CN112611143A

CN112611143A - Ice making box and refrigerator

Info

Publication number: CN112611143A
Application number: CN202011448736.7A
Authority: CN
Inventors: 鲁礼明; 陶晓彦; 李芳�; 张中俊
Original assignee: Anhui Konka Tongchuang Household Appliances Co Ltd
Current assignee: Anhui Konka Tongchuang Household Appliances Co Ltd
Priority date: 2020-12-11
Filing date: 2020-12-11
Publication date: 2021-04-06

Abstract

The invention discloses an ice making box and a refrigerator, wherein the ice making box comprises: the ice-making box comprises an ice-making box body and a box cover connected with the ice-making box body in a sliding manner; the edge part of the box cover is provided with an embedded groove, and the edge of the ice-making box body is arranged in the embedded groove so as to realize that the edge part of the ice-making box body slides in the embedded groove. According to the ice-making box, the ice-making box is made of the flexible material and the anti-freezing layer, and the accommodating cavity with the convex arc-shaped structure and the sliding box cover with the water injection port are added, so that compared with the prior art, the ice-making box is not a simple and integrally-formed plastic structure, the box body is not required to be damaged due to the fact that the ice box is forcibly twisted to take ice, and ice blocks can be taken down simply and conveniently by lightly pressing the bottom of the ice box.

Description

Ice making box and refrigerator

Technical Field

The invention relates to the technical field of household appliances, in particular to an ice making box and a refrigerator.

Background

At present, the refrigerator often can attach simple and easy ice-making box, but most ice-making box is simple and easy integrated into one piece plastic construction, often need just can take off the ice-cube with the box body distortion when getting ice, not only hard, and long-term the use can lead to the box body fracture, causes the waste.

Thus, there is a need for improvements and enhancements in the art.

Disclosure of Invention

The invention provides an ice making box and a refrigerator, aiming at solving the technical problems that the ice making box is of an integrated structure and ice blocks are difficult to take down in the prior art.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

in a first aspect, the present invention provides an ice making housing, wherein the ice making housing comprises: the ice-making box comprises an ice-making box body and a box cover connected with the ice-making box body in a sliding manner; the edge part of the box cover is provided with an embedded groove, and the edge of the ice-making box body is arranged in the embedded groove so as to realize that the edge part of the ice-making box body slides in the embedded groove.

In one implementation manner, the fitting groove is formed by bending and extending an edge portion of the ice making box perpendicularly to a plane where the box cover is located, and the width of the fitting groove is greater than the thickness of the edge portion of the ice making box body.

In one implementation mode, a limiting structure is arranged on the ice making box; the limit structure comprises: the ice making box comprises a sliding groove arranged on the ice making box body and a bulge arranged on the box cover, wherein the bulge is positioned in the sliding groove to slide.

In one implementation, the protrusion is provided as a circular protrusion, and the diameter of the circular protrusion is smaller than the width of the sliding groove.

In one implementation, two ends of the sliding groove are arranged in a closed manner, and the length of the sliding groove is the same as that of the ice making area in the ice making box body.

In one implementation manner, the bottom of the ice making box body is provided with a plurality of accommodating cavities, the accommodating cavities are arranged in an arc structure, each accommodating cavity is independently arranged, and the plurality of accommodating cavities form an ice making area for making ice.

In one implementation, the receiving cavity is provided as an article made of a flexible material.

In one implementation, the box cover is provided with a water filling port.

In one implementation, the fitting groove and the accommodating cavity are provided with anti-freezing layers.

In a second aspect, the invention provides an ice making box, wherein the refrigerator comprises the ice making box in any one of the above aspects.

Has the advantages that: the invention provides an ice making box and a refrigerator, wherein the ice making box is made of flexible materials and an anti-freezing layer, and is provided with a convex arc-shaped containing cavity and a sliding box cover with a water injection port.

Drawings

Fig. 1 is a top view of an ice making box according to an embodiment of the present invention.

Fig. 2 is a structural view of a bottom receiving cavity of an ice making box according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to solve the problems of the prior art, the present embodiment provides an ice making case, as shown in fig. 1, including: the ice-making box comprises an ice-making box body 1 and a box cover 4 connected with the ice-making box body 1 in a sliding manner; the edge part of the box cover 4 is provided with an embedding groove 6, and the edge of the ice-making box body 1 is arranged in the embedding groove 6, so that the edge part of the ice-making box body 1 slides in the embedding groove 6. In the embodiment, the ice making box is made of flexible materials and the anti-freezing layer, the accommodating cavity with the convex arc-shaped structure and the sliding box cover with the water filling port are added, ice making and ice taking operations are simply and easily performed, specifically, the box cover is designed into a downward-inclined structure, the regular pattern water filling port is arranged on the box cover, water can be uniformly filled, and an obvious water filling line mark is formed, so that a user can conveniently and simply fill water, a limit structure and a sliding structure are arranged between the box cover and the ice making box body, when the user makes ice, the box cover can rapidly slide on the ice making box body, and due to the effect of the limit structure, when the user slides to the end, the user can obviously feel the existence of the limit structure, so that the sliding is stopped, and after the user slides the box cover, the whole ice making box body can be accurately sealed by the box cover, or when the box cover is opened by sliding, the box cover can not fall off due to the action of the limiting structure, therefore, when a user carries out ice taking and sealing operation on the ice making box, the box cover can be flexibly opened and closed to carry out corresponding operation, in addition, the sliding parts of the box cover and the ice making box body and the inside and the outside of the accommodating cavity at the bottom of the ice making box are provided with anti-freezing layers, after the freezing process of ice making is finished, the box cover can not be adhered to the ice making box body, a user can freely slide the box cover to carry out ice taking operation without resistance, and simultaneously, because the inner part and the outer part of the accommodating cavity at the bottom of the ice making box are provided with the anti-freezing layers, so that the ice cubes are easier to take down, the bottom of the ice making box is not easy to be adhered with the tray of the freezing chamber of the refrigerator, and because the flexible material is adopted, the accommodating cavity at the bottom of the ice making box is easy to deform and recover, and a user only needs to press the accommodating cavity lightly to take out the ice blocks in the accommodating cavity at the corresponding position.

In one situation of the prior art, the ice making box usually adopts a simple integrally formed plastic structure, because the ice making box is of the integrally formed plastic structure, the whole structure is not easy to generate elastic deformation, after water is injected and frozen, and no anti-freezing layer is arranged inside and outside the ice making box, the frozen ice making box can be adhered to a tray in a freezing chamber of a refrigerator, so that a user needs to spend a large amount of strength to take the ice making box off the tray in the freezing chamber in one step when taking ice, the refrigerator can be damaged after long-term use, in addition, ice blocks in the frozen ice making box can be tightly connected with the ice making box to form the integral structure, the molecular combination is very tight, when taking ice, the user can only repeatedly pull the ice making box or heat a boiled water tight structure, the method for taking ice for a long time can lead the user to waste a large amount of strength and damage to the user and the box body, the taken ice blocks are not attractive, the risk of falling of the ice blocks is also accompanied, meanwhile, the traditional ice making box is not provided with a special box cover structure for uniform water injection and water injection lines, when a user injects water every time, the water injection is not uniform, the ice blocks need to be shaken uniformly manually, or the water injection is excessive or insufficient every time, so that after the ice blocks are frozen, the ice blocks are too few to use, or all the ice blocks are adhered together, a whole large ice block cannot be divided, the ice blocks can be divided into small ice blocks which can be used only by twisting the whole ice block with extra large strength, the hand of the user is frostbitten after long-term use, and the obtained ice blocks are easy to be unhygienic and the risk of falling is easy to occur; in another situation of the prior art, the ice-making box adopts an automatic rotation type, namely two layers of spaces of the refrigerator are occupied independently, one layer is used for making ice by freezing uniformly by the ice-making box capable of rotating automatically, the other layer is used for rotating and taking off ice storage and storage spaces, the operation is more convenient, but the defect of the rotation ice-making is that the occupied space is larger, and the refrigerator and the ice-making box are connected, so that the refrigerator can not be used independently, and the manufacturing cost is more expensive. Therefore, the ice making box manufactured by the invention can overcome the defects, the ice making box is manufactured by adopting a two-component injection molding method, the main body of the ice making box is a plastic element which is not easy to deform, so that the whole ice making box is very firm and cannot be easily damaged, but the bottom of the ice making box is manufactured by adopting a flexible material, after the ice making box is injected with water and frozen, ice blocks in a corresponding accommodating cavity can be taken out only by slightly pressing the bottom of the ice making box, and in addition, the sliding part of the freezing box and the inside and outside of the accommodating cavity at the bottom are provided with the anti-freezing layers, so that when a user uses the freezing box, the user can easily take and put the ice making box from a freezing chamber of a refrigerator before freezing or after freezing, the box cover of the ice making box is slid, the ice making operation of taking is carried out, and the anti-freezing layers are effectively added, the ice making box is very small, occupies very little space of the refrigerator conveniently, is suitable for any type of refrigerator, has low manufacturing cost and convenient operation, simultaneously, the box cover of the ice making box is designed into a downward inclined structure to be matched with the regular pattern water filling port on the box cover for water filling, the water can be filled uniformly when the water is filled into the water filling port, the injected water is distributed uniformly without manual shaking, the lowest point of the box cover of the ice making box is the water filling line identification position, the water filling is finished when the water is filled to the lowest point, the water filling is not too little or too much, thereby the ice making box is very full and suitable, the ice blocks are very easy to take off, and a plurality of ice blocks are prevented from being adhered into a whole block, the effects of ice making and taking are very significant.

For example, as shown in fig. 1, when a user needs to make ice, the ice making box is taken out from a refrigerator loaded with the ice making box, and the fitting grooves 6 at two edges of the box cover 4 slide along the sliding grooves at two edges of the ice making box body 1 until the ice making box body 1 is completely covered, and the box cover 4 and the ice making box body 1 are both provided with a limiting structure, such as a protrusion 3 on the box cover and a sliding groove 2 on an edge of the ice making box body 1, so that when the user uses the ice making box, the box cover 4 is slid or covered from the ice making box body 1, and due to the existence of the limiting structure, the user can obviously sense that a strong resistance exists when the box cover 4 is covered or slid open and stops sliding, and the place where the resistance exists is the limiting distance of the limiting structure, and also is that the protrusion 3 on the box cover 4 is just clamped at the topmost end or the bottommost end of the edge of the ice making box body 1, so that the box cover 4 can just cover the ice making box body 1, or a user can feel resistance when sliding the box cover 4 off the ice making box body 1, and the box cover 4 can just slide off the ice making box body completely without falling off. After a user completely covers the ice making box body 1 by using the box cover 4, the user can inject water to the water injection port 5 through a water dispenser or a water cup, the box cover 4 is designed into a downward inclined structure and is matched with the regular pattern water injection port arranged on the box cover 4 for water injection, the injected cold water can just and uniformly sink through all the accommodating cavities in the ice making box body 1 during water injection without communicating all the accommodating cavities, after the water injection is finished, the user puts the ice making box with the water injection finished on a tray frame of a refrigerator freezing chamber for freezing, after the ice making box is frozen, ice blocks in all the accommodating cavities which are not communicated with each other cannot be adhered into a whole, meanwhile, because the sliding part of the box cover 4 on the ice making box of the invention, which is contacted with the ice making box body 1, is provided with an anti-freezing layer, and the inner surface and the outer surface of each accommodating cavity of the ice making box body 1 are also provided with anti-freezing layers, therefore, even if the ice-making box of the invention is frozen, a user can slide the box cover 4 away from the ice-making box body 1 to take ice, and the user can take out corresponding number of ice pieces by moving the box cover 4 from the ice-making box body 1 according to the number of ice pieces needed, and meanwhile, because the inner and outer surfaces of each accommodating cavity in the ice-making box body 1 are also provided with anti-freezing layers, the ice pieces are not easy to adhere to the accommodating cavities in the ice-making box body 1, and the ice-making box body 1 is not easy to adhere to a tray rack in a freezer of a refrigerator, so that the user can easily take the ice-making box from the tray rack in the freezer of the refrigerator when taking the ice-making box from the freezer of the refrigerator, and the ice pieces are also easy to fall from each accommodating cavity in the ice-making box body 1, and finally, because the bottom of the ice-making box is made of a flexible material, when the user is getting ice, only need press gently the bottom of ice-making box body 1, the bottom of ice-making box body 1 can freely stretch out and draw back because of flexible material's nature, and the user presses the ice-making box bottom is very soft, need not consume too big power, the ice-making box is very easy deformation and very easy reduction, consequently, the user can be further, adds comfortable taking out the ice-cube more soon to accomplish whole system ice and get the flow of ice-cube.

In specific implementation, as shown in fig. 1, in an implementation method, the box cover 4 has a downward curved inlaid structure, that is, the box cover 4 is inclined inward and has a water converging effect, and the box cover 4 is provided with a water filling port 5, the water filling port 5 may be set to be circular or other patterns capable of uniformly dispersing water during water filling, the water filling port 5 and the box cover 4 are cooperatively matched with each other to fill water, when water is filled, the box cover 4 completely seals the ice making box body 1, flowing water enters from the water filling port 5 and can uniformly diffuse around along the inner surface of the box cover 4, each receiving cavity in the ice making box body 1 is slowly filled without shaking uniformly, and the lowest point of the box cover 4 can serve as a water filling mark, when water is injected into all the accommodating cavities in the ice making box body 1 to reach the lowest point of the box cover 4, the water just overflows all the accommodating cavities in the ice making box body 1, but all the accommodating cavities in the ice making box body 1 are not communicated with each other, after the ice making box is frozen, ice made by the ice making box is full, and ice blocks in all the accommodating cavities in the ice making box body 1 are not mutually adhered into a whole block.

In another implementation, as shown in fig. 1, a sliding structure is provided on the box cover 4. Specifically, the edge of the box cover 4 is provided with the fitting groove 6, the fitting groove 6 is formed by bending and extending the edge part of the ice making box perpendicularly to the plane of the box cover 4, and the width of the fitting groove 6 is greater than the thickness of the edge part of the ice making box body 1. The box cover 4 is designed to be slightly larger than the ice box body 1, and the edge of the box cover 4 is designed to be in a bent shape, so that the box cover 4 and the ice box body 1 can be tightly embedded together, and the box cover 4 can slide on the edge of the ice box body 1 more easily, meanwhile, the embedding groove 6 is provided with an anti-freezing layer, after the ice box is frozen, a user can slide on the ice box body 1 by using the box cover 4 without difficulty, and corresponding grids can be slid, so that ice blocks with corresponding quantity can be correspondingly taken out.

In still another implementation method, as shown in fig. 1, a limiting structure is provided on the ice making housing, the limiting structure is used for setting a limiting structure according to the length of the edge of the ice making housing body 1 when the housing cover 4 is used to slide on the ice making housing body 1, so as to control the sliding range of the housing cover 4 on the ice making housing body 1, the limiting structure is provided on the ice making housing and includes a sliding groove 2 provided on the ice making housing body 1 and a protrusion 3 provided on the housing cover, the protrusion 3 is located in the sliding groove 2 to slide, when a user slides on the ice making housing body 1 by using the housing cover 4, the protrusion 3 slides in the sliding groove 2, because the length of the sliding groove 2 is limited, so as to limit the moving range of the protrusion 3, and thus the protrusion 3 limits the sliding of the housing cover 4 on the ice making housing body 1, the limiting function is achieved. Specifically, when the box cover 4 and the ice making box body 1 slide relatively, the fitting groove 6 on the box cover 4 slides closely to the edge of the ice making box body 1, so as to drive the protrusion 3 on the box cover 4 to move in the sliding groove 2 on the edge of the ice making box body 1, two ends of the sliding groove 2 are arranged in a sealing manner, the length of the sliding groove 2 is the same as that of an area for making ice and making ice in the ice making box body 1, the length of the sliding groove 2 is set according to the length of the ice making box body 1, in order to enable the box cover 4 to play a good role in sealing the ice making box body 1, when the box cover 4 slides to the beginning or the end, the protrusion 3 on the box cover 4 touches the sealing position of the sliding groove on the edge of the ice making box body 1 to be blocked, and further plays a role in limiting, because the protrusion 3 is a circular protrusion, the diameter of the circular protrusion is smaller than the width of the sliding groove 2, the protrusion 3 on the box cover 4 slides very smoothly in the sliding groove 2 of the ice making box body 1, the frictional resistance is very small, a user can easily perceive the difference between the smooth sliding of the protrusion 3 in the sliding groove 2 and the blocking of the two tail ends of the protrusion 3 when sliding, so that the user can stop sliding immediately when the protrusion 3 touches the tight closing part of the sliding groove 2, at this time, the ice making box is just in a sealed state or the box cover 4 does not fall down when the user slides the box cover 4, and through the design of the limiting structure, the user can slide the box cover 4 for a long time without damaging the whole box body due to excessive force, and in addition, all parts related to the limiting structure are also provided with an anti-freezing layer, therefore, regardless of whether the ice-making housing is used for making ice in a freezing chamber of a refrigerator or not, a user can take out the ice-making housing and slide on the ice-making housing body 1 using the cover 4 without difficulty.

In other implementation methods, as shown in fig. 1 and 2, a plurality of receiving cavities 101 are provided at the bottom of the ice making housing body 1, the receiving cavities 101 are arranged in an arc structure, each receiving cavity 101 is independently arranged, and the plurality of receiving cavities 101 form an ice making area for making ice. Specifically, the accommodating cavity 101 has a plurality of accommodating cavities 101, the plurality of accommodating cavities have corresponding baffles for partitioning into small spaces, each small space can be used for making ice, the small spaces together form an ice making area, the accommodating cavity 101 is made of a flexible material, the ice making box is made by two-component injection molding instead of single injection molding, different materials can make up respective defects, the main body is made of plastic, so that the shell of the whole ice making box is very hard, has very good corrosion resistance and is not easy to damage, but the accommodating cavity 101 is made of a food-grade flexible material, the accommodating cavity 101 made of the flexible material is easy to deform and restore, a user can conveniently squeeze the accommodating cavity 101, the ice taking mode of the traditional ice making box which is hard to twist is broken, and the accommodating cavity 101 has an arc-shaped structure, when a user takes ice cubes, the user only needs to lightly press the bottom of the ice cube tray body 1, pressing force acts on the outer surface of the accommodating cavity 101, the accommodating cavity 101 deforms, all pressing force is converted into deformation force to act on the ice cubes in the accommodating cavity 101, due to the arc-shaped structure of the accommodating cavity 101, the pressing force is uniformly distributed on the whole arc-shaped structure, the pressing force after decomposition and synthesis is superposed and counteracted to act on the ice cubes completely, the direction is vertical upward, the ice cubes can fall off and are extruded easily, the taken ice cubes are generated from a container made of food-grade flexible materials, therefore, the taken ice cubes can be eaten directly, the food-grade flexible materials can adopt TPU rubber and the like, the ice cube tray is very natural and environment-friendly, and meanwhile, the inner part and the back face of the accommodating cavity 101 are provided with anti-freezing layers, the inner anti-freezing layer is used for preventing the frozen ice blocks from contacting with the accommodating cavity 101 in the ice making box body 1 too tightly, so that a user can take out the ice blocks in the accommodating cavity 101 easily when taking the ice blocks, the situation that the body of the user is damaged or the box body is damaged due to the fact that the box can be twisted vigorously to make the ice blocks fall off from the box body is avoided as in a traditional mode, the outer anti-freezing layer is used for preventing water from attaching to the surface of the bottom of the ice making box after the user uses the ice making box to be filled with water, when the user makes ice, the ice making box is placed into the freezing chamber, the tray in the ice making box and the tray in the freezing chamber are adhered tightly after the water attached to the ice making box is frozen, and therefore the ice making box and the tray cannot be separated from each other when the user takes the ice, and therefore the outer anti-freezing layer well prevents the situation from happening, after the ice making box is used for making ice, a user can easily take the ice making box out of the tray frame of the freezing chamber of the refrigerator, and the ice taking operation of the user is facilitated.

Based on the embodiment, the invention further provides a refrigerator which comprises the ice-making box in any one of the schemes. In the refrigerator of the present invention, there is provided an ice making case provided by the present invention, the ice making case comprising: the ice-making box comprises an ice-making box body and a box cover connected with the ice-making box body in a sliding manner; the edge part of the box cover is provided with an embedded groove, and the edge of the ice-making box body is arranged in the embedded groove so as to realize that the edge part of the ice-making box body slides in the embedded groove. The ice-making box is made of anti-freezing and flexible materials, and the embedded groove of the box cover can slide with the edge part of the ice-making box body, so that after the ice-making box is frozen in the refrigerator after water is injected, a user can slide the box cover quickly and without resistance to perform ice-taking operation due to the anti-freezing materials and the sliding structure, and can easily take the ice-making box out of a tray on a freezing chamber.

In summary, the present invention discloses an ice making box and a refrigerator, wherein the ice making box comprises: the ice-making box comprises an ice-making box body and a box cover connected with the ice-making box body in a sliding manner; the edge part of the box cover is provided with an embedded groove, and the edge of the ice-making box body is arranged in the embedded groove so as to realize that the edge part of the ice-making box body slides in the embedded groove. In the embodiment, the ice making box is made of flexible materials and the anti-freezing layer, the accommodating cavity with the convex arc-shaped structure and the sliding box cover with the water filling port are added, ice making and ice taking operations are simply and easily performed, specifically, the box cover is designed into a downward-inclined structure, the regular pattern water filling port is arranged on the box cover, water can be uniformly filled, and an obvious water filling line mark is formed, so that a user can conveniently and simply fill water, a limit structure and a sliding structure are arranged between the box cover and the ice making box body, when the user makes ice, the box cover can rapidly slide on the ice making box body, and due to the effect of the limit structure, when the user slides to the end, the user can obviously feel the existence of the limit structure, so that the sliding is stopped, and after the user slides the box cover, the whole ice making box body can be accurately sealed by the box cover, or when the box cover is opened by sliding, the box cover can not fall off due to the action of the limiting structure, therefore, when a user carries out ice taking and sealing operation on the ice making box, the box cover can be flexibly opened and closed to carry out corresponding operation, in addition, the sliding parts of the box cover and the ice making box body and the inside and the outside of the accommodating cavity at the bottom of the ice making box are provided with anti-freezing layers, after the freezing process of ice making is finished, the box cover can not be adhered to the ice making box body, a user can freely slide the box cover to carry out ice taking operation without resistance, and simultaneously, because the inner part and the outer part of the accommodating cavity at the bottom of the ice making box are provided with the anti-freezing layers, so that the ice cubes are easier to take down, the bottom of the ice making box is not easy to be adhered with the tray of the freezing chamber of the refrigerator, and because the flexible material is adopted, the accommodating cavity at the bottom of the ice making box is easy to deform and recover, and a user only needs to press the accommodating cavity lightly to take out the ice blocks in the accommodating cavity at the corresponding position.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. An ice-making housing, comprising: the ice-making box comprises an ice-making box body and a box cover connected with the ice-making box body in a sliding manner; the edge part of the box cover is provided with an embedded groove, and the edge of the ice-making box body is arranged in the embedded groove so as to realize that the edge part of the ice-making box body slides in the embedded groove.

2. The ice making box according to claim 1, wherein the fitting groove is formed by bending and extending an edge portion of the ice making box perpendicularly to a plane where the box cover is located, and a width of the fitting groove is greater than a thickness of the edge portion of the ice making box body.

3. The ice-making box according to claim 1, wherein a limiting structure is arranged on the ice-making box; the limit structure comprises: the ice making box comprises a sliding groove arranged on the ice making box body and a bulge arranged on the box cover, wherein the bulge is positioned in the sliding groove to slide.

4. The ice-making housing according to claim 3, wherein the protrusion is provided as a circular protrusion having a diameter smaller than a width of the chute.

5. The ice-making box according to claim 4, wherein two ends of the sliding chute are closed, and the length of the sliding chute is the same as that of the ice-making area in the ice-making box body.

6. The ice-making box according to claim 1, wherein the bottom of the ice-making box body is provided with a plurality of receiving cavities, the receiving cavities are arranged in an arc-shaped structure, each receiving cavity is independently arranged, and the plurality of receiving cavities form an ice-making area for making ice.

7. The ice-making housing according to claim 6, wherein the housing chamber is provided as a piece made of a flexible material.

8. The ice-making housing according to claim 1, wherein a water filling port is provided on the housing cover.

9. The ice making box according to claim 6, wherein the fitting groove and the accommodation chamber are provided with anti-freezing layers.

10. A refrigerator comprising the ice-making housing according to any one of claims 1 to 9.