阅读说明：本技术 一种新式自动出冰机 (Novel automatic ice discharging machine ) 是由 王文军 于 2020-06-22 设计创作，主要内容包括：本发明公开了一种新式自动出冰机,其出冰机箱体内部设置箱体容置腔,出冰机箱体上端部装设双层存冰筒,双层存冰筒包括内侧筒体、外侧筒体,内侧筒体内部成型存冰腔室,内侧筒体底部装设出冰管,内侧筒体上端部的存冰筒盖板装设存冰搅拌组件；内、外侧筒体的侧壁之间成型冰水腔室,内侧筒体底部开设底部漏水孔；出冰机箱体装设取冰口、冰水口、热水口；箱体容置腔内嵌装第一压缩机、第二压缩机、冷凝器、热交换回收器及第一、二冰机蒸发筒,热交换回收器内部设置水流道、制冷剂流道,第一、二冰机蒸发筒的出冰口分别通过导冰管道与存冰腔室上端部连通。通过上述结构设计,本发明具有结构设计新颖、使用方便且可实现大容量自助出冰的优点。(The invention discloses a novel automatic ice discharging machine, wherein a box body accommodating cavity is arranged in an ice discharging machine box body, a double-layer ice storage barrel is arranged at the upper end part of the ice discharging machine box body, the double-layer ice storage barrel comprises an inner side barrel body and an outer side barrel body, an ice storage cavity is formed in the inner side barrel body, an ice discharging pipe is arranged at the bottom of the inner side barrel body, and an ice storage stirring assembly is arranged on an ice storage barrel cover plate at the upper end part of the inner side barrel body; an ice water cavity is formed between the side walls of the inner cylinder and the outer cylinder, and a bottom water leakage hole is formed at the bottom of the inner cylinder; the ice outlet machine box body is provided with an ice taking port, an ice water port and a hot water port; the first compressor, the second compressor, the condenser, the heat exchange recoverer, the first ice maker evaporating cylinder and the second ice maker evaporating cylinder are embedded in the box body accommodating cavity, a water flow passage and a refrigerant flow passage are arranged in the heat exchange recoverer, and ice outlets of the first ice maker evaporating cylinder and the second ice maker evaporating cylinder are respectively communicated with the upper end part of the ice storage cavity through ice guide pipelines. Through the structural design, the ice dispenser has the advantages of novel structural design, convenience in use and capability of realizing large-capacity self-service ice discharge.)

1. A novel automatic ice discharging machine is characterized in that: comprises a refrigerator body (1), a body accommodating cavity is arranged in the refrigerator body (1), a double-layer ice storage barrel (2) is arranged at the upper end of the refrigerator body (1), the lower end of the double-layer ice storage barrel (2) extends into the body accommodating cavity of the refrigerator body (1), the upper end of the double-layer ice storage barrel (2) protrudes out of the upper surface of the refrigerator body (1), the double-layer ice storage barrel (2) comprises an inner barrel (21) and an outer barrel (22) sleeved on the periphery of the inner barrel (21), an ice storage cavity (211) with an upward opening is formed in the inner barrel (21), an ice outlet pipe (23) communicated with the ice storage cavity (211), downwards penetrates through the outer barrel (22) and extends to the lower end side of the outer barrel (22) is arranged at the bottom of the inner barrel (21), an ice storage barrel cover plate (24) is arranged at the upper end of the ice storage cavity (211) at the upper end of the inner barrel (21), the ice storage barrel cover plate (24) is provided with an ice storage stirring assembly (25) for stirring ice blocks in the ice storage chamber (211); the side wall of the inner side cylinder (21) and the side wall of the outer side cylinder (22) are arranged at intervals, an ice water cavity (26) is formed between the side wall of the inner side cylinder (21) and the side wall of the outer side cylinder (22), and bottom water leakage holes (212) which are communicated with the ice storage cavity (211) and the ice water cavity (26) and are uniformly distributed at intervals are formed in the periphery of the ice outlet pipe (23) at the bottom of the inner side cylinder (21); the ice outlet box body (1) is provided with an ice taking port (3), an ice water port (4) and a hot water port (5), the ice taking port (3) is communicated with an ice outlet pipe (23), and the ice water port (4) is communicated with the bottom of an ice water cavity (26) through a pipeline;

a first compressor, a second compressor, a condenser and a heat exchange recoverer are embedded in the lower end side of the double-layer ice storage cylinder (2) in a box body accommodating cavity of the ice outlet machine box body (1), a first ice machine evaporation cylinder and a second ice machine evaporation cylinder are embedded in the box body accommodating cavity of the ice outlet machine box body (1) on the peripheral side of the double-layer ice storage cylinder (2), and the first compressor, the condenser and the first ice machine evaporation cylinder are sequentially connected through refrigerant pipelines and form a closed loop; a water flow channel and a refrigerant flow channel are arranged in the heat exchange recoverer, a water inlet of the water flow channel is communicated with the bottom of the ice water cavity (26) through a pipeline, a water outlet of the water flow channel is connected with a hot water port (5) through a pipeline, and a second compressor, the refrigerant flow channel in the heat exchange recoverer and a second ice machine evaporation cylinder are sequentially connected through a refrigerant pipeline to form a closed loop;

the ice outlets of the first ice machine evaporation cylinder and the second ice machine evaporation cylinder are respectively communicated with the upper end part of the ice storage chamber (211) through ice guide pipelines, and the ice guide pipelines sequentially penetrate through the outer side cylinder body (22) and the inner side cylinder body (21).

2. The novel automatic ice dispenser of claim 1, wherein: the ice storage stirring assembly (25) comprises a stirring driving motor (251) which is screwed and fastened on the upper surface of the ice storage barrel cover plate (24), and a power output shaft of the stirring driving motor (251) penetrates through the ice storage barrel cover plate (24) and extends to the lower end side of the ice storage barrel cover plate (24);

the inner wall fastening of inboard barrel (21) installs the pivot support, and the pivot support is installed through the bearing and is vertical arrangement's drive pivot (253), and the upper end of drive pivot (253) is connected with the power take off of stirring driving motor (251), and drive pivot (253) fastening installation has stirring rake (254).

3. The novel automatic ice dispenser of claim 1, wherein: the refrigerator comprises a refrigerator body (1), a condenser, a heat dissipation fan, a heat dissipation air inlet (11) aligned with the heat dissipation fan, and a heat dissipation air outlet (12) aligned with the heat dissipation fan, wherein the heat dissipation fan is embedded at the side of the condenser in a box body accommodating cavity of the refrigerator body (1), the heat dissipation air inlet (11) aligned with the heat dissipation fan is formed in the front surface of the refrigerator body (1), and the heat dissipation air outlet (12) aligned with.

4. The novel automatic ice dispenser of claim 1, wherein: and a water receiving tray (6) is arranged below the ice taking port (3), the ice water port (4) and the hot water port (5) of the ice outlet machine box body (1).

Technical Field

The invention relates to the technical field of ice discharging machines, in particular to a novel automatic ice discharging machine.

Background

For the ice dispenser, the prepared ice can be stored in a designated ice storage space, and ice blocks in the ice storage space are automatically output under the condition of needing to be used; among them, the ice dispenser is widely used in commercial places where a large amount of ice is required.

It should be noted that there is no large capacity automatic ice dispensing device on the market, although there are various forms of ice dispenser products in the prior art; however, for the existing ice dispenser, the existing ice dispenser has the disadvantages of small capacity, inconvenient use, single function and incapability of realizing large-capacity ice dispensing.

Disclosure of Invention

The invention aims to provide a novel automatic ice discharging machine aiming at the defects of the prior art, which has novel structural design and convenient use and can discharge ice in a large capacity.

In order to achieve the above object, the present invention is achieved by the following technical solutions.

A novel automatic ice discharging machine comprises an ice discharging machine box body, wherein a box body accommodating cavity is arranged inside the ice discharging machine box body, a double-layer ice storage barrel is arranged at the upper end of the ice discharging machine box body, the lower end of the double-layer ice storage barrel extends into the box body accommodating cavity of the ice discharging machine box body, the upper end of the double-layer ice storage barrel protrudes out of the upper surface of the ice discharging machine box body, the double-layer ice storage barrel comprises an inner barrel body and an outer barrel body sleeved on the periphery of the inner barrel body, an upward-opening ice storage water cavity is formed in the inner barrel body, an ice discharging pipe which is communicated with the ice storage cavity and penetrates through the outer barrel body downwards and extends to the lower end side of the outer barrel body is arranged at the bottom of the inner barrel body, an ice storage barrel cover plate is arranged at the upper end opening of the ice storage cavity, and the ice storage stirring assembly for stirring ice blocks in the ice storage cavity is arranged on; the side wall of the inner barrel and the side wall of the outer barrel are arranged at intervals, an ice water cavity is formed between the side wall of the inner barrel and the side wall of the outer barrel, and bottom water leakage holes which are communicated with the ice storage cavity and the ice water cavity and are uniformly distributed at intervals are formed in the periphery of the ice outlet pipe at the bottom of the inner barrel; the ice outlet box body is provided with an ice taking port, an ice water port and a hot water port, the ice taking port is communicated with the ice outlet pipe, and the ice water port is communicated with the bottom of the ice water cavity through a pipeline;

a first compressor, a second compressor, a condenser and a heat exchange recoverer are embedded in the lower end side of the double-layer ice storage cylinder in the box body accommodating cavity of the ice outlet machine box body, a first ice machine evaporation cylinder and a second ice machine evaporation cylinder are embedded in the box body accommodating cavity of the ice outlet machine box body on the peripheral side of the double-layer ice storage cylinder, and the first compressor, the condenser and the first ice machine evaporation cylinder are sequentially connected through refrigerant pipelines and form a closed loop; a water flow channel and a refrigerant flow channel are arranged in the heat exchange recoverer, a water inlet of the water flow channel is communicated with the bottom of the ice water cavity through a pipeline, a water outlet of the water flow channel is connected with a hot water port through a pipeline, and a second compressor, the refrigerant flow channel in the heat exchange recoverer and a second ice machine evaporation cylinder are sequentially connected through a refrigerant pipeline to form a closed loop;

the ice outlets of the first ice machine evaporation cylinder and the second ice machine evaporation cylinder are respectively communicated with the upper end part of the ice storage cavity through ice guide pipelines, and the ice guide pipelines sequentially penetrate through the outer side barrel body and the inner side barrel body.

The ice storage stirring assembly comprises a stirring driving motor which is screwed and fixedly arranged on the upper surface of the ice storage cylinder cover plate, and a power output shaft of the stirring driving motor penetrates through the ice storage cylinder cover plate and extends to the lower end side of the ice storage cylinder cover plate;

the inner wall fastening of inboard barrel installs the pivot support, and the pivot support is installed through the bearing and is vertical arrangement's drive pivot, and the upper end of drive pivot is connected with stirring driving motor's power take off axle, and the drive pivot fastening is installed the stirring rake.

The refrigerator comprises a refrigerator body, a condenser, a heat dissipation fan, a heat dissipation air inlet, a heat dissipation air outlet and a heat dissipation air outlet, wherein the refrigerator body accommodating cavity of the refrigerator body is formed in the side of the condenser in an embedded mode, the heat dissipation air inlet aligned with the heat dissipation fan is formed in the front surface of the refrigerator body, and the heat dissipation air outlet aligned.

And a water receiving tray is arranged below the ice taking port, the ice water port and the hot water port of the ice outlet machine box body.

The invention has the beneficial effects that: the invention relates to a novel automatic ice discharging machine, which comprises an ice discharging machine box body, wherein a box body accommodating cavity is arranged inside the ice discharging machine box body, a double-layer ice storage barrel is arranged at the upper end part of the ice discharging machine box body, the lower end part of the double-layer ice storage barrel extends into the box body accommodating cavity of the ice discharging machine box body, the upper end part of the double-layer ice storage barrel protrudes out of the upper surface of the ice discharging machine box body, the double-layer ice storage barrel comprises an inner barrel body, the ice storage device comprises an outer barrel sleeved on the periphery of an inner barrel, an ice storage cavity with an upward opening is formed in the inner barrel, an ice outlet pipe communicated with the ice storage cavity and penetrating through the outer barrel downwards and extending to the lower end side of the outer barrel is arranged at the bottom of the inner barrel, an ice storage barrel cover plate is arranged at an upper end opening of the ice storage cavity at the upper end of the inner barrel, and an ice storage stirring assembly used for stirring ice cubes in the ice storage cavity is arranged on the ice storage barrel cover plate; the side wall of the inner barrel and the side wall of the outer barrel are arranged at intervals, an ice water cavity is formed between the side wall of the inner barrel and the side wall of the outer barrel, and bottom water leakage holes which are communicated with the ice storage cavity and the ice water cavity and are uniformly distributed at intervals are formed in the periphery of the ice outlet pipe at the bottom of the inner barrel; the ice outlet box body is provided with an ice taking port, an ice water port and a hot water port, the ice taking port is communicated with the ice outlet pipe, and the ice water port is communicated with the bottom of the ice water cavity through a pipeline; a first compressor, a second compressor, a condenser and a heat exchange recoverer are embedded in the lower end side of the double-layer ice storage cylinder in the box body accommodating cavity of the ice outlet machine box body, a first ice machine evaporation cylinder and a second ice machine evaporation cylinder are embedded in the box body accommodating cavity of the ice outlet machine box body on the peripheral side of the double-layer ice storage cylinder, and the first compressor, the condenser and the first ice machine evaporation cylinder are sequentially connected through refrigerant pipelines and form a closed loop; a water flow channel and a refrigerant flow channel are arranged in the heat exchange recoverer, a water inlet of the water flow channel is communicated with the bottom of the ice water cavity through a pipeline, a water outlet of the water flow channel is connected with a hot water port through a pipeline, and a second compressor, the refrigerant flow channel in the heat exchange recoverer and a second ice machine evaporation cylinder are sequentially connected through a refrigerant pipeline to form a closed loop; the ice outlets of the first ice machine evaporation cylinder and the second ice machine evaporation cylinder are respectively communicated with the upper end part of the ice storage cavity through ice guide pipelines, and the ice guide pipelines sequentially penetrate through the outer side barrel body and the inner side barrel body. Through the structural design, the ice making machine has the advantages of novel structural design, convenience in use and capability of realizing ice making in a large capacity.

Drawings

The invention will be further described with reference to the drawings to which, however, the embodiments shown in the drawings do not constitute any limitation.

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of another embodiment of the present invention.

FIG. 3 is a schematic view of another embodiment of the present invention.

FIG. 4 is a schematic structural view of a double-layered ice bank according to the present invention.

FIG. 5 is an exploded view of the dual-layered ice bank of the present invention.

Fig. 1 to 5 include:

1-ice dispenser box body 11-heat dissipation air inlet

12-heat dissipation air outlet 2-double-layer ice storage cylinder

21-inner cylinder 211-ice storage chamber

212-bottom water leakage hole 22-outer cylinder

23-ice outlet pipe 24-ice storage barrel cover plate

25-ice storage stirring component 251-stirring driving motor

252-shaft mounting bracket 253-drive shaft

254-paddle 26-ice water chamber

3-ice taking port 4-ice water port

5-hot water port 6-water pan.

Detailed Description

The present invention will be described below with reference to specific embodiments.

As shown in fig. 1 to 5, a novel automatic ice discharging machine comprises an ice discharging machine box 1, a box accommodating cavity is arranged inside the ice discharging machine box 1, a double-layer ice storage barrel 2 is arranged at the upper end of the ice discharging machine box 1, the lower end of the double-layer ice storage barrel 2 extends into the box accommodating cavity of the ice discharging machine box 1, the upper end of the double-layer ice storage barrel 2 protrudes out of the upper surface of the ice discharging machine box 1, the double-layer ice storage barrel 2 comprises an inner barrel 21, the ice storage device comprises an outer cylinder 22 sleeved on the periphery of an inner cylinder 21, an ice storage cavity 211 with an upward opening is formed in the inner cylinder 21, an ice outlet pipe 23 communicated with the ice storage cavity 211 and downward penetrating through the outer cylinder 22 and extending to the lower end side of the outer cylinder 22 is arranged at the bottom of the inner cylinder 21, an ice storage cylinder cover plate 24 is arranged at an upper end opening of the ice storage cavity 211 at the upper end of the inner cylinder 21, and an ice storage stirring assembly 25 for stirring ice blocks in the ice storage cavity 211 is arranged on the ice storage cylinder cover plate 24; the side wall of the inner cylinder 21 and the side wall of the outer cylinder 22 are arranged at intervals, an ice water chamber 26 is formed between the side wall of the inner cylinder 21 and the side wall of the outer cylinder 22, and bottom water leakage holes 212 which are communicated with the ice storage chamber 211 and the ice water chamber 26 and are uniformly distributed at intervals are formed in the periphery of the ice outlet pipe 23 at the bottom of the inner cylinder 21; the ice outlet machine box body 1 is provided with an ice taking port 3, an ice water port 4 and a hot water port 5, the ice taking port 3 is communicated with an ice outlet pipe 23, and the ice water port 4 is communicated with the bottom of an ice water chamber 26 through a pipeline.

Furthermore, a first compressor, a second compressor, a condenser and a heat exchange recoverer are embedded in the lower end side of the double-layer ice storage barrel 2 in the box body accommodating cavity of the ice outlet machine box body 1, a first ice machine evaporation barrel and a second ice machine evaporation barrel are embedded in the box body accommodating cavity of the ice outlet machine box body 1 on the peripheral side of the double-layer ice storage barrel 2, and the first compressor, the condenser and the first ice machine evaporation barrel are sequentially connected through refrigerant pipelines and form a closed loop; a water flow channel and a refrigerant flow channel are arranged in the heat exchange recoverer, a water inlet of the water flow channel is communicated with the bottom of the ice water chamber 26 through a pipeline, a water outlet of the water flow channel is connected with the hot water port 5 through a pipeline, and a second compressor, the refrigerant flow channel in the heat exchange recoverer and a second ice machine evaporation cylinder are sequentially connected through refrigerant pipelines to form a closed loop.

Furthermore, the ice outlets of the first ice machine evaporating cylinder and the second ice machine evaporating cylinder are respectively communicated with the upper end part of the ice storage chamber 211 through ice guide pipelines, and the ice guide pipelines sequentially penetrate through the outer cylinder 22 and the inner cylinder 21.

For the ice storage stirring assembly 25 of the present invention, the following structural design can be adopted, specifically: the ice storage stirring assembly 25 comprises a stirring driving motor 251 which is screwed and fixedly arranged on the upper surface of the ice storage barrel cover plate 24, and a power output shaft of the stirring driving motor 251 penetrates through the ice storage barrel cover plate 24 and extends to the lower end side of the ice storage barrel cover plate 24; the inner wall of the inner cylinder 21 is tightly provided with a rotating shaft support, the rotating shaft support is provided with a driving rotating shaft 253 which is vertically arranged through a bearing, the upper end part of the driving rotating shaft 253 is connected with a power output shaft of the stirring driving motor 251, and the driving rotating shaft 253 is tightly provided with a stirring paddle 254. It should be explained that, during the operation of the ice-storing stirring assembly 25 of the present invention, the stirring driving motor 251 drives the driving shaft 253 to rotate, the rotating driving shaft 253 drives the stirring paddle 254 to rotate, and the stirring paddle 254 stirs the ice cubes in the ice-storing chamber 211 to prevent the ice cubes in the ice-storing chamber 211 from agglomerating. The stirring driving motor 251 of the present invention may be a variable frequency driving motor, and when the stirring device works, the stirring driving motor 251 may adjust the stirring speed as required, and since the stirring speed determines the ice discharging speed, the ice discharging speed may be controlled by speed control.

In order to accelerate the heat dissipation speed of the condenser, the invention adopts the following heat dissipation structure design: a heat radiation fan is embedded at the side of the condenser in the box body accommodating cavity of the ice outlet machine box body 1, a heat radiation air inlet 11 aligned with the heat radiation fan is arranged on the front surface of the ice outlet machine box body 1, and a heat radiation air outlet 12 aligned with the heat radiation fan is arranged on the rear surface of the ice outlet machine box body 1.

In the using process of the ice cube taking device, a user can take ice cubes through the ice taking port 3, ice water can be taken through the ice water port 4, and hot water can be taken through the hot water port 5. Wherein, the ice outlet machine box body 1 is provided with a water pan 6 below the ice taking port 3, the ice water port 4 and the hot water port 5, and the water pan 6 is used for supporting a water taking tool or an ice taking tool, so that a user can conveniently take water or ice.

In the working process of the invention, the first ice machine evaporation cylinder and the second ice machine evaporation cylinder are respectively used for making ice, and ice blocks prepared by the first ice machine evaporation cylinder and the second ice machine evaporation cylinder are sent into the ice storage chamber 211 of the inner cylinder 21 through the ice guide pipeline; the ice machine can simultaneously make ice through the two ice machine evaporation cylinders, has high ice making efficiency and can realize high-capacity ice discharging.

When the inner cylinder 21 stores ice blocks through the ice storage chamber 211, the ice blocks are partially melted, ice water generated by melting flows into the ice water chamber 26 between the inner cylinder 21 and the outer cylinder 22 through the bottom water leakage hole 212 at the bottom of the inner cylinder 21, and the ice water in the ice water chamber 26 is drained to the ice water port 4 through a pipeline, so that a user can conveniently take and use the ice water.

In addition, when the second compressor sends the refrigerant into the refrigerant flow channel of the heat exchange recoverer, the ice water drained from the ice water chamber 26 and entering the water flow channel of the heat exchange recoverer can exchange heat with the high-temperature refrigerant, the ice water is heated in a heat exchange mode to form hot water, and the hot water is drained to the hot water port 5 through a pipeline to be convenient for a user to take.

According to the above situation, the ice making machine has the advantages of novel structural design, convenience in use and capability of achieving large-capacity ice making through the structural design.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.