KR20040081661A - Installing structure of lower part cap in receiver drier - Google Patents

Abstract

PURPOSE: A structure for mounting a lower cap of a receiver dryer is provided to improve productivity by reducing the operation process and to cut down the manufacturing cost by reducing length, weight, and the number of parts in making the lower cap for closing the opened part of a receiver dryer tank. CONSTITUTION: A lower cap(100) of a receiver dryer(10) is composed of a body unit(101) screw-combined in an opened part(16) formed at the lower end of a tank(11) of the receiver dryer and a flange unit(107) formed at the lower end of the body unit to closely contact to the lower end surface of the tank, and installed with airtightness by a sealing device(110). The sealing device comprises a sealing member(111) having at least two projection units outside and a receiving groove(106) formed around the peripheral surface between the flange unit and a screw unit(105) of the body unit to receive the sealing member. The lower cap is sealed doubly by contacting the projection units of the sealing member on the inner peripheral surface of the tank.

Description

Installing structure of lower part cap in receiver drier}

The present invention relates to a lower cap installation structure of a receiver dryer, and more particularly, to prevent a leak by sealing using a sealing member having an X-shaped cross section when installing a lower cap to seal a lower opening of the receiver dryer. Of course, it relates to the lower cap installation structure of the receiver dryer to reduce the weight and the number of parts of the lower cap to reduce the manufacturing cost.

In general, a cooling system compresses a working fluid that performs heat exchange with outside air, and compresses a gaseous refrigerant in a compressor into a gaseous state of high temperature and pressure, which is easily liquefied, and transfers it to a condenser.

In this way, the gaseous refrigerant phase changes into a liquid state through the condenser and flows into the expansion valve.

Thereafter, the refrigerant phase-changed into a liquid state is changed into a wet, low-pressure vapor state of low temperature and low pressure by the throttling action of the expansion valve and flows into the evaporator.

Next, the refrigerant introduced into the evaporator absorbs the heat (evaporation latent heat) required for evaporation from the surrounding air, evaporates itself, changes to a gaseous state, and then repeatedly cycles the gas flowing into the compressor.

However, through the above cycle, the working fluid should be in a liquid state when condensed in the condenser in order to endotherm the outside air, but some remain in the gaseous state and then the liquid phase and the gas phase coexist.

Therefore, when the working fluid in which the liquid and gaseous phase coexists during heat exchange in the evaporator, the working fluid in the gas state hardly absorbs the heat of the outside air, thereby causing a problem of lowering the cooling efficiency.

Therefore, in order to solve this problem, a receiver dryer is installed between the condenser and the expansion valve. The receiver dryer removes water contained in the working fluid that separates / removes or circulates a gaseous working fluid that does not liquefy from the condenser. Absorption increases the cooling efficiency.

This receiver dryer 10 is generally attached to the header tank 2 on one side of the condenser 1, as shown in FIG.

As such, the structure of the receiver dryer 10 for liquefying the working fluid has a drying agent 15 embedded therein to remove the working fluid and water in a gaseous state inside the tank 11 in which the upper part is closed and the lower part is opened. The lower cap 20 is assembled / fixed to the lower portion of the tank 11 so as to remove impurities mixed in the working fluid that has passed through 15 to seal the lower portion of the tank 11.

The lower cap 20 is shown in FIG. 2 and will be described only in relation to the present invention.

As shown, the lower cap 20 of the body portion 21 to be in close contact with the body portion 21 is screwed into the bottom opening 16 of the tank 11 and the bottom surface of the tank 11. It is composed of a flange portion 24 formed at the bottom.

In addition, the body portion 21 may be provided with a screw portion 22 to be screwed into the tank 11 and an O-ring 30 for maintaining airtightness at the periphery of the lower portion of the screw portion 22. O-ring groove 23 is formed at a predetermined interval so as to.

The conventional lower cap 20 screws the lower cap 20 to the threaded portion 17 of the opening 16 so that the working fluid does not leak into the opening 16 below the tank 11. The two O-rings 30 interposed between the inner circumferential surface of the tank 11 and the periphery of the body portion 21 of the lower cap 20 are maintained in a compressed state.

However, two O-rings 30 are interposed in the body portion 21 of the lower cap 20 and two O-ring grooves 23 must be formed to interpose the O-rings 30. In addition to the increase in the number of labor and the number of parts, the length and weight in the longitudinal direction of the body portion 21 are also increased, thereby increasing the manufacturing cost.

An object of the present invention for solving the above-mentioned problems is to reduce the labor required in manufacturing the lower cap coupled to seal the tank opening of the receiver dryer to improve productivity and reduce the weight and number of parts to reduce the manufacturing cost To provide a receiver dryer lower cap installation structure that can be.

The present invention for achieving the above object consists of a body portion screwed into the tank bottom opening of the receiver dryer, and a flange formed on the lower end of the body portion to be in close contact with the bottom surface of the tank through the sealing means In the lower cap of the receiver dryer to be installed, the sealing means is composed of a sealing member formed with at least two protrusions to the outside, and a receiving groove formed in the peripheral portion between the screw portion and the flange portion of the body portion to accommodate the sealing member And the protrusion of the sealing member is in close contact with the inner circumferential surface of the tank to double seal.

1 is a cross-sectional view showing a conventional receiver dryer integrated condenser,

2 is a cross-sectional view showing a state in which the lower cap is coupled to a conventional receiver dryer;

3 is a cross-sectional view showing a state in which the lower cap is coupled to the receiver dryer according to the present invention;

Figure 4 is an exploded perspective view showing a lower cap according to the present invention.

<Code Description of Main Parts of Drawing>

1: condenser 2: header tank

10: receiver dryer 11: tank

12: upper cap 13: inlet

14: outlet 15: desiccant

16: opening 17,105: threaded portion

100: lower cap 101: body portion

102: recess home 103: Euro

104: filter 106: receiving groove

107: flange 108: cover

110: sealing means 111: sealing member

111a: protrusion

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The same reference numerals are given to the same parts as in the related art, and repeated description thereof will be omitted.

3 is a cross-sectional view showing a state in which the lower cap is coupled to the receiver dryer according to the present invention, Figure 4 is an exploded perspective view showing a lower cap according to the present invention.

First, the receiver dryer 10 to which the present invention is applied has an inlet 13 and an outlet 14 so that the upper part is sealed by the upper cap 12 and the lower part is opened, and also communicates with the header tank 2 of the condenser 1. Is formed of a tank 11, the drying material 15 is embedded in the tank 11, and the lower cap 100 is screwed to the opening 16 of the tank (11).

Here, the lower cap 100 is divided into a body portion 101 and a flange portion 107, the body portion 101 so that the working fluid is introduced into the upper portion to be discharged to the outlet of the tank (11). A concave groove 102 and a plurality of flow paths 103 are formed therein, and the concave groove 102 is provided with a filter 104 to filter impurities mixed in the working fluid.

Here, the filter 104 is fixed by the cover 108 is fixed to the upper side of the body portion 101 in one side is inserted into the recess groove 102 of the body portion 101.

In addition, the body portion 101 is formed with a threaded portion 105 to be screwed to the threaded portion 17 formed in the opening 16 of the tank 11 and at the bottom side of the tank 11 below. The flange portion 107 is formed to be in close contact.

In such a lower cap 100, the lower cap 100 is screwed to the opening 16 of the tank 11 to be hermetically installed through the sealing means 110.

The sealing means 110 is a sealing member 111 is formed with two protrusions (111a) to the outside, and the threaded portion 105 and the flange portion of the body portion 101 so that the sealing member 111 can be accommodated ( It is composed of a receiving groove 106 formed in the peripheral portion between the 107.

Here, the sealing member 111 preferably has an X-shaped cross section.

Therefore, when the lower cap 100 is coupled to the opening 16 of the tank 11 in the state in which the sealing member 111 is interposed in the receiving groove 106, the characteristics of the sealing member 111 Two protrusions 111a protruding outward are in close contact with the inner circumferential surface of the tank 11 to maintain airtightness. This is achieved by conventionally using two sealing members 111 to seal two O-rings 30 (conventional). You can get the same effect as you used.

As described above, the lower cap of the receiver dryer according to the invention of the tank 11 through the sealing member 111 in the receiving groove 106 formed in the body portion 101 of the lower cap 100 By screwing in the opening 16, it is possible to maintain the airtight therebetween.

In addition, since one sealing member 111 is used, the conventional lower cap 20 (conventional) body portion 21 is formed by forming one receiving groove 106 in the body portion 101 of the lower cap 100. By forming two O-ring grooves (conventionally) in the conventional), the number of working hours is reduced and the productivity and productivity are improved as well as the two O-rings (conventionally) are interposed. The number of parts is reduced, thereby reducing the manufacturing cost.

As described above, in the present invention, only the sealing means 110 is installed for sealing between the tank 11 of the receiver dryer and the lower cap 100, but is not limited thereto. The sealing means 110 of the present invention can be applied to seal the connecting portion or other two or more objects when they are combined.

According to the present invention, by forming one receiving groove in the body portion of the lower cap and screwed to the opening of the tank via a sealing member in the receiving groove to reduce the labor labor in manufacturing the lower cap productivity In addition to this improvement, the length, weight, and number of parts of the body portion are reduced, thereby reducing manufacturing costs.

Claims (2)

Body portion 101 which is screwed into the bottom opening 16 of the tank 11 of the receiver dryer 10, and a flange portion formed at the bottom of the body portion 101 to be in close contact with the bottom surface of the tank (11) In the lower cap of the receiver dryer consisting of 107, which is airtightly installed through the sealing means 110, The sealing means 110 is a sealing member 111 formed with at least two protrusions 111a outward, and the thread portion 105 and the flange portion of the body portion 101 so that the sealing member 111 can be accommodated. The lower cap of the receiver dryer, characterized in that the receiving groove 106 formed in the peripheral portion between the 107 is formed so that the protrusion 111a of the sealing member 111 is in close contact with the inner circumferential surface of the tank 11 and double sealing Installation structure. The lower cap mounting structure of a receiver dryer according to claim 1, wherein the sealing member (111) has an X-shaped cross section.