CN219976823U

CN219976823U - Anti-pinch ice maker

Info

Publication number: CN219976823U
Application number: CN202320900601.2U
Authority: CN
Inventors: 陈越鹏; 王峥聪; 夏星
Original assignee: Ningbo Huikang Industrial Technology Co ltd
Current assignee: Ningbo Huikang Industrial Technology Co ltd
Priority date: 2023-04-20
Filing date: 2023-04-20
Publication date: 2023-11-07
Anticipated expiration: 2033-04-20

Abstract

The utility model relates to an anti-pinch ice maker, which comprises an ice making device and a partition plate, wherein an ice outlet channel is formed on the partition plate, an extrusion opening is formed at the top of the ice making device and communicated with the ice outlet channel, a rotary ice outlet column is rotatably arranged above the extrusion opening, and an ice sweeping rod is arranged on the rotary ice outlet column; the ice outlet channel comprises a ring-shaped part and an ice outlet part which are communicated with each other, the extrusion opening is positioned in the ring-shaped part, and the ice outlet part is offset to one side of the ring-shaped part. According to the ice maker, the ice discharging channel, the rotary ice discharging column and the ice sweeping rod are arranged, so that ice cubes made by the ice making device can be orderly discharged, the ice cubes are prevented from being blocked in the ice discharging channel, and the accident that a child stretches fingers into the ice discharging channel to be blocked by the ice cubes is prevented.

Description

Anti-pinch ice maker

Technical Field

The utility model relates to the technical field of ice machines, in particular to an anti-pinch ice machine.

Background

The existing extrusion type ice maker comprises a continuous spiral extrusion structure and an ice outlet which are basically and completely opposite, and a cover plate is arranged on the continuous spiral extrusion structure, so that the ice outlet space is relatively small, and ice cubes extruded by the continuous spiral extrusion structure are easy to fill in the ice outlet space. When the ice maker produces ice, a child carelessly stretches fingers into the ice outlet, and the fingers are easy to clamp in the ice outlet.

Disclosure of Invention

The utility model aims to provide an anti-pinch ice maker.

In order to achieve the above object, the basic scheme of the present utility model is as follows:

the anti-pinch ice maker comprises an ice making device and a partition plate, wherein an ice outlet channel is formed in the partition plate, an extrusion opening is formed in the top of the ice making device and communicated with the ice outlet channel, a rotary ice outlet column is rotatably arranged above the extrusion opening, and an ice sweeping rod is arranged on the rotary ice outlet column; the ice outlet channel comprises a ring-shaped part and an ice outlet part which are communicated with each other, the extrusion opening is positioned in the ring-shaped part, and the ice outlet part is offset to one side of the ring-shaped part.

Compared with the prior art, the anti-pinch ice machine has the following beneficial effects:

according to the ice maker, the annular part and the ice outlet part are arranged, ice cubes discharged from the extruding outlet firstly fall into the annular part after being extruded, and then the ice cubes in the annular part are swept to the ice outlet part by the rotary ice sweeping rod and then slide out of the ice outlet channel. According to the ice maker, the ice discharging channel, the rotary ice discharging column and the ice sweeping rod are arranged, so that ice cubes made by the ice making device can be orderly discharged, the ice cubes are prevented from being blocked in the ice discharging channel, and the accident that a child stretches fingers into the ice discharging channel to be blocked by the ice cubes is prevented.

Preferably, the ice outlet passage is inclined toward the ice outlet portion.

The beneficial effects are that: the ice outlet channel is obliquely arranged, so that the produced ice cubes can slide downwards, and the ice cubes can be prevented from being blocked in the ice outlet channel.

Preferably, the ice making device comprises a gear motor, a screw rod, a cylinder body, an evaporator and an extrusion table, wherein the screw rod is connected to the output end of the gear motor, the cylinder body is arranged outside the screw rod, the evaporator is spirally wound on the outer surface of the cylinder body, a cooling channel is formed between the inner wall of the cylinder body and the screw rod, the top of the cooling channel is connected with the extrusion table, the extrusion table is fixedly connected with the cylinder body, and the extrusion port is arranged at the top of the extrusion table and is communicated with the cooling channel.

The beneficial effects are that: the ice making device is used for making ice cubes.

Preferably, the rotary ice outlet column is connected with the screw rod, and the rotary ice outlet column is in an inverted cone shape.

The beneficial effects are that: when the icicle from the extrusion port rises to touch the rotary icicle, the icicle breaks off, and ice falls into the annular portion in a block shape.

Preferably, the shape of the ice sweeping rod is L-shaped and is connected to the side wall of the rotary ice outlet column.

Preferably, the ice maker comprises a shell, an inner container and an ice basket, wherein the inner container is installed in the shell, a bearing part for supporting the ice basket is formed at the top of the inner container, and a protruding part is arranged on the ice basket corresponding to the bearing part.

The beneficial effects are that: the arrangement of the receiving part and the protruding part facilitates the taking out of the ice basket from the inner container.

Preferably, the inner container is provided with a drain hole, the bottom of the outer shell is provided with a water receiving disc, and a water pipe is connected between the drain hole and the water receiving disc.

The beneficial effects are that: the water drain holes are used for preventing water from overflowing the inner container.

Drawings

Fig. 1 is a schematic structural diagram of an ice maker capable of preventing hands from being pinched according to an embodiment of the utility model;

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

FIG. 3 is an exploded view of an ice making apparatus according to an embodiment of the present utility model;

FIG. 4 is a schematic view of an internal explosion structure of an ice maker portion according to an embodiment of the present utility model;

fig. 5 is an enlarged schematic view at B in fig. 4.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: the ice making device 1, the partition plate 2, the ice outlet channel 3, the extrusion port 4, the rotary ice outlet column 5, the ice sweeping rod 6, the annular part 7, the ice outlet part 8, the gear motor 9, the screw rod 10, the cylinder 11, the evaporator 12, the extrusion table 13, the cooling channel 14, the shell 15, the inner container 16, the ice basket 17, the bearing part 18, the protruding part 19, the drain hole 20, the water receiving disc 21 and the water pipe 22.

As shown in fig. 1 to 5, the present embodiment shows an anti-pinch ice maker, which includes a housing 15, a liner 16, an ice making device 1, and a partition plate 2, wherein the liner 16 is installed in the housing 15, and the partition plate 2 is installed on the liner 16. The partition plate 2 is provided with an ice outlet channel 3, and the whole ice outlet channel 3 is in a volute shape.

The top of the ice making device 1 is provided with an extrusion opening 4, and the extrusion opening 4 is communicated with the ice outlet channel 3. A rotary ice outlet column 5 is rotatably arranged above the extrusion port 4, and an ice sweeping rod 6 is arranged on the rotary ice outlet column 5. Wherein the rotary ice column 5 is in an inverted cone shape.

The ice outlet channel 3 comprises a ring-shaped part 7 and an ice outlet part 8 which are communicated with each other, the extruding outlet 4 is positioned in the ring-shaped part 7, and the ice outlet part 8 is offset to one side of the ring-shaped part 7. Specifically, the ice-discharging portion 8 is connected to the left side of the annular portion 7.

The ice maker of this embodiment makes the icicle that extrudes break into the ice piece and fall in annular portion 7 through setting up rotatory icicle 5, and the ice-cube that the rethread rotatory icicle 5 drove in the annular portion 7 sweeps the portion 8 position of going out ice to ice-cube that sweeps in the annular portion 7, discharges ice passageway 3 at last. It can be understood that the broken ice cubes fall into the annular part 7 and are orderly swept to the ice outlet part 8 by the rotary ice sweeping rod 6, the ice cubes orderly slide out of the ice outlet channel 3 in the ice outlet part 8, the whole process is orderly, and the ice cubes are not easy to block the ice outlet channel 3. In this case, the child carelessly stretches his/her hand into the ice discharging passage 3, and is not easily scratched.

Wherein the ice outlet channel 3 is arranged obliquely downward toward the ice outlet portion 8. By the arrangement, the ice cubes swept to the ice outlet part 8 slide out of the ice outlet channel 3 more easily under the influence of gravitational potential energy, and the situation that the ice cubes in the ice outlet channel 3 are possibly blocked is further prevented.

The ice making device 1 comprises a gear motor 9, a screw rod 10, a cylinder 11, an evaporator 12 and an extrusion table 13, wherein the screw rod 10 is connected to the output end of the gear motor 9, the cylinder 11 is arranged outside the screw rod 10, the evaporator 12 is spirally wound on the outer surface of the cylinder 11, a cooling channel 14 is formed between the inner wall of the cylinder 11 and the screw rod 10, the top of the cooling channel 14 is connected with the extrusion table 13, the extrusion table 13 is fixedly connected with the cylinder 11, the extrusion port 4 is arranged at the top of the extrusion table 13, and the extrusion port 4 is communicated with the cooling channel 14.

The working principle of the ice making device 1 of the present embodiment is: the speed reducing motor 9 drives the screw 10 to rotate, the evaporator 12 is spirally wound outside the cylinder 11, the evaporator 12 transmits the cold energy of the internal refrigerant to the cooling channel 14 between the cylinder 11 and the screw 10, after water enters the cooling channel 14, the water is influenced by the cold energy of the evaporator 12, ice is slowly formed upwards under the rotation pushing of the screw 10, and finally the ice is discharged from the ice making device 1 through the extruding table 13.

The rotary ice outlet column 5 is connected with a screw rod 10, and the rotary ice outlet column 5 is driven to rotate by a speed reducing motor 9 through the screw rod 10. The ice-sweeping bar 6 is L-shaped and is connected to the side wall of the rotary ice-making column 5. The ice-sweeping bar 6 rotates in the ring-shaped part 7 along with the rotation of the rotary ice-discharging column 5 to sweep the ice cubes in the ring-shaped part 7 to the ice-discharging part 8.

The ice maker comprises an ice basket 17, a bearing part 18 for supporting the ice basket 17 is formed at the top of an inner container 16 of the ice maker, and the ice basket 17 is provided with a protruding part 19 corresponding to the bearing part 18. When the ice basket 17 is placed on the inner container 16, the receiving portion 18 of the inner container 16 supports the protruding portion 19 of the ice basket 17, so that a larger portion of the ice basket 17 can directly contact the outside, and a user can conveniently take or place the ice basket 17.

In some embodiments, the inner container 16 is provided with a drain hole 20, the bottom of the outer shell 15 is provided with a water receiving disc 21, and a water pipe 22 is connected between the drain hole 20 and the water receiving disc 21. Specifically, the drain hole 20 is formed in the receiving portion 18 of the liner 16. Water overflowed from the liner 16 flows into the water receiving tray 21 through the water drain hole 20 and the water pipe 22. A heat exchanger (not shown in the figure) is arranged above the water receiving disc 21, and water overflowed from the water receiving disc 21 can be used for heat dissipation of the heat exchanger.

The foregoing is merely exemplary embodiments of the present utility model, and specific structures and features that are well known in the art are not described in detail herein. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present utility model, and these should also be considered as the scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the utility of the patent. The protection scope of the present utility model is subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims

1. An anti-pinch ice maker, characterized in that: the ice maker comprises an ice making device (1) and a partition plate (2), wherein an ice outlet channel (3) is formed in the partition plate (2), an extrusion opening (4) is formed in the top of the ice making device (1), the extrusion opening (4) is communicated with the ice outlet channel (3), a rotary ice outlet column (5) is rotatably arranged above the extrusion opening (4), and an ice sweeping rod (6) is arranged on the rotary ice outlet column (5); the ice outlet channel (3) comprises a ring-shaped part (7) and an ice outlet part (8) which are communicated with each other, the extrusion opening (4) is positioned in the ring-shaped part (7), and the ice outlet part (8) is biased to one side of the ring-shaped part (7).

2. The anti-pinch ice making machine of claim 1, wherein: the ice outlet channel (3) is obliquely arranged towards the ice outlet part (8).

3. The anti-pinch ice making machine of claim 1, wherein: the ice making device (1) comprises a gear motor (9), a screw rod (10), a cylinder body (11), an evaporator (12) and an extrusion table (13), wherein the screw rod (10) is connected to the output end of the gear motor (9), the cylinder body (11) is arranged outside the screw rod (10), the evaporator (12) is spirally wound on the outer surface of the cylinder body (11), a cooling channel (14) is formed between the inner wall of the cylinder body (11) and the screw rod (10), the top of the cooling channel (14) is connected with the extrusion table (13), the extrusion table (13) is fixedly connected with the cylinder body (11), and the extrusion port (4) is arranged at the top of the extrusion table (13) and is communicated with the cooling channel (14).

4. The anti-pinch ice maker of claim 3, wherein: the rotary ice discharging column (5) is connected with the screw rod (10), and the rotary ice discharging column (5) is in an inverted cone shape.

5. The anti-pinch ice making machine of claim 4, wherein: the ice sweeping rod (6) is L-shaped and is connected to the side wall of the rotary ice outlet column (5).

6. The anti-pinch ice making machine of claim 1, wherein: the ice maker comprises a shell (15), an inner container (16) and an ice basket (17), wherein the inner container (16) is installed in the shell (15), a bearing part (18) for supporting the ice basket (17) is formed at the top of the inner container (16), and the ice basket (17) is provided with a protruding part (19) corresponding to the bearing part (18).

7. The anti-pinch ice making machine of claim 6, wherein: the novel water-collecting device is characterized in that a drain hole (20) is formed in the inner container (16), a water-collecting disc (21) is arranged at the bottom of the outer shell (15), and a water pipe (22) is connected between the drain hole (20) and the water-collecting disc (21).