KR20100003930U - Branch pipe - Google Patents

Abstract

The present invention is made of brass, which is a non-ferrous metal, and the inside of the branch is inlet is formed through, the branch pipe body is formed through a plurality of outlets through the other peripheral surface, and inserted into the inlet of the branch pipe body and bent Made of copper, which is a free metal material, each of the refrigerant inlets and the outlets of the branch pipe main body supply the refrigerant to the branch pipe main body. Comprising a plurality of refrigerant outlet pipe for flowing out the refrigerant to the destination, respectively, the inside and the outer surface of the branch pipe body including the inlet and outlet diameter of the branch pipe body in contact with the refrigerant inlet pipe and the outlet pipe is the refrigerant In order to form a copper plating layer for welding between the inlet and outlet tubes and the same metal, The branch pipes whose ships are technical points shall be technical points.

Branch pipe, branch pipe body, brass, copper plating layer

Description

Branch pipe {BRANCH PIPE}

The present invention relates to a branch pipe, and more specifically, the inner and outer surfaces of the branch pipe body made of brass are plated with copper, and the coolant inlet pipe and the coolant outlet pipe welded in the state fitted to the branch pipe body; It relates to a branch pipe configured to perform welding work between the same metals.

In general, an air conditioner is a device that maintains a room in a comfortable state by controlling indoor air temperature and humidity using a refrigeration cycle by using a mechanical device. A condenser for gradually discharging the high-temperature and high-pressure refrigerant gas moved into a liquid state; It is composed of an evaporator which evaporates while passing through a low temperature liquid and gaseous medium to take away the surrounding heat and keep the external temperature low.

After the evaporation is completed, the refrigerant returns to the compressor in a gaseous state and repeats the above cycle.

In the refrigerating cycle as described above, after the high temperature and high pressure gas passes through the expander, in order to increase the heat exchange capacity of the refrigerant introduced into the evaporator, the pressure drop along the length of the evaporator needs to be reduced. The evaporation capacity should be increased by controlling the amount of refrigerant. At this time, a branch pipe is usually installed to adjust the amount of refrigerant to be distributed.

Therefore, the refrigerant flowing through the expander has a mixed gas state composed of a liquid state and a gas state after passing through the refrigerant branch pipe, and is distributed to the evaporator through each connection pipe as the speed increases due to rapid circulation. .

When the refrigerant flows into the branch pipe through the inlet pipe and is distributed to the connecting pipe according to the cycle, the refrigerant increases the pressure inside the branch pipe due to the acceleration of movement.

1 is a view showing the configuration of a conventional branch pipe.

As shown, the branch pipe is empty inside and one inlet is formed at one end, the branch pipe body 110 is formed with a plurality of outlets through the circumferential surface at the other end, the inlet of the branch pipe body 110 Refrigerant inlet pipe (120) inserted into the refrigerant inlet pipe 120 and the outlet outlet 114 of the branch pipe body 110, respectively, is inserted into the refrigerant outlet pipe 130 for including the refrigerant to the place of use; Configure.

The branch pipe having the above-described configuration is welded to the branch pipe main body 110 and the refrigerant inlet pipe 120, and also bonded to the branch pipe main body 110 and the refrigerant outlet pipe 130 by welding, respectively. In this case, while the branch pipe body 110 is made of brass, while the refrigerant inlet pipe 120 and the refrigerant outlet pipe 130 are made of copper which is free of bending, welding work between different metals having different melting points is made. As a result, the joint strength of the welded portion may be degraded or a partial warpage deformation may occur during cooling.

Therefore, the object of the present invention for solving the problems as described above is to plating the inside and the outer surface of the branch pipe body made of brass with copper so that the welding work between the refrigerant inlet pipe and the refrigerant outlet pipe and the same metal is made. It is to provide the configured branch pipe.

The present invention for achieving the above object is a branch pipe, made of brass, which is a non-ferrous metal, the inlet is formed through one end in the hollow state, the branch pipe body is formed through a plurality of outlets along the other peripheral surface And a metal material inserted into the inlet of the branch pipe main body and made of copper, which is free of bending, so as to be individually inserted into the refrigerant inlet pipe and the outlets of the branch pipe main body to supply the refrigerant to the branch pipe main body. And a plurality of refrigerant outlet pipes each made of phosphorus copper to discharge the refrigerant supplied to the branch pipe body to the destination, and the inlet and outlet diameters of the branch pipe body contacting the refrigerant inlet pipe and the outlet pipe. The entire inner and outer surfaces of the branch pipe body including the It is characterized in that so that the copper plating layer is formed so that this can be achieved.

The branch pipe according to the present invention is configured to perform the welding work between the refrigerant inlet pipe, the refrigerant outlet pipe and the same metal by plating the inner and outer surfaces of the branch pipe body made of brass with copper, and the branch pipe body and the refrigerant inlet pipe and It realizes the effect of welding joint to have the optimal joint strength without twisting the welding part between the outflow.

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

2 is a view showing in three dimensions the configuration of the branch pipe to be implemented in the present invention, Figure 3 is a view showing a cross-sectional view of the branch pipe shown in FIG.

As shown in FIG. 2 and FIG. 3, the branch pipe 100 of the present invention includes a branch pipe body 10, a coolant inlet pipe 20, and a coolant outlet pipe 30.

The branch pipe main body 10 is made of brass, which is a non-ferrous metal, so that the inlet 12 is penetrated at one end in a hollow form, and a plurality of outlets 14 are formed at the other end through the circumferential surface. Configure.

The refrigerant inlet pipe 20 is a conduit for supplying the refrigerant generated by the operation of the air conditioner (not shown) to the branch pipe body 10, the refrigerant inlet pipe 20 is a metal material having excellent ductility and free bending Made of copper is configured to fit in the inlet 12 of the branch pipe body (10).

The coolant outlet pipe 30 is a pipe for supplying the coolant supplied to the branch pipe main body 10 to the point of use, and the coolant outlet pipe 30 is also a metal material having excellent ductility and free bending like the coolant inlet pipe 20. Made of copper and configured to be individually fitted to the outlets 14 formed on the other circumferential surface of the branch pipe body 10, respectively.

On the other hand, the branch pipe main body 10 and the refrigerant inlet pipe and the outlet pipe (20, 30) of the above configuration is configured by welding with each other, the branch pipe body 10 is made of brass, while the refrigerant As the inlet pipe 20 and the coolant outlet pipe 30 are made of copper, which is a free metal material, the branch pipe body 10 and the coolant inlet pipe and the outlet pipe 20 and 30 are welded between different dissimilar metals. This is inevitably due to the difference in melting point between the dissimilar metals, causing problems such as poor weldability of the welded portion or partial warping deformation in the welded portion during cooling.

Therefore, in the present invention, the inner and outer surfaces of the branch pipe main body 10 including the inner diameter of the inlet 12 and the outlet 14 of the branch pipe main body 10 in contact with the refrigerant inlet and outlet pipes 20 and 30. The whole has a technical feature that the copper plating layer 16 is formed by plating the copper so that the welding between the refrigerant inlet and outlet tubes 20 and 30 and the same metal can be made. That is, the contact portions of the refrigerant inlet pipe and the outlet pipe 20 and 30 fitted into the inlet 12 and the outlet 14 of the branch pipe body 10 through the copper plating layer 16 have the same melting point. By being a homogeneous metal, the welded portions of the branch pipe main body 10 and the refrigerant inlet and outlet pipes 20 and 30 can be welded to have an optimal bond strength without distortion.

1 is a view showing the configuration of a conventional general branch pipe.

2 is a view showing in three dimensions the configuration of the branch pipe according to a preferred embodiment of the present invention.

3 is a cross-sectional view of the branch pipe shown in FIG.

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

10: branch pipe main body 16: copper plating layer

20: refrigerant inlet tube 30: refrigerant outlet tube

Claims (1)

In the branch pipe, A branch pipe body 10 made of brass, which is made of nonferrous metal, and having an inlet 12 penetrating through one end thereof, and having a plurality of outlets 14 penetrating through the other end surface; A refrigerant inlet pipe (20) inserted into the inlet (12) of the branch pipe body (10) and made of copper, which is a free metal material, to supply a refrigerant to the branch pipe body (10); A plurality of refrigerant outlet pipes respectively inserted into the outlet ports 14 of the branch pipe main body 10 and made of copper, which is a free bend metal, to respectively discharge the refrigerant supplied to the branch pipe main body 10 to the place of use. Comprises 30; The entire inner and outer surfaces of the branch pipe body 10 including the inlet 12 and the outlet 14 of the branch pipe body 10 in contact with the coolant inlet pipe and the outlet pipes 20 and 30 are inside the coolant inlet. Branch pipe, characterized in that the copper plating layer (16) is formed so that the welding between the pipe and the outlet pipe (20, 30) and the same metal can be made.

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