CN101529175A - Refrigerator - Google Patents

Abstract

The present invention discloses that with an embodiment of the present invention, the inside of the ice-making chamber provided in the cooling chamber door is provided with the dewing prevention member to suppress a dewing phenomenon generated in the outer surface of the ice-making chamber by colliding the cold air discharged to the inside of the ice-making chamber with the inner wall of the ice-making chamber and the cold air guide is provided in the cold air passing hole of the ice-making chamber to prevent the infiltration of foreign materials in the inside of the ice-making chamber as well as to smoothly perform the circulation of cold air in the inside of the ice-making chamber.

Description

Refrigerator

Technical field

This paper relates to a kind of refrigerator.

Background technology

Generally speaking, refrigerator is divided into and is used for the refrigerating chamber that food fresh keeping is stored and is used for the refrigerating chamber of food storing under freezing state.Position according to refrigerating chamber and refrigerating chamber is divided into door-opening type, top installing type and bottom-freezer type.

At length, side by side combination refrigerator is that wherein refrigerating chamber and refrigerating chamber are erected in the structure of both sides side by side.Top installing type refrigerator is that wherein refrigerating chamber is arranged on the structure of refrigerating chamber upside.Bottom-freezer type refrigerator is that wherein refrigerating chamber is arranged on the structure of refrigerating chamber downside.

Recently, be arranged on downside for refrigerating chamber wherein and refrigerating chamber is arranged on the demand of the bottom-freezer type refrigerator of upside obviously increases.

Because refrigerating-chamber door is arranged to two-door formula and refrigerating chamber is arranged to drawer type, thus bottom-freezer type refrigerator by can before and after the structure takeing in and pull out form.In addition, refrigerating chamber can be provided with can ccontaining frozen food cold chamber drawer, and independent storage bin can be set at the upside of cold chamber drawer.Storage bin and drawer both are arranged to and can take in and pull out by before and after the track.

And bottom-freezer type refrigerator has the advantages that ice machine is positioned at the refrigerating chamber side.In other words, ice machine can be installed in the inboard that maybe can be formed at refrigerating-chamber door in the inside of refrigerating chamber.Be installed at ice machine under the situation at the back side of refrigerating-chamber door, should form the cold air flow path, in order to being supplied to ice machine through the cold air of the evaporimeter that is installed to the refrigerating chamber rear surface.As a kind of method of one of this method is to form cold duct and the space of ccontaining evaporimeter is connected with ice machine on being installed to door by the inboard at the sidewall of refrigerator main body.In this case, the cold duct that extends from the described space of ccontaining evaporimeter extends upward along the sidewall of refrigerator main body, and cold air outlet is positioned at the upside of the sidewall of refrigerating chamber.In addition, the side surface of ice machine that is installed to the back side of refrigerating-chamber door is formed with the cold air inlet.By this structure, if the closing cold room door, the cold air inlet that is formed on so on the ice machine just has been communicated with cold air outlet on the sidewall that is formed on refrigerating chamber.So the Quilt with air conditioning of discharging from cold duct is supplied to ice machine.

Summary of the invention

Technical problem

As mentioned above, ice machine is installed under the situation of the bottom-freezer type refrigerator on the refrigerating-chamber door therein, if open refrigerating-chamber door, be formed on the cold air outlet on the sidewall of refrigerating chamber so and the cold air inlet that is formed on the side surface of ice machine is exposed to the outside with regard to former state ground.Therefore, can invade through cold air outlet and cold air inlet such as foreign matters such as dusts.As a result, when refrigerating-chamber door is closed, the mobile problem of being blocked by foreign matter of cold air will appear.

In addition, only forms and do not have under the situation of independent cold air guiding device, discharge along straight line from the cold air of cold air outlet discharge by an aperture at cold air inlet.The problem of circulating cold air will appear carrying out swimmingly in ice machine inside in the result.

And, according to the bearing of trend characteristics of cold duct, flow into the upwards discharging of cold air of the cold air inlet of ice machine through cold air outlet.Thereby the cold air that flows into ice machine from cold air inlet clashes with the upper wall of ice machine and is recycled to the downside of ice machine then.Therefore, with the upper wall of cold air head-on collision by sub-cooled, and with surface that extraneous air contact on owing to the dewfall phenomenon taking place with the temperature difference of outside.

Technical scheme

The present invention is intended to address the above problem.The objective of the invention is to carry a kind of refrigerator of arch, so that prevent that foreign matter is invaded cold air outlet that is formed on the refrigerating chamber sidewall and the such phenomenon generation of cold air inlet that is formed on the ice machine when refrigerating-chamber door is opened.

In addition, the purpose of this invention is to provide the refrigerator that can improve the ice making effect by the emission direction that allows the user to control the cold air of suction cold air inlet.

In addition, the purpose of this invention is to provide the refrigerator that can hinder the lateral wall place generation dewfall phenomenon that clashes at cold air ice machine and that suck the cold air inlet.

In order to realize above-mentioned target, according to one embodiment of the present invention, provide a kind of refrigerator, this refrigerator comprises: main body, described main body have refrigerating chamber and the refrigerating chamber that is formed at wherein; Door, described door rotatably is installed to the front surface of described main body to open and close described refrigerating chamber; Be arranged on the evaporimeter in the sidepiece of described main body; Ice-making compartment, described ice-making compartment is installed to the back side of described ice-making compartment door, and the cold air that has in the sidepiece that is formed at described ice-making compartment passes through the aperture; Be arranged on the Icemaker assembly in the described ice-making compartment; Cold duct, described cold duct are formed in the inside of wall of described main body and the space of ccontaining described evaporimeter are connected by the aperture with described cold air; And one or more cold air guide, described one or more cold air guide are installed to described cold air by the both sides in aperture or the end of any side and described cold duct, with flowing of guiding cold air.

According to another embodiment of the invention, a kind of refrigerator is provided, this refrigerator comprises: main body, described main body have refrigerating chamber and are arranged on the refrigerating chamber of described refrigerating chamber upside; Door, described door rotatably is installed to the front surface of described main body to open and close described refrigerating chamber; Be arranged on the evaporimeter in the following side of described main body; Ice-making compartment, described ice-making compartment are installed to the back side of described door and the cold air that has in the sidepiece that is formed at described ice-making compartment passes through the aperture; Cold duct, described cold duct is communicated with along the sidewall extension of described main body and with the refrigerating chamber of the end that is connected in described cold duct from the space of ccontaining described evaporimeter; And with described cold air by the aperture cold air guide of coupling connection removably, wherein, comprising that the end of described cold duct is connected by the aperture with described cold air under the described door closing state of described ice-making compartment.

According to another embodiment of the present invention, a kind of refrigerator is provided, this refrigerator comprises: main body, described main body have refrigerating chamber and are arranged on the refrigerating chamber of described refrigerating chamber upside; Door, described door rotatably is installed to the front surface of described main body to open and close described refrigerating chamber; Be arranged on the evaporimeter in the sidepiece of described main body; Ice-making compartment, described ice-making compartment are installed to the back side of described door and the cold air that has in the sidepiece that is formed at described ice-making compartment passes through the aperture; Cold duct, described cold duct extends will being supplied to described ice-making compartment from the cold air that described evaporimeter produces along the sidewall of described main body, and described cold duct is connected by the aperture with described cold air under the described door closing state of described ice-making compartment being equipped with; Be arranged on the Icemaker assembly in the described ice-making compartment; And the anti-condensation member, described anti-condensation member stop the cold air of discharging by the aperture from described cold air straight with the sidewall head-on collision of described ice-making compartment.

According to another embodiment of the present invention, a kind of refrigerator is provided, this refrigerator comprises: main body, described main body have and are used for the storage area of storage food therein; Be placed in the storage area and at least one reservoir vessel of ccontaining food; Evaporimeter, described evaporimeter are arranged in any one sidepiece of described main body, the heat exchange between the cold air that is used for circulating in cold-producing medium and described storage area; Optionally open and close the door of described storage area; Ice-making compartment, described ice-making compartment are arranged on the back side of described door and have a lip-deep cold air that is positioned at described ice-making compartment and pass through the aperture; The anti-condensation plate, described anti-condensation plate with the isolated state coupling of the inwall of described ice-making compartment connection, described anti-condensation plate be arranged on the cold air of discharging by the aperture from described cold air on the path of process, on the outer surface of described ice-making compartment, produce dewfall to stop; Be arranged on the ice machine in the described ice-making compartment; The ice reservoir vessel of the ice that storage is made by described ice machine; And distribution is stored in the transport unit of the ice in the described ice reservoir vessel.

According in addition another embodiment of the present invention, a kind of refrigerator is provided, this refrigerator comprises: main body, described main body have and are used for the storage area of storage food therein; Be placed in the storage area and at least one reservoir vessel of ccontaining food; Evaporimeter, described evaporimeter are arranged in any one sidepiece of described main body and make the cold air and the cold-producing medium that circulate in the described storage area carry out heat exchange; Optionally open and close the door of described storage area; Ice-making compartment, described ice-making compartment are set to the back side of described door and have a lip-deep cold air that is positioned at described ice-making compartment and pass through the aperture; Cold air guide, described cold air guide are installed to described cold air by aperture and the described cold air of the block part by the aperture, expose fully or reduce foreign matter through the phenomenon of described cold air by the aperture intrusion with the inside that prevents described ice-making compartment; Be arranged on the ice machine in the described ice-making compartment; The ice reservoir vessel of the ice that storage is made by described ice machine; And distribution is stored in the transport unit of the ice in the described ice reservoir vessel.

Beneficial effect

By the refrigerator according to embodiment of the present invention of as above constructing, the cold air that is formed on the ice machine enters the mouth by partial occlusion, makes the inside of ice machine can not expose.

In addition, stopped foreign matter intrusion ice machine inside by the cover that is installed to the cold air inlet.And the blocking-up problem to cold air flow that foreign matter caused is solved.

In addition, the direction of cold air transom window that can control the lid that is installed to cold air inlet makes it possible to improve the ice making effect of ice-making compartment cold air is guided to the position of user's expectation.

And the cold air that enters ice machine inside at first clashes with the anti-condensation member, makes and the dewfall phenomenon can not take place at the top wall surface place of ice machine.In other words, because the temperature difference in the inboard of top wall surface and the outside is so not big, therefore the dewfall phenomenon can not take place in the wall surface place thereon.

Description of drawings

Fig. 1 is the front view that illustrates according to the refrigerator of embodiment of the present invention;

Fig. 2 is the in-built stereogram that refrigerator is shown;

Fig. 3 is the partial perspective view that illustrates according to the internal structure of the ice-making compartment of embodiment of the present invention;

Fig. 4 is the exploded perspective view of ice-making compartment;

Fig. 5 illustrates according to the shape of the cold air guide of embodiment of the present invention and the exploded perspective view of mounting structure; And

Fig. 6 is the cutaway view along the I-I ' line of Fig. 5.

The specific embodiment

Below, preferred implementation of the present invention is described with reference to the accompanying drawings.And, will illustrate that as being used to the example of embodiment of the present invention is described with bottom-freezer type refrigerator.

Fig. 1 is the front view that illustrates according to the refrigerator of embodiment of the present invention, and Fig. 2 is the in-built stereogram that refrigerator is shown.

Referring to Fig. 1 and Fig. 2, comprise according to the bottom-freezer type refrigerator 40 of embodiment of the present invention: main body 42, it has refrigerating chamber 41 and the refrigerating chamber 43 that is formed at wherein; The front surface that rotatably is installed to main body 42 is to open and close the refrigerating-chamber door 45 of refrigerating chamber 41; The refrigerating chamber door 51 optionally to open and close refrigerating chamber 43 is taken in and pulled out in front and back; Be installed to the ice-making compartment 60 at ice-making compartment door 45 back sides; And the cold chamber drawer 53 that is installed to the back side of refrigerating chamber door 51.

At length, refrigerating chamber 41 is positioned at the upside of refrigerating chamber 43, and refrigerating-chamber door 45 is separately positioned on two side surfaces of front surface of main body 42.In addition, evaporimeter 55 rear surface that is installed to refrigerating chamber 43 will be carried out the cold air of heat exchange with cold-producing medium to produce.And the sidepiece of main body 42 is provided with cold duct 56 and reflux line 57, and cold duct 56 will be supplied to ice-making compartment 60 from the cold air that evaporimeter 55 produces, and reflux line 57 makes the cold air of circulation in ice-making compartment 60 be back to evaporimeter 55.And, near evaporimeter, be provided with the cold air supply fan (not shown) that is used to supply cold air.And cold air supply line 56 and reflux line 57 pass the inside of the interlayer that forms main body 42.Therefore, air and pass between the cold air of pipeline 56 and 57 and carry out heat exchange externally.And the end of cold air supply line 56 is formed with cold air outlet 58, and the end of reflux line 57 is formed with cold air inlet 59, and the cold air of discharging from ice-making compartment 60 flows into cold air inlet 59.

Simultaneously, the controller 49 that the front of any side of refrigerating-chamber door 45 is provided with the distributor 47 that distributes pure water and water and has demonstration and control button, the temperature in controller 49 demonstration refrigerating chambers 41 and the refrigerating chamber 43 and the duty of refrigerator.In addition, distributor 47 is formed in the refrigerating-chamber door 45 that ice-making compartment is installed, and makes it possible to farthest shorten the ice dispense path.And ice-making compartment 60 is positioned on the refrigerating-chamber door 45, makes it possible to permit a user to distribute ice to need not crooked its health just to take out ice easily.

In addition, ice-making compartment 60 comprises: housing, and it protrudes on refrigerating-chamber door 45 to form cold air chamber 612; And ice making chamber cap 62, it rotatably is installed to housing with block cold air chamber 612 optionally.In addition, the side surface of housing 61 is formed with cold air by aperture 70.At length, cold air comprises cold air inlet 71 and cold air outlet 73 by aperture 70, and cold air inlet 71 is connected to the cold air outlet 58 that is formed in the cold air supply line 56, and cold air outlet 73 is connected to the cold air inlet 59 that is formed in the reflux line 57.Cold air inlet 71 is formed on the surface of the side surface wall that contacts refrigerating chamber 41 when refrigerating-chamber door 45 is closed with cold air outlet 73.Therefore, under refrigerating-chamber door 45 closing state, cold duct 56 is connected with ice-making compartment 60 with reflux line 57.In addition, any one is equipped with cold air guide 90 removably at least in cold air inlet 71 and the cold air outlet 57.Cold air guide 70 carry out bag filters be contained in the function of the foreign matter in the cold air that flows into ice-making compartment 612, when refrigerating-chamber door 45 is opened the function of the inside of block ice-making compartment 612 and guiding through the function of the discharge direction of the cold air of cold air inlet 71 or cold air outlet 73.In other words, cold air guide 90 guiding are discharged towards the top board jet flow of ice-making compartment 162 or the bearing of trend that guides the cold air of discharging through cold air outlet 73 to be parallel to reflux line 87 through the cold air that cold air inlet 71 flows into.And cold air guide 90 certainly is installed to cold air outlet 58 and the cold air inlet 59 on the wall surface that is formed on refrigerating chamber 41.The shape and the mounting structure of cold air guide 90 are described with reference to the accompanying drawing of back below.

And housing 61 is the parts that serve as a contrast that form the back side of refrigerating-chamber door 45, perhaps can be arranged to independent housing.

The concrete internal structure of ice-making compartment 60 is described with reference to the accompanying drawing of back below.

Fig. 3 is the partial perspective view that illustrates according to the internal structure of the ice-making compartment of embodiment of the present invention, and Fig. 4 is the exploded perspective view of ice-making compartment.

Referring to Fig. 3 and Fig. 4, form by aforesaid housing 61 and ice making door 62 according to the ice-making compartment 60 of embodiment of the present invention.

At length, the inside of housing 61 is formed with cold air chamber 612, and the cold air that is used for ice making is in cold air chamber 612 circulations.And the inside of housing 61 also is equipped with Icemaker assembly 80.Icemaker assembly 80 comprises the ice machine 83 of ice making and stores the ice bank 85 of made ice.

In addition, the bottom of housing 61 is formed with the dispensing orifice 611 that is used for distributing the ice that is stored in ice bank 85.And the back face wall of housing 61 is equipped with the gripper shoe 81 that is used to support Icemaker assembly 80 vertically.And the lower end of gripper shoe 81 is formed with the arrangement portion 811 of along continuous straight runs bending.Arrangement portion 811 is fixed to the bottom surface of cold air chamber 612 by the coupling member such as screw.In other words, gripper shoe 81 is fixed to cold air chamber 612 by arrangement portion 811.A surface of arrangement portion 811 is formed with through hole 812 in the position corresponding to dispensing orifice 611.

And the top of gripper shoe 81 is equipped with ice machine 83, and ice machine 83 is carried out the function of utilizing the water ice making of supplying with from the outside.The bottom of gripper shoe 81 is equipped with ice bank 85, and ice bank 85 is carried out the temporary transient function that the ice of being made by ice machine 83 is assigned to ice the outside then that stores.Ice machine 83 and ice bank 85 are installed to gripper shoe 81, make them to constitute by a module.

At length, ice bank 85 comprises the reservoir vessel 851 of the ice that storage is made by ice machine 83 and will be stored in the transport unit 852 that ice in the reservoir vessel 851 is assigned to dispensing orifice 611.Transport unit 852 is arranged in the reservoir vessel 851, and can comprise that the ice that will store is sent to the helical member of dispensing orifice 611 and pulverizes the grinder of icing.In addition, the front of reservoir vessel 851 is provided with storage cap 853.In reservoir vessel 851, can optionally open storage cap 853.

And, the top of cold air chamber 612, at length, the inside upper part of housing 61 is provided with anti-condensation parts 100.Anti-condensation parts 100 are arranged to prevent to produce dewfall on the upper surface of ice-making compartment 60 outsides.Therefore, anti-condensation parts 100 can be arranged on the position that cold air that the cold air inlet 71 on the side surface through being formed at housing 61 enters flow into cold air chambers 612 and at first collide.

At length, anti-condensation parts 110 comprise and form tabular anti-condensation plate 100 and the connecting portion 103 of definite length extended on the upper surface of anti-condensation plate 101.The end of connecting portion 103 can be installed to the upper surface of housing 61 inboards.Therefore, anti-condensation plate 101 is mounted to the top board of cold air chamber 612 spaced apart with preset distance by connecting portion 103.

Connecting portion 103 can be fixed to the top board of cold air chamber 612 by the fixed component such as screw.Therefore, contact with anti-condensation plate 101 straight through cold air inlet 71 cold air that enter, and, make the dewfall phenomenon can not take place at the upper surface place of ice-making compartment 60 outsides owing to the cold air in the anti-condensation space between the top board that is formed on anti-condensation plate 101 and cold air chamber 612 plays isolated effect.

Be installed at Icemaker assembly 80 under the state of 81 one-tenth modules of gripper shoe, it is installed in cold air chamber 612 places with anti-condensation parts 100.Particularly, anti-condensation parts 100 just in time are positioned at ice machine 82 tops, and feasible cold air with 100 head-on collisions of anti-condensation parts can reflex to ice machine 83 straight.Then, the time of ice-maker makes ice can shorten.

Fig. 5 illustrates according to the shape of the cold air guide of embodiment of the present invention and the exploded perspective view of mounting structure, and Fig. 6 is the cutaway view along the I-I ' line of Fig. 5.

Referring to Fig. 5 and Fig. 6, can form the identical shape of shape with cold air inlet 71 or cold air outlet 73 according to the cold air guide 90 of embodiment of the present invention.

Below, will the cold air guide 90 that is installed to cold air inlet 71 as embodiment be described.The description that describes below is equally applicable to be installed to the cold air guide 90 of cold air outlet 73.

The interior perimeter surface of cold air inlet 71 is formed with the set terminal 711 that is used for settling securely cold air guide 90.And set terminal 711 is formed with one or more coupling connection aperture 712.Coupling connection as will be described below portion 99 is inserted in the coupling connection aperture 712.Can in set terminal 711, form a plurality of coupling connection aperture 712.

Cold air guide 90 comprises: form the body 91 corresponding to the shape of cold air inlet 71; Extend to the coupling connection portion 99 of the dorsal edge of body 91; And a plurality of transom windows 95 that in body 91, form with preset space length.

At length, guiding transom window 95 is formed obliquely with the cold air that will discharge from ice-making compartment 612 and discharges towards upside through cold air inlet 71.And the guiding transom window 95 that is installed to the cold air guide 90 of cold air outlet 71 also can be formed obliquely towards the direction consistent with the circulating cold air direction shown in the arrow among Fig. 4.Equally, guiding transom window 95 can be formed slopely towards the direction consistent with the bearing of trend of reflux line 57.Can consider the circulation of the bearing of trend of reflux line 57 and cold air and suitably determine the incline direction of guiding transom window 95.And a plurality of guiding transom windows 95 form them with the isolated state of preset distance.In other words, between guiding transom window 95, be formed for discharging the narrow orifice 97 of cold air.

In addition, coupling connection portion 99 inserts and is coupled to 712 neutralizations of coupling connection aperture on it.At length, coupling connection portion can be arranged to hook-shaped.In other words, coupling connection portion is inserted and secured in the coupling connection aperture 712 safely, makes it possible to prevent that cold air guide 90 breaks away from voluntarily owing to the pressure of the cold air of discharging.

And, be not limited to comprise that the ice-making compartment of cold air guide and anti-condensation parts is installed to the such structure of refrigerating-chamber door of bottom-freezer type refrigerator.For example, ice-making compartment can be applicable to top installing type refrigerator or side by side combination refrigerator, and certainly applicable to refrigerating-chamber door and refrigerating chamber door.

Claims (25)

1. refrigerator comprises:

Main body, described main body have refrigerating chamber and the refrigerating chamber that is formed at wherein;

Door, described door rotatably is installed to the front surface of described main body to open and close described refrigerating chamber;

Be arranged on the evaporimeter in the sidepiece of described main body;

Ice-making compartment, described ice-making compartment is installed to the back side of described ice-making compartment door, and the cold air that has in the sidepiece that is formed at described ice-making compartment passes through the aperture;

Be arranged on the Icemaker assembly in the described ice-making compartment;

Cold duct, described cold duct are formed in the inside of wall of described main body and the space of ccontaining described evaporimeter are connected by the aperture with described cold air; And

One or more cold air guide, described one or more cold air guide are installed to described cold air by the both sides in aperture or the end of any side and described cold duct, with flowing of guiding cold air.

2. refrigerator as claimed in claim 1, wherein, described cold duct comprises:

The cold air supply line is so that the cold air that will cool off in described evaporimeter is supplied to described ice-making compartment; And

Reflux line, so that the cold air in the described ice-making compartment is supplied to described evaporimeter,

And be provided with cold air respectively at the place, end of described cold air supply line and described reflux line and pass through the aperture.

3. refrigerator as claimed in claim 1, wherein, described cold air guide comprises:

End or described cold air that body, described body form shape and described cold duct are identical by the aperture;

Coupling connection portion, described coupling connection portion extends to the back side of described body, passes through the aperture so that be coupled to the end or the described cold air of described cold duct; And

The guiding transom window, described guiding transom window is arranged on the described body with preset space length.

4. refrigerator as claimed in claim 3, wherein, described guiding transom window is formed obliquely at a predetermined angle.

5. refrigerator as claimed in claim 3 wherein, is formed for discharging the narrow orifice of cold air between described guiding transom window.

6. refrigerator as claimed in claim 3, wherein, described coupling connection portion comprises the coupler body that extends from described body.

7. refrigerator as claimed in claim 3, wherein, the interior perimeter surface of the end of described cold duct is formed with seating surface and the described coupling connection portion's insertion coupling connection groove wherein that is used for settling securely described cold air guide.

8. refrigerator as claimed in claim 1 also comprises:

Be installed to the anti-condensation plate of the uper side surface of described ice-making compartment.

9. refrigerator comprises:

Main body, described main body have refrigerating chamber and are arranged on the refrigerating chamber of described refrigerating chamber upside;

Door, described door rotatably is installed to the front surface of described main body to open and close described refrigerating chamber;

Be arranged on the evaporimeter in the following side of described main body;

Ice-making compartment, described ice-making compartment are installed to the back side of described door and the cold air that has in the sidepiece that is formed at described ice-making compartment passes through the aperture;

Cold duct, described cold duct is communicated with along the sidewall extension of described main body and with the refrigerating chamber of the end that is connected in described cold duct from the space of ccontaining described evaporimeter; And

Pass through the aperture cold air guide of coupling connection removably with described cold air,

Wherein, comprising that the end of described cold duct is connected by the aperture with described cold air under the described door closing state of described ice-making compartment.

10. refrigerator as claimed in claim 9, wherein, at least a portion of described cold duct is extended along the wall surface of described refrigerating chamber.

11. refrigerator as claimed in claim 9, wherein, described cold duct comprises:

The cold air supply line is so that the cold air that will produce in described evaporimeter is supplied to described ice-making compartment; And

Reflux line is so that make the cold air that circulates in described ice-making compartment be back to described evaporimeter.

12. refrigerator as claimed in claim 11, wherein, described cold air is arranged to a plurality of by the aperture, and described a plurality of cold air is connected to the end of described cold air supply line and the end of described reflux line respectively by the aperture; Described cold air guide be installed to described a plurality of cold air by in the aperture any one or all.

13. refrigerator as claimed in claim 9 also comprises:

Anti-condensation plate, described anti-condensation plate are installed to the inside of described ice-making compartment and are positioned at the position that is discharged to the wall surface head-on collision of the cold air of described ice-making compartment inside and described ice-making compartment through described cold air by the aperture.

14. a refrigerator comprises:

Main body, described main body have refrigerating chamber and are arranged on the refrigerating chamber of described refrigerating chamber upside;

Door, described door rotatably is installed to the front surface of described main body to open and close described refrigerating chamber;

Be arranged on the evaporimeter in the sidepiece of described main body;

Ice-making compartment, described ice-making compartment are installed to the back side of described door and the cold air that has in the sidepiece that is formed at described ice-making compartment passes through the aperture;

Cold duct, described cold duct extends will being supplied to described ice-making compartment from the cold air that described evaporimeter produces along the sidewall of described main body, and described cold duct is connected by the aperture with described cold air under the described door closing state of described ice-making compartment being equipped with;

Be arranged on the Icemaker assembly in the described ice-making compartment; And

Anti-condensation member, described anti-condensation member stop the cold air of discharging by the aperture from described cold air straight with the sidewall head-on collision of described ice-making compartment.

15. refrigerator as claimed in claim 14, wherein, described anti-condensation member be installed to described ice-making compartment at first with the inwall of the cold air head-on collision of discharging by the aperture from described cold air on.

16. refrigerator as claimed in claim 14, wherein, described anti-condensation member is installed to the upside of the inwall of described ice-making compartment.

17. refrigerator as claimed in claim 16 also comprises:

Be installed to the cold air guide of described cold air, so that will discharge towards described anti-condensation member by the cold air in aperture through described cold air by the aperture.

18. refrigerator as claimed in claim 14, wherein, described anti-condensation member comprises:

Straight with the anti-condensation plate of cold air head-on collision; And

Connecting portion, described connecting portion is coupled to described anti-condensation plate the inwall of described ice-making compartment under described anti-condensation plate and the isolated state of ice making wall surface.

19. refrigerator as claimed in claim 18 wherein, forms isolated space between described anti-condensation plate and described ice making wall surface.

20. refrigerator as claimed in claim 18, wherein, described Icemaker assembly is arranged in the space that makes owing to the circulating cold air that reflects with the head-on collision of described anti-condensation member.

21. a refrigerator comprises:

Main body, described main body have and are used for the storage area of storage food therein;

Be placed in the storage area and at least one reservoir vessel of ccontaining food;

Evaporimeter, described evaporimeter are arranged in any one sidepiece of described main body, the heat exchange between the cold air that is used for circulating in cold-producing medium and described storage area;

Optionally open and close the door of described storage area;

Ice-making compartment, described ice-making compartment are arranged on the back side of described door and have a lip-deep cold air that is positioned at described ice-making compartment and pass through the aperture;

The anti-condensation plate, described anti-condensation plate with the isolated state coupling of the inwall of described ice-making compartment connection, described anti-condensation plate be arranged on the cold air of discharging by the aperture from described cold air on the path of process, on the outer surface of described ice-making compartment, produce dewfall to stop;

Be arranged on the ice machine in the described ice-making compartment;

The ice reservoir vessel of the ice that storage is made by described ice machine; And

Distribute the transport unit that is stored in the ice in the described ice reservoir vessel.

22. refrigerator as claimed in claim 21 also comprises:

Cold duct, described cold duct extends along the wall surface of described main body, and is connected to described cold air under the described door closing state of described ice-making compartment and passes through the aperture having at least.

23. refrigerator as claimed in claim 21, wherein, the flow direction that described anti-condensation plate is mounted to the cold air of discharging by the aperture from described cold air intersects at a predetermined angle, makes owing to circulate in ice-making compartment with the described anti-condensation plate cold air that reflects that clashes.

24. refrigerator as claimed in claim 21 also comprises:

Cold air guide, described cold air guide are installed to described cold air and arrive described anti-condensation plate by the aperture and with cold air drainage.

25. a refrigerator comprises:

Main body, described main body have and are used for the storage area of storage food therein;

Be placed in the storage area and at least one reservoir vessel of ccontaining food;

Evaporimeter, described evaporimeter are arranged in any one sidepiece of described main body and make the cold air and the cold-producing medium that circulate in the described storage area carry out heat exchange;

Optionally open and close the door of described storage area;

Ice-making compartment, described ice-making compartment are set to the back side of described door and have a lip-deep cold air that is positioned at described ice-making compartment and pass through the aperture;

Cold air guide, described cold air guide are installed to described cold air by aperture and the described cold air of the block part by the aperture, expose fully or reduce foreign matter through the phenomenon of described cold air by the aperture intrusion with the inside that prevents described ice-making compartment;

Be arranged on the ice machine in the described ice-making compartment;

The ice reservoir vessel of the ice that storage is made by described ice machine; And

Distribute the transport unit that is stored in the ice in the described ice reservoir vessel.

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