartment 812.
- the ice bin can be reduced in thickness.
- the refrigerator compartment door can be reduced in thickness by the decrease of the thickness of the ice bin and the position of the ice bin within the ice compartment according to the separation method of the ice cubes from the ice maker.
- the refrigerator door can become very slim.
- the refrigerator compartment door When the ice compartment is defined in the refrigerator compartment door, the refrigerator compartment door is divided into a portion for insulating the ice compartment from the outside and a portion for insulating the refrigerator compartment from the outside.
- the door thickness of the portion at which the ice compartment is defined can be reduced to realize the slim refrigerator door.
- a basket for additionally receiving the food can be disposed in the refrigerator door.
- the receivable capacity of the storage compartment can increase.
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- Engineering & Computer Science (AREA)
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- Thermal Sciences (AREA)
- General Engineering & Computer Science (AREA)
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Claims (14)
- Réfrigérateur comprenant :une enceinte (10) définissant un compartiment de stockage (102) ;une porte (11) ouvrant et fermant le compartiment de stockage (102), la porte (11) comprenant :une caisse externe (111) ;une garniture de porte (112) ;un appareil à glaçons (210) générant des glaçons ;un bac à glaçons (300) disposé en dessous de l'appareil à glaçons (210) pour stocker les glaçons générés dans l'appareil à glaçons (210) ; etun distributeur (17) prévu au niveau de la porte (11), le distributeur (17) distribuant les glaçons stockés dans le bac à glaçons (300) ;caractérisé en ce queun panneau d'isolation sous vide (116) est disposé entre la caisse externe (111) et le bac à glaçons (300) pour isoler le compartiment de stockage (102) d'un extérieur ;un compartiment à glaçons (120) est défini par la garniture de porte (112) ;une porte de compartiment à glaçons (130) est reliée de manière rotative à la garniture de porte (112) par une charnière (139) pour ouvrir ou fermer le compartiment à glaçons (120) ;la garniture de porte (112) est accouplée à la caisse externe (111) pour définir une surface arrière de la porte (11) ; et en ce quel'appareil à glaçons (210) est disposé à l'intérieur du compartiment à glaçons (120).
- Réfrigérateur selon la revendication 1, dans lequel le panneau d'isolation sous vide (116) est disposé entre la garniture de porte (112) et la caisse externe (111).
- Réfrigérateur selon la revendication 1, dans lequel un matériau d'isolation supplémentaire (117) différent du panneau d'isolation sous vide (116) est disposé dans un second espace à l'exception d'un premier espace, le panneau d'isolation sous vide (116) est disposé dans le premier espace entre la caisse externe (111) et la garniture de porte (112).
- Réfrigérateur selon la revendication 3, dans lequel le panneau d'isolation sous vide (116) adhère à la caisse externe (111) par un adhésif, et
la caisse externe (111), l'adhésif, le panneau d'isolation sous vide (116), le matériau d'isolation supplémentaire (117) et la garniture de porte (112) sont séquentiellement disposés sur une portion, au niveau de laquelle est disposé le panneau d'isolation sous vide (116), de la porte (11). - Réfrigérateur selon la revendication 1, dans lequel le panneau d'isolation sous vide (116) a une longueur verticale supérieure ou égale à celle du bac à glaçons (300).
- Réfrigérateur selon la revendication 1, dans lequel le compartiment de stockage (102) est un compartiment de réfrigérateur.
- Réfrigérateur selon la revendication 6, comprenant en outre un autre panneau d'isolation sous vide (160) disposé dans la porte de compartiment à glaçons (130).
- Réfrigérateur selon la revendication 6, dans lequel le panneau d'isolation sous vide (116) est disposé entre la garniture de porte (112) définissant le compartiment à glaçons (120) et la caisse externe (111).
- Réfrigérateur selon la revendication 6, dans lequel le panneau d'isolation sous vide (116) a une longueur verticale supérieure ou égale à celle du compartiment à glaçons (120).
- Réfrigérateur selon la revendication 1, dans lequel la garniture de porte (112) comprend une surface supérieure (181), une surface inférieure (183), les deux surfaces latérales (182) et une surface arrière (184),
la surface arrière (184) comprend une première surface arrière (184a) sur laquelle le bac à glaçons (300) est disposé et une seconde surface arrière (184b) ayant une différence de hauteur par rapport à la première surface arrière (184a) et faisant face au distributeur (17),
les surfaces latérales respectives (182) comprennent une première surface latérale (182a) reliée à la première surface arrière (184a) et une seconde surface latérale (182b) reliée à la seconde surface arrière (184b), et
la première surface latérale (182a) a une première largeur (W1) inférieure à une seconde largeur (W2) de la seconde surface latérale (182b). - Réfrigérateur selon la revendication 10, dans lequel la porte de compartiment à glaçons (130) est disposée dans un espace défini par une différence de largeur entre la première surface latérale (182a) et la seconde surface latérale (182b).
- Réfrigérateur selon la revendication 10, dans lequel le bac à glaçons (300) comprend au moins une lame de rotation (410) déchargeant les glaçons stockés et un axe de rotation (420) relié à l'au moins une lame de rotation (410), et
les glaçons stockés dans le bac à glaçons (300) sont déplacés vers l'au moins une lame de rotation (410) dans une direction croisant une direction d'extension de l'axe de rotation (420) sous l'effet de la rotation de l'au moins une lame de rotation (410). - Réfrigérateur selon la revendication 10, dans lequel le distributeur (17) comprend un boîtier de distributeur (171) ayant une surface évidée (171a) pour définir un espace dans lequel un récipient est disposé pour recevoir les glaçons déchargés à partir du bac à glaçons (300), et
une distance horizontale depuis une ligne (L1) définie sur une surface divisant de manière égale le compartiment à glaçons (120) dans une direction avant/arrière de la porte (11) à la caisse externe (111) est inférieure à une distance horizontale depuis la surface évidée (171a) à la caisse externe (111). - Réfrigérateur selon la revendication 10, comprenant en outre un conduit à glaçons (150) disposé au niveau d'un côté inférieur du compartiment à glaçons (120), le conduit à glaçons (150) comprenant une entrée (152) à travers laquelle les glaçons sont introduits et une sortie (154) à travers laquelle les glaçons sont déchargés,
une distance horizontale (D3) depuis la caisse externe (111) disposée au niveau d'un côté de l'entrée (152) du conduit à glaçons (150) à la garniture de porte (112) est inférieure à une distance horizontale (D4) depuis la caisse externe (111) disposée au niveau d'un côté de la sortie (154) du conduit à glaçons (150) à la garniture de porte (112).
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP21190521.1A EP3995768A1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP21190519.5A EP3961134A1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP19167614.7A EP3537076B1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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KR1020090129332A KR20110072421A (ko) | 2009-12-22 | 2009-12-22 | 냉장고 |
KR1020090129333A KR101691226B1 (ko) | 2009-12-22 | 2009-12-22 | 냉장고 |
KR1020090129334A KR20110072423A (ko) | 2009-12-22 | 2009-12-22 | 냉장고 |
Related Child Applications (4)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP21190519.5A Division EP3961134A1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP19167614.7A Division EP3537076B1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP19167614.7A Division-Into EP3537076B1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP21190521.1A Division EP3995768A1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
Publications (3)
Publication Number | Publication Date |
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EP2339277A2 EP2339277A2 (fr) | 2011-06-29 |
EP2339277A3 EP2339277A3 (fr) | 2016-12-21 |
EP2339277B1 true EP2339277B1 (fr) | 2019-06-05 |
Family
ID=43639910
Family Applications (4)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP21190519.5A Pending EP3961134A1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP19167614.7A Active EP3537076B1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP21190521.1A Pending EP3995768A1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP10157229.5A Active EP2339277B1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
Family Applications Before (3)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP21190519.5A Pending EP3961134A1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP19167614.7A Active EP3537076B1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
EP21190521.1A Pending EP3995768A1 (fr) | 2009-12-22 | 2010-03-22 | Réfrigérateur |
Country Status (3)
Country | Link |
---|---|
US (1) | US20110146325A1 (fr) |
EP (4) | EP3961134A1 (fr) |
CN (1) | CN102102931A (fr) |
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- 2010-03-22 EP EP10157229.5A patent/EP2339277B1/fr active Active
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Also Published As
Publication number | Publication date |
---|---|
EP3537076A1 (fr) | 2019-09-11 |
US20110146325A1 (en) | 2011-06-23 |
EP3537076B1 (fr) | 2021-08-11 |
EP3961134A1 (fr) | 2022-03-02 |
CN102102931A (zh) | 2011-06-22 |
EP3995768A1 (fr) | 2022-05-11 |
EP2339277A3 (fr) | 2016-12-21 |
EP2339277A2 (fr) | 2011-06-29 |
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