KR101197142B1 - Header pipe and Refrigerant pipe of Coupling structure - Google Patents

Abstract

The present invention relates to a coupling structure of a header pipe and a refrigerant pipe of an air conditioner condenser, and more particularly, a connection part is fixedly installed at an inlet and an outlet of the header pipe, and a joint part is connected to the refrigerant pipe, and a joint part is connected to the connection part. Since the refrigerant pipe is screwed and connected to the header pipe, conventionally, a plurality of connecting means are simplified to connect the refrigerant pipe to the header pipe, and the process cost is reduced, and the end of the refrigerant pipe is connected to the joint. The outer circumference is extended to be supported and the O-ring is installed so as to be in close contact with the connecting part. This feature is secured.

Air conditioner, condenser, header pipe, refrigerant pipe, expansion pipe, O-ring

Description

Header pipe and Refrigerant pipe of Coupling structure of air conditioner condenser

The present invention relates to a coupling structure of a header pipe and a refrigerant pipe of an air conditioner condenser, and more particularly, a connection part is fixedly installed at an inlet and an outlet of the header pipe, and a joint part is connected to the refrigerant pipe, and a joint part is connected to the connection part. Since the refrigerant pipe is screwed and connected to the header pipe, conventionally, a plurality of connecting means are simplified to connect the refrigerant pipe to the header pipe, and the process cost is reduced, and the end of the refrigerant pipe is connected to the joint. The outer circumference is extended to be supported and the O-ring is installed to be in close contact with the connection part, so that the refrigerant pipe does not escape from the header pipe even at a high pressure inside the header pipe, and the refrigerant is not discharged to the connection portion between the header pipe and the refrigerant pipe and is stable Of the header pipe and the refrigerant pipe of the air conditioner condenser Sum relates to the structure.

In general, a condenser is a heat exchanger for cooling a high temperature and high pressure refrigerant gas introduced from a compressor to liquefy condensation.

The amount of heat generated by the condenser at this time is the sum of the amount of heat absorbed by the evaporator and the amount of compressed heat consumed by the compressor.

In addition, the condenser used in the air conditioner is generally used to be mounted on the front of the radiator and cooled as outdoor air.

As shown in FIG. 1, the conventional condenser 1 includes a head tube 2, a tube 4, and a receiver configured to form a constant refrigerant flow path of a high temperature and high pressure refrigerant introduced from a compressor (not shown). After flowing in a zigzag along the head tube (3), it is configured to operate a condenser blower (not shown) outside the heat exchange with the outside air.

That is, the refrigerant introduced into the condenser 1 is cooled by heat exchange with the outside air while flowing through a predetermined flow path, thereby reducing the enthalpy, and the enthalpy is reduced, and the supercooled refrigerant is dried through the condenser discharge pipe 5. (Not shown).

In addition, a connection member 6 is further formed to connect the head tube 2 and the discharge pipe 5, and the connection member 6 is formed in the head tube 2 and the discharge pipe 5, respectively. In addition, the connection member 6 is in contact with each other and fixed by a connecting means such as a bolt, so that the discharge pipe 5 is connected to the head tube (2).

However, as shown in FIG. 1, the connecting member 6 is bulky and heavy so that it can be connected by connecting means such as bolts, thereby increasing manufacturing cost and material cost, thereby increasing the overall process cost. This happens.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems,

Connecting parts are respectively fixedly installed at the inlet and the outlet of the header pipe, and a joint part is connected to the refrigerant pipe, and a joint part is screwed to the connection part to connect the refrigerant pipe to the header pipe, thereby connecting the refrigerant pipe to the conventional header pipe. In order to provide a coupling structure of the header pipe and the refrigerant pipe of the air conditioner condenser, which is simplified and simplified in a number of connection means, thereby reducing the process cost.

In addition, since the outer circumference is extended so that the end of the refrigerant pipe is connected to the joint portion and the O-ring is installed so as to be in close contact with the connection portion, the refrigerant pipe is not separated from the header pipe even at a high pressure inside the header pipe. Another object of the present invention is to provide a coupling structure of a header pipe and a refrigerant pipe of an air conditioner condenser in which stability is secured because refrigerant is not discharged to a connection portion between the pipe and the refrigerant pipe.

In order to achieve the above object, the present invention in the coupling structure of the header pipe and the refrigerant pipe installed in the condenser of the air conditioner,

A header pipe having an inlet formed at one end of the outer periphery so that the refrigerant flows into the inside, and a outlet formed at the other end of the outer periphery so that the coolant introduced through the inlet is transported along the inside and discharged to the outside;

A refrigerant pipe connected to the inlet and the outlet of the header pipe to transfer the refrigerant to the header pipe;

It is fixed to the inlet and outlet of the header pipe, respectively, the male thread is formed on the outer periphery so that the refrigerant pipe is connected, when the refrigerant pipe is connected, the stepped formed in the multi-stage in the inner periphery so that the refrigerant pipe is supported therein is formed A connecting portion;

The through-hole is formed in the center portion so that the refrigerant pipe is inserted therein, the refrigerant pipe inserted into the through-hole is coupled to the outer periphery of the connecting portion to be connected to the inlet and the outlet of the header pipe, respectively, coupled to the outer periphery of the connecting portion Coupling the header pipe and the refrigerant pipe of the air conditioner condenser, characterized in that it comprises a; female thread is formed on the inner circumference so that the outer thread is formed in a polygonal cross-sectional shape so that the outer circumference is fixed by the coupling means It's about structure.

As described above, the coupling structure of the header pipe and the refrigerant pipe of the air conditioner condenser of the present invention is fixedly connected to the inlet and outlet of the header pipe, respectively, the coupling portion is connected to the refrigerant pipe, the coupling portion is Since the refrigerant pipe is screwed and connected to the header pipe, conventionally, a plurality of connecting means are simplified to connect the refrigerant pipe to the header pipe, thereby simplifying the process cost.

In addition, since the outer circumference is extended so that the end of the refrigerant pipe is connected to the joint portion and the O-ring is installed so as to be in close contact with the connection portion, the refrigerant pipe is not separated from the header pipe even at a high pressure inside the header pipe. Refrigerant is not discharged to the connection portion between the pipe and the refrigerant pipe, thereby ensuring stability.

The present invention has the following features to achieve the above object.

The present invention is a coupling structure of the header pipe and the refrigerant pipe installed in the condenser of the air conditioner,

A header pipe having an inlet formed at one end of the outer periphery so that the refrigerant flows into the inside, and a outlet formed at the other end of the outer periphery so that the coolant introduced through the inlet is transported along the inside and discharged to the outside;

A refrigerant pipe connected to the inlet and the outlet of the header pipe to transfer the refrigerant to the header pipe;

It is fixed to the inlet and outlet of the header pipe, respectively, the male thread is formed on the outer periphery so that the refrigerant pipe is connected, when the refrigerant pipe is connected, the first step formed in multiple stages on the inner periphery so that the refrigerant pipe is supported therein A connection portion formed;

The through-hole is formed in the center portion so that the refrigerant pipe is inserted therein, the refrigerant pipe inserted into the through-hole is coupled to the outer periphery of the connecting portion to be connected to the inlet and the outlet of the header pipe, respectively, coupled to the outer periphery of the connecting portion A female screw thread is formed on the inner circumference thereof, and the outer circumference portion is formed in a polygonal shape in cross section so as to be fixed to the connecting portion by using a coupling means.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

Figure 2 is a front view showing an air conditioner condenser according to an embodiment of the present invention, Figure 3 is a cross-sectional view showing a coupling structure of the header pipe and the refrigerant pipe according to an embodiment of the present invention, Figure 4 is an embodiment of the present invention 5 is a perspective view illustrating a connection part fixed to a header pipe according to an example, and FIG. 5 is a perspective view illustrating a joint part connected to a refrigerant pipe according to an embodiment of the present invention.

2 and 3, the present invention relates to a coupling structure of the header pipe 10 and the refrigerant pipe 20 of the air conditioner condenser 50, the header pipe 10 and the refrigerant pipe 20 ), A connecting portion 30, and a joint portion 40, but prior to the description of the present invention, briefly explaining the structure of the condenser 50, the header pipe 10 is formed on each side, A plurality of tube connecting holes (not shown) are formed to be spaced apart in the longitudinal direction such that the plurality of tubes 13 are connected to the outer circumference of the header pipe 10 to which the header pipe 10 corresponds to each other. A pin 14 formed in a zigzag shape is inserted between the tube 13 and the tube 13 coupled to the tube 13 and finally fixed by brazing bonding.

In addition, the refrigerant pipe 20 connected to the refrigerant pipe 20 at the outer circumference of the one header pipe 10 is introduced into the header pipe 10, and the refrigerant is a header pipe ( 10) while the inner air is transferred to the opposite header pipe 10 through a plurality of tubes 13 communicating with each other, the outside air is heat-exchanged while passing through the outside of the tube 13 and the fin 14 to be transferred inside. The refrigerant is condensed, and the condensed water is transferred to the header pipe 10 again and discharged to the outside through the other refrigerant pipe 20.

Here, the header pipe 10 has an inlet 11 formed at one end of the outer circumference (the opposite side of the outer circumference at which the tube 13 is installed) so that the coolant flows into the inside through the coolant pipe 20. 11, the outlet 12 is formed at the other end of the outer circumferential end (the opposite side of the outer circumference at which the tube 13 is installed) so that the coolant introduced through 11 is transferred along the inside to be discharged to the outside after heat exchange.

In addition, the refrigerant pipe 20 is connected to each of the inlet 11 and the outlet 12 of the header pipe 10 to transfer the refrigerant injected from the outside into the header pipe 10 or the header pipe 10 As a pipe for transporting the condensed refrigerant discharged from the outside, various material tubes are used, but in the present invention, an excellent copper pipe is used for the refrigerant transfer.

And, as shown in Figure 5, the refrigerant pipe 20 is inserted into the joint portion 40 is coupled to the joint portion 40, the refrigerant pipe 20 is fixed to the header pipe 10 The one end portion of the outer circumference of the refrigerant pipe 20 inserted into the joint portion 40 is expanded to be larger than the tube circumference so that the refrigerant pipe 20 is inserted into the joint portion 40 and is not separated from the outside. The expansion pipe portion 21 is supported on the inner surface of the joint portion 40 so that the refrigerant pipe 20 is not separated from the joint portion 40. At this time, the expansion portion 21 is closely supported on the inner surface of the joint portion 40 and also in close contact with the inner circumference of the connecting portion 30 to maintain the airtightness that the refrigerant does not flow out.

As shown in FIG. 4, the connection part 30 is installed at each of the inlet 11 and the outlet 12 of the header pipe 10, and is fixed integrally by brazing bonding. And the outlet 12, the connecting portion 30 is a cylindrical protruding outward, the male thread is formed so that the outer periphery is screwed with the joint portion (40).

In addition, the connection portion 30 is connected to the refrigerant pipe 20 through the one side to the inside, the first step 31 formed in multiple stages on the inner circumference so that the refrigerant pipe 20 is supported inside the connection portion 30. Is formed, and one end of the refrigerant pipe 20 is supported by the first stepped portion 31 to prevent insertion of the inside of the connection portion.

Here, in order to support one end of the refrigerant pipe 20 at the first step 31 of the connection part 30, an O-ring is disposed in close contact with the first step 31 at the outer periphery of the end of the refrigerant pipe 20. 22 is provided, and the coupling groove 23 is formed in the circumferential direction of the refrigerant pipe 20 so that the O-ring 22 is fixed at the outer circumference of the refrigerant pipe 20. At this time, the airtightness is maintained so that the refrigerant does not flow to the outside by the O-ring 22.
In addition, a second step 32 is formed at one end of the inner circumference of the connection part 30 so that the front end of the refrigerant pipe 20 is in contact, and the front end and the second step 32 of the refrigerant pipe 20 are formed. In close contact with each other, the airtightness of the refrigerant is not prevented from flowing out to the outside, and the position of the refrigerant pipe 20 is fixed at the correct position.

As shown in FIGS. 3 and 5, the joint part 40 has a through hole 41 formed in the center thereof so that the refrigerant pipe 20 is inserted therein, and the joint part 40 has a through hole 41. Coolant pipe 20 inserted into the coupling is coupled to the outer periphery of the connecting portion 30 to be connected to the inlet and outlet of the header pipe 10, respectively.

Here, a female thread is formed on the inner circumference so as to be screwed to the male thread formed on the outer circumference of the connecting portion 30 at the inner circumference of the joint portion 40, and the joint portion 40 is coupled to the connecting portion 30. At the time, the outer periphery is formed in a polygonal shape in cross section so as to be fixed using a coupling means (not shown).

1 is a front view showing a conventional condenser,

Figure 2 is a front view showing an air conditioner condenser according to an embodiment of the present invention,

3 is a cross-sectional view showing a coupling structure of a header pipe and a refrigerant pipe according to an embodiment of the present invention.

Figure 4 is a perspective view showing a connection fixed to the header pipe according to an embodiment of the present invention,

5 is a perspective view illustrating a joint connected to a refrigerant pipe according to an embodiment of the present invention.

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

10: header pipe 11: inlet

12 outlet 13: tube

14: pin 20: refrigerant pipe

21: expansion 22: O-ring

23: coupling groove 30: connection portion

31: first step 32: second step
40: seam 41: through hole
50: condenser

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Claims (3)

In the coupling structure of the header pipe 10 and the refrigerant pipe 20 installed in the condenser 50 of the air conditioner, An inlet 11 is formed at one end of the outer periphery so that the refrigerant flows into the inside, and the outlet 12 is formed at the other end of the outer periphery so that the refrigerant introduced through the inlet 11 is transported along the inside and discharged to the outside. A header pipe 10; A refrigerant pipe 20 connected to each of the inlet 11 and the outlet 12 of the header pipe 10 to transfer the refrigerant to the header pipe 10; It is fixed to the inlet 11 and the outlet 12 of the header pipe 10, respectively, the male thread is formed on the outer periphery so that the refrigerant pipe 20 is connected, when the refrigerant pipe 20, the refrigerant pipe A connection part 30 having a first stepped portion 31 formed in multiple stages on an inner circumference thereof so as to support 20 therein; A through hole 41 is formed in a central portion of the refrigerant pipe 20 so that the refrigerant pipe 20 is inserted therein, and the refrigerant pipe 20 inserted into the through hole 41 is an inlet 11 and an outlet 11 of the header pipe 10. 12 is coupled to the outer periphery of the connecting portion 30 so as to be connected to each other, the female thread is formed on the inner periphery to be coupled to the outer periphery of the connecting portion 30, the outer portion to be fixed to the connecting portion 30 by using a coupling means It is configured to include; the peripheral portion is formed in a polygonal cross-sectional shape; When the refrigerant pipe 20 is inserted into the through hole 41 of the joint portion 40, the refrigerant pipe 20 is formed as an enlarged pipe portion 21 having one end portion of the outer circumference expanded so as not to be separated through the through hole 41. In addition, the expansion portion 21 is closely supported on the inner surface of the joint portion 40 and also in close contact with the inner circumference of the connecting portion 30 to maintain the airtightness that the refrigerant does not flow out, At the outer periphery of the end of the coolant pipe 20, an O-ring 22 is installed to be in close contact with the first step 31 when the inner part of the connection part 30 is supported, thereby maintaining airtightness in which the coolant does not flow out. The coupling groove 23 is formed in the circumferential direction of the refrigerant pipe 20 so that the O-ring 22 is installed. At one end of the inner circumference of the connecting portion 30, a second step 32 is formed to contact the front end of the refrigerant pipe 20, and the front end of the refrigerant pipe 20 and the second step 32 closely contact each other. A coupling structure of the header pipe and the refrigerant pipe of the air conditioner condenser, characterized in that the airtightness is maintained in contact with each other so that the refrigerant is not leaked out to the outside and the refrigerant pipe 20 is fixed in position. delete delete

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