KR101105571B1 - Structure for connecting evaporator pipe and expansion valve - Google Patents

Abstract

The present invention relates to an evaporator pipe and an expansion valve connection structure of a vehicle air conditioner, and to improve airtightness so that air or condensate does not leak through a connection between the evaporator pipe and the expansion valve.

Evaporator pipe and expansion valve connection structure of the present invention, the condensate outlet 126 is formed on the bottom, and has a fastening hole (134) for fastening a pair of boss (132) and the fastening means 150 Expansion valve connection 130 is made to connect the expansion valve 140 and the evaporator pipe 12 connected to the evaporator 10 through the evaporator case 120 is installed on the outer surface. An evaporator pipe is drawn out through the boss and connected to the expansion valve so that the sealing pad 16 is interposed between the flange 14 of the evaporator pipe and the inner wall surface of the evaporator case. The expansion valve is fixed to the expansion valve connection by the fastening means 150 which is fastened to the fastening holes 144 of the expansion valve and the fastening holes 134 of the evaporator case. A plurality of compression protrusions 136 are formed around the expansion valve connection part of the outer surface of the evaporator case to be compressed in contact with the expansion valve. The compression protrusion 136, it is preferable that the end is formed sharp.

Evaporator, case, pipe, expansion valve, connection, airtight, sealing, compression, protrusion

Description

Evaporator Pipe and Expansion Valve Connection Structure {STRUCTURE FOR CONNECTING EVAPORATOR PIPE AND EXPANSION VALVE}

1 is a schematic cross-sectional view showing a general evaporator unit.

Figure 2 is a partially exploded perspective view showing a conventional evaporator pipe and expansion valve connection structure.

3 is a partial cross-sectional view showing a conventional evaporator pipe and expansion valve connection structure.

4 is a partially exploded perspective view showing the evaporator pipe and expansion valve connection structure according to the present invention.

5 is a partial cross-sectional view showing an evaporator pipe and expansion valve connection structure according to the present invention.

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

10: evaporator, 12: evaporator pipe,

14: flange of the evaporator pipe, 16: sealing pad,

120: evaporator case, 126: condensate outlet,

130: expansion valve connection portion, 132: boss (Boss),

134, 144: fastening hole, 136: compression projection,                 

140: expansion valve, 150: fastening means.

The present invention relates to an evaporator pipe and an expansion valve connection structure of a vehicle air conditioner, and in particular, an evaporator pipe and an expansion valve connection that can improve airtightness so that air or condensate is not leaked through a connection between an evaporator pipe and an expansion valve in an evaporator case. It's about structure.

The automotive air conditioning apparatus heats and blows the blower air by the blower by means of an evaporator and / or a heater core installed inside the air conditioning case to make cold or warm air, and discharges the cold or warm air into the interior of the car, thereby cooling and heating the car. It is a device to perform.

The vehicle air conditioner includes a blower unit, an evaporator unit, and a heater core unit, and the evaporator unit, as shown in FIG. 1, is embedded in the evaporator case 20 and the evaporator case 20. Is provided with an evaporator 10.

The evaporator case 20 includes an upper case 22 accommodating the upper half of the evaporator 10 and a lower case 24 accommodating the lower half of the evaporator 10, and the bottom of the lower case 24. In the condensate discharge outlet 26 for discharging the condensate formed on the surface of the evaporator 10 is formed. In addition, as shown in Figure 2, the outer surface of the lower case 24, a pair of bosses for connecting the evaporator pipe 12 and expansion valve 40 connected to the evaporator 10 with each other ( An expansion valve connection portion 30 having a boss 32 and a fastening hole 34 for fastening the fastening means 50 such as a bolt is installed, and the expansion valve 40 is connected to the evaporator pipe 12. Inlet / outlet (not shown) and fastening holes 44 corresponding to the fastening holes 34 are formed.

Looking at the structure connecting the evaporator pipe and the expansion valve as described above, as shown in Figure 3, the inner wall surface of the evaporator case 20, that is, the lower case 24 and the flange 14 of the evaporator pipe 12 The evaporator pipe 12 is drawn out through the boss 32 inside the lower case 24 so that the sealing pad 16 is interposed therebetween, and connected to the expansion valve 40, and to the expansion valve 40. Expansion valve connection portion 30 by expansion valve 40 by the fastening means 50 is fastened to the fastening holes 44 formed in the fastening holes 44 formed in the fastening holes 44 and the lower case 24 of the lower case 24. Fix it to

However, in the conventional evaporator pipe and expansion valve connection structure as described above, as the clearance between the lower case 24 and the expansion valve 40 is present, the evaporator pipe 12 and the expansion valve 40 flows. For this reason, the sealing pad 16 interposed between the flange 14 of the evaporator pipe 12 and the inner wall surface of the evaporator pipe 12 cannot be kept airtight. Therefore, air or condensed water leaks through the expansion valve connection part 30, and air-conditioning performance is lowered due to leakage of air.

The present invention has been made in view of the above-described conventional problems, and an object of the present invention is to provide an evaporator pipe and an expansion valve connection structure that can improve airtightness so that air or condensate does not leak through a connection between an evaporator pipe and an expansion valve in an evaporator case. It is done.

In order to achieve the above object, the present invention, through the evaporator case is formed on the bottom of the condensate outlet, the expansion valve connecting portion having a fastening hole for fastening the pair of bosses and fastening means, the evaporator case is installed on the outer surface, A structure in which an evaporator pipe and an expansion valve connected to an evaporator embedded in a case are connected to each other: an evaporator pipe through a boss inside the evaporator case such that a sealing pad is interposed between a flange of the evaporator pipe and an inner wall surface of the evaporator case. Is drawn out and connected to the expansion valve, and the expansion valve is fixed to the expansion valve connecting portion by fastening means fastened to the fastening holes formed in the expansion valve and the fastening holes formed in the expansion valve connecting portion of the evaporator case. Around the expansion valve connecting portion of the side surface, the expansion valve is performed to protrude And a plurality of compression protrusions are formed, and the compression protrusions are compressed when the expansion valve is fixed to the expansion valve connecting portion by the fastening means, while the flange of the evaporator pipe is pulled toward the inner wall surface of the evaporator case while being compressed. It is characterized in that the sealing pad is formed to be compressed between the inner wall surface of the case.

According to the present invention, it is preferable that the end of the compression protrusion is sharply formed so that the compression protrusion can be compressed when the expansion valve is fixed to the expansion valve connecting portion. For example, the compression protrusion may be made of a conical shape, an elliptical cone shape, a polygonal cone shape, or the like.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are based on the principle that the inventor can appropriately define the concept of terms in order to explain the invention in the best way. It should be interpreted as meanings and concepts corresponding to

As shown in FIGS. 4 and 5, the evaporator case 120 (specifically, the evaporator lower case) includes an evaporator 10 (see FIG. 1), and a condensate outlet (bottom) of the evaporator case 120. 126 is formed, an expansion valve connecting portion 130 for connecting the evaporator pipe 12 and the expansion valve 140 connected to the evaporator 10 on the outer surface of the evaporator case 120 is installed.

The expansion valve connection unit 130 has a pair of fastening holes 134 and 134 capable of fastening a pair of bosses 132 and 132 and fastening means 150 such as bolts, and the fastening hole 134. A pair of fastening holes 144 and 144 are also formed in the expansion valve 140 in correspondence with the &quot;

Accordingly, when the evaporator pipe 12 and the expansion valve 140 are connected to each other, the sealing pad 16 is interposed between the flange 14 of the evaporator pipe 12 and the inner wall surface of the evaporator case 120. With the sealing pad 16 inserted at the tip of the evaporator pipe 12, the evaporator pipe 12 is drawn out through the boss 132 inside the evaporator case 120 and connected to the expansion valve 140. Then, the expansion valve by the fastening means 150 which is fastened to the fastening holes 144 formed in the expansion valve 140 and the fastening holes 134 formed in the expansion valve connecting portion 130 of the evaporator case 120. Fix 140 to the expansion valve connecting portion 130.

As described above, when the evaporator pipe 12 and the expansion valve 140 are connected, a gap is generated between the evaporator case 120 and the expansion valve 140 so that the evaporator pipe 12 and the expansion valve 140 flow. To prevent this, the following measures apply.

That is, according to the present invention, the outer side of the evaporator case 120 in the circumference of the expansion valve connecting portion 130 (specifically four sides of the expansion valve connecting portion 130), so as to contact the expansion valve 140 to be compressed. A plurality of compression protrusions 136 are formed to protrude toward the expansion valve (140).

Therefore, when the expansion valve 140 is fixed to the expansion valve connecting portion 130 by the fastening means 150, the compression protrusion 136 is compressed while the flange 14 of the evaporator pipe 12 is evaporator case 120. And the clearance between the evaporator case 120 and the expansion valve 140 is eliminated, so that the sealing pad 16 is between the flange 14 and the inner wall surface of the evaporator case 120. Is compressed to keep the air tight.

The compression protrusion 136, it is preferable that the end is pointed so that it can be easily compressed when the expansion valve 140 is fixed to the expansion valve connecting portion 130 by the fastening means (150). For example, the compression protrusion 136 may be formed of a cone, an elliptical cone, a polygonal cone, or the like.

 According to the evaporator pipe and the expansion valve connection structure according to the present invention configured as described above, when the expansion valve 140 is fixed to the expansion valve connecting portion 130 by the fastening means 150, the compression projection 136 is As the flange 14 of the evaporator pipe 12 is pulled toward the inner wall surface of the evaporator case 120 while being compressed, there is no play between the evaporator case 120 and the expansion valve 140. As the sealing pad 16 is compressed between the flange 14 and the inner wall surface of the evaporator case 120, the airtight state can be firmly maintained. Accordingly, air or condensed water leaks through the expansion valve connecting unit 130. The phenomenon can be prevented.

Claims (2)

An evaporator having a condensate outlet 126 formed on the bottom and having an expansion valve connecting portion 130 having a fastening hole 134 for fastening a pair of bosses 132 and fastening means 150. In the case 120, in the evaporator pipe 12 and the expansion valve 140 connected structure connected to the evaporator 10 embedded in the evaporator case, An evaporator pipe is drawn out through the boss inside the evaporator case and connected to an expansion valve so that a sealing pad 16 is interposed between the flange 14 of the evaporator pipe and the inner wall surface of the evaporator case. The expansion valve is fixed to the expansion valve connection by the fastening means 150 which is fastened to the fastening holes 144 of the expansion valve and the fastening holes 134 of the evaporator case, A plurality of compression protrusions 136 protrudingly formed and compressed toward the expansion valve are formed around the expansion valve connection part of the outer surface of the evaporator case, and the compression protrusion 136 is connected to the fastening means 150. When the expansion valve 140 is fixed to the expansion valve connecting portion 130, the flange 14 of the evaporator pipe 12 is pulled toward the inner wall surface of the evaporator case 120 while being compressed so that the flange 14 and the evaporator case ( An evaporator pipe and expansion valve connection structure, characterized in that the sealing pad 16 is formed to be compressed between the inner wall surface of the 120. The method of claim 1, The compression protrusion 136, the evaporator pipe, characterized in that the end is formed sharply so that it can be compressed when the expansion valve 140 is fixed to the expansion valve connecting portion 130 by the fastening means 150. And expansion valve connection structure.

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