CN106257200A - Refrigerator and its ice making method - Google Patents

Abstract

The invention discloses refrigerator and its ice making method.Described refrigerator includes the main body forming the outward appearance of refrigerator；It is arranged on the storage area in described main body；For opening and closing the door of described storage area；It is arranged on the ice-making compartment in described door；For making cold air flow in a longitudinal direction and being arranged on the cooling pipe in described main body, its two ends are connected to described ice-making compartment so that cold air is circulated through described ice-making compartment；Be arranged in described cooling pipe and for the evaporation coil by with the heat exchange of cold-producing medium air being cooled to cold air.

Description

Refrigerator and its ice making method

Cross reference to related applications

This application claims the Korean Patent Shen submitted on June 17th, 2015 to Korean Intellectual Property Office Please the priority of No.10-2015-0085584, entire contents is hereby incorporated herein by.

Technical field

Present invention relates in general to a kind of refrigerator and its ice making method.

Background technology

Refrigerator is the equipment playing the function storing food at low temperatures, according to food to be stored Type can be configured to cold preservation or frozen food.

The inside of refrigerator is continuously fed the cold air cooling of refrigerator, and cold air is by following in refrigeration Heat exchange operation between the air and the cold-producing medium that carry out in ring continuously generates, and this circulation includes successively The compression carried out, the process condensing, expand and evaporating.Be fed into the cold air of refrigerator inside by Convection current in air is uniformly transferred to refrigerator inside, thus cold air can be in desired temperature In refrigerator, food is stored under degree.

It is permissible that the main body of refrigerator is generally of the rectangular shape in front openings, cold room and refrigerating chamber It is arranged in refrigerator main body.Additionally, refrigerating-chamber door and refrigerating chamber door may be mounted at before main body, To selectively close off opening.Additionally, the storage area of refrigerator can be provided with multiple drawer, shelf, Accepting boxs etc., they are arranged to most preferably store various food.

Routinely, overhead type refrigerator (wherein refrigerating chamber is above is located below with cold room) is to be subject to Welcome main flow, but in recent years it has been proposed that bottom-freezer type refrigerator (wherein refrigerating chamber is positioned at Bottom is to strengthen user convenience).Here, the cold room wherein frequently used is above and not The advantage of the bottom-freezer type refrigerator that the refrigerating chamber often used is positioned at lower section is, user can be square Just cold room is accessed.But, for bottom-freezer type refrigerator, owing to refrigerating chamber is positioned at lower section, User is in order to take ice, and user is bent over to open refrigerating chamber door and taken ice.

In order to solve this problem, in recent years it has been proposed that bottom-freezer type refrigerator (is wherein used for The allotter of distribution ice cube is arranged in the refrigerating-chamber door on top).In this case, it is used for The ice maker manufacturing ice cube can be arranged in refrigerating-chamber door or be arranged on the inside of cold room.

Such as, in the bottom-freezer type refrigerator in ice maker is arranged on refrigerating-chamber door, by evaporating The air (cold air) of device cooling is divided and is discharged to refrigerating chamber and cold room.It is discharged to refrigerating chamber Interior cold air flows to ice making dress along the cool air supply duct in the sidewall being embedded in refrigerator main body Put, then chilled water while ice maker internal flow.Thereafter, cold within ice maker Air is discharged in cold room via the cold air return duct in the sidewall being embedded in refrigerator main body, from And reduce the temperature of cooling compartment.

But, owing to the cold air of refrigerating chamber side is via cool air supply duct and cold air recurrent canal Road is used in ice maker, and then cold air is in cool air supply duct and cold air return duct Mobile, therefore the efficiency of supply of cold air may reduce.

Additionally, due to the cold air of refrigerating chamber side should move to the ice maker of refrigerating-chamber door, because of This is when refrigerator is operated continuously, and due to the operation of refrigerator, power consumption may dramatically increase.

Summary of the invention

Therefore, in view of the foregoing, embodiment of the present invention provide one wherein at cold air pipe In road, the cold air of cooling is used directly for refrigerator and its ice making method of ice making.

In one embodiment, the invention provides a kind of refrigerator, including main body be arranged on institute State the storage area in main body.Described refrigerator also includes for opening and closing described storage area Door and the ice-making compartment being arranged in described door.Described refrigerator also includes for making cold air longitudinal side Flowing up and be arranged on the cooling pipe in described main body, its two ends are connected to described ice-making compartment. Cold air is passed to described ice-making compartment.Described refrigerator also includes being arranged in described cooling pipe and using In by producing the evaporation coil of cold air with the heat exchange of cold-producing medium with cooling air.

In another embodiment, the invention provides the ice making method of a kind of refrigerator.Described Method includes cold-producing medium being supplied to evaporation coil and supplies air to evaporation coil be wound on its week The cooling pipe enclosed.Described method also includes cooling down sky by the heat exchange between air and cold-producing medium Gas and form cold air and cold air be supplied to ice-making compartment with ice making.Described method also includes making Cold air in icehouse is discharged to cooling pipe and again cools down the cold sky of discharge in cooling pipe Gas.

According to the present invention it is possible to provide a kind of cold air wherein cooled down in cold-air duct permissible It is directly used in refrigerator and its ice making method of ice making.

Accompanying drawing explanation

The above and other purpose of the present invention and feature froming the perspective of from embodiment below in conjunction with the accompanying drawings Bright will become clear from, in the accompanying drawings:

Fig. 1 is the figure of the structure of the ice making pipeline illustrating refrigerator according to embodiments of the present invention；

Fig. 2 is the sectional view of the line A-A along Fig. 1；

Fig. 3 is the side of the kind of refrigeration cycle of the ice making pipeline illustrating refrigerator according to embodiments of the present invention Block figure；

Fig. 4 is the axonometric chart illustrating refrigerator according to embodiments of the present invention；

Fig. 5 is to be shown according to embodiments of the present invention between making ice in refrigerator room and cooling pipe The figure of connection；

Fig. 6 is the figure illustrating the internal structure of the ice-making compartment of refrigerator according to embodiments of the present invention； With

Fig. 7 is the ice making method of the ice making pipeline illustrating and using refrigerator according to embodiments of the present invention Flow chart.

Detailed description of the invention

Hereinafter, the embodiment that present invention will be described in detail with reference to the accompanying.

Fig. 1 is the figure of the structure of the ice making pipeline illustrating refrigerator according to embodiments of the present invention；Figure 2 is the sectional view of the line A-A along Fig. 1；Fig. 3 is to illustrate ice according to embodiments of the present invention The block chart of the kind of refrigeration cycle of the ice making pipeline of case；Fig. 4 is to illustrate according to embodiments of the present invention The axonometric chart of refrigerator.

As shown in figures 1-4, refrigerator can include the master forming outward appearance according to embodiments of the present invention Body 10, divide the dividing plate 20 of the storage area of main body 10, for opening and closing storage area Door, the ice-making compartment 110 that is arranged in door and for cold air being supplied to the ice making of ice-making compartment 110 Pipeline 200.

Here, refrigerator can include for selectively closing off on two edges before main body 10 The refrigerating-chamber door 30 of cold room and for closing the refrigerating chamber door 40 of the front openings of refrigerating chamber.Store Space can include cold room and the refrigerating chamber divided by dividing plate 20.

Refrigerator 1 according to the present embodiment is the bottom-freezer type ice that wherein refrigerating chamber is positioned at bottom Case, but the invention is not restricted to this, and go for various types of refrigerator.Additionally, it is main Body 10, dividing plate 20, refrigerating chamber door 30 and refrigerating chamber door 40 are corresponding to being applicable to the master of general refrigerator The structure of body, dividing plate, refrigerating-chamber door and refrigerating chamber door, therefore, illustrates and will be omitted.

Ice making pipeline 200 can include the cooling pipe 210 that cold air can move in the longitudinal direction With the evaporation coil 220 for being cooled down cooling pipe 210 by conduction.

Specifically, cooling pipe 210 can include cooling down circuit the 211, first pipe hole 212 and Second pipe hole 213.

The cooling circuit 211 of the passage within it moved as cold air can be at cooling pipe 210 Extend the most in a longitudinal direction.Especially, cooling circuit 211 has and be enough to make air with cold air The length of cooling, therefore, while moving the scheduled time in cooling circuit 211, air is permissible It is cooled to the cold air with the temperature (such as, subzero less than 14 °F) allowing ice making.

Additionally, the first pipe hole 212 can be arranged on one end of cooling circuit 211 with by cold air Be supplied to ice-making compartment 110, second pipe hole 213 can be arranged on cooling circuit 211 the other end with Cold air is received from ice-making compartment 110.Such as, the first pipe hole 212 may be coupled to ice-making compartment 110 Top, second pipe hole 213 may be coupled to the bottom of ice-making compartment 110, and cooling pipe Cold air in 210 can move to upper end from the lower end of cooling pipe 210.

Cooling pipe 210 can in the vertical direction of main body 10 bending extension so that in main body In 10, cooling pipe 210 is to tilt in the direction of advance of main body 10.Such as, cooling pipe 210 can bend and have in the direction of advance of main body 10Shape or " C " shape.

In such a way, have owing to cooling pipe 210 bendsShape or " C " shape, because of This is when producing defrosting water in cooling pipe 210, and defrosting water can move to cooling pipe 210 Foot, and subsequently can by single tapping equipment (not shown) externally discharged.

Cooling pipe 210 is arranged in the main body 10 of refrigerator 1, and ice-making compartment 110 is arranged on refrigerator 1 Refrigerating-chamber door 30 in.Here, the first pipe hole 212 of cooling pipe 210 and second pipe hole 213 can optionally be connected respectively to ice-making compartment 110 according to the opening and closing of refrigerating-chamber door 30 Entrance 310 and outlet 320.

That is, when refrigerating-chamber door 30 is closed in main body 10, the cold air in cooling pipe 210 The entrance 310 of ice-making compartment 110 can be incorporated into by the first pipe hole 212, and be incorporated into ice making The cold air of room 110 can circulate in ice-making compartment 110, thus the water in freezing ice-making compartment 110 And ice making.Thereafter, the cold air in ice-making compartment 110 can be discharged to cooling tube by outlet 320 The second pipe hole 213 in road 210, and can be at cooling tube from the cold air of ice-making compartment 110 discharge Road 210 cools down again, is then re-introduced into the entrance 310 of ice-making compartment 110.

Evaporation coil 220 can cool down the air in cooling pipe 210, thus by with cold-producing medium Heat exchange produce cold air.To this end, evaporation coil 220 is mounted to twine around cooling pipe 210 Around, therefore, when cold-producing medium circulates according to kind of refrigeration cycle, evaporation coil 220 can be by passing Conduction cooling but cooling pipe 210.

Evaporation coil 220 can serve as the vaporizer of kind of refrigeration cycle.Such as, evaporation coil 220 can To implement to include compression condensation-expansion-evaporation together with compressor 11, condenser 12 and expansion valve 13 The kind of refrigeration cycle of process.

In the present embodiment, compressor 11, condenser 12, expansion valve 13 and evaporation coil 220 Configuration be provided as the kind of refrigeration cycle for cold air being supplied to ice-making compartment 110, but should Cold air can also be supplied to cold room and the refrigerating chamber of refrigerator by configuration, and is supplied to ice-making compartment 110.Additionally, the configuration of compressor 11, condenser 12 and expansion valve 13 can also with for by cold Air is supplied to the vaporizer (not shown) of cold room and refrigerating chamber and shares cold-producing medium.

Fig. 5 is to be shown according to embodiments of the present invention between making ice in refrigerator room and cooling pipe The figure of exemplary connection；Fig. 6 is the ice-making compartment illustrating refrigerator according to embodiments of the present invention The figure of internal structure.

As shown in Figure 5 and Figure 6, during ice-making compartment 110 can be arranged on the refrigerating-chamber door 30 of refrigerator 1. In the present embodiment, wherein ice-making compartment 110 is arranged on the situation conduct on top of refrigerating-chamber door 30 Example presents, but this is merely illustrative, and ice-making compartment 110 may be mounted at refrigerating-chamber door 30 Other positions.

Ice-making compartment 110 can be provided in the ice making space 111 of ice making in it.Additionally, ice machine 120, Ice bank 130 and circulation fan 330 can be arranged in ice-making compartment 110.

Ice maker 120 can use the cold air being incorporated into ice making space 111 by water cooling Cheng Bing, And the ice of cooling is assigned to ice bank 130.Ice bank 130 may be located at the ice making from its distribution ice The lower section of machine 120, and ice bank 130 can store distribution ice and by dispenser unit (not Illustrate) ice is supplied to user.Cold air can be moved on to out by circulation fan 330 from entrance 310 Mouth 320.

Fig. 7 is the ice making method of the ice making pipeline illustrating and using refrigerator according to embodiments of the present invention Flow chart.

As it is shown in fig. 7, according to embodiments of the present invention the ice making method of refrigerator can include with Lower step: cold-producing medium is supplied to evaporation coil (step S100), supplies air to evaporation coil It is wound on cooling pipe (step S200) about, by the heat exchange between air and cold-producing medium Air is cooled to cold air (step S300), cold air is supplied to ice-making compartment with ice making (step S400), the cold air in ice-making compartment is discharged to cooling pipe (step S500), and at cooling pipe The most again cool down the cold air (step S600) of discharge.

Being supplied in step S100 of evaporation coil by cold-producing medium, the cold-producing medium of kind of refrigeration cycle is permissible It is fed into evaporation coil.Here, evaporation coil is permissible together with compressor, condenser and expansion valve Form the kind of refrigeration cycle including compression condensation-expansion-evaporation process.

It is wound in step S200 of cooling pipe about supplying air to evaporation coil, Air can be fed into cooling pipe, to cool down air.It is supplied to the air within cooling pipe Upper end can be moved to from the lower end of cooling pipe.

Cooling down to form the step of cold air by air by the heat exchange between air and cold-producing medium In S300, air moves in being wound with the cooling pipe of evaporation coil around, thus is cooled into Cold air.Here, the air in cooling pipe can move along cooling circuit, simultaneously with evaporation The cold-producing medium exchange scheduled time of coil pipe, therefore, the air discharged from cooling pipe can be cooled to There is the cold air of the temperature (such as, subzero less than 14 °F) allowing ice making.

Cold air is being supplied to ice-making compartment with in step S400 of ice making, is cooling down in cooling pipe Cold air can be supplied to the ice making space of ice-making compartment by the entrance of ice-making compartment.It is incorporated into ice making The cold air in space can be circulated in ice making space by the operation of circulation fan, thus in ice making Chilled water in space and ice making.

Cold air is being discharged to step S500 of cooling pipe from ice-making compartment, in ice making space Cold air can be discharged to cooling pipe by the outlet of ice-making compartment.

In again cooling down step S600 of cold air of discharge in cooling pipe, it is incorporated into cooling The cold air of pipeline moves the scheduled time again along the cooling circuit of cooling pipe, thus by again It is cooled to that there is the cold air than the temperature lower temperature allowing ice making.

According to embodiment of the present invention, owing to being directly used in cooling pipe the cold air of cooling Ice making, therefore the cooling effectiveness of ice can improve and the efficiency of supply of cold air can improve.

Additionally, according to embodiment of the present invention, owing to cold air is at cooling pipe and refrigerating-chamber door Ice making space between circulate very short time, therefore with wherein in the bottom of refrigerator cooling cold sky The prior art of the ice making space that gas moves to refrigerating-chamber door is compared, and the loss of cold air can be effective Ground reduces and depends on that the power consumption of refrigerator operation can also reduce.

Although show and describing embodiment of the present invention already in connection with embodiment, but this Bright it is not limited to this.It will be appreciated to those of skill in the art that and limiting without departing substantially from claims Various change and deformation can be carried out in the case of the fixed scope of the invention.

Claims (21)

1. a refrigerator, including:

Main body；

It is arranged on the storage area in described main body；

For opening and closing the door of described storage area；

It is arranged on the ice-making compartment in described door；

For making cold air flow in a longitudinal direction and being arranged on the cooling pipe in described main body, Its two ends are connected to described ice-making compartment so that cold air is circulated through described ice-making compartment；With

Be arranged in described cooling pipe and for by with the heat exchange of cold-producing medium with cooling air Produce the evaporation coil of cold air.

2. refrigerator as claimed in claim 1, wherein said evaporation coil is configured to play refrigeration Circulation vaporizer effect and by conduction cool down described cooling pipe.

3. refrigerator as claimed in claim 1, wherein said cooling pipe includes:

At the generally longitudinally upwardly extending cooling circuit in side, the coldest sky in described cooling pipe Gas can within it flow；

It is arranged on one end of described cooling circuit cold air to be supplied to the first pipe of described ice-making compartment Hole, road；With

It is arranged on the other end of described cooling circuit to receive the second pipe of cold air from described ice-making compartment Hole, road.

4. refrigerator as claimed in claim 3, wherein in described cooling pipe, described cold air Its upper end is flowed to from the lower end of described cooling pipe.

5. refrigerator as claimed in claim 3, wherein the first pipe hole and the top of described ice-making compartment Connect, and second pipe hole is connected with the bottom of described ice-making compartment.

6. refrigerator as claimed in claim 1, wherein said cooling pipe is vertical described main body Side be bent upwards, wherein said cooling pipe in cold room in the direction of advance of the main body of refrigerator Tilt.

7. refrigerator as claimed in claim 1, wherein said cooling pipe is arranged in the main body of refrigerator In, and described ice-making compartment is arranged in the refrigerating-chamber door of refrigerator, and

The two ends of wherein said cooling pipe are selectively connected according to the opening and closing of refrigerating-chamber door To described ice-making compartment.

8. refrigerator as claimed in claim 5, wherein said cooling pipe is in the advance of described main body Side is bent upwards and hasShape or " C " shape.

9. an ice making method for refrigerator, described method includes:

Cold-producing medium is supplied to evaporation coil；

Supply air to evaporation coil and be wound on cooling pipe about；

Cool down air by the heat exchange between air and cold-producing medium and form cold air；

Cold air is supplied to ice-making compartment with ice making；

Cold air in ice-making compartment is discharged to cooling pipe；With

The cold air of discharge is again cooled down in cooling pipe.

10. method as claimed in claim 9, wherein by the heat friendship between air and cold-producing medium Change cooling air and form cold air and include making cold air move along the cooling circuit of described cooling pipe The dynamic scheduled time, thus it is cooled to the cold air with the temperature less than predetermined temperature.

11. methods as claimed in claim 9, wherein said cooling pipe is in generally longitudinally side Upwardly extend.

12. methods as claimed in claim 9, wherein cool down air and form cold air utilization and exist In described cooling pipe, the evaporation coil of cooling air is carried out.

13. methods as claimed in claim 9, are wherein supplied to ice-making compartment by the by cold air One opening is carried out, and the cold air in ice-making compartment is discharged to described cooling pipe opens by second Mouth is carried out.

14. methods as claimed in claim 13, wherein the first opening is at the second overthe openings.

15. 1 kinds of refrigerators, including:

Main body including storage area；

For opening and closing the door of described storage area；

It is arranged on the ice-making compartment in described door；

For cold air is supplied to the cooling pipe of described ice-making compartment, wherein cold air is passed to institute State ice-making compartment；With

It is arranged in described cooling pipe and for producing cold air by heat exchange with cooling air Evaporation module.

16. refrigerators as claimed in claim 15, wherein said evaporation module is configured to play system The effect of the vaporizer of SAPMAC method and cool down described cooling pipe by conduction.

17. refrigerators as claimed in claim 15, wherein said cooling pipe includes:

At the generally longitudinally upwardly extending cooling circuit in side in described cooling pipe.

18. refrigerators as claimed in claim 17, wherein said cooling pipe includes:

In one end of described cooling circuit cold air to be supplied to the first pipeline of described ice-making compartment Hole；With

It is arranged on the other end of described cooling circuit to receive the second pipe of air from described ice-making compartment Hole.

19. refrigerators as claimed in claim 18, wherein cold air flows to first from second pipe hole Pipe hole.

20. refrigerators as claimed in claim 18, wherein the first pipe hole and described ice-making compartment is upper Portion connects, and second pipe hole is connected with the bottom of described ice-making compartment.

21. refrigerators as claimed in claim 15, wherein said cooling pipe is in the main body of refrigerator Tilt in direction of advance.