CN216384709U - Ice making system for cleaning ice making surface by using brush - Google Patents
Ice making system for cleaning ice making surface by using brush Download PDFInfo
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- CN216384709U CN216384709U CN202121327631.6U CN202121327631U CN216384709U CN 216384709 U CN216384709 U CN 216384709U CN 202121327631 U CN202121327631 U CN 202121327631U CN 216384709 U CN216384709 U CN 216384709U
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- ice making
- making surface
- rotating shaft
- ice
- brush
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Abstract
The utility model relates to an ice making system for cleaning an ice making surface by a brush, which comprises ice making liquid, secondary refrigerant, a low-temperature secondary refrigerant inlet, a cleaning brush, a low-temperature secondary refrigerant outlet, a heat preservation container, an ice making surface, a rotating shaft and a rotary driving motor. Wherein one or more ice making surfaces are placed in parallel in the heat preservation container; the cleaning brush is also parallel to the ice making surface; a rotating shaft is arranged in the middle of the ice making surface and is vertical to the ice making surface; the cleaning brush is vertically arranged on the rotating shaft, is connected with the rotating shaft and rotates along with the rotating shaft; the rotating shaft is connected with a rotary driving motor and is driven to rotate by the rotary driving motor. The cleaning brush is adopted to rotate and clean the ice making surface, so that the ice making surface can be kept clean, high-efficiency heat transfer is maintained, and the purposes of reducing energy consumption and improving efficiency are achieved.
Description
Technical Field
The utility model relates to an ice making system for cleaning an ice making surface by a brush, which is an ice making device capable of continuously and efficiently operating for a long time and belongs to the innovative technology of reducing carbon emission, saving operating cost and improving efficiency.
Background
Most ice-making systems adopt a static conduction ice-making mode, and in the later stage of ice making, the ice layer is thicker and thicker, and the heat transfer surface is wrapped. For this reason, it is necessary to clean the ice from the heat exchange surface in a reliable and simple manner.
SUMMERY OF THE UTILITY MODEL
In view of the above, it is an object of the present invention to provide an ice making system for cleaning an ice making surface with a brush that is reliable, inexpensive to operate, and requires less investment. The utility model can continuously and reliably clean the ice making surface by the brush for a long time, so that the ice made on the ice making surface leaves the ice making surface, and the ice making surface keeps high-efficiency heat transfer, thereby saving the operation cost and reducing the carbon emission. The utility model has low cost, convenience, practicability and convenient popularization.
The technical scheme of the utility model is as follows: the utility model discloses an ice making system for cleaning an ice making surface by using a brush, which comprises ice making liquid (1), a low-temperature secondary refrigerant inlet (2), a cleaning brush (3), a low-temperature secondary refrigerant outlet (4), a heat preservation container (5), an ice making surface (6), a rotating shaft (7), a rotary driving motor (8) and secondary refrigerant (9). Wherein one or more ice making surfaces (6) are arranged in parallel in the heat preservation container (5); the cleaning brush (3) is also parallel to the ice making surface (6); a rotating shaft (7) is arranged in the middle of the ice making surface (6), and the rotating shaft (7) is vertical to the ice making surface (6); the cleaning brush (3) is vertically arranged on the rotating shaft (7), is connected with the rotating shaft (7) and rotates along with the rotating shaft (7); the rotating shaft (7) is connected with a rotary driving motor (8) and is driven to rotate by the rotary driving motor (8); the refrigerating medium (9) flows in the ice making surface (6).
In addition, the utility model also provides specific structures in other forms.
Example two: the utility model discloses an ice making system for cleaning an ice making surface by using a brush, which comprises ice making liquid (1), a low-temperature secondary refrigerant inlet (2), a cleaning brush (3), a low-temperature secondary refrigerant outlet (4), a heat preservation container (5), an ice making surface (6), a rotating shaft (7), a rotary driving motor (8), secondary refrigerant (9) and a mechanical transmission device (10). Wherein one or more ice making surfaces (6) are arranged in parallel in the heat preservation container (5); the cleaning brush (3) is also parallel to the ice making surface (6); a rotating shaft (7) is arranged in the middle of the ice making surface (6), and the rotating shaft (7) is vertical to the ice making surface (6); the cleaning brush (3) is vertically arranged on the rotating shaft (7), is connected with the rotating shaft (7) and rotates along with the rotating shaft (7); the refrigerating medium (9) flows in the ice making surface (6); the rotary driving motor (8) is not connected with the rotating shaft (7) together and is connected with the rotating shaft through a mechanical transmission device (10), and the rotary driving motor (8) drives the rotating shaft (7) to rotate through the mechanical transmission device (10).
Example three: the utility model discloses an ice making system for cleaning an ice making surface by a brush, which comprises ice making liquid (1), a low-temperature secondary refrigerant inlet (2), a cleaning brush (3), a low-temperature secondary refrigerant outlet (4), a heat preservation container (5), an ice making surface (6), a rotating shaft (7), a rotary driving motor (8), secondary refrigerant (9), a liquid level lower liquid suction pipe (11), an ice making liquid circulating pump (12) and a spray header (13). Wherein one or more ice making surfaces (6) are arranged in parallel in the heat preservation container (5); the cleaning brush (3) is also parallel to the ice making surface (6); a rotating shaft (7) is arranged in the middle of the ice making surface (6), and the rotating shaft (7) is vertical to the ice making surface (6); the cleaning brush (3) is vertically arranged on the rotating shaft (7), is connected with the rotating shaft (7) and rotates along with the rotating shaft (7); the rotating shaft (7) is connected with a rotary driving motor (8) and is driven to rotate by the rotary driving motor (8); the refrigerating medium (9) flows in the ice making surface (6). The ice-making liquid (1) is lower than the ice-making surface (6), flows out through a liquid suction pipe (11) under the liquid level at the bottom of the heat preservation container (5), and is conveyed to a spray header (13) arranged at the upper part of the ice-making surface (6) through an ice-making liquid circulating pump (12) connected to the liquid suction pipe (11) to be sprayed on the ice-making surface (6).
According to the utility model, the cleaning brush (3) is adopted to rotationally clean the ice making surface (6), so that the ice making surface (6) can be kept clean, high-efficiency heat transfer is maintained, and the purposes of reducing energy consumption and improving efficiency are achieved. The utility model has simple structure, safe and reliable use, and is an ice making system for cleaning an ice making surface by a brush, which has ingenious design and excellent performance and is convenient and practical.
Drawings
Fig. 1 is a schematic front structural view, fig. 2 is a schematic side structural view, fig. 3 is a schematic structural view of a second embodiment of the present invention, and fig. 4 is a schematic structural view of a third embodiment of the present invention.
Detailed Description
The following detailed description is provided for the specific structures with reference to the accompanying drawings:
the first embodiment is as follows:
the structural schematic diagram of the utility model is shown in fig. 1 and fig. 2, and the ice making system for cleaning the ice making surface by the brush comprises ice making liquid (1), a low-temperature secondary refrigerant inlet (2), a cleaning brush (3), a low-temperature secondary refrigerant outlet (4), a heat preservation container (5), an ice making surface (6), a rotating shaft (7), a rotary driving motor (8) and secondary refrigerant (9). Wherein one or more ice making surfaces (6) are arranged in parallel in the heat preservation container (5); the cleaning brush (3) is also parallel to the ice making surface (6); a rotating shaft (7) is arranged in the middle of the ice making surface (6), and the rotating shaft (7) is vertical to the ice making surface (6); the cleaning brush (3) is vertically arranged on the rotating shaft (7), is connected with the rotating shaft (7) and rotates along with the rotating shaft (7); the rotating shaft (7) is connected with a rotary driving motor (8) and is driven to rotate by the rotary driving motor (8); the height of the ice-making liquid (1) exceeds the ice-making surface (6); the rotary driving motor (8) is fixedly arranged on the outer side of the heat preservation container (5) and drives the rotating shaft (7) to rotate; the refrigerating medium (9) flows in the ice making surface (6).
Example two:
the structural schematic diagram of the utility model is shown in fig. 3, and the ice making system for cleaning the ice making surface by the brush comprises ice making liquid (1), a low-temperature secondary refrigerant inlet (2), a cleaning brush (3), a low-temperature secondary refrigerant outlet (4), a heat preservation container (5), an ice making surface (6), a rotating shaft (7), a rotary driving motor (8), secondary refrigerant (9) and a mechanical transmission device (10). Wherein one or more ice making surfaces (6) are arranged in parallel in the heat preservation container (5); the cleaning brush (3) is also parallel to the ice making surface (6); a rotating shaft (7) is arranged in the middle of the ice making surface (6), and the rotating shaft (7) is vertical to the ice making surface (6); the cleaning brush (3) is vertically arranged on the rotating shaft (7), is connected with the rotating shaft (7) and rotates along with the rotating shaft (7); the height of the ice-making liquid (1) exceeds the ice-making surface (6); the rotary driving motor (8) is connected with the rotating shaft (7) through a mechanical transmission device (10) and drives the rotating shaft (7) to rotate; the refrigerating medium (9) flows in the ice making surface (6).
Example three:
the structural schematic diagram of the utility model is shown in fig. 4, and the ice making system for cleaning the ice making surface by using the brush comprises ice making liquid (1), a low-temperature secondary refrigerant inlet (2), a cleaning brush (3), a low-temperature secondary refrigerant outlet (4), a heat preservation container (5), an ice making surface (6), a rotating shaft (7), a rotary driving motor (8), secondary refrigerant (9), a liquid level lower liquid suction pipe (11), an ice making liquid circulating pump (12) and a spray head (13). Wherein one or more ice making surfaces (6) are arranged in parallel in the heat preservation container (5); the cleaning brush (3) is also parallel to the ice making surface (6); a rotating shaft (7) is arranged in the middle of the ice making surface (6), and the rotating shaft (7) is vertical to the ice making surface (6); the cleaning brush (3) is vertically arranged on the rotating shaft (7), is connected with the rotating shaft (7) and rotates along with the rotating shaft (7); the rotating shaft (7) is connected with a rotary driving motor (8) and is driven to rotate by the rotary driving motor (8); the rotary driving motor (8) is fixedly arranged on the outer side of the heat preservation container (5) and drives the rotating shaft (7) to rotate; the refrigerating medium (9) flows in the ice making surface (6). The ice-making liquid (1) is lower than the ice-making surface (6), flows out through a liquid suction pipe (11) under the liquid level at the bottom of the heat preservation container (5), and is conveyed to a spray header (13) arranged at the upper part of the ice-making surface (6) through an ice-making liquid circulating pump (12) connected to the liquid suction pipe (11) to be sprayed on the ice-making surface (6).
The utility model relates to an ice making system for cleaning an ice making surface by a brush, which has the following specific implementation modes:
the first embodiment is as follows:
the low-temperature secondary refrigerant (9) flows into the ice making surface (6) through the low-temperature secondary refrigerant inlet (2), and exchanges heat with the ice making liquid (1) through the ice making surface (6), so that the ice making liquid (1) is cooled to become solid ice, the temperature of the low-temperature secondary refrigerant (9) is increased, and the low-temperature secondary refrigerant flows out through the low-temperature secondary refrigerant outlet (4).
The rotary driving motor (8) is started to drive the rotating shaft (7) to rotate, the rotating shaft (7) drives the cleaning brush (3) to rotate and brush the ice-making surface (6), solid ice is cleaned from the ice-making surface (6), the surface of the ice-making surface (6) is kept clean, and efficient heat transfer is maintained.
Example two:
the low-temperature secondary refrigerant (9) flows into the ice making surface (6) through the low-temperature secondary refrigerant inlet (2), and exchanges heat with the ice making liquid (1) through the ice making surface (6), so that the ice making liquid (1) is cooled to become solid ice, the temperature of the low-temperature secondary refrigerant (9) is increased, and the low-temperature secondary refrigerant flows out through the low-temperature secondary refrigerant outlet (4).
The rotary driving motor (8) is started, the rotating shaft (7) is driven to rotate through the mechanical transmission device (10), the rotating shaft (7) drives the cleaning brush (3) to rotate and brush the ice-making surface (6), solid ice is cleaned from the ice-making surface (6), the surface of the ice-making surface (6) is kept clean, and efficient heat transfer is maintained.
Example three:
the ice-making liquid (1) flows out through a liquid suction pipe (11) under the liquid level at the bottom of the heat preservation container (5) and is conveyed to a spray header (13) arranged at the upper part of the ice-making surface (6) to be sprayed on the ice-making surface (6) through an ice-making liquid circulating pump (12) connected to the liquid suction pipe (11).
The low-temperature secondary refrigerant (9) flows into the ice making surface (6) through the low-temperature secondary refrigerant inlet (2), and exchanges heat with the ice making liquid (1) through the ice making surface (6), so that the ice making liquid (1) is cooled to become solid ice, the temperature of the low-temperature secondary refrigerant (9) is increased, and the low-temperature secondary refrigerant flows out through the low-temperature secondary refrigerant outlet (4).
The rotary driving motor (8) is started to drive the rotating shaft (7) to rotate, the rotating shaft (7) drives the cleaning brush (3) to rotate and brush the ice-making surface (6), solid ice is cleaned from the ice-making surface (6), the surface of the ice-making surface (6) is kept clean, and efficient heat transfer is maintained.
Claims (4)
1. An ice making system for cleaning an ice making surface by a brush is characterized by comprising ice making liquid (1), a low-temperature secondary refrigerant inlet (2), a cleaning brush (3), a low-temperature secondary refrigerant outlet (4), a heat preservation container (5), an ice making surface (6), a rotating shaft (7), a rotary driving motor (8) and secondary refrigerant (9), wherein one or more ice making surfaces (6) are placed in the heat preservation container (5) in parallel; the cleaning brush (3) is also parallel to the ice making surface (6); a rotating shaft (7) is arranged in the middle of the ice making surface (6), and the rotating shaft (7) is vertical to the ice making surface (6); the cleaning brush (3) is vertically arranged on the rotating shaft (7), is connected with the rotating shaft (7) and rotates along with the rotating shaft (7); the rotating shaft (7) is connected with a rotary driving motor (8) and is driven to rotate by the rotary driving motor (8); the refrigerating medium (9) flows in the ice making surface (6).
2. An ice making system for brushing an ice making surface according to claim 1, wherein said cleaning brush (3) is installed in parallel with the ice making surface (6), vertically on the rotary shaft (7), and is connected to the rotary shaft (7) to rotate together with the rotary shaft (7).
3. An ice making system for brush cleaning an ice making surface according to claim 1, wherein the coolant (9) flows through the low temperature coolant inlet (2) in the ice making surface (6) and out through the low temperature coolant outlet (4).
4. An ice making system for brush cleaning of ice making surface according to claim 1, characterized in that the rotary driving motor (8) directly drives the rotation of the rotary shaft (7) or the rotary driving of the rotary shaft (7) is performed by a mechanical transmission (10).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121327631.6U CN216384709U (en) | 2021-06-15 | 2021-06-15 | Ice making system for cleaning ice making surface by using brush |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121327631.6U CN216384709U (en) | 2021-06-15 | 2021-06-15 | Ice making system for cleaning ice making surface by using brush |
Publications (1)
Publication Number | Publication Date |
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CN216384709U true CN216384709U (en) | 2022-04-26 |
Family
ID=81215720
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202121327631.6U Active CN216384709U (en) | 2021-06-15 | 2021-06-15 | Ice making system for cleaning ice making surface by using brush |
Country Status (1)
Country | Link |
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CN (1) | CN216384709U (en) |
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2021
- 2021-06-15 CN CN202121327631.6U patent/CN216384709U/en active Active
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