KR200408236Y1 - Condenser for Kimchi Storage - Google Patents

Abstract

The present invention increases the contact area with the outside air by configuring the condenser with a plurality of fine micro-pipes, and relates to a Kimchi storage condenser to secure a flow path of air by having a spacer between each of the micro-tubes.

Condenser, Microtubes, Spacers

Description

Condenser for Kimchi Storage {structure of condenser}

1 is a view showing the configuration of a typical cold, heating system.

2 is a view showing a state in which a conventional condenser is installed.

3 is a cross-sectional view of a conventional condenser installed.

4 is a view showing a state in which a condenser according to the present invention is installed.

5 is a cross-sectional view of a condenser installed state according to the present invention.

* Description of the symbols for the main parts of the drawings *

3,103 condenser 12,112 inlet pipe

14,114: discharge pipe 120: microtube

122: welding surface 130: spacer

140: expansion tube

The present invention relates to a condenser for kimchi storage, and more specifically, the condenser is composed of a plurality of fine micro strands to increase the contact area with the outside air, and has a spacer between each of the microtubules flow passage of air It relates to a Kimchi storage condenser to secure.

In general, a cooling device liquefies a refrigerant by compressing the refrigerant at a high pressure with an outdoor heat exchanger driven by a motor, and vaporizes the refrigerant in an indoor heat exchanger by evaporating the refrigerant condensed at this high pressure into a tube having a small diameter. Cold air is generated by lowering the temperature, and cooling is performed since the generated cold air is discharged into the room.

Such cooling devices are used in air conditioners, refrigerators, and kimchi storages. Recently, a spiral condenser having a spiral tube wound in a spiral shape and moving a refrigerant to double the cooling and heating effect is used.

The spiral condenser is wound in a coil shape to allow the refrigerant to move in a spiral shape while increasing the contact area of air to maximize heat exchange efficiency.

1 is a view showing the configuration of a general cooling and heating system, Figure 2 is a view showing a state in which a conventional spiral condenser is installed, Figure 3 is a cross-sectional view of a state in which a conventional spiral condenser is installed.

Looking at the configuration of the cooling and heating system (1) of Figure 1, a compressor (2) for compressing the refrigerant moving through the pipeline to a high pressure, and a condenser for condensing the refrigerant compressed by the compressor (2) to discharge the heat to the outside (3) and an expansion valve (4) for instantaneously expanding the refrigerant condensed in the condenser (3), and the refrigerant expanded in the expansion valve (4) to evaporate and evaporate external heat to lower the temperature. It consists of an evaporator (6).

As shown in Figure 2 and 3, the condenser 3 of the prior art configuration of the inlet tube 12 through which the refrigerant is introduced, and the discharge tube 14 to condense and discharge the refrigerant introduced into the inlet tube 12 Is done.

The condenser 3 maintains a spiral shape from the inlet 12 to the outlet 14.

In addition, a fixing bracket 20 is provided at one side of the condenser 3 to fix the condenser 3.

The fixing bracket 20 is in contact with the outer side of the condenser (3), the inner side is in contact with the pressing piece 22 is fixed by bolts and nuts, the lower end of the fixing bracket 20, the fixing piece 24 is formed with a screw hole It is formed and fixed to the bottom of the case 40 by screws.

A cooling fan 30 is provided on the discharge pipe 14 side of the condenser 3 to forcibly introduce external air to heat exchange the refrigerant flowing in the condenser 10.

However, the conventional helical condenser as described above has a problem in that the heat exchange efficiency does not improve more than a predetermined time because of a limited contact area with external air.

In order to solve the above problems, the present invention has a plurality of strands of microtubes between the inlet and outlet tubes of the condenser, and the refrigerant flows to increase the contact area with the outside air, thereby improving heat exchange efficiency. The purpose of the present invention is to provide a condenser for kimchi storage, which is intended to expand the contact area of the outside air by securing a flow passage of air by providing a spacer between each microtube to maintain a space therebetween.

The present invention for achieving the above object is provided in the case is connected to the inlet pipe and the discharge pipe and the kimchi storage condenser for condensing the refrigerant by heat exchange with the air introduced by the cooling fan while guiding the refrigerant in the gas state In order to provide a condenser for kimchi storage to increase the contact area between the refrigerant flowing through the inside and the discharge pipe and the outside air by connecting the inlet and the discharge pipes with a plurality of strands.

In addition, the present invention is characterized by maintaining a space between the plurality of spacers to secure the adjacent space of each of the microtubules to secure the flow path of the outside air.

In addition, the present invention is characterized in that it is provided with an expansion tube between the microtube and the inlet pipe and the microtube and the discharge pipe to sufficiently secure the number of strands of the microtube.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

4 is a view showing a state in which the condenser according to the present invention is installed, Figure 5 is a cross-sectional view of a state in which the condenser according to the present invention is installed.

As shown, the present invention relates to a condenser 103 in the kimchi storage, the condenser 103 is an inlet pipe 112 for introducing a refrigerant and discharge pipe 114 for discharging the refrigerant and the inlet pipe ( 112 and the discharge pipe 114 is composed of a plurality of micro-pipes 120 for increasing the contact area with the outside air.

Each of the microtubes 120 welds one end of the circumferential surface to the inner surface of the inlet pipe 112 to form a welding surface 122, and at the same time, welds the other end of the circumferential surface of the microtube to the inner surface of the discharge pipe 114. 122) to block the inflow of outside air.

Of course, the microtubes 120 are completely sealed by welding adjacent ends to form a welding surface 122.

In addition, the microtubes 120 are spaced by a plurality of spacers 130 to secure each adjacent space to secure the flow path of the outside air.

That is, as the plurality of spacers 130 are provided between the adjacent microtubes 120 to maintain the mutual spacing, the external air is wrapped around the microtubes 120 so that the heat exchange is performed as soon as possible.

In particular, the spacer 130 is welded and fixed to the microtubes 120 contacting both ends, and made of a metal material such as copper having high thermal conductivity, thereby making heat exchange between the refrigerant flowing in the microtubes 120 and external air more quickly. Let it go.

On the other hand, the microtubule 120 is made of a circular tube or spiral tube shape to allow the outside air to flow into the inside.

At this time, the microtubes 120 are all formed in a spiral tube shape to facilitate the contact with the air.

In addition, the micro-pipe 120 is provided with an expansion pipe 140 at both ends, each expansion pipe 140 is connected to the inlet pipe 112 and the discharge pipe 114.

Of course, the inner surface of the expansion pipe 140 and the outer surface of the inlet pipe 112 and the discharge pipe 114 is welded to block the inflow of external air.

In addition, while the inner surface of the expansion tube 140 and each of the outer surface of each of the microtubes 120 are welded, the joint portion of each of the microtubes 120 is welded to form a welding surface 122.

The expansion tube 140 is provided to allow the refrigerant introduced from the inlet tube 112 to be instantaneously stored in the expansion tube 140 and evenly distributed and guided to each of the microtubes 120.

In addition, the expansion tube 140 is formed on the front side of the discharge pipe 114 is provided to temporarily collect the refrigerant discharged from each capillary tube and gradually discharge.

As described above, according to the Kimchi storage condenser according to the present invention, by connecting a plurality of micro-pipes between the inlet pipe and the discharge pipe of the condenser to increase the contact area between the refrigerant flowing through the air and the air to improve the heat exchange efficiency It can be effective.

In addition, the present invention has the effect of maximizing the heat exchange by expanding the contact area with the outside air to secure the flow path of the air by maintaining the interval between the micro-tubules by fixing the spacer between each micro-tubules.

Claims (6)

In the condenser for kimchi storage is provided inside the case and connected to the inlet pipe and the discharge pipe and condenses the refrigerant by heat exchange with the outside air introduced by the cooling fan while guiding the refrigerant in the gas state, The inlet pipe and the discharge pipe is a kimchi storage condenser, characterized in that connected to a plurality of micro-pipes in order to increase the contact area between the refrigerant flowing through the outside air and the outside air. The method of claim 1, The microtube is a condenser for kimchi storage, characterized in that the blocking of the inflow of external air by forming a welding surface between each contacting end and each end and the inlet and outlet pipes. The method according to claim 1 or 2, The microtube condenser for the kimchi storage space, characterized in that spaced by a plurality of spacers to secure each adjacent space to secure the flow path of the outside air. The method of claim 3, wherein The spacer is welded to each of the two adjacent microtubes, each of the condenser for kimchi storage, characterized in that the copper material having a high thermal conductivity. The method according to claim 1 or 2, The fine tube is a condenser for kimchi storage, characterized in that formed in the shape of a circular tube or spiral tube. The method according to claim 1 or 2, An expansion tube is connected between the micro tube and the inlet tube and the micro tube and the discharge tube condenser for kimchi storage, characterized in that to ensure a sufficient number of strands of the micro tube.

Images