KR100344993B1 - Condenser for heat exchanger - Google Patents

Abstract

The present invention provides a condenser for use in a heat exchanger such as an air conditioner, wherein a refrigerant circulation tube and a heat dissipation fin are installed between header pipes of the condenser, and the header pipe is formed with a baffle whose position is set according to a circulation pattern of the refrigerant. One side of the header pipe is provided with a return tank in which a partition is formed, thereby simplifying the manufacture of the condenser, and reducing the volume thereof, and a heat exchanger condenser for greatly improving the heat exchange efficiency of the condenser.

The present invention is provided with a header pipe (1) consisting of an inlet pipe (2) for inflowing the refrigerant and the inlet pipe (3) for circulating and discharging the introduced refrigerant while spaced apart from each other and between the header pipe (1) There are a plurality of tubes (4) which are arranged at regular intervals and in the inflow, outflow pipes and formed with a plurality of refrigerant passages in the width direction, so as to discharge heat by the refrigerant between the tubes (4) The heat sink fin is provided, and in the header pipe, a plurality of baffles (5) are installed alternately with respect to the header pipe and guide the refrigerant to flow through the plurality of tubes (4). A return tank 6 is formed at one side below the one side, and a guide port 7 is formed in which a baffle 8 for partitioning is formed, and a distribution hole 9 is formed therein. On both sides, a circular guide 10 is formed. The guide (6) is configured to seal the lower end with the end cap 11 in the state installed in the return tank (6) to form a display unit so that the installation position of the guide (7) can be confirmed from the outside. It may be configured, or the drying guide 12 may be built in the lower guide 7 and the outlet pipe 3 of the return tank (6).

Description

Condenser for heat exchanger {Condenser for heat exchanger}

The present invention provides a condenser for use in a heat exchanger such as an air conditioner, wherein a refrigerant circulation tube and a heat dissipation fin are installed between header pipes of the condenser, and the header pipe is formed with a baffle whose position is set according to a circulation pattern of the refrigerant. One side of the header pipe is provided with a return tank in which a partition is formed, thereby simplifying the manufacture of the condenser, and reducing the volume thereof, and a heat exchanger condenser for greatly improving the heat exchange efficiency of the condenser.

In general, the condenser of a heat exchanger such as an air conditioner is provided with a header pipe (1) composed of an inlet pipe (2) for introducing refrigerant and an outlet tube (3) for circulating and discharging the introduced refrigerant while spaced apart from each other. Between the header pipes, a plurality of tubes (4) formed in a width direction in the width direction of the plurality of refrigerant passages are disposed in the inflow and outflow pipes while being arranged at regular intervals, and between the tubes (4) by the refrigerant. A plurality of baffles (5) for discharging heat radiation fins to dissipate heat and alternately installed in the header pipe to induce refrigerant to flow through the plurality of tubes (4) simultaneously. Was configured by installing it.

In the condenser configured as described above, when the refrigerant flows from the inlet pipe 2, the introduced refrigerant is moved from the inlet pipe 2 to the plurality of tubes 4 along the plurality of baffles 6, The refrigerant circulated in (4) is allowed to flow out through the outlet pipe (3), and when the refrigerant circulates through each of the tubes (4), the heat dissipation fins disposed therebetween release heat transferred from the refrigerant to perform heat exchange.

On the other hand, in the condenser of the heat exchanger configured as described above, inlet pipe (2) and outlet pipe (3) is conventionally formed in the header pipe as shown in Figure 1, a plurality of tubes and between the header pipe on both sides and The heat dissipation fins were provided, and a return tank 601 was separately provided on one side of the header pipe.

However, in the related art, a separate return tank is installed on one side of the header pipe, and the return tank protrudes to the outside because the circulated refrigerant flows out and is returned to the compressor through the return tank. As a result, there was a closed end where the volume of the condenser was increased, and the installation work was very cumbersome by the protruding return tank, and the return tank was installed outside of the condenser to allow the refrigerant circulation tube It is not possible to set the circulation pattern freely, but only a limited pattern is set out, the use range thereof is narrowed, and there is a problem such that the refrigerant is not smoothly discharged from the return tank.

The present invention has been made in view of the above-mentioned conventional problems. The present invention provides a condenser for use in a heat exchanger such as an air conditioner, wherein a refrigerant circulation tube and a heat dissipation fin are installed between the header pipes of the condenser. A baffle is formed in accordance with the circulation pattern of the refrigerant, and a return tank having a partition is formed below one side of the header pipe to simplify the manufacture of the condenser and to reduce its volume. It is to provide a heat exchanger condenser to be able to greatly improve the efficiency, which will be described in detail based on the accompanying drawings as follows.

1 is a front view showing a condenser structure of a general heat exchanger

2 is a front view showing the condenser structure in a state of cutting one of the present invention;

Figure 3 is a perspective view showing the configuration of the return tank of the embodiment of the present invention

4 is a view showing another embodiment of the present invention

<Explanation of symbols for the main parts of the drawings>

1: header pipe

2: inlet pipe

3: outflow pipe

4: tube

5: baffle

6: Return Tank

7: guide

8: baffle

9: distributor

10: guide

12: desiccant

A header pipe (1) consisting of an inlet pipe (2) for inflowing refrigerant and an outlet pipe (3) for circulating and discharging the introduced refrigerant while being spaced apart from each other is provided, and a constant distance between the header pipes (1). Arranged in order to install a plurality of tubes (4) in the inflow, outflow pipes and the plurality of refrigerant passages in the width direction, and the heat radiation fins between the tubes (4) to dissipate heat by the refrigerant The header pipe 1 includes a plurality of baffles 5 which are alternately provided with respect to the header pipe and induce refrigerant to flow through the plurality of tubes 4 at the same time. A return tank 6 is formed below one side thereof, and a guide baffle 7 having a diaphragm baffle 8 is formed therein and a distribution hole 9 is inserted therein, and circular guides are formed on both sides of the guide port 7. To form a guide (10) on the top It is configured to seal the lower end with the end cap (11) in the state where the endurance (6) is installed in the return tank (6) to form a display unit so that the installation position of the guide (7) can be confirmed from the outside Also, the lower guide port 7 and the outlet pipe 3 of the return tank 6 may be configured to be built in the respective desiccant 12.

The present invention configured as described above is arranged in the header pipe (1) consisting of the inlet pipe (2) for introducing the refrigerant and the inlet pipe (3) for circulating the discharged refrigerant after circulating the spaced apart from each other, arranged at regular intervals The plurality of tubes (4) and the tube (4) which is in the inflow, outflow pipes (2) (3) and the inner and the plurality of refrigerant passages in the width direction and forming a flow pattern in the form of a single unit In the state in which a plurality of baffles (5) are installed in the header pipe and alternately installed in the header pipe, and a plurality of baffles (5) for inducing refrigerant to flow through the plurality of tubes (4) at the same time. The return tank 6 is provided at one end of the plurality of tubes 4 installed in the header pipe 1, and the refrigerant in the gas state circulates through the tube 4 according to the pattern, and then the lower pattern. When moved to, the The refrigerant is in a liquid state, and the liquid refrigerant is agglomerated in the return tank 6 provided below the header pipe 1 on one side, and the liquid refrigerant in the liquid state, which is agglomerated in the return tank 6, is formed in the outlet pipe ( As it flows out through 3), the gaseous refrigerant does not flow out.

As described above, the liquid refrigerant collected in the return tank 6 is moved along the membrane baffle 8 and the distribution hole 9 of the guide port 7, so that the gas and the liquid state in the return tank 6. The refrigerant of the separation is to improve the cooling efficiency, the guide (7) can be firmly installed by the guide 10 on the arc.

In addition, if the display portion is formed and configured to check the installation position of the guide (7) from the outside, it is possible to assemble while easily confirming the position of the condenser when the lower guide (refer to the return tank 6 ( When the desiccant 12 is installed in each of the 7 and the outlet pipe 3, it is possible to dry some of the gas refrigerant and the liquid refrigerant by the desiccant 12, and the dried refrigerant is moved to the compressor. It is possible to improve the compression efficiency and to maximize the cooling efficiency.

The present invention as described above is provided with a return tank in one of the header pipes of the flow pattern of the condenser composed of the header pipe and the plurality of tubes 4 as described above, and to install the guide port formed with the baffle for the partition and the distribution hole. The coolant flows naturally, and the natural flow facilitates the return of the coolant having completed the heat dissipation, thereby facilitating the smooth circulation of the coolant cycle.

In addition, the heat dissipation effect can be prevented from remaining on the header pipe and the tube to improve heat dissipation efficiency, and the return tank is installed on the header pipe in a built-in state. It can be greatly reduced and the drying effect of the refrigerant can be obtained by the built-in of the desiccant, and thus the cooling efficiency can be greatly improved.

Claims (3)

The header is formed in a hollow to allow the refrigerant to flow, but a plurality of tubes provided with a heat dissipation fin to expand the air friction area on the outside, and a header formed on both sides of the tube arranged at predetermined intervals, the inlet and outlet tubes through which the refrigerant flows in and out A condenser for heat exchanger having a pipe and a baffle in which a plurality of pipes are provided at a predetermined position inside said header pipe so as to simultaneously guide refrigerant to a plurality of said tubes. The inside of the header pipe (1) is divided into radial return both sides so as to communicate with each other is formed into a return tank (6) formed on one side and the communication portion between the header pipe (1) and the return tank (6) A guide 7 having a distribution hole 9 formed therein so as to communicate with each other, and a guide provided in an arc shape on both sides of the guide 7 to be in close contact with the inside of the header pipe 1 and the return tank 6. Condenser for heat exchanger, characterized in that provided with a baffle (8) formed between the 10 and the guide (10) protruding toward the header pipe (1) side. The condenser for heat exchangers according to claim 1, characterized in that a display portion is formed so as to confirm the installation position of the guide (7) from the outside. delete