CN211695542U - A kind of refrigerator - Google Patents

Abstract

The utility model discloses a refrigerator relates to the fresh-keeping technical field of gas conditioning. The gas composition of the gas-adjusting fresh-keeping space can be adjusted without a deoxidizing device, a nitrogen-rich and oxygen-poor gas atmosphere is formed, the fresh-keeping time of food materials is prolonged, the structure is simple, the operation is convenient, and the internal space of the fresh-keeping chamber is not occupied. The utility model discloses a refrigerator comprises a low-temperature storage chamber and a suction device, wherein a fresh-keeping chamber is arranged in the low-temperature storage chamber, the fresh-keeping chamber forms an air-conditioning fresh-keeping space for storing food materials, an air-conditioning film is arranged on the fresh-keeping chamber and used for separating the air-conditioning fresh-keeping space from the outside of the fresh-keeping chamber, the air-conditioning film allows nitrogen in the air to pass through and can block at least one part of oxygen in the air; the suction device is used for pumping the air in the air-conditioned fresh-keeping space to the outside of the fresh-keeping chamber. The utility model discloses can be used to eat the material fresh-keeping in the refrigerator.

Description

A kind of refrigerator

Technical Field

The utility model relates to a fresh-keeping technical field of gas conditioning especially relates to a refrigerator.

Background

The modified atmosphere preservation technology is a technology for prolonging the storage life of food by regulating the gas atmosphere (gas component ratio or gas pressure) of a closed space where stored objects are located, and the basic principle is as follows: in a certain closed space, a gas atmosphere different from normal air components is obtained through various regulation modes so as to inhibit physiological and biochemical processes and activities of microorganisms which cause the putrefaction and deterioration of stored objects (generally food materials).

In the preservation technology of the refrigerator, oxygen is closely related to the oxidation and respiration of food in the refrigerator. The slower the respiration of the food, the lower its oxidation and the longer the preservation time. The oxygen content in the air is reduced, and a nitrogen-rich and oxygen-poor fresh-keeping gas atmosphere is formed, so that the fresh-keeping effect on food is obvious. The nitrogen-rich and oxygen-poor fresh-keeping gas atmosphere refers to a gas atmosphere with the nitrogen content exceeding that in normal air and the oxygen content lower than that in normal air. At present, in order to reduce the content of oxygen in a fresh-keeping chamber of a refrigerator, in the prior art, vacuum fresh-keeping is generally utilized or a deoxidizing device is additionally arranged for low-oxygen fresh-keeping. The vacuum preservation comprises vacuum bag preservation and vacuum storage space preservation. The vacuum bag is adopted for fresh keeping, the vacuumizing action is needed when a user stores food every time, and the operation is complex. The vacuum storage space is adopted for fresh keeping, the box body and the like are of rigid structures, the vacuum state is kept, the requirement on a vacuum pumping system is very high, the requirement on the sealing performance of the refrigerator is also very high, and when an article is taken and placed, a great amount of new air rushes in, and the energy consumed for pumping the new air in the storage space to form the vacuum state is also great. In addition, because the fresh-keeping chamber is in a vacuum environment, a user needs to spend great effort when opening the refrigerator door each time, and the use of the user is inconvenient. The deoxidation apparatus generally uses an electrolyte or the like to perform deoxidation, and the apparatus is complicated and occupies a space inside the fresh food compartment.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a refrigerator need not the deoxidation device and can adjust the gas composition in gas conditioning fresh-keeping space, forms the gas atmosphere of rich nitrogen poor oxygen, prolongs the fresh-keeping time of eating the material, and simple structure, convenient operation just do not occupy the fresh-keeping indoor inner space.

In order to achieve the above object, an embodiment of the present invention provides a refrigerator, including: a low temperature storage chamber forming a low temperature storage space; the preservation chamber is positioned in the low-temperature storage chamber to form a modified atmosphere preservation space for storing food materials; the modified atmosphere film is arranged on the fresh-keeping chamber and used for separating the modified atmosphere fresh-keeping space from the outside of the fresh-keeping chamber, allows nitrogen in the air to pass through and can block at least one part of oxygen in the air; and the suction device is used for pumping the gas in the modified atmosphere preservation space to the outside of the preservation chamber.

The embodiment of the utility model provides a refrigerator, adopt the structure of suction device with the gas-regulating membrane, compare current deaerating plant, the structure is simpler, the gas-regulating membrane sets up on the freshfood compartment, do not occupy the freshfood compartment inner space, when the suction device extracts the gas in the gas-regulating fresh-keeping space, the gas-regulating fresh-keeping space forms the negative pressure, the air pressurized outside the freshfood compartment will get into the gas-regulating fresh-keeping space, because the gas-regulating membrane allows nitrogen to pass through, and can keep apart at least some oxygen, therefore, the nitrogen in the air outside the freshfood compartment passes through the gas-regulating membrane and gets into the gas-regulating fresh-keeping space, along with the gas in the gas-regulating fresh-keeping space is constantly taken out, the nitrogen in the outside air constantly gets into, the oxygen concentration in the gas-regulating fresh-keeping space reduces gradually, form rich nitrogen-poor oxygen gas atmosphere, when edible material, nor is it laborious. Therefore, the gas in the controlled atmosphere fresh-keeping space is pumped and exhausted, the nitrogen in the air outside the fresh-keeping chamber is utilized, the gas component of the controlled atmosphere fresh-keeping space can be adjusted without a deaerator, the nitrogen-rich and oxygen-poor gas atmosphere is formed, the fresh-keeping time of food materials is prolonged, and the controlled atmosphere fresh-keeping device is simple in structure and convenient to operate, and does not occupy the inner space of the fresh-keeping chamber.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a refrigerator according to an embodiment of the present invention;

FIG. 2 is a schematic view of the connection between the fresh keeping compartment, the controlled atmosphere film and the suction device in the refrigerator according to the embodiment of the present invention;

FIG. 3 is a schematic view of a fresh food compartment of a refrigerator according to an embodiment of the present invention;

fig. 4 is an exploded schematic view of a fresh keeping chamber in a refrigerator according to an embodiment of the present invention;

FIG. 5 is a schematic view of the connection between the air adjusting film and the mounting rack in the refrigerator according to the embodiment of the present invention;

FIG. 6 is a schematic structural view of a drawer in a refrigerator according to an embodiment of the present invention;

fig. 7 is a schematic structural view of an upper shell in a refrigerator according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a lower shell in a refrigerator according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Referring to fig. 1 to 4, an embodiment of the present invention provides a refrigerator, which has an approximately rectangular parallelepiped shape, and an appearance of the refrigerator is defined by a storage chamber defining a storage space and a plurality of door bodies disposed in the storage chamber, wherein each door body includes a door body outer shell located outside the storage chamber, a door body inner container located inside the storage chamber, an upper end cover, a lower end cover, and a heat insulating layer located between the door body outer shell, the door body inner container, the upper end cover, and the lower end cover, and generally, the heat insulating layer is filled with a foaming material, and the storage chamber is a box body having an opening. The embodiment of the utility model provides a refrigerator includes the low temperature storeroom, fresh-keeping chamber 1, air-conditioned membrane 2 and suction device 3, set up fresh-keeping chamber 1 in the low temperature storeroom, fresh-keeping chamber 1 forms the air-conditioned fresh-keeping space 4 that is used for depositing the edible material, set up air-conditioned membrane 2 on the fresh-keeping chamber 1, air-conditioned membrane 2 can separate air-conditioned fresh-keeping space 4 and fresh-keeping chamber 1 outside, air-conditioned membrane 2 allows the nitrogen gas in the air to pass through, and can keep apart at least some oxygen in the air, suction device 3 is used for exhausting the gas in the air-conditioned fresh-keeping space 4 to fresh-keeping chamber.

The embodiment of the utility model provides a refrigerator, adopt the structure that suction device 3 adds the controlled atmosphere membrane 2 to make the controlled atmosphere fresh-keeping space 4 form the gaseous atmosphere of rich nitrogen poor oxygen, compare current deaerating plant, the structure is simpler, the controlled atmosphere membrane 2 sets up on the fresh-keeping chamber 1, do not occupy the inner space of fresh-keeping chamber 1, when suction device 3 extracts the gas in the controlled atmosphere fresh-keeping space 4, the controlled atmosphere fresh-keeping space 4 forms the negative pressure, the air outside the fresh-keeping chamber 1 receives the pressure and will get into the controlled atmosphere fresh-keeping space 4, because the controlled atmosphere membrane 2 allows nitrogen to pass through, and can keep apart at least partly oxygen, therefore, the nitrogen in the air outside the fresh-keeping chamber 1 permeates the controlled atmosphere membrane 2 and gets into the controlled atmosphere fresh-keeping space 4, along with the gas in the controlled atmosphere fresh-keeping space 4 is constantly taken out, the nitrogen in the outside air constantly gets into, the oxygen concentration in the controlled atmosphere space, the preservation time of the food materials is prolonged, so that the food materials are stored without vacuumizing, and meanwhile, the refrigerator door is opened without labor because the air-conditioning preservation space 4 is not vacuum. From this, through the gas in the pump drainage gas conditioning fresh-keeping space 4 to utilize the nitrogen gas in the air of fresh-keeping chamber 1 outside, need not deaerating plant and can adjust the gas composition in the gas conditioning fresh-keeping space 4, form the gas atmosphere of rich nitrogen lean oxygen, prolong the freshness preservation time of eating the material, the embodiment of the utility model provides a simple structure, convenient operation and do not occupy the inner space of fresh-keeping chamber.

Referring to fig. 3, 4 and 7, the fresh-keeping chamber 1 can be provided with an air inlet 5 and an air outlet 6, the modified atmosphere film 2 is hermetically arranged at the air inlet 5, and the air inlet of the suction device 3 is communicated with the air outlet 6, so that the air in the modified atmosphere space 4 can be discharged from the air outlet 6. The air in the controlled atmosphere fresh-keeping space 4 is discharged from the air outlet 6, and simultaneously, the outside air can only enter the controlled atmosphere fresh-keeping space 4 after being isolated from oxygen by the controlled atmosphere film 2 and can not directly enter the controlled atmosphere fresh-keeping space 4, so that the time for the controlled atmosphere fresh-keeping space 4 to reach the required oxygen concentration value is shortened, the running time of the suction device 3 is shortened, the resources are saved, and the cost is reduced.

Referring to fig. 1, since the temperature of the fresh food compartment 1 is generally higher than that of the low-temperature storage compartment, if the gas exhausted from the modified atmosphere fresh food space 4 directly enters the low-temperature storage compartment, the storage effect of the low-temperature storage compartment is affected, and therefore, the exhaust port of the suction device 3 can be communicated with the outside of the refrigerator. Therefore, the gas exhausted from the air-conditioning preservation space 4 can be directly exhausted to the outside of the refrigerator, and the storage effect of the low-temperature storage chamber cannot be influenced.

The suction device 3 can be arranged at a plurality of positions, and for example, the suction device 3 can be positioned inside the fresh food compartment 1; as a further example, with reference to fig. 2, the suction device 3 may also be located inside the compressor compartment or in an area outside the freshener chamber 1 inside the cryogenic storage compartment. Since the interior of the fresh food compartment 1 is limited and the suction device 3 occupies the interior of the fresh food compartment 1 when located inside the fresh food compartment 1, it is preferable that the suction device 3 be located inside the compressor compartment or in an area outside the fresh food compartment 1 within the low-temperature storage compartment. When the suction device 3 is positioned in the compressor bin, the space for installing the suction device 3 is not required to be additionally arranged, the structure of the refrigerator is more compact, and when the suction device 3 is positioned in the area outside the fresh-keeping chamber 1 in the low-temperature storage chamber, the internal space of the fresh-keeping chamber 1 is not occupied.

The modified atmosphere film 2 is a nitrogen-rich film made of a high molecular organic material, and the surface of the modified atmosphere film 2 is provided with a high molecular group which is close to nitrogen, so that when the pressure difference is generated on the two sides of the modified atmosphere film 2, the nitrogen is easily coated on the film and passes through, namely when the suction device 3 sucks air, the pressure in the modified atmosphere space 4 is lower than the pressure outside the fresh-keeping chamber 1, and at the moment, the nitrogen in the air outside the fresh-keeping chamber 1 penetrates through the modified atmosphere film 2 and enters the modified atmosphere space 4, and most oxygen in the air is blocked.

The thicker the modified atmosphere film 2, the lower the oxygen permeability, the higher the nitrogen purity in the modified atmosphere preservation space 4, but the smaller the nitrogen permeability, the longer the pumping time of the pumping device 3, the higher the cost, and the poorer the user experience, therefore, the thickness of the modified atmosphere film 2 can be 0.8-1.5 mm, preferably 1mm, the modified atmosphere film 2 in this thickness range can ensure that the oxygen permeability is not too high, and can also ensure that the nitrogen permeability is not too low, the pumping time of the pumping device 3 is also short, and the cost performance is highest.

The mounting mode of the air-conditioning film 2 is various, and for example, the air-conditioning film 2 can be directly bonded at the air inlet 5; for another example, referring to fig. 4 and 5, the modified atmosphere film 2 can be installed at the air inlet 5 through the installation frame 7, and the outer wall of the installation frame 7 is hermetically connected with the inner wall of the air inlet 5, because the modified atmosphere film 2 is directly adhered at the air inlet 5, if the modified atmosphere film 2 needs to be replaced, the modified atmosphere film 2 needs to be torn off from the air inlet 5, and the modified atmosphere film 2 is made of a high molecular organic material, is soft in material, and can be damaged if directly torn off; when the modified atmosphere film 2 is installed at the air inlet 5 through the mounting frame 7, and the modified atmosphere film 2 needs to be replaced, the mounting frame 7 only needs to be detached from the air inlet 5, the modified atmosphere film 2 cannot be damaged, and therefore, the modified atmosphere film 2 is preferably installed at the air inlet 5 through the mounting frame 7.

The mounting frame 7 and the fresh-keeping chamber 1 can be connected in various ways, for example, the mounting frame 7 can be directly bonded to the upper surface of the fresh-keeping chamber 1; for another example, referring to fig. 2, the outer wall of the mounting frame can be hermetically connected with the inner wall of the air inlet 5, that is, the external dimension of the mounting frame 7 can be adapted to the dimension of the inner hole of the air inlet 5, and the mounting frame 7 can extend into the air inlet 5 and be hermetically connected with the hole wall of the air inlet 5, because the mounting frame 7 is directly bonded on the upper surface of the fresh-keeping chamber 1, the mounting frame 7 and the air-conditioning film 2 are higher than the upper surface of the fresh-keeping chamber 1, and the overall height of the fresh-keeping chamber 1 is increased; the mounting frame 7 extends into the air inlet 5 and is in sealing connection with the hole wall of the air inlet 5, only the air-conditioning film 2 is higher than the fresh-keeping chamber 1, and the height increase of the fresh-keeping chamber 1 can be ignored due to the fact that the air-conditioning film 2 is thin and is made of soft materials, and therefore the outer wall of the mounting frame 7 is preferably in sealing connection with the inner wall of the air inlet 5.

Referring to fig. 5, the modified atmosphere membrane 2 may be rectangular or circular or other shapes, and the shape of the mounting frame 7 is not limited herein, and the mounting frame 7 may be related to the shape of the modified atmosphere membrane 2, for example, when the modified atmosphere membrane 2 is rectangular, the mounting frame 7 may be a rectangular frame structure, when the modified atmosphere membrane 2 is circular, the mounting frame 7 may be a hollow cylinder structure, and the radial dimension of the modified atmosphere membrane 2 may be larger than that of the mounting frame 7 for better appearance and installation convenience.

The air inlet 5 can be arranged at a plurality of positions, for example, the air inlet 5 can be arranged on the side surface of the fresh-keeping chamber 1; as shown in fig. 3 and 7, the air inlet 5 may also be disposed at the center of the top of the fresh food compartment 1, and as shown in fig. 1, one or two side surfaces of the fresh food compartment 1 may sometimes be attached to or have a short distance from the refrigerator liner 20, a gap is generally formed between the top surface of the fresh food compartment 1 and the refrigerator liner 20, the area of the top surface of the fresh food compartment 1 is generally large, and when the air inlet 5 is disposed at the side surface of the fresh food compartment 1, the size of the air inlet 5 may be limited, which may cause the suction device 3 to operate for a long time, and the air inlet 5 may be blocked by the refrigerator liner 20, which may cause the air to flow unsmoothl; when air inlet 5 was seted up at the top center of freshfood compartment 1, the size range of air inlet 5 was bigger, and suction device 3 operating time is shorter, and air inlet 5 is difficult to be sheltered from, and the circulation of air is more smooth and easy, consequently, the preferred air inlet 5 is seted up at the top center of freshfood compartment 1.

There are various realizable ways of the suction device 3, and the suction device 3 may be a fan, for example; as another example, referring to fig. 2, the suction device 3 may also be an air pump, because the blower is generally large in volume and loud in noise; the suction pump is small in size and low in noise, so that the suction device 3 is preferably a suction pump, a suction port of the suction pump is connected to the air outlet 6 through an air pipeline 22, and an exhaust port of the suction pump is communicated with the outside of the refrigerator.

Referring to fig. 3 and 4, in order to conveniently take and place food materials, the fresh food compartment 1 may include a compartment body, a sealing member 9 and a drawer 8, the compartment body forms two sidewalls, a top wall, a bottom wall and a rear wall of the fresh food compartment 1 and defines a front inlet 16, an outer side of the front inlet 16 forms a peripheral member 17 surrounding the front inlet 16, a mouth portion of the peripheral member 17 is provided with a sealing groove, the sealing member 9 is located in the sealing groove, the drawer 8 forms a storage space, the drawer 8 is capable of moving in a specific direction from the inner side of the compartment body, the drawer 8 includes a drawer front plate 15, the drawer front plate 15 may compress the sealing member 9 when the drawer 8 is closed, the drawer 8 and the compartment body are locked by a locking device, the locking device may be a snap lock including a snap and a locking tongue which are engaged with each other, the snap is disposed on the compartment body, the locking tongue is, the locking and unlocking between the drawer 8 and the box body are realized. Therefore, when the suction device 3 sucks gas in the fresh-keeping chamber 1, the air outside the fresh-keeping chamber 1 can only enter from the fresh-keeping chamber air inlet 5 and cannot enter from the gap between the drawer 8 and the fresh-keeping chamber 1, and the time for the controlled atmosphere fresh-keeping space 4 to reach the required oxygen concentration value is shortened, so that the operation time of the suction device 3 is shortened, the resources are saved, and the cost is reduced.

The box generally is the plastics material, needs injection moulding, and when the box was the integral part, the drawing of patterns degree of difficulty was great, as shown in fig. 3, the box can be for the part of piecing, including epitheca 18 and inferior valve 19, can adopt to melt between epitheca 18 and the inferior valve 19 and bond and also can be through setting up the sealing member between the two and connect. For ease of alignment during installation or bonding, the upper shell 18 includes a top wall, a partial back wall and partial side walls, and the lower shell 19 includes a bottom wall, a partial back wall, partial side walls and a peripheral member 17. Therefore, the box body is easier to demould and is convenient to align.

Referring to fig. 4, 6 and 8, drawer 8 and the box body can be connected in a sliding manner through a first slide rail assembly, the first slide rail assembly is two sets and is respectively arranged on two sides of drawer 8, the first slide rail assembly comprises a first slide rail 22 and a first roller 21, first slide rail 22 is arranged on the inner wall surface of the box body, first slide rail 22 comprises an upper slide rail 221 and a lower slide rail 222, first roller 21 is arranged on the outer wall surface of drawer 8, and first roller 21 can roll between upper slide rail 221 and lower slide rail 222 to drive drawer 8 to move back and forth. Therefore, sliding friction between the drawer 8 and the box body can be converted into rolling friction between the first sliding rail 22 and the first roller 21, and the drawer 8 moves more smoothly.

Referring to fig. 4, 6 and 8, the first roller 21 is generally disposed near the rear wall of the drawer 8, so that the front of the drawer 8 sinks during the movement of the drawer 8, and the front of the bottom of the drawer 8 easily rubs against the bottom wall of the box, resulting in unsmooth movement of the drawer 8, and therefore, a second rail assembly may be further disposed between the drawer 8 and the box, and includes a second roller 23 and a second rail 24, the second roller 23 is disposed on the inner wall of the box and is far away from the rear wall of the box, the second rail 24 is disposed on the outer wall of the drawer 8 and is near the front plate 15 of the drawer, a slide is disposed at the bottom of the second rail 24, the second roller 23 can slide along the slide to drive the drawer 8 to move back and forth, the upper rail 221 and the lower rail 222 are disposed near the rear wall of the box, and the first roller 21 is disposed far away from the front plate 15 of the. From this, be in two gyro wheels of front and back position and all with the slide rail contact, the bottom surface of drawer 8 can not rub with the diapire face of box, and drawer 8 moves more smoothly.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A refrigerator, characterized by comprising:

a low temperature storage chamber forming a low temperature storage space;

the preservation chamber is positioned in the low-temperature storage chamber to form a modified atmosphere preservation space for storing food materials;

the modified atmosphere film is arranged on the fresh-keeping chamber and used for separating the modified atmosphere fresh-keeping space from the outside of the fresh-keeping chamber, allows nitrogen in the air to pass through and can block at least one part of oxygen in the air;

and the suction device is used for pumping the gas in the modified atmosphere preservation space to the outside of the preservation chamber.

2. The refrigerator as claimed in claim 1, wherein the fresh food compartment is provided with an air inlet and an air outlet, the modified atmosphere film is hermetically disposed at the air inlet, and the air suction port of the suction device is communicated with the air outlet of the fresh food compartment.

3. The refrigerator of claim 2, wherein the air outlet of the suction device is in communication with the outside of the refrigerator.

4. The refrigerator according to claim 3,

the suction device is positioned in the compressor bin; alternatively, the suction device is located in an area outside the fresh food compartment within the low-temperature storage compartment.

5. The refrigerator of claim 4, wherein the modified atmosphere film is mounted at the air inlet by a mounting bracket, and an outer wall of the mounting bracket is in sealing connection with an inner wall of the air inlet.

6. The refrigerator of claim 5, wherein the air inlet is located at a top center of the fresh food compartment.

7. The refrigerator according to any one of claims 1 to 6, wherein the fresh food compartment comprises:

a cabinet forming two side walls, a top wall, a bottom wall and a rear wall of the fresh food compartment and defining a front entrance; the outside of the front inlet forms a periphery around the front inlet; a sealing groove is formed in the opening of the peripheral piece;

a seal disposed within the seal groove;

a drawer forming a storage space, the drawer being provided to be movable in a designated direction from an inner side of the cabinet; the drawer includes a drawer front that compresses the seal when the drawer is closed;

and the locking device is used for locking the drawer and the box body.

8. The refrigerator according to claim 7, wherein the cabinet is a separate member including an upper case and a lower case, the upper case being hermetically coupled with the lower case; said upper shell including said top wall, a portion of said rear wall and a portion of said side wall; the lower case includes the bottom wall, a part of the rear wall, a part of the side wall, and the peripheral member.

9. The refrigerator according to claim 8, wherein the drawer is slidably connected to the cabinet by two sets of first rail assemblies respectively disposed at two sides of the drawer, and the first rail assemblies comprise:

the first slide rail is arranged on the inner wall surface of the box body and comprises an upper slide rail and a lower slide rail;

the first idler wheel is arranged on the outer wall surface of the drawer and can roll between the upper sliding rail and the lower sliding rail to drive the drawer to move back and forth.

10. The refrigerator of claim 9, further comprising a second slide rail assembly, the second slide rail assembly comprising:

the second roller is arranged on the inner wall surface of the box body and is far away from the rear wall;

the second sliding rail is arranged on the outer wall surface of the drawer and is close to the drawer front plate, a sliding way is arranged at the bottom of the second sliding rail, and the second roller can slide along the sliding way to drive the drawer to move back and forth;

the upper sliding rail and the lower sliding rail are arranged close to the rear wall, and the first idler wheel is far away from the drawer front plate.

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