KR200291618Y1 - The refrigerants influx structure of condenser - Google Patents

Abstract

The present invention relates to a refrigerant inlet structure of a condenser for an air conditioner. More specifically, a fixed flange having a branch pipe formed of one inlet part and a plurality of outlet parts is fixed above the header part of the condenser. Refrigerant of the condenser for air conditioner, characterized in that the coupling flange is fixed through the inlet pipe and the inlet portion to be coupled to the fixed flange to maximize the flow rate of the refrigerant and facilitate the refrigerant inlet structure to improve the assembly and productivity It relates to the inlet structure.

Description

Refrigerant inflow structure of air conditioner condenser {THE REFRIGERANTS INFLUX STRUCTURE OF CONDENSER}

The present invention relates to a refrigerant inlet structure of a condenser for an air conditioner. More specifically, a fixed flange having a branch pipe formed of one inlet part and a plurality of outlet parts is fixed above the header part of the condenser. Refrigerant of the condenser for air conditioner, characterized in that the coupling flange is fixed through the inlet pipe and the inlet portion to be coupled to the fixed flange to maximize the flow rate of the refrigerant and facilitate the refrigerant inlet structure to improve the assembly and productivity It relates to the inlet structure.

In general, the air conditioner is to maintain the optimum temperature and humidity according to all the climatic conditions and the indoor environment, and a humidifier to maintain the humidity properly, including air conditioning and heating to cool or warm the room air Ventilation equipment for exhausting indoor air to the outside is included.

Among them, the cooling device uses the phenomenon of absorbing the heat of the surroundings when the liquid evaporates to perform the cooling operation. In addition to the cooling operation, the cooling operation is also performed. In particular, the air conditioner mainly installed in a small cooling space such as a home or a restaurant is separated into an outdoor unit and an indoor unit. This indoor unit is a part for evaporating the refrigerant supplied from the outdoor unit and supplying it to the room. In addition, the outdoor unit compresses the refrigerant and cools the compressed refrigerant in a heat exchanger. The outdoor unit is installed on the roof of the building or outside the porch due to noise and heat emission.

The outdoor unit thus installed is composed of a compressor mounted inside a box-shaped housing and a heat exchanger for cooling the refrigerant compressed by heat exchange. Such a heat exchanger has a motor for rotating a cooling fan and a capacitor piped to receive a refrigerant of the compressor. Here, the condenser serves as a condenser mounted on a conventional outdoor unit, and means "PFC" (Parallel Flow Condenser) or "S.C.COND" (Super Compact Condenser).

An air conditioner having a condenser of such an outdoor unit discharges a high temperature refrigerant gas from a compressor. The discharged refrigerant gas becomes a liquid refrigerant while dissipating heat from the condenser. This refrigerant is delivered to the evaporator of the indoor unit via an expansion valve. The refrigerant in the evaporator cools the room by absorbing ambient heat. The refrigerant then flows back into the compressor of the outdoor unit.

As shown in FIG. 1, the air conditioner condenser according to the related art is simultaneously delivered to the air conditioner condenser through two refrigerant inlet pipes 10 and 11. These refrigerants are separately introduced into the upper part of the first header part 60, and flow toward the upper part of the second header part 7 through the first refrigerant pipe 21 and the second refrigerant pipe 22, respectively. The refrigerant flowed in this way is collected at the upper portion of the second header portion 7 and flows toward the first header portion 60 through the third refrigerant pipe 23. In addition, the refrigerant is condensed into a low temperature liquid state while passing through the third refrigerant pipe 23 in a refracting manner by the plurality of baffles 4 and 5. Then, the condensed refrigerant is discharged through the refrigerant outlet pipe (8).

However, according to the prior art, the condenser for air conditioner has to have a branch pipe formed in the middle of the refrigerant coming out of the two pipes in order to move the refrigerant from the accumulator to each of the refrigerant inlet pipes 10 and 11. In this case, there is a problem in that assembly is not easy due to the narrow space of the outdoor unit.

The purpose of the present invention devised to solve such a problem is to improve the condensation performance by fixing a fixing flange incorporating a branch pipe consisting of one inlet and a plurality of outlets for the flow of refrigerant to the upper side of the header portion, It is to provide a refrigerant inlet structure of the condenser for air conditioner, characterized in that to maximize the efficiency of.

1 is a cross-sectional view for explaining the configuration of a conventional air conditioner capacitor.

Figure 2 is a cross-sectional view for explaining the configuration of the condenser for air conditioner according to the present invention.

3 is an exploded cross-sectional view showing a refrigerant inlet structure of the condenser for air conditioner shown in FIG.

♣ Explanation of symbols for main part of drawing ♣

110: branch pipe 111: inlet

112: outlet 120: fixed flange

130: inlet pipe 140: rubber ring

150: coupling flange 160: screw

In the above-described object of the present invention, a condenser for an air conditioner for condensing a refrigerant through a plurality of refrigerant pipes formed between first and second header portions formed at both ends and the first and second header portions, wherein the first A fixing flange having a branch pipe formed with one inlet portion for inflow of refrigerant and a plurality of outlet portions for distribution in an upper outer side of the header portion; It is to provide a refrigerant inlet structure of the condenser for air conditioner characterized in that the inlet pipe coupled to the inlet of the branch pipe is fixed through and consisting of a coupling flange screwed to the fixing flange.

And, in the present invention, it is preferable that a rubber ring is inserted between the inlet and the inlet of the branch pipe.

Hereinafter, a refrigerant inlet structure of a condenser for an air conditioner according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3.

In addition, this embodiment does not limit the scope of the present invention, but is presented by way of example only and the same parts as in the conventional configuration using the same reference numerals and names.

2 is a cross-sectional view for explaining the configuration of the condenser for air conditioner according to the present invention, Figure 3 is an exploded cross-sectional view showing a refrigerant inlet structure of the condenser for air conditioner shown in FIG.

As shown, the refrigerant inlet structure of the condenser for an air conditioner according to the present invention is a refrigerant from the compressor flows into the plurality of outlets through a fixed flange with a built-in branch pipe consisting of one inlet and a plurality of outlets By moving, to smooth the flow path of the refrigerant undergoing the liquefaction process to increase the condensation efficiency to the maximum.

That is, looking at the configuration of the present invention in detail, a plurality of refrigerant pipes formed between the first and second header parts 60 and 7 formed at both ends and the first and second header parts 60 and 7 ( In the condenser for air conditioner condensing the refrigerant through the 221, 222, 223, 224, the upper outer side of the first header portion 60, one inlet 111 for the introduction of the refrigerant and a plurality of outlets 112 for the distribution of the refrigerant The fixing flange 120 is formed is a built-in branch pipe 110 is fixed.

In addition, the coupling flange 150 through which the inlet pipe 130 coupled with the inlet 111 of the branch pipe 110 is fixed to the surface on which the inlet 111 of the fixed flange 120 is formed. The fixing flange 120 and the screw 160 is coupled, the coupling flange 150 is formed with a screw hole 161 for penetrating the screw 160, the fixing flange 120 is a screw groove 162 It is preferable that the coupling flange 150 and the fixed flange 120 is coupled to the screw 160 is formed, in addition, the rubber ring to enable a perfect coupling between the inlet pipe 130 and the inlet 111 ( 140 is preferably inserted.

In addition, a coolant outlet pipe 8 for discharging the coolant having moved the coolant pipes 221, 222, 223, and 224 is mounted on the lower outer side of the header part 60.

The action and effect of the present invention is as follows.

According to the present invention having the above-described configuration, the refrigerant flows from the compressor into the fixed flange 120, which is fixed to the upper side of the first header part 60 and has one inlet 111 and a plurality of outlets 112 built therein. The inlet pipe 130 so as to pass through the coupling flange 150 is fixed to the screw 160 is coupled so that the inlet pipe 130 and the inlet 111 is engaged with each other.

On the other hand, looking at the moving path of the refrigerant according to the present invention made in the above configuration in detail, the gaseous refrigerant delivered from the compressor passes through the inlet pipe 130, the inlet of the branch pipe 110 embedded in the fixed flange 120 After moving to the part 111, the gas is distributed to the plurality of outlet parts 112 and flows into the upper part of the first header part 60, and toward the upper part of the second header part 7 through the first refrigerant pipe 221. Each flows.

The refrigerant flowed in this way is collected on the upper part of the second header part 7, and flows toward the first header part 60 through the second refrigerant pipe 222 and then through the third refrigerant pipe 223. After flowing to the unit 7, the fourth refrigerant pipe 224 is passed through, and the refrigerant is zigzag moved from the top to the bottom by the plurality of baffles 4 and 5 formed in the header units 7 and 60. While condensing in a low temperature liquid state, the condensed refrigerant is discharged through the refrigerant outlet pipe (8).

The refrigerant inlet structure of the condenser for an air conditioner of the present invention delivers a relatively large amount of refrigerant to a relatively small refrigerant pressure through a plurality of outlets 112 formed in the branch pipe 110.

As described in detail above, the refrigerant inlet structure of the condenser for an air conditioner of the present invention delivers a large amount of refrigerant at a relatively small pressure through a plurality of outlet portions formed in branch pipes embedded in a fixed flange fixed to an upper outer side of the first header portion. It has the advantage of lowering the power consumption by showing excellent condensation performance.

In addition, since the structure for sending the refrigerant from the compressor to the condenser is simple and easy to assemble, there is an advantage that the work efficiency is improved.

Claims (2)

In the air conditioner condenser for condensing the refrigerant through a plurality of refrigerant pipes formed between the first and second header portion formed at both ends and the first and second header portion, A fixing flange in which an upper part of the upper part of the first header part is formed and fixed with a branch pipe having one inlet part for inflow of refrigerant and a plurality of outlet parts for distribution; It consists of a coupling flange that is fixed through the inlet pipe engaging the inlet of the branch pipe, The coupling flange is formed with a screw hole for penetrating the screw, the fixing flange is a screw groove is formed in the refrigerant inlet structure of the condenser for an air conditioner, characterized in that the coupling flange and the fixed flange screwed. The refrigerant inlet structure of claim 1, wherein a rubber ring is inserted between the inlet and the inlet of the branch pipe.