CN221036286U - Ice box - Google Patents

Abstract

The utility model provides an ice box includes the box body, box body one side is provided with a first ice making check, the box body opposite side be provided with the same quantity of box body one side second ice making check, both sides first ice making check with the second ice making check is relative the central line symmetry setting of box body, first ice making check with the second ice making check all includes soft structure and rigid structure, first ice making check with one side that the second ice making check is close to the box body central line is soft structure, first ice making check with one side that the second ice making check is kept away from the box body central line is rigid structure, soft structure in the first ice making check with soft structure in the second ice making check is connected. The ice box has the advantages of time saving, labor saving, convenience in taking out ice cubes and the like.

Description

Ice box

Technical Field

The application belongs to the technical field of ice manufacture, and particularly relates to an ice box.

Background

An ice tray is a molding device for being placed in a freezing chamber of a refrigerator after water is contained, so that water in the ice tray is frozen into ice cubes. The ice cubes are widely applied in daily life, and particularly under the hot weather condition in summer, the use of the ice cubes provides convenience for daily life of people, so that the use frequency of the ice cubes in summer is also improved. The existing ice grid can be demolded only by knocking or left-right breaking the ice grid after frozen ice, and the defect that part of ice is difficult to drop and is troublesome to take is overcome.

Disclosure of utility model

The application aims at solving the problems in the prior art and provides the ice box which is convenient to take ice cubes and saves time and labor.

Some embodiments of the application provide an ice box, which comprises a box body, wherein a first ice making grid is arranged on one side of the box body, second ice making grids with the same number as one side of the box body are arranged on the other side of the box body, the first ice making grids and the second ice making grids on two sides are symmetrically arranged relative to the central line of the box body, the first ice making grids and the second ice making grids both comprise soft structures and hard structures, one sides of the first ice making grids and the second ice making grids, which are close to the central line of the box body, are soft structures, and one sides of the first ice making grids and one side of the second ice making grids, which are far away from the central line of the box body, are hard structures, and the soft structures in the first ice making grids and the soft structures in the second ice making grids are connected.

Some embodiments of the present application further provide an ice box, including a box body, where the box body includes at least one first ice making grid, where the first ice making grid includes a soft structure and a hard structure, two sides of the first ice making grid are hard structures, the soft structure is disposed in the middle of the hard structures, and the first ice making grids are disposed in a single row array along a central line direction of the box body, and adjacent first ice making grids are connected with each other.

In some embodiments, the box body includes a plurality of the first ice making grids and a plurality of the second ice making grids, a plurality of the first ice making grids and a plurality of the second ice making grids are arranged in a single row along a central line direction of the box body, adjacent first ice making grids are connected with each other, and adjacent second ice making grids are connected with each other.

In some embodiments, the first ice making cell includes a first ice making cell and a second ice making cell, the second ice making cell includes a third ice making cell and a fourth ice making cell, the first ice making cell and the third ice making cell are both soft structures, the second ice making cell and the fourth ice making cell are both hard structures, and an upper end of the first ice making cell is connected with an upper end of the third ice making cell, so that the gap is formed between the first ice making cell and the second ice making cell.

In some embodiments, the first ice making compartment comprises a first bottom surface and a first side surface connected to the edge of the first bottom surface, the second ice making compartment comprises a second bottom surface and a second side surface connected to the edge of the second bottom surface, the first bottom surface is also connected to the second bottom surface, the side edge of the first side surface is also connected to the side edge of the second side surface, the third ice making compartment comprises a third bottom surface and a third side surface connected to the edge of the third bottom surface, the fourth ice making compartment comprises a fourth bottom surface and a fourth side surface connected to the edge of the fourth bottom surface, the third bottom surface is also connected to the fourth bottom surface, the side edge of the third side surface is also connected to the side edge of the fourth side surface, the third side surface is opposite to the first side surface and is arranged at intervals, and the upper edge of the third side surface is connected to the upper edge of the first side surface, so that a gap is formed between the first ice making compartment and the second ice making compartment.

In some embodiments, the engagement positions of the first bottom surface and the second bottom surface are both stepped, the engagement positions of the first bottom surface and the second bottom surface are matched, the engagement positions of the third bottom surface and the fourth bottom surface are both stepped, and the engagement positions of the third bottom surface and the fourth bottom surface are matched.

In some embodiments, the ice bin includes a side plate disposed around the bin and connected to an outer periphery of the bin, the side plate including a soft structure and a hard structure, the hard structure in the side plate being connected with the hard structure in the bin, and the soft structure in the side plate being connected with the soft structure in the bin.

In some embodiments, the soft structure in the side plate is provided with a notch.

In some embodiments, the ice chest comprises a top part, the top part is arranged on the upper end face of the box body, the top part is of a soft structure, the top part comprises a raised line and a check ring, the raised line is arranged between two adjacent ice making grids, the raised lines are not connected with each other, and the check ring is arranged around the outer periphery of the box body and is connected with the side plates.

In some embodiments, the ice bin further comprises a cover that covers the bin.

In some embodiments, the ice box further comprises a side plate and a plurality of reinforcing ribs, the side plate is arranged around the box body and connected to the outer periphery of the box body, the side plate comprises a soft structure and a hard structure, the hard structure in the side plate is connected with the hard structures in the first ice making grid and the second ice making grid, the soft structure in the side plate is connected with the soft structures in the first ice making grid and the second ice making grid, and the reinforcing ribs are connected between the hard structures in the first ice making grid and the side plate or between the hard structures in the second ice making grid and the hard structures in the side plate; or a part of the reinforcing ribs are connected between the hard structures in the first ice making grid and the hard structures in the side plates, and the other part of the reinforcing ribs are connected between the hard structures in the second ice making grid and the hard structures in the side plates.

In conclusion, the ice box has the advantages of convenience and rapidness in taking out ice cubes, time saving and labor saving.

Drawings

Fig. 1 is a schematic view illustrating a structure of an ice bank according to some embodiments of the present application.

Fig. 2 is a schematic view illustrating the structure of an ice bank according to other embodiments of the present application.

Fig. 3 is a schematic view of the structure of a box and side panels according to some embodiments of the application.

Fig. 4 is a schematic view of the structure of a box and side panels according to some embodiments of the application.

Fig. 5 is a schematic view of the structure of the case and side plates according to some embodiments of the present application.

FIG. 6 is a schematic cross-sectional view of the application at A-A of FIG. 4.

Fig. 7 is a schematic view illustrating a structure of an ice bank according to still another embodiment of the present application.

Fig. 8 is a schematic view of the ice bank of fig. 7 in another view.

Fig. 9 is a schematic cross-sectional view of the application at B-B of fig. 8.

Fig. 10 is a schematic structural view of an ice bank according to some embodiments of the present application.

In the figure, 1, a box body; 2. a cover body; 3. a first ice making tray; 301. a first ice making compartment; 3011. a first side; 3012. a first bottom surface; 302. a second ice making compartment; 3021. a second side; 3022. a second bottom surface; 311. fifth ice making cell division; 3111. a fifth side; 3112. a fifth bottom surface; 312. sixth ice making compartment; 3121. a sixth side; 3122. a sixth bottom surface; 4. a second ice making tray; 401. a third ice making compartment; 4011. a third side; 4012. a third bottom surface; 402. fourth ice making cell division; 4021. a fourth side; 4022. a fourth bottom surface; 5. a top member; 501. a retainer ring; 502. a convex strip; 6. a void; 7. a slit; 8. a side plate; 9. a notch; 10. reinforcing ribs.

Detailed Description

The following are specific embodiments of the present application and the technical solutions of the present application will be further described with reference to the accompanying drawings, but the present application is not limited to these embodiments.

Referring to fig. 1-6 and 10, some embodiments of the present application provide an ice bin. The ice box comprises a box body 1, a first ice making grid 3 is arranged on one side of the box body 1, second ice making grids 4 with the same number as one side of the box body 1 are arranged on the other side of the box body 1, and the first ice making grids 3 and the second ice making grids 4 on two sides are symmetrically arranged relative to the central line of the box body 1. The first ice making grid 3 and the second ice making grid 4 both comprise a soft structure and a hard structure, one side of the first ice making grid 3 and the second ice making grid 4, which is close to the central line of the box body 1, is of the soft structure, and one side of the first ice making grid 3 and the second ice making grid 4, which is far away from the central line of the box body 1, is of the hard structure. The soft structure in the first ice making grid 3 is connected with the soft structure in the second ice making grid 4.

It can be understood that the soft structure of the box body 1 is connected between the hard structure in the first ice making grid 3 and the hard structure in the second ice making grid 4, so that when a user simultaneously pinches the hard structure in the first ice making grid 3 and the hard structure in the second ice making grid 4 and applies pressure to the central line direction of the box body 1, the soft structure in the middle position of the box body 1 is deformed due to the pressure, and the demoulding is realized.

The soft structure may be a silica gel material or a TPR material, and the hard structure is PP (polypropylene), PE (polyethylene) or PET (polyethylene terephthalate), which is not limited herein.

Further, in some embodiments, the upper end of the soft structure in the first ice making tray 3 is connected with the upper end of the soft structure in the second ice making tray 4, so that a gap 7 is formed between the first ice making tray 3 and the second ice making tray 4, so that a user can save more effort and facilitate demolding when pressing the folding ice box along the central line direction of the box body 1. In addition, when the ice box is demolded, due to the existence of the gaps 7, the soft structures in the first ice making grid 3 and the soft structures in the second ice making grid 4 can be mutually extruded to push the ice cubes to separate from the ice making grids so as to assist in demolding the ice cubes.

In other embodiments, the slit 7 may be omitted.

In other embodiments, the case 1 includes a plurality of first ice making grids 3 and a plurality of second ice making grids 4, where the plurality of first ice making grids 3 and the plurality of second ice making grids 4 are arranged in a single row along a central line direction of the case 1. Adjacent first ice making cells 3 are connected to each other, and adjacent second ice making cells 4 are connected to each other. It will be appreciated that the arrangement of the plurality of first ice making cells 3 and the plurality of second ice making cells 4 can increase the number of ice boxes for making ice at a time, and is suitable for an environment where the consumption of ice cubes is large.

Further, in some embodiments, the upper ends of the adjacent first ice making grids 3 are connected to each other or/and the upper ends of the adjacent second ice making grids 4 are connected to each other, so that gaps 7 are also formed between the adjacent first ice making grids 3 or/and between the adjacent second ice making grids 4, so as to provide deformation space for ice box ice removal and assist the ice box to efficiently remove ice.

As shown in fig. 2, in the present embodiment, the case 1 includes three first ice making cells 3 and three second ice making cells 4. Of course, in other embodiments, the number of ice making cells may be two, four, etc., and is not limited in particular.

In some embodiments, the first ice making cell 3 includes a first ice making cell 301 and a second ice making cell 302, the second ice making cell 4 includes a third ice making cell 401 and a fourth ice making cell 402, the first ice making cell 301 and the third ice making cell 401 are both soft structures, and the second ice making cell 302 and the fourth ice making cell 402 are both hard structures. The upper end of the first ice making cell 301 and the upper end of the third ice making cell 401 are connected such that a gap 7 is formed between the first ice making cell 3 and the second ice making cell 4. It will be appreciated that the gap 7 formed by the two soft structures of the first ice making cell 301 and the third ice making cell 401 together can make it more labor-saving and convenient for a user to release the folding ice chest when pressing along the center line direction of the case body 1. In addition, when the soft structure in the middle of the box body 1 is deformed due to compression during folding, the soft structure in the first ice making grid 3 and the soft structure in the second ice making grid 4 are mutually extruded due to the existence of the gap 7, and the ice cubes are pushed to separate from the ice making grids, so that demolding is realized.

In some embodiments, the first ice making cell 301 includes a first bottom surface 3012 and a first side surface 3011 connected to an edge of the first bottom surface 3012, and the second ice making cell 302 includes a second bottom surface 3022 and a second side surface 3021 connected to an edge of the second bottom surface 3022. The first bottom surface 3012 is further connected to the second bottom surface 3022, and the side edges of the first side surface 3011 are further connected to the side edges of the second side surface 3021. The third ice making cell 401 includes a third bottom surface 4012 and a third side surface 4011 connected to an edge of the third bottom surface 4012, and the fourth ice making cell 402 includes a fourth bottom surface 4022 and a fourth side surface 4021 connected to an edge of the fourth bottom surface 4022. The third bottom surface 4012 is further connected to a fourth bottom surface 4022, and the side edge of the third side surface 4011 is further connected to the side edge of the fourth side surface 4021. The third side surface 4011 is opposite to the first side surface 3011 and is disposed at a distance, and an upper edge of the third side surface 4011 is connected to an upper edge of the first side surface 3011, so that a gap 7 is formed between the first ice making grid 3 and the second ice making grid 4. It can be understood that the bottom surface and the side surface of each ice making grid comprise soft structures and hard structures, and the first ice making grid 3 and the second ice making grid 4 positioned at two sides of the central line of the box body 1 are connected through the soft structures in the middle, so that when the ice cubes are demoulded, a user only needs to press the central line direction of the box body 1 while controlling the hard structures at two sides, and at the moment, the soft structures connected with the two ice making grids deform under the driving of the hard structures, and meanwhile, the soft structures of the two ice making grids are mutually extruded, so that the inner walls of the ice making grids are separated from the ice cubes, and the demoulding is realized.

In some embodiments, the second side 3021 of the first ice making tray 3 is inclined with respect to the second bottom surface 3022 while the first side 3011 is inclined with respect to the second side 3012, i.e., the side of the first ice making tray 3 is inclined with respect to the bottom surface; meanwhile, the third side surface 4011 of the second ice making grid 4 is inclined with respect to the third bottom surface 4012, and the fourth side surface 4021 is inclined with respect to the fourth bottom surface 4022, that is, the side surface of the second ice making grid 4 is inclined with respect to the bottom surface, so that ice cubes in the first ice making grid 3 and the second ice making grid 4 are separated from the ice making grids conveniently.

In some embodiments, the engagement positions of the first bottom surface 3012 and the second bottom surface 3022 are stepped, and the engagement positions of the first bottom surface 3012 and the second bottom surface 3022 are matched. The joint positions of the third bottom surface 4012 and the fourth bottom surface 4022 are all in a step shape, and the joint positions of the third bottom surface 4012 and the fourth bottom surface 4022 are matched. It can be understood that the first ice making grid 3 and the second ice making grid 4 are connected in a step-shaped manner, so that the connection between the soft structure and the hard structure in the ice making grids is more stable, and the situation of splitting at the connection part is avoided.

In some embodiments, the ice bin further includes a side plate 8, the side plate 8 being disposed around the bin 1 and connected to an outer periphery of the bin 1. The side plate 8 comprises a soft structure and a hard structure, the hard structure in the side plate 8 is connected with the hard structure in the box body 1, and the soft structure in the side plate 8 is connected with the soft structure in the box body 1. The arrangement of the side plates 8 can improve the attractiveness and the stability of the ice box, and meanwhile, the holding area of the ice box is increased, so that the ice box can be taken more stably.

In some embodiments, a notch 9 is provided at the soft structure in the side plate 8 to provide a space for squeezing or/and folding when the ice box is released, so that the ice box can be conveniently released and taken at the same time.

In some embodiments, the ice bin includes a top member 5, the top member 5 is disposed on an upper end surface of the bin body 1, and the top member 5 is of a soft structure. The top piece 5 comprises a rib 502 and a collar 501. The protruding strips 502 are disposed between two adjacent ice-making grids, and the protruding strips 502 are not connected to each other, so that a gap 6 exists between the adjacent protruding strips 502. Wherein the presence of the interspace 6 allows to reduce the resistance when the ice chest is demoulded and folded or/and the box body 1 is pressed, thus demoulded. The retainer 501 is disposed around the outer periphery of the case 1 and is connected to the side plate 8. The retaining ring 501 can avoid overflow when the liquid in one ice making grid is too much. In addition, the retainer 501 may also cooperate with the gaps 6 between the ribs 502 to guide the liquid into one ice making tray when the liquid in another ice making tray is too much.

In some embodiments, the ice bin further comprises a cover 2, and the cover 2 is covered on the box 1 to prevent dust, smell, and the like.

In some embodiments, the cover 2 is made of transparent material to facilitate observation of the ice bin contents or the molding state of the contents. Of course, in other embodiments, the material of the cover 2 may be a non-transparent material, which is not limited herein.

In some embodiments, the ice bin further includes a number of ribs 10. A part of the reinforcing bars 10 is connected between the rigid structure in the first ice making housing 3 and the rigid structure in the side plate 8, and another part of the reinforcing bars 10 is connected between the rigid structure in the second ice making housing 4 and the rigid structure in the side plate 8. The reinforcing ribs 10 can improve the strength of the first ice making grid 3 and the second ice making grid 4 under the condition of not increasing the wall thickness of the ice making grids, and can ensure that the soft structure in the ice making grids can be deformed under the drive of the hard structure so as to further improve the ice removing efficiency. The number and arrangement of the reinforcing ribs 10 are not limited in the present application.

In other embodiments, the reinforcing bars 10 may be connected only between the rigid structures in the first ice making tray 3 and the rigid structures in the side plates 8 or only between the rigid structures in the second ice making tray 4 and the rigid structures in the side plates 8.

It will be appreciated that when the ice bin is in use, first, the liquid to be made is injected into each ice making tray, then the cover 2 is arranged on the box body 1, dust is prevented from entering the box body 1, meanwhile, ice cubes are prevented from being tainted in a refrigerator (not shown), and then the ice bin is put into the refrigerator to wait for ice cubes to be formed;

After a period of time, the liquid is made into single ice cubes through the independent ice making grids, when the ice cubes need to be taken out, the ice boxes are taken out of the refrigerator, the cover body 2 is opened, at the moment, a user simultaneously pinches the hard structures on two sides of the side plates 8 and presses the central line direction of the box body 1, so that the second side face 3021 in the second ice making grid 302 and the fourth side face 4021 in the fourth ice making grid 402 are driven to press the central line direction of the box body 1, at the moment, the soft structures in the middle position of the box body 1, namely the first ice making grid 301 and the third ice making grid 401 connected with the first ice making grid 301 are pressed and deformed, and meanwhile, the first ice making grid 301 and the third ice making grid 401 are mutually pressed and pushed to separate ice cubes from the inner wall of the ice making grid, and ice removing is achieved.

Referring to fig. 1 and fig. 7-9, another embodiment of the present application provides an ice bin. The ice box comprises a box body 1, the box body 1 comprises a first ice making grid 3, the first ice making grid 3 comprises a soft structure and a hard structure, the two sides of the first ice making grid 3 are of the hard structure, and the soft structure is arranged in the middle of the hard structure.

It can be understood that the design that the soft structure of the box body 1 is connected between the hard structures at two sides in the first ice making grid 3 in the application enables a user to pinch the hard structures at two sides in the first ice making grid 3 at the same time and apply pressure to the central line direction of the box body 1, the soft structure at the middle position of the box body 1 is deformed due to pressure, thus realizing demoulding.

The soft structure may be a silica gel material or a TPR material, and the hard structure is PP (polypropylene), PE (polyethylene) or PET (polyethylene terephthalate), which is not limited herein.

In other embodiments, the case 1 includes a plurality of first ice making cells 3, the plurality of first ice making cells 3 being arranged in a single row array along a center line direction of the case 1, upper ends of adjacent first ice making cells 3 being connected to each other. It will be appreciated that the provision of a plurality of first ice making cells 3 can increase the number of ice made per time, and is suitable for environments where the consumption of ice cubes is large.

As shown in fig. 7, in the present embodiment, the case 1 includes three first ice-making cells 3. Of course, in other embodiments, the number of ice making cells may be two, four, etc., and is not limited in particular.

In some embodiments, the first ice making cell 3 includes two fifth ice making cells 311 and a sixth ice making cell 312 connected between the two fifth ice making cells 311. The two fifth ice making cells 311 are symmetrically disposed at both sides of the sixth ice making cell 312. The fifth ice making cell 311 has a hard structure, and the sixth ice making cell 312 has a soft structure.

Further, in some embodiments, the fifth ice making cell 311 includes a fifth bottom surface 3112 and a fifth side surface 3111 connected to an edge of the fifth bottom surface 3112, and the sixth ice making cell 312 includes a sixth bottom surface 3122 and a sixth side surface 3121 connected to an edge of the sixth bottom surface 3122. The sixth bottom surface 3122 is further connected between the fifth bottom surfaces 3112 of the two sides, and the sixth side surface 3121 is further connected between the fifth side surfaces 3111 of the two sides. It can be understood that the bottom surface and the side surface of each ice making grid are formed by combining soft structures and hard structures, and the soft structures are arranged between the hard structures, so that when demolding of ice cubes is performed, a user only needs to press the hard structures on two sides of the ice making grid in the direction of the central line of the box body 1, at the moment, the soft structures connected with the two ice making grids are extruded and deformed under the driving of the hard structures, and the inner walls of the ice making grids are separated from the ice cubes, so that demolding is realized. In some embodiments, the engagement positions of the fifth bottom surface 3112 and the sixth bottom surface 3122 on both sides are stepped, and the engagement positions of the fifth bottom surface 3112 and the sixth bottom surface 3122 on both sides are matched. It can be understood that the first ice making tray 3 is connected in a stepped manner, so that the connection between the soft structure and the hard structure in the ice making tray is more stable, and the situation of splitting at the connection part is avoided.

In some embodiments, the ice bin further includes a side plate 8, the side plate 8 being disposed around the bin 1 and connected to an outer periphery of the bin 1. The side plate 8 comprises a soft structure and a hard structure, the hard structure in the side plate 8 is connected with the hard structure in the box body 1, and the soft structure in the side plate 8 is connected with the soft structure in the box body 1. The arrangement of the side plates 8 can improve the attractiveness and the stability of the ice box, and meanwhile, the holding area of the ice box is increased, so that the ice box can be taken more stably.

In some embodiments, a notch 9 is provided at the soft structure in the side plate 8 to provide a space for squeezing or/and folding when the ice box is released, so that the ice box can be conveniently released and taken at the same time.

In some embodiments, the ice bin includes a top member 5, the top member 5 is disposed on an upper end surface of the bin body 1, and the top member 5 is of a soft structure. The top piece 5 comprises a rib 502 and a collar 501. The protruding strips 502 are disposed between two adjacent ice-making grids, and the protruding strips 502 are not connected to each other, so that a gap 6 exists between the adjacent protruding strips 502. Wherein the presence of the interspace 6 allows to reduce the resistance when the ice bin is demoulded and folded or/and the bin 1 is pressed, thus demoulded. The retainer 501 is disposed around the outer periphery of the case 1 and is connected to the side plate 8. Wherein the existence of the retainer ring 501 can avoid overflow when the liquid in one ice making grid is too much. In addition, the retainer 501 may also cooperate with the gaps 6 between the ribs 502 to guide the liquid into one ice making tray when the liquid in another ice making tray is too much.

In some embodiments, the ice bin further comprises a cover 2, and the cover 2 is covered on the box 1 to prevent dust, smell, and the like.

In some embodiments, the cover 2 is made of transparent material to facilitate observation of the ice bin contents or the molding state of the contents. Of course, in other embodiments, the material of the cover 2 may be a non-transparent material, which is not limited herein.

It will be appreciated that when the ice box is in use, firstly, the liquid to be made is injected into the ice making grid, then the cover body 2 is arranged on the box body 1, dust is prevented from entering the box body 1, meanwhile, ice cubes are prevented from being tainted in the refrigerator (not shown), and then the ice box is put into the refrigerator to wait for ice cube forming;

After a period of time, the liquid is made into single ice cubes through the independent ice making grids, the ice boxes are taken out from the refrigerator when the ice cubes need to be taken out, the cover body 2 is opened, at the moment, a user simultaneously pinches the hard structures on the two sides of the side plates 8 and presses the central line direction of the box body 1 to drive the fifth side 3111 of the fifth ice making grids 311 on the two sides to extrude the central line direction of the box body 1, at the moment, the soft structure in the middle position of the box body 1, namely the sixth ice making grids 312 deform due to the compression, so that the ice cubes are separated from the inner walls of the ice making grids, or the position of the soft structure in the middle of the box body 1 is directly pressed, so that the ice cubes in the first ice making grids 3 are pushed to be separated from the inner walls, and ice removal is realized.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the application. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the application or exceeding the scope of the application as defined in the accompanying claims.

Although a number of terms are used more herein, the use of other terms is not precluded. These terms are used merely for convenience in describing and explaining the nature of the application; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present application.

Claims (11)

1. The utility model provides an ice box, includes the box body, box body one side is provided with a first ice making check, the box body opposite side is provided with the same quantity of second ice making check of box body one side, both sides first ice making check with the second ice making check is relative the central line symmetry setting of box body, its characterized in that, first ice making check with the second ice making check all includes soft structure and rigid structure, first ice making check with one side that the second ice making check is close to the box body central line is soft structure, first ice making check with one side that the second ice making check is kept away from the box body central line is rigid structure, soft structure in the first ice making check with soft structure in the second ice making check is connected.

2. The ice chest of claim 1 wherein the chest body includes a plurality of first ice making cells and a plurality of second ice making cells, each of the plurality of first ice making cells and the plurality of second ice making cells being arranged in a single row along a centerline of the chest body, adjacent first ice making cells being connected to one another and adjacent second ice making cells being connected to one another.

3. The ice bank according to claim 1 or 2, wherein the first ice making compartment comprises a first ice making compartment and a second ice making compartment, the second ice making compartment comprises a third ice making compartment and a fourth ice making compartment, the first ice making compartment and the third ice making compartment are both soft structures, the second ice making compartment and the fourth ice making compartment are both hard structures, and the upper ends of the first ice making compartment and the upper ends of the third ice making compartment are connected so that a gap is formed between the first ice making compartment and the second ice making compartment.

4. The ice bank of claim 3, wherein the first ice-making compartment comprises a first bottom surface and a first side surface connected to an edge of the first bottom surface, the second ice-making compartment comprises a second bottom surface and a second side surface connected to an edge of the second bottom surface, the first bottom surface is further connected to the second bottom surface, a side edge of the first side surface is further connected to a side edge of the second side surface, the third ice-making compartment comprises a third bottom surface and a third side surface connected to an edge of the third bottom surface, the fourth ice-making compartment comprises a fourth bottom surface and a fourth side surface connected to an edge of the fourth bottom surface, the third bottom surface is further connected to a side edge of the fourth side surface, the third side surface is opposite to the first side surface and is disposed at a distance, and an upper edge of the third side surface is connected to an upper edge of the first side surface such that a gap is formed between the first ice-making compartment and the second ice-making compartment.

5. The ice bin of claim 4, wherein the engagement of the first bottom surface with the second bottom surface is stepped, wherein the engagement of the first bottom surface with the second bottom surface is matched, wherein the engagement of the third bottom surface with the fourth bottom surface is stepped, and wherein the engagement of the third bottom surface with the fourth bottom surface is matched.

6. The ice bin of any one of claims 1, 2, 4 and 5, further comprising a side plate and a plurality of ribs, wherein the side plate is disposed around the bin and connected to an outer periphery of the bin, the side plate comprises a soft structure and a hard structure, the hard structure of the side plate is connected to the hard structures of the first ice making grid and the second ice making grid, the soft structure of the side plate is connected to the soft structures of the first ice making grid and the second ice making grid,

The reinforcing ribs are connected between the hard structures in the first ice making grid and the hard structures in the side plates or between the hard structures in the second ice making grid and the hard structures in the side plates;

Or a part of the reinforcing ribs are connected between the hard structures in the first ice making grid and the hard structures in the side plates, and the other part of the reinforcing ribs are connected between the hard structures in the second ice making grid and the hard structures in the side plates.

7. The utility model provides an ice box, includes the box body, the box body includes at least one first system ice check, its characterized in that, first system ice check includes two fifth system ice checks and connects the sixth system ice check between two fifth system ice checks, fifth system ice check is the rigid structure, sixth system ice check is soft structure, first system ice check is followed box body central line direction list row array sets up, adjacent in the first system ice check fifth system ice check is connected each other, adjacent in the first system ice check sixth system ice check is connected each other.

8. The ice bin of any one of claims 1, 2, 4, 5 and 7, wherein the ice bin includes a side plate disposed around the bin and connected to an outer periphery of the bin, the side plate including a soft structure and a hard structure, the hard structure of the side plate being connected to the hard structure of the bin, and the soft structure of the side plate being connected to the soft structure of the bin.

9. The ice bin of claim 8, wherein the flexible structure in the side panels is provided with notches.

10. The ice bin of claim 8, wherein the ice bin comprises a top part, the top part is arranged on the upper end face of the bin body, the top part is of a soft structure, the top part comprises a convex strip and a check ring, the convex strip is arranged between two adjacent ice making grids, the convex strips are not connected with each other, and the check ring is arranged around the outer periphery of the bin body and is connected with the side plates.

11. The ice bin of any one of claims 1, 2, 4, 5, 7, 9 and 10, wherein the ice bin further comprises a cover that covers the bin.