KR19980045856U - Refrigerant filtration device of refrigeration cycle - Google Patents

Abstract

The present invention is to provide a refrigerant filtration device of the refrigeration cycle to prevent the foreign matter contained in the refrigerant is introduced into the compressor or circulated inside the refrigeration cycle by filtering the refrigerant circulated in the refrigeration cycle at one side of the refrigerant pipe in front of the compressor, When the refrigerant compressed in the compressor is circulated toward the condenser and the refrigerant condensed in the condenser is recirculated to the compressor through a capillary tube and an evaporator, the second refrigerant pipe is inserted into the fitting hole formed in the first refrigerant pipe so that the refrigerant is circulated therein. The front ends of the compressors are fastened to correspond to each other, and the filter net is fitted inside the second refrigerant pipe, and the filter net is formed of a cylindrical mesh body and a flange formed by pressing copper plates on the end thereof, thereby forming an outer circumferential surface of the second refrigerant pipe. And a fixing hole between the fitting holes of the first refrigerant pipe.

Description

Refrigerant filtration device of refrigeration cycle

The present invention relates to a refrigerant filtration device of a refrigeration cycle, and more particularly, by filtering the refrigerant circulated in the refrigeration cycle at one side of the refrigerant pipe in front of the compressor, foreign matter contained in the refrigerant is introduced into the compressor or circulated into the refrigeration cycle. It relates to a refrigerant filtration device of the refrigeration cycle prevented.

The conventional refrigeration cycle apparatus, as shown in Fig. 1, a compressor (1) for compressing a refrigerant at high temperature and high pressure, a condenser (2) for liquefying the gas refrigerant flowing from the compressor (1), and the condenser (2) Capillary tube (3) for converting the liquid refrigerant introduced into the refrigerant into a mixed refrigerant of low-temperature, low-pressure gas liquid, and an evaporator (4) which takes heat from the surroundings while the liquid refrigerant in the refrigerant introduced into the capillary tube (3) evaporates, It consists of a fluid separator (5) for separating the refrigerant introduced from the evaporator (4) into a gas refrigerant and a liquid refrigerant is connected to the refrigerant pipe (6) through which the refrigerant is circulated.

On the other hand, a general air conditioner using a refrigeration cycle as described above is manufactured separately by an indoor unit (not shown) installed with an evaporator (4) and the outdoor unit (9) provided with a condenser (2) and a compressor (1).

2 is a perspective view showing the inside of the outdoor unit, a compressor (1) for compressing the refrigerant at a high temperature and high pressure is installed on one side, and liquefied the refrigerant compressed at high temperature and high pressure in the compressor (1) at the rear to condense to room temperature The condenser 2 is installed.

The condenser 2 has a plurality of coolant tubes 2a in which the coolant flows, and is arranged in a zigzag form, and the heat dissipation fins 2b are provided on the outer circumferential surface of each coolant tube 2a to radiate heat generated from them to the outside.

In addition, a cooling fan 7 is installed in front of the condenser 2 to suck the outdoor air toward the condenser 2 and blow air forward to cool the condenser 2.

In addition, a lower base 8 on which the condenser 2, the compressor 1, and the like are placed is formed, and an outdoor unit main body (not shown) is installed.

In addition, the indoor unit (not shown) is provided with an evaporator (4) to absorb the heat of the surroundings in the process of evaporating the liquid refrigerant from the compressor (6), the refrigerant itself is a high temperature and the ambient air is cooled to a low temperature Therefore, to cool the room.

Referring to Figures 1 and 2 the operation of the conventional refrigeration cycle device in detail as follows.

The refrigerant in the gaseous state is compressed to high temperature and high pressure in the compressor (1) and flows into the condenser (2) along the refrigerant pipe (6). The condenser (2) dissipates the heat of the introduced refrigerant into the atmosphere to liquefy.

That is, when cooling starts, the cooling fan 7 rotates and the compressor 1 is operated. In the compressor 1, the refrigerant is compressed to high temperature and high pressure and then circulated toward the condenser 2. At this time, a strong wind passes through the cooling fins 2a of the condenser 2 by the rotation of the cooling fan 7 to dissipate heat inside the refrigerant pipe 2a to the outside, and then discharge it forward.

Thereafter, the capillary tube 3 converts the liquefied refrigerant introduced from the condenser 2 into a gas liquid mixed refrigerant of low temperature and low pressure. The evaporator 4 absorbs the surrounding heat while evaporating the liquid refrigerant in the refrigerant flowing in the capillary tube 3.

Therefore, the refrigerant condensed by condensation at low temperature and low pressure in the condenser 3 is expanded and then circulated toward the evaporator 4 of the indoor unit (not shown), and the double liquid refrigerant evaporates to absorb external heat, thereby exchanging heat with indoor air. The room is cooled coolly.

On the other hand, the refrigerant passing through the evaporator (4) flows into the fluid separator (5) so that the liquid refrigerant is stored in the fluid separator (5) and only the gaseous refrigerant to the compressor (1) through the refrigerant pipe (6) As it reflows, it recirculates the refrigeration cycle.

In the conventional refrigeration cycle as described above, since there is no separate device for filtering the refrigerant circulated inside the refrigerant pipe, the refrigerant pipe includes various foreign substances generated by corrosion of the device in the refrigerant to be circulated together to circulate together. If the efficiency is reduced or worse, there was a problem that causes damage to the device.

The present invention was created in view of the above problems, and the refrigerant circulated in the refrigeration cycle is filtered at one side of the refrigerant pipe in front of the compressor to prevent foreign substances contained in the refrigerant from entering the compressor or circulating into the refrigeration cycle. The purpose is to provide a refrigerant filtration device for a cycle.

1 is a schematic view showing a conventional refrigeration cycle apparatus.

2 is a perspective view showing the inside of the outdoor unit;

Figure 3 is a cross-sectional view of the refrigerant filtration device of the present invention refrigeration cycle formed in A.

Figure 4 is an exploded perspective view showing a strainer of the present invention refrigeration cycle refrigerant filtration device.

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

1-compressor, 2-condenser,

3-capillary tube, 4-evaporator,

10- first refrigerant tube, 11-second refrigerant tube,

12-Fit Ball,

21-Body, 22-Flange,

23-copper.

In order to achieve the above object, the present invention is a refrigerant compressed in the compressor is circulated toward the condenser and the refrigerant condensed in the condenser is recirculated to the compressor through the capillary tube and the evaporator, the first refrigerant to circulate therein Corresponding to the end of the second refrigerant pipe to the fitting hole formed in the refrigerant pipe is fastened in front of the compressor, the strainer is fitted inside the second refrigerant pipe, the strainer is a cylindrical mesh body and the copper plate is crimped to the end The flange is formed is fixed between the outer peripheral surface of the second refrigerant pipe and the fitting hole of the first refrigerant pipe.

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

3 is a cross-sectional view of a refrigerant filtration device of the present invention refrigeration cycle formed in the A portion, Figure 4 is an extractive perspective view showing a strainer of the present invention the refrigerant cycle refrigerant filtration device.

The refrigerant is circulated therein and is provided with a first refrigerant pipe 10 having a fitting hole 12 formed at one end thereof.

On the other hand, the one end is fastened corresponding to the fitting hole 12 of the first refrigerant pipe 10 and the other side is provided with a second refrigerant pipe 11 connected to the front of the compressor (not shown).

The second refrigerant pipe (11) is fitted with a sieve (20) inside the sieve 20, the sieve net 20 is formed of a cylindrical mesh body 21 and the flange 22 at the end of the second refrigerant pipe (11) It is configured to be fixed between the outer circumferential surface of the) and the fitting hole 12 of the first refrigerant pipe (10).

At this time, the flange 22 is formed with a copper plate 23 is pressed between the fitting hole 12 of the second refrigerant pipe 11 and the first refrigerant pipe 10 to be fixed to each other.

The operation of the present invention configured as described above will be described with reference to FIGS. 3 and 4, but the same components as in the prior art will be described in detail using the same reference numerals shown in FIGS. 1 and 2.

When cooling starts, the cooling fan 7 rotates and the compressor 1 is operated. In the compressor 1, the gaseous refrigerant is compressed to high temperature and high pressure and then circulated toward the condenser 2. At this time, a strong wind passes through the cooling fins 2a of the condenser 2 by the rotation of the cooling fan 7 to dissipate the heat of the refrigerant circulated inside the refrigerant pipe 2a to the outside to liquefy, and then discharge it forward. do.

Thereafter, the refrigerant liquefied and condensed at low temperature and low pressure in the condenser 3 is expanded through the capillary tube 3 and then circulated toward the evaporator 4 of the indoor unit 9. At this time, the refrigerant in the liquid state is evaporated to absorb the external heat, thereby heat-exchanging with the indoor air to cool the room.

On the other hand, the refrigerant passing through the evaporator (4) flows into the fluid separator (5), the liquid refrigerant is stored in the fluid separator (5) and the gaseous refrigerant flows back into the compressor (1), so that the refrigerant Foreign matter contained is filtered by the strainer (20).

That is, the refrigerant flowing into the compressor 1 passes through the strainer 20 sandwiched between the first refrigerant pipe 10 and the second refrigerant pipe 11 in front of the compressor 1.

At this time, the filter net 20 is formed with a flange 22 to surround the end of the second refrigerant pipe 11 is fitted into the fitting hole 12 of the first refrigerant pipe (10). Therefore, the copper plate 23 of the flange 22 is compressed so that the strainer 20 is fixed to the front of the compressor 1 and the first refrigerant pipe 10 and the second refrigerant pipe 11 are compressed and fixed. will be.

On the other hand, the body 21 of the sieve 20 is formed in a cylindrical shape it is preferable to increase the effect of itself by configuring a wide area for filtering foreign matter.

The present invention is not limited to the contents described in the embodiment, it is intended to include all modifications, variations and improvements included in the contents of the utility model registration claims without departing from the spirit and principles of the present invention.

As described above, the present invention filters the refrigerant circulated in the refrigeration cycle at one side of the refrigerant pipe in front of the compressor, thereby preventing foreign matter from entering the compressor or circulating into the refrigeration cycle, thereby preventing a decrease in efficiency of the refrigeration cycle. It is effective to prevent damage to the equipment.

Claims (1)

The refrigerant compressed in the compressor (1) is circulated toward the condenser (2) and the refrigerant condensed in the condenser (2) is circulated back to the compressor (1) via the capillary tube (3) and the evaporator (4), the interior of which is Corresponding to the end of the second refrigerant pipe (11) to the fitting hole (12) formed in the first refrigerant pipe (10) so that the refrigerant is circulated in the front of the compressor (1) to fasten the inside of the second refrigerant pipe (11) The sieve net 20 is inserted into the sieve net 20, and the sieve net 20 is formed of a cylindrical mesh body 21 and a flange 22 formed by pressing the copper plate 23 at the end thereof to form the second refrigerant pipe 11. Refrigerant filtration device of the refrigeration cycle, characterized in that fixed between the outer peripheral surface and the fitting hole (12) of the first refrigerant pipe (10).