CN220707800U - Multipurpose high-permeability ice making device - Google Patents

Abstract

The utility model relates to the technical field of ice making devices, in particular to a multipurpose high-permeability ice making device; the ice bin comprises an inner container and a shell, wherein the inner container is arranged in the shell, a heat insulation interlayer is arranged between the inner container and the shell, and the heat insulation interlayer is fixedly connected with the inner container or the shell; the ice tray mold is reasonable in structure, the ice tray mold can be filled into the ice barrel to form nested fit with the inner container, the ice barrel is provided with the heat insulation interlayer, so that a cavity on the ice tray mold can only be contacted with cold air above the ice tray mold, and high-permeability ice cubes can be manufactured.

Description

Multipurpose high-permeability ice making device

Technical Field

The utility model relates to the technical field of ice making devices, in particular to a multipurpose high-permeability ice making device.

Background

The refrigerator is a necessary electrical appliance for household life, besides food storage, the refrigerator can also provide ice cubes required by daily life for users, ice cubes are usually made in the refrigerator by adopting an ice making grid, however, in the prior art, the ice cubes made by adopting the ice making grid are often poor in transparency, and the main reason for generating opaqueness is as follows: the water in the ice grid gradually freezes from outside to inside, and air dissolved in the ice water can form bubbles which are wrapped by the ice and can not be discharged after being released, so that the transparency of the ice blocks can be greatly reduced due to the content of the bubbles.

Chinese patent CN209541237U discloses an ice-making ice tray mold, comprising a mold shell, a heat-insulating shell arranged outside the mold shell, and an inner mold arranged in the mold shell, wherein a heat-insulating cavity is formed in the heat-insulating shell, and the mold shell is arranged in the heat-insulating cavity; an accommodating cavity is formed in the die shell, and the inner die is arranged in the accommodating cavity; the internal mold comprises a first internal mold and a second internal mold which are connected with each other, a cavity is formed by the cooperation of a first mold cavity and a second mold cavity, a second through hole is formed by the cooperation of an exhaust groove of the first internal mold and an exhaust groove of the second internal mold, and a water injection hole is formed by the cooperation of a water injection groove of the first internal mold and a water injection groove of the second internal mold. Two cavities are formed by the left and right matched first internal mold and the second internal mold, and the ice making mold can manufacture two high-permeability ice balls at a time. The existing ice making die is long in preparation time, small in ice making quantity, complex in overall structure and single in function, and seriously influences the use experience of users. Accordingly, the prior art is still in need of improvement and development.

Disclosure of Invention

The utility model aims to overcome the defects and shortcomings of the prior art and provide the multipurpose high-permeability ice making device which is reasonable in structure, convenient to use and flexible.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model relates to a multipurpose high-permeability ice making device which comprises an ice bucket and an ice grid mould, wherein a plurality of cavities are formed in the ice grid mould, a plurality of first through holes are formed in the bottom of the ice grid mould, the ice bucket comprises an inner container and a shell, the inner container is arranged in the shell, a heat insulation interlayer is arranged between the inner container and the shell, and the heat insulation interlayer is fixedly connected with the inner container or the shell.

According to the scheme, the sealing ring is formed on the upper port of the inner container and is connected with the upper port of the shell in a matching way, so that gaps are formed between the side wall of the shell and the side wall of the inner container, between the bottom plate of the shell and the bottom plate of the inner container, and the heat-insulating interlayer is filled in the gaps.

According to the scheme, a groove is formed between the outer edge of the sealing ring and the outer wall of the inner container, the upper port of the outer shell penetrates through the groove, and a fastening structure is arranged between the sealing ring and the outer shell, so that the inner container is detachably connected with the outer shell.

According to the scheme, the heat insulation interlayer is a foam shell.

According to the scheme, the sealing ring further comprises a handle, the two sides of the sealing ring are respectively provided with an anchor terminal, and the two ends of the handle are respectively connected with the corresponding anchor terminals in a matched mode, so that the handle is rotationally connected with the sealing ring.

According to the scheme, the sliding grooves are formed in the two ends of the lifting handle, and the anchoring terminals movably penetrate through the corresponding sliding grooves.

According to the scheme, the ice tray die comprises a bottom die, a plurality of first type grooves are formed in the bottom die, the first type grooves form a cavity, and a plurality of first through holes are formed in the bottom die and communicated with the corresponding first type grooves.

According to the scheme, the ice grid die further comprises a cover die, a plurality of second type grooves and a plurality of second through holes are formed in the cover die, the second through holes are respectively communicated with the corresponding second type grooves, and the cover die and the bottom die are arranged in a matched mode to enable the second type grooves to be matched with the corresponding first type grooves to form a die cavity.

According to the scheme, be equipped with fixed frame on the die block, be equipped with the structure frame on the cover mould, the structure frame embedding sets up in fixed frame and makes cover mould and die block pair be connected, be equipped with the rim mouth structure on the last port of fixed frame, fixed frame embedding sets up in the last port of ice bucket, and the rim mouth structure sets up with the last port laminating of inner bag.

The utility model has the beneficial effects that: the ice tray mold is reasonable in structure, the ice tray mold can be filled into the ice barrel to form nested fit with the inner container, the ice barrel is provided with the heat insulation interlayer, so that a cavity on the ice tray mold can only be contacted with cold air above the ice tray mold, and high-permeability ice cubes can be manufactured.

Drawings

FIG. 1 is a schematic view of the overall explosive construction of the present utility model;

FIG. 2 is a schematic view of the overall cross-sectional structure of the present utility model;

fig. 3 is a schematic view of the overall structure of the present utility model.

In the figure:

1. an ice bucket; 2. a bottom die; 3. covering a die; 4. ice tray mold; 11. a thermal insulation interlayer; 12. a housing; 13. an inner container; 14. a sealing ring; 15. an anchor terminal; 16. a chute; 17. a handle; 21. a fixed frame; 22. a first type groove; 23. a first through hole; 24. a lip structure; 25. a spanner handle; 31. a structural frame; 32. a second type groove; 33. a second through hole; 41. a cavity.

Detailed Description

The technical scheme of the utility model is described below with reference to the accompanying drawings and examples.

As shown in fig. 1-3, the multipurpose high-permeability ice making device comprises an ice bucket 1 and an ice grid mold 4, wherein a plurality of cavities 41 are formed in the ice grid mold 4, a plurality of first through holes 23 are formed in the bottom of the ice grid mold 4, the ice bucket 1 comprises an inner container 13 and a shell 12, the inner container 13 is detachably arranged in the shell 12, a heat insulation interlayer 11 is arranged between the inner container 13 and the shell 12, and the heat insulation interlayer 11 is fixedly connected with the inner container 13 or the shell 12. The ice tray mold 4 is arranged in the ice bucket 1, a plurality of cavities 41 on the ice tray mold are communicated with the inner cavity of the ice bucket 1 through the first through holes 23, the heat insulation interlayer 11 on the ice bucket 1 surrounds the ice tray mold 4 in five directions, so that the ice tray mold 4 can only be contacted with cold air above, water in the cavities 41 is frozen from top to bottom, and bubbles, impurities and redundant water in the cavities enter the inner cavity of the ice bucket 1 through the first through holes 23 under expansion pressure, so that highly transparent ice cubes are prepared. Further, the inner container 13 and the outer shell 12 can be detached, the inner container 13 is used as a constraint structure of the ice tray mold 4, and after ice making, the inner container 13 can be taken out to be used as a water container. It can be understood that the heat insulation interlayer 11 is in an integrated structure and is matched with the shapes of the shell 12 and the liner 13, and the heat insulation interlayer 11 is preferably fixed on the inner wall of the shell 12, after the liner 13 is taken out, the shell 12 and the heat insulation interlayer 11 can be used as an ice storage barrel or a cooling device of a wine bottle, so that the heat insulation interlayer has more abundant functions and flexible use, and the use experience of a user can be effectively improved.

The sealing ring 14 is formed on the upper port of the liner 13, the sealing ring 14 is connected with the upper port of the shell 12 in a matching way, so that gaps are formed between the side wall of the shell 12 and the side wall of the liner 13, and between the bottom plate of the shell 12 and the bottom plate of the liner 13, and the heat insulation interlayer 11 is filled in the gaps. The inner container 13 and the outer shell 12 are of matched nested structures, the inner container 13 and the outer shell 12 are of barrel-shaped structures with openings at the upper ends, the inner container 13 can be installed in and concentrically arranged from the upper port of the outer shell 12, the upper port of the inner container 13 is provided with a sealing ring 14, the sealing ring 14 is matched and connected with the upper port of the outer shell 12, a gap is formed between the inner container 13 and the outer shell 12, and the heat insulation interlayer 11 formed by the gap can reduce heat conduction efficiency between the inner container 13 and the outer shell 12.

A groove is formed between the outer edge of the sealing ring 14 and the outer wall of the inner container 13, the upper port of the outer shell 12 is penetrated in the groove, and a fastening structure is arranged between the sealing ring 14 and the outer shell 12, so that the inner container 13 is detachably connected with the outer shell 12. The upper port of the shell 12 is matched with the groove, the upper port of the shell 12 is arranged in the groove in a penetrating mode, the shell 12 and the liner 13 are concentrically arranged, the sealing ring 14 is connected with the shell 12 through the buckling structure, and transverse offset of the shell 12 and the liner 13 in an assembling state is prevented. The liner 13 is arranged in a mating manner with the housing 12 through the sealing ring 14, and a fastening structure (not shown in the drawings) is used for connecting and disassembling the liner 13 and the housing 12, and the fastening structure is a conventional connecting structure and will not be described herein.

The heat preservation interlayer 11 intussuseption is filled with foam, seal ring 14 is including being the horizontal extending structure and the vertical extending structure that L shape set up to form the decurrent recess of opening between seal ring 14 and the inner bag 13, the upper port of shell 12 wears to locate in the recess, can prevent that water from getting into heat preservation interlayer 11 from between inner bag 13 and the shell 12, avoid influencing the life of foam, promote the use experience.

Further, the sealing ring 14 may be used to provide a handle 17 without providing a positioning structure on the outer shell 12, the inner container 13 and the insulation layer 11.

The heat insulation interlayer 11 is a foam shell, the heat insulation interlayer 11 is firstly formed by a gap between the outer shell 12 and the inner container 13, foam is filled in the gap to form the heat insulation interlayer 11 for improving the heat insulation effect, and the foam shell formed integrally is filled between the inner container 13 and the outer shell 12 for further improving the effect of the heat insulation interlayer 11. Further, the integral foam shell may be fixedly connected to the inner container 13 or the outer shell 12 by riveting or bonding. For example, the inner side wall of the housing 12 is fixedly provided with a thermal insulation layer 11 formed by a foam shell, and when the inner container 13 is removed, the housing 12 and the thermal insulation layer 11 can also be used as a thermal insulation container for storing ice cubes or as a cooling device for wine bottles.

The sealing ring further comprises a handle 17, the two sides of the sealing ring 14 are respectively provided with an anchor terminal 15, and the two ends of the handle 17 are respectively connected with the corresponding anchor terminals 15 in a matching way, so that the handle 17 is rotationally connected with the sealing ring 14. When the sealing ring 14 on the liner 13 is fixedly connected with the shell 12 through the fastening structure, a user extracts the whole ice bucket 1 through the handle 17, and further, when the liner 13 is detached, the handle 17 and the liner 13 form a bucket structure for containing water.

As shown in fig. 3, both ends of the handle 17 are provided with sliding grooves 16, and the anchor terminals 15 are movably disposed in the corresponding sliding grooves 16. The illustrated chute 16 is provided along the height direction of the handle 17, the anchor terminal 15 is slidable along the chute 16, and the handle 17 surrounds the ice bucket 1 in the storage state, thereby reducing the overall occupied space.

The ice tray die 4 comprises a bottom die 2, a plurality of first type grooves 22 are formed in the bottom die 2, the first type grooves 22 form a die cavity 41, and a plurality of first through holes 23 are formed in the bottom die 2 and communicated with the corresponding first type grooves 22. The ice grid mold 4 further comprises a cover mold 3, a plurality of second type grooves 32 and a plurality of second through holes 33 are formed in the cover mold 3, the second through holes 33 are respectively communicated with the corresponding second type grooves 32, and the cover mold 3 and the bottom mold 2 are arranged in a matching mode so that the second type grooves 32 and the corresponding first type grooves 22 are matched to form a cavity 41. The first-type groove 22 may be square, circular, and shaped. Here, a square is taken as an example, and the square cavity 41 formed by the square first groove 22 can be used for making square ice cubes. The first type groove 22 is formed on the bottom die 2, the first type groove 22 is arranged at an opening, when the bottom die 2 is arranged in the ice bucket 1, the upper end face of the first type groove 22 is in contact with cold air, so that water in the cavity 41 is frozen from top to bottom, after the upper part of the cavity 41 is closed by ice, bubbles, impurities and redundant water in the cavity 41 enter the inner cavity of the ice bucket 1 through the first through hole 23 under expansion pressure, and therefore highly transparent ice cubes are prepared. Further, the cavity formed by the mating of the first shaped groove 22 and the second shaped groove 32 is used for preparing spherical ice cubes, i.e. the first shaped groove 22 and the second shaped groove 32 in the drawing are hemispherical grooves.

The bottom die 2 is provided with a fixed frame 21, the cover die 3 is provided with a structural frame 31, the structural frame 31 is embedded and arranged in the fixed frame 21 to enable the cover die 3 to be connected with the bottom die 2 in a matched mode, the upper port of the fixed frame 21 is provided with a rim opening structure 24, the fixed frame 21 is embedded and arranged in the upper port of the ice bucket 1, and the rim opening structure 24 is attached to the upper port of the liner 13.

The structure frame 31, the fixing frame 21 and the ice bucket 1 are sequentially embedded and arranged, the structure frame 31 and the ice bucket 31 are matched and clamp the fixing frame 21, the ice grid die is fixedly arranged in the upper port of the ice bucket 1, the bottom die 2 and the cover die 3 are further arranged in the inner cavity of the ice bucket 1, and the bottom die 2 and the cover die 3 are matched to form a plurality of cavities 41 for water filling. When the ice bucket is used, firstly, water is filled in the ice bucket 1, the lowest and highest water level marks are arranged in the ice bucket 1, the bottom die 2 is filled in the ice bucket 1, and the water is injected into the first groove 32 from the first through hole 23 until the water is over the bottom die 2; then, the cover mold 3 is installed in the fixed frame 21, the cover mold 3 is abutted with the bottom mold 2 so that the cavity 41 is filled with water, excessive water overflows from the second through holes 33 on the upper surface of the cover mold 3, and the excessive water can be poured out by sealing the second through holes 33.

The ice grid mold is arranged in the inner cavity of the ice bucket 1 from the upper port of the ice bucket 1, the heat insulation interlayer 11 surrounds the ice grid mold from five space directions and blocks cold air, the ice grid mold can only exchange with cold air from the upper side, water in the plurality of cavities 41 is frozen from top to bottom from the second through holes 33, the volume of the water is increased in the freezing process, the pressure of the inner cavity of the ice bucket 1 at the cavities 41 and the lower side is increased, the pressure slightly expands the second type groove 32 to be separated from ice to generate gaps, and gas in the water is discharged from the second through holes, so that high-permeability ice cubes with few bubbles are obtained. After the ice cubes in the cavity 41 are condensed to a certain degree, the second through hole 33 is sealed, and the excessive water in the cavity 41 can be discharged from the first through hole 23 into the inner cavity of the ice bucket 1, so that the volume of the ice cubes is matched with the cavity 41.

The upper port of the fixed frame 21 is provided with a rim structure 24, the fixed frame 21 is embedded in the upper port of the ice bucket 1, the rim structure 24 is attached to the upper port of the ice bucket 1, and at least one wrench handle 25 is arranged on the rim structure 24. When the ice tray mould is arranged in the ice bucket 1, the edge opening structure 24 is attached to the upper port of the ice bucket 1 to form a limit, and meanwhile, the wrench handle 25 is used for integrally taking out the ice tray mould from the ice bucket 1, so that demoulding is facilitated.

The foregoing description is only of the preferred embodiments of the utility model, and all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the utility model are therefore intended to be embraced therein.

Claims (9)

1. The utility model provides a multipurpose high ice making device that passes through, includes ice bucket (1) and ice tray mould (4), be equipped with a plurality of die cavities (41) on ice tray mould (4), the bottom of ice tray mould (4) is equipped with a plurality of first through-holes (23), its characterized in that: the ice bucket (1) comprises an inner container (13) and a shell (12), wherein the inner container (13) is arranged in the shell (12), a heat insulation interlayer (11) is arranged between the inner container (13) and the shell (12), and the heat insulation interlayer (11) is fixedly connected with the inner container (13) or the shell (12).

2. The multipurpose high-transparency ice making device according to claim 1, wherein: the sealing ring (14) is formed on the upper port of the inner container (13), the sealing ring (14) is connected with the upper port of the outer shell (12) in a matched mode, gaps are formed between the side wall of the outer shell (12) and the side wall of the inner container (13) and between the bottom plate of the outer shell (12) and the bottom plate of the inner container (13), and the heat insulation interlayer (11) is filled in the gaps.

3. The multipurpose high-transparency ice making device according to claim 2, wherein: a groove is formed between the outer edge of the sealing ring (14) and the outer wall of the inner container (13), the upper port of the outer shell (12) penetrates through the groove, and a clamping structure is arranged between the sealing ring (14) and the outer shell (12) so that the inner container (13) is detachably connected with the outer shell (12).

4. The multipurpose high-transparency ice making device according to claim 1, wherein: the heat insulation interlayer (11) is a foam shell.

5. The multipurpose high-transparency ice making device according to claim 3, wherein: the sealing ring further comprises a handle (17), wherein the two sides of the sealing ring (14) are respectively provided with an anchor terminal (15), and the two ends of the handle (17) are respectively connected with the corresponding anchor terminals (15) in a matching way, so that the handle (17) is rotationally connected with the sealing ring (14).

6. The multipurpose high-transparency ice making device according to claim 5, wherein: both ends of the handle (17) are provided with sliding grooves (16), and the anchoring terminals (15) are movably arranged in the corresponding sliding grooves (16) in a penetrating mode.

7. The multipurpose high-transparency ice making device according to claim 1, wherein: the ice grid die (4) comprises a bottom die (2), a plurality of first type grooves (22) are formed in the bottom die (2), a cavity (41) is formed by the first type grooves (22), and a plurality of first through holes (23) are formed in the bottom die (2) and communicated with the corresponding first type grooves (22).

8. The multipurpose high-transparency ice making device according to claim 7, wherein: the ice grid mold (4) further comprises a cover mold (3), a plurality of second type grooves (32) and a plurality of second through holes (33) are formed in the cover mold (3), the second through holes (33) are respectively communicated with the corresponding second type grooves (32), and the cover mold (3) and the bottom mold (2) are matched with each other to enable the second type grooves (32) and the corresponding first type grooves (22) to be matched with each other to form a cavity (41).

9. The multipurpose high-transparency ice making device according to claim 8, wherein: be equipped with fixed frame (21) on die block (2), be equipped with structure frame (31) on cover mould (3), structure frame (31) embedding sets up in fixed frame (21) makes cover mould (3) and die block (2) pair and be connected, be equipped with rim mouth structure (24) on the last port of fixed frame (21), fixed frame (21) embedding sets up in the last port of ice bucket (1), and the last port laminating of rim mouth structure (24) and inner bag (13) sets up.