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A temperature control method of an ice-making component and an ice-making cavity

A temperature control method and ice chamber technology, which is applied in refrigeration components, ice making, and ice making, etc., can solve the problems of temperature fluctuations in ice storage boxes, affecting ice cube storage, and reducing ice production volume, so as to increase ice production volume, Achieve simplification and increase ice storage capacity

Active Publication Date: 2020-08-18
HEFEI HUALING CO LTD +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At this time, the space where the ice maker and the ice storage box are located is completely connected, and the ice making and ice storage are in the same concave cavity, so the temperature in the ice storage box during the ice making process of the ice machine is similar to the temperature around the ice machine , and the actual required storage temperature of ice cubes is higher than the ice-making temperature, which causes the loss of cooling capacity, which in turn results in a corresponding reduction in ice-making capacity.
In addition, when the ice machine starts to heat and de-ice, the heating wire of the ice machine will work, which will cause the temperature around the ice machine to rise, causing the temperature in the ice storage box to fluctuate, affecting the storage of ice cubes

Method used

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  • A temperature control method of an ice-making component and an ice-making cavity
  • A temperature control method of an ice-making component and an ice-making cavity
  • A temperature control method of an ice-making component and an ice-making cavity

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0066] An ice-making assembly, including an ice-making chamber, an ice maker 1 installed above the inside of the ice-making chamber, and an ice storage box 2 located at the lower part inside the ice-making chamber, and also includes:

[0067] Movable partition 3, the movable partition 3 is arranged between the ice maker 1 and the ice storage box 2 for communicating or separating the ice maker 1 and the ice storage box 2, the movable partition 3 divides the ice making chamber The body is divided into two parts: the ice making area and the ice storage area;

[0068] A fan 5, the fan 5 is arranged at the opening at the upper end of the ice-making cavity, and the opening communicates with the cavity where the ice-making evaporator 6 is located and the ice-making cavity;

[0069] An ice storage area temperature sensor 8, the ice storage area temperature sensor 8 for collecting the actual temperature of the ice storage area is located at the lower part of the ice storage box and con...

Embodiment 2

[0088] An ice-making assembly, including an ice-making chamber, an ice maker 1 installed above the inside of the ice-making chamber, and an ice storage box 2 located at the lower part inside the ice-making chamber, and also includes:

[0089] Movable partition 3, the movable partition 3 is arranged between the ice maker 1 and the ice storage box 2 for communicating or separating the ice maker 1 and the ice storage box 2, the movable partition 3 divides the ice making chamber The body is divided into two parts: the ice making area and the ice storage area;

[0090] A fan 5, the fan 5 is arranged at the opening at the upper end of the ice-making cavity, and the opening communicates with the cavity where the ice-making evaporator 6 is located and the ice-making cavity;

[0091] An ice-making zone temperature sensor 7, the ice-making zone temperature sensor 7 for collecting the actual temperature of the ice-making zone is located above the ice maker 1 and connected to the inner wa...

Embodiment 3

[0111] Such as Figure 1-3 As shown, an ice-making assembly includes an ice-making cavity, an ice maker 1 installed above the inside of the ice-making cavity, and an ice storage box 2 located at the lower part of the inside of the ice-making cavity, and also includes:

[0112] Movable partition 3, the movable partition 3 is arranged between the ice maker 1 and the ice storage box 2 for communicating or separating the ice maker 1 and the ice storage box 2, the movable partition 3 divides the ice making chamber The body is divided into two parts: the ice making area and the ice storage area;

[0113] A fan 5, the fan 5 is arranged at the opening at the upper end of the ice-making cavity, and the opening communicates with the cavity where the ice-making evaporator 6 is located and the ice-making cavity;

[0114] An ice storage area temperature sensor 8, the ice storage area temperature sensor 8 for collecting the actual temperature of the ice storage area is located at the lower...

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PUM

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Abstract

Disclosed is an ice-making assembly comprising an ice-making chamber, an ice maker (1) installed at the upper part inside the ice-making chamber, and an ice storage box (2) located at the lower part inside the ice-making chamber, and further comprising a movable partition (3) disposed between the ice maker (1) and the ice storage box (2) for communicating or separating the ice maker (1) and the ice storage box (2), a fan (5) disposed at an opening on the upper end of the ice-making chamber, an ice storage area temperature sensor (8) for collecting the actual temperature of the ice storage area located at the lower part of the ice storage box (2) and connected to the inner wall of the ice storage box (2), and a microprocessor connected to the ice storage area temperature sensor (8) and receiving the actual temperature of the ice storage area collected by the ice storage area temperature sensor (8). The microprocessor is connected to the fan (5) and controls the operation mode of the fan.

Description

technical field [0001] The invention relates to the field of refrigeration equipment, in particular to an ice-making assembly and a method for controlling the temperature of an ice-making cavity. Background technique [0002] The ice machine in the prior art is generally installed on the back of the door, and the ice storage box (ice storage bucket) is directly placed under the ice machine. When the ice machine is full of ice, the ice cubes directly fall into the ice storage. in the box. At this time, the space where the ice maker and the ice storage box are located is completely connected, and the ice making and ice storage are in the same concave cavity, so the temperature in the ice storage box during the ice making process of the ice machine is similar to the temperature around the ice machine , and the actual required storage temperature of ice cubes is higher than the ice-making temperature, which results in a loss of cooling capacity and a corresponding reduction in ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F25C1/00F25B49/00
CPCF25B49/00F25C1/00
Inventor 邵阳司增强
Owner HEFEI HUALING CO LTD