KR200215882Y1 - Electronic Kimchi Dog Thermostat - Google Patents

Abstract

Disclosed is a temperature control device of an electronic kimchi dog for maintaining a constant temperature inside a storage compartment. The thermostat includes a thermostat for controlling the operation of the compressor by opening and closing the contact according to the operation of the diaphragm; And a temperature transfer pipe fixed at one side of the evaporator, one end of which is compressed, and a capillary tube installed inside the temperature transfer pipe and extended to the diaphragm of the thermostat, and a gas container installed at one side of the capillary tube to be delivered from the temperature transfer pipe. According to the temperature of the evaporator includes a temperature sensor for expanding or contracting the gas therein to operate the diaphragm of the thermostat. The temperature transmission pipe is provided with a gap retaining bush for maintaining a constant distance between the crimp section and the gas container. It is preferable that the gap maintaining bush is made of the same material as that of the temperature transfer pipe.

Description

Electronic Kimchi Dog Thermostat

The present invention relates to an electronic kimchi dog, and more particularly to a temperature control device for maintaining a constant temperature inside the storage compartment.

In general, the electronic kimchi dog is a device for storing only kimchi, our unique food. The electronic kimchi dog can be stored for a long time in a fresh state or freshly dipped kimchi to a desired degree of ripening by appropriately adjusting the temperature inside the storage compartment using a cooling cycle and a heater similar to a refrigerator.

In order to store kimchi for a long time in such an electronic kimchi dog, it is very important to keep the temperature inside the storage room uniform at all times. Therefore, the electronic kimchi dock is provided with a temperature control device for maintaining a constant temperature inside the storage compartment.

An example of a temperature control device applied to the electronic kimchi dog is shown in FIGS. 1 and 2.

As shown, the temperature control device is in contact with one side of the evaporator 12 forming a cooling cycle to detect the temperature of the evaporator 12 and the cooling according to the detection result of the temperature sensing unit 20 It comprises a thermostat (30) for controlling the operation of the compressor (14) constituting the cycle.

As shown in more detail in FIG. 2, the temperature sensing unit 20 includes a temperature transfer pipe 22 and a pressure transfer member 24.

The temperature transmission pipe 22 is a pipe made of the same material whose one end is pressed flat, and the crimping portion 23 is fixed to the evaporator 12 by welding. The pressure transmission member 24 is closed at one end thereof and the other end is formed of a capillary tube 25 connected to the thermostat 30 and a gas container 26 installed close to one end of the capillary tube 25. The gas container 26 and the capillary tube 25 are filled with carbon dioxide gas. The pressure transmission member 24 is inserted into the temperature transmission pipe 22 such that one end of the block is in contact with the pressing portion 23 of the temperature transmission pipe 22.

The thermostat 30 is connected to the other end of the capillary tube 25, and the diaphragm is operated according to the gas pressure inside the capillary tube 25 to energize or cut off the power applied to the compressor 14 by opening and closing the contact. .

In the temperature control device having such a configuration, the gas inside the gas container 26 according to the temperature of the evaporator 12 transmitted to the other end of the pipe 22 through the crimping portion 23 of the temperature transmission pipe 22. Will expand or contract. As the gas expands or contracts as described above, the diaphragm of the thermostat 30 connected to the capillary tube 25 opens and closes the contact point of the power applied to the compressor 14. Accordingly, the temperature control is achieved while the compressor 14 is operated or stopped.

This will be described in more detail as follows. When the temperature of the evaporator 12 rises above a predetermined temperature, the gas stored in the gas container 26 expands and exerts a pressure on the diaphragm. Accordingly, the contact inside the thermostat 30 is energized to operate the compressor 14. The cooling cycle is activated to cool the inside of the storage compartment. In addition, when the temperature of the evaporator 12 falls below a predetermined temperature, the gas stored in the gas container 26 is contracted so that the pressure of the gas applied to the diaphragm is removed. Accordingly, the contact inside the thermostat 30 is blocked to stop the operation of the compressor 14 to stop the cooling cycle to prevent the inside of the storage compartment from being cooled any more.

However, the conventional electronic Kimchi dog temperature control device as described above had the following disadvantages.

In other words, the temperature of the temperature transfer pipe depends on the distance from the crimp. Therefore, the gas container of the temperature sensing unit should be positioned at a certain distance from the crimping portion of the temperature transfer pipe so that accurate temperature control by accurate temperature sensing can be achieved.

However, the pressure transmitting member seals the gas container through one side of the capillary tube, and then immerses one end of the capillary tube in molten solder to seal one side of the capillary tube. There was a downside. Therefore, since the distance from the compressed portion of the temperature transfer pipe to the gas container varies depending on the product, there is a problem that reliability of temperature sensing is lowered and accurate temperature control is difficult to be achieved.

The present invention has been made to solve the above problems, to provide a temperature control device of the electronic kimchi dog is always constant regardless of the distance between the gas container of the pressure transmission member from the pressing portion of the temperature transmission pipe. There is this.

1 is a view schematically showing a structure for installing a temperature control device of a conventional electronic kimchi dog.

Figure 2 is a cross-sectional view showing in more detail a conventional temperature control device.

3 is a cross-sectional view showing a temperature control device according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

120; Temperature sensor 122; Temperature transfer pipe

123; Crimping section 124; Pressure transfer pipe

125; Capillary tube 126; Gas container

127; Taper portion 128 of the gas container; Spacing bush

130; Thermostat

Temperature control device of the electronic kimchi dog according to the present invention for achieving the above object, the thermostat for controlling the operation of the compressor by opening and closing the contact according to the operation of the diaphragm; And a temperature transfer pipe fixed at one side of the evaporator, one end of which is compressed, and a capillary tube installed inside the temperature transfer pipe and extended to the diaphragm of the thermostat, and a gas container installed at one side of the capillary tube to be delivered from the temperature transfer pipe. It includes a temperature sensing unit for operating the diaphragm of the thermostat by expanding or contracting the gas therein according to the temperature of the evaporator, and the temperature transmission pipe has a spacing bush for maintaining a constant distance between the crimping unit and the gas container. Characterized in that installed.

Here, the spacer for maintaining the spacing is preferably made of the same material as the material of the temperature transmission pipe.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

The temperature control device of the electronic kimchi dock according to an embodiment of the present invention is shown in FIG. 3. As shown, the temperature control device according to an embodiment of the present invention is a temperature sensing unit 120 for contacting one side of the evaporator 112 forming a cooling cycle to detect the temperature of the evaporator 112, and the temperature sensing unit The thermostat 130 is configured to control the operation of the compressor (not shown) of the cooling cycle according to the detection result of the 120. The temperature sensing unit 120 includes a temperature transmitting pipe 122 and a pressure transmitting member 124. The temperature transmission pipe 122 is a pipe made of the same material whose one end is pressed flat, and the crimping portion 123 is fixed to the evaporator 112 by welding. The pressure transmitting member 124 is closed at one end thereof and the other end is formed of a capillary tube 125 connected to the thermostat 130 and a gas container 126 installed close to one end of the capillary tube 125. The gas container 126 and the capillary tube 125 are filled with carbon dioxide gas. One side of the pressure transmission member 124 is inserted into the temperature transmission pipe 122.

Thermostat 130 is connected to the other end of the capillary tube 125, the diaphragm is activated in accordance with the gas pressure inside the capillary tube 125 to energize or cut off the power applied to the compressor by opening and closing the contact.

The configuration up to this point is the same as the conventional temperature regulating device as described above. However, a feature of the present invention is that the bush 128 for maintaining a predetermined length is provided between the crimping portion 123 of the temperature transfer pipe 122 and the gas container 126. This bush 128 is preferably made of the same copper material as the temperature transfer pipe 122. The length is set in accordance with the reference value of the distance between the gas container 126 for sensing the temperature of the temperature transfer pipe 122 and the crimping portion 123 of the temperature transfer pipe 122. The gap retaining bush 128 has an outer diameter equal to the inner diameter of the temperature transfer pipe 122, and the inner diameter thereof is the maximum outer diameter of the one side taper portion 127 of the gas container 126, that is, the gas container 126. It has a slightly smaller outer diameter than the maximum outer diameter. Accordingly, when one side of the pressure transmission member 124 is inserted into the temperature transmission pipe 122, one side taper portion 127 of the gas container 126 is caught by the gap maintaining bush 128, thereby adjusting the temperature control pipe 122. And the gas container 126 maintains a gap corresponding to the length of the gap maintaining bush 128.

Therefore, the distance between the crimping portion 123 and the gas container 126 is determined by the spacing bush 128 regardless of the length of one side of the capillary tube 125, and the spacing bush 128 is the same. It can be precisely cut to length, so there is no deviation from product.

According to the present invention as described above, since the bush for maintaining a predetermined length is interposed between the crimp portion of the temperature transmission pipe and the gas vessel of the pressure transmission member, the distance between the crimp portion and the gas vessel is always constant regardless of the product. There is an advantage to maintain.

In addition, the distance holding bush is provided so that the distance between the outer circumferential surface of the gas container and the inner circumferential surface of the temperature transfer pipe can be kept constant. Therefore, since the temperature of the temperature transfer pipe can be uniformly transmitted over the entire outer circumferential surface of the gas container, there is an advantage in that the accuracy of temperature sensing is improved.

In the above, specific preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiment, and various modifications can be made by any person having ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the scope of utility model registration claims. It will be possible.

Claims (2)

Thermostat for controlling the operation of the compressor by opening and closing the contact according to the operation of the diaphragm; And a temperature transfer pipe fixed at one side of the evaporator, one end of which is compressed, a capillary tube installed inside the temperature transfer pipe and extending to the diaphragm of the thermostat, and a gas container installed at one side of the capillary tube. In the temperature control device of the electronic Kimchi dock comprising a temperature sensor for operating the diaphragm of the thermostat is expanded or contracted according to the temperature of the evaporator delivered from, The temperature transmission pipe is an electronic kimchi dog temperature control device, characterized in that the interval holding bush for maintaining a constant distance between the crimping portion and the gas container is installed. The temperature control device of the electronic kimchi dock according to claim 1, wherein the gap maintaining bush is made of the same material as that of the temperature transmission pipe.