KR101987239B1 - Radiator Leak Test Coupler - Google Patents

Abstract

The present invention relates to a coupler installed in a radiator for a leak test of a radiator and connected to an inlet unit having a connection unit at an end. The coupler includes: a body including a coil spring arranged inside; a pressure supply path installed to elastically reciprocate in an axial direction by the coil spring in the body; a first connector; a second connector; and a coupling unit. The first connector has: an operating rod having an accommodation unit accommodation the connection unit by being formed at one end to be connected to the pressure supply path; a through hole connected to one side of the body and formed outside the body as the other end of the operating rod penetrates and is inserted into the center of the through hole; an air discharge path formed in the axial direction at a predetermined position in a radial direction; and an air supply path formed on the outer circumference to be connected to the air discharge path. The second connector has: a second connector body connected to the other side of the body; a sleeve connected to slide in the axial direction of the body on the outer circumference of the body; a spring installed between the outer circumference of the second connector body and the inner circumference of the sleeve and applying an elastic force; and multiple pressing balls installed on the outer circumference of the body in a circumferential direction and reciprocating in the radial direction of the second connector body unit in accordance with a movement of the sleeve. The coupling unit comprises: a pair of cutting units connected to the second connector body and formed to be symmetric to the outer circumference; a housing having an insertion hole formed in order for the inlet unit to be inserted into the center; and a pair of pressing bodies installed to reciprocate in the radial direction of the housing by the pair of cutting units in the housing and pressing the outer circumference of the inlet unit.

Description

Radiator Leak Test Coupler

The present invention relates to a radiator leak test coupler for use in a leak check confirmation test of a radiator.

In general, the heat exchanger is installed on a specific flow path to allow the heat exchange medium circulating therein to absorb heat from outside air or to radiate its heat to the outside.

In such a heat exchanger, a refrigerant is used as a heat exchange medium so that the airtightness of the inside is an important factor. Leak inspection for airtightness checking is an essential task for all products of the heat exchanger.

The leak test of the heat exchanger is performed by using a leak tester to check for leaks of defects caused by joints or cracks by applying water pressure or air pressure. The leak ester is connected to the inlet and the outlet of the heat exchanger through a coupler.

The coupler is provided with a rubber bushing therein to keep the airtight when the coupler is coupled to the inlet and the outlet, and to facilitate the coupling and separation.

However, in the conventional coupler, when the pressure applied during the leak test is applied above the set pressure, the coupler frequently detaches from the inlet portion and the outlet portion, thereby preventing smooth inspection.

In addition, due to the repeated operation of coupling and disconnection and the deformation of the bushing by compression, the coupler is not kept tight, so it is difficult to accurately check leakage due to leakage, thereby requiring frequent replacement of the bushing.

Korean Registered Patent No. 10-1583235 (2015.12.31.)

An object of the present invention is to provide a radiator leak test coupler that can prevent the coupler from being separated from the inlet portion, and can be easily coupled and separated to improve workability.

Radiator leak test coupler according to the present invention for achieving the above object relates to a coupler which is provided in the radiator for the leak test of the radiator, is coupled to the inlet portion formed with a coupling portion at the end, the body having a coil spring disposed therein And a pressure supply passage formed in the body so as to be reciprocally elastically moved in the axial direction by a coil spring, the pressure supply passage formed in the axial direction at the center thereof, and a receiving portion formed in communication with the pressure supply passage at one end thereof to accommodate the coupling portion. It is coupled to one side of the operation rod and the body, the other end of the operation rod is inserted into the center through the through hole formed so as to be located outside the body and connected to the air discharge passage and the air discharge passage formed in the axial direction at a predetermined position in the radial direction. A first connector having an air supply path formed on an outer circumferential surface thereof and coupled to the other side of the body It is installed between the outer circumferential surface of the body and the outer peripheral surface of the body and the outer peripheral surface of the body and the outer circumferential surface of the body and the outer circumferential surface between the outer circumferential surface of the body and the inner circumferential surface of the sleeve and slidably coupled to the outer circumferential surface of the body. And a second connector having a pressure ball reciprocating in the radial direction of the body as the sleeve moves, and a pair of cutouts and inlets formed in the center and symmetrically formed on the outer circumferential surface thereof so as to be inserted into the center of the second connector. A pair of pressing bodies including a housing having an insertion hole and a pair of pressing bodies installed to reciprocate in a radial direction of the housing through a pair of cutouts to press the outer edge of the inlet portion; The pressurizing ball is characterized in that for pressing the outer edge of the inlet portion.

Here, the outer edge of the housing is preferably provided with a pressing band for pressing the pair of pressing members to move inward in the radial direction of the housing.

In addition, the pressing body is preferably mounted on the inner bottom surface of the housing having a movable flange reciprocating in the radial direction of the housing through a pair of incisions, and a semi-circular pressurized protrusion protruding perpendicular to the end of the movable flange. .

And, it is preferable that the guide portion is formed to be inclined at the inner boundary surface of the movable flange and the pressure protrusion.

In addition, the receiving portion is preferably provided with a pressure packing for pressing the outer peripheral surface of the end portion of the inlet portion.

The radiator leak test coupler of the present invention having the above-described configuration has the effect of preventing the coupler from being separated from the inlet portion, and easily engaging and separating, thereby improving workability.

1 is a perspective view of a radiator leak test coupler according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the radiator leak test coupler shown in FIG. 1. FIG.
3 is a cross-sectional view of the radiator leak test coupler shown in FIG. 1.
4 is an exploded cross-sectional view of the radiator leak test coupler shown in FIG. 3.
5 is an operational state diagram of a radiator leak test coupler according to an embodiment of the present invention.

Hereinafter, a radiator leak test coupler according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a radiator leak test coupler according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the radiator leak test coupler shown in Figure 1, Figure 3 is a cross-sectional view of the radiator leak test coupler shown in Figure 1, Figure 4 Is an exploded cross-sectional view of the radiator leak test coupler shown in FIG. 3.

Referring to this, the radiator leak test coupler 100 according to the embodiment is an inlet part for connecting a lease tester (not shown) to the inlet part 12 provided in the radiator 10 for the leak test of the radiator 10. As coupled to the (12), and includes a body 110, the operating rod 120, the first connector 130, the second connector 140, the coupler 150.

The body 110 is formed in a cylindrical shape, the first connection portion 112 is formed on one inner circumferential surface, and the second connection portion 114 is formed on the other outer circumferential surface. In addition, the coil spring 116 is disposed inside the body 110.

The actuating rod 120 is installed in the body 110 so as to reciprocally move in the axial direction by the coil spring 116. Here, one end of the coil spring 116 is supported by the stepped portion 118 formed inside the body 110, the other end is in close contact with the inner peripheral surface of the body 110 in the axial direction partial region of the actuating rod 120. It is supported by the flange portion 122 formed to be. O-ring 122a is installed on the outer circumferential surface of the flange portion 122 for airtightness between the outer circumferential surface of the flange portion 122 and the inner circumferential surface of the body 110.

In addition, the actuating rod 120 is formed to communicate with the pressure supply passage 124 formed in the axial direction in the center and the pressure supply passage 124 at one end thereof, and the engaging portion 14 formed at the end of the inlet portion 12. It has a receiving portion 126 for receiving it.

Here, the receiving portion 126 pressurizes the outer circumferential surface of the locking portion 14 formed at the end of the inlet portion 12 to seal between the receiving portion 126 and the locking portion 14 formed at the end of the inlet portion 12. Pressing packing 126a is installed.

A pressure hose for supplying air to the pressure supply passage 124 is connected to the pressure supply passage 124.

The first connector 130 is screwed to the first connecting portion 112 formed on one inner circumferential surface of the body 110, the center portion through the guide rod guides the reciprocating movement of the body 110 in the axial direction The hole 132 is formed. At this time, a portion of the other end portion of the operation rod 120 is inserted through the through hole 132 so as to be located outside the body 110.

In addition, the air discharge path 134 is formed in the axial direction at a predetermined position in the radial direction of the first connector 130, and the air supply path 136 connected to the air discharge path 134 is formed on the outer circumferential surface. Here, the air supply passage 136 and the air discharge passage 134 formed to be interconnected are pressurized packing 126a installed at the receiving portion 126 of the operation rod 120 at the end of the inlet portion 12 during the leak test. The body 110 supplies air therein to closely press and press the outer circumferential surface of the formed locking portion 14 to move the operation rod 120.

The air supply passage 136 is provided with a connection pipe 138 connected to the pressure hose for supplying air.

The second connector 140 slides in the axial direction of the body 142 on the outer circumferential surface of the body 142 and the body 142 screwed to the second connecting portion 114 formed on the outer circumferential surface on the other side of the body 110. A circumference on the outer circumferential surface of the body 142 and the spring 146 interposed between the outer circumferential surface of the body 142 and the inner circumferential surface of the sleeve 144 to apply elastic force to the sleeve 144, A plurality of spaced apart in the direction has a pressing ball 148 to reciprocate in the radial direction of the body 142 according to the movement of the sleeve 144.

The coupler 150 is screwed into the inner circumferential surface to the fastening portion 142a protruding from one side outer circumferential surface of the body 142 of the second connector (140). The coupling sphere 150 has a housing 152 having a pair of cutouts 152a formed circumferentially symmetrically on the outer circumferential surface and an insertion hole 152b formed so that the inlet portion 12 is inserted into the central portion thereof. A pair of pressurizers 154 are installed inside the 152 to reciprocate in a radial direction of the housing 152 through a pair of cutouts 152a to press the outer edge of the inlet portion 12.

The pair of press bodies 154 are made of MC nylon material and inlet by the press ball 148 to reciprocate in the radial direction of the body 142 in accordance with the movement of the sleeve 144 of the second connector (140). The outer edge of the part 12 is pressurized. At this time, the locking portion 14 formed at the end of the inlet portion 12 is caught by the end of the pair of pressing body 154.

In addition, the outer circumferential surface of the housing 152 may be provided with a pressing band (not shown) for pressing the pair of pressing members 154 to move inward in the radial direction of the housing 152. The pressing band provides an additional pressing force such that the pair of pressing bodies 154 are in close contact with the outer circumferential surface of the inlet portion 12.

The pressing body 154 is seated on the inner bottom surface of the housing 152, the movable flange 154a and the movable flange reciprocating in the radial direction of the housing 152 through a pair of cutouts (152a) It consists of a semicircular pressurization protrusion part 154b protruded perpendicularly to the end of 154a.

The guide portion 154c is formed to be inclined at the inner boundary surfaces of the movable flange 154a and the pressure protrusion 154b, and the guide portion 154c has an inlet portion 12 smoothly into the pair of pressing bodies 154. Guide to be inserted

Hereinafter, the operation of the radiator leak test coupler made as described above will be described with reference to FIG. 5.

5 is an operational state diagram of a radiator leak test coupler according to an embodiment of the present invention.

First, the coupler 100 is connected to a pressure hose (not shown) of a pressure pump (not shown) connected to a leak tester (not shown), and then the coupler 100 is connected to the inlet portion 12 provided in the radiator 10. Combine.

Here, the method of coupling the coupler 100 to the inlet portion 12 is a pair of workers pressed by the pressure ball 148 by moving the gripping the sleeve 144 toward the first connector 130. After releasing the pressurization state of the press body 154, the inlet portion 12 is inserted into the insertion hole 152b formed in the housing 152 of the coupling hole 150, and then the sleeve 144 is released. ) Is returned to its original position by the elastic force of the spring 146. When the sleeve 144 is returned to its original position, the pressure ball 148 is moved toward the center of the body 142 of the second connector 140 by the sleeve 144, the pair of pressing body 154 is inlet Coupling of the inlet portion 12 and the coupler 100 is completed by pressing the outer edge of the portion 12.

Thereafter, the set pressure and the supply pressure are set in the leak tester, and then the air is supplied to the inside of the body 110 through the air supply passage 136 and the air discharge passage 134 formed in the first connector 130. The actuating rod 120 is moved toward the end of the inlet portion 12 by the air supplied into the inside.

When the operating rod 120 is moved toward the end of the inlet portion 12, the end of the inlet portion 12 is accommodated in the receiving portion 126 formed at one end of the operating rod 120. At this time, the outer circumferential surface of the locking portion 14 formed at the end of the inlet portion 12 is pressed by the pressure packing 126a provided inside the receiving portion 126.

In this state, when the air is supplied to the pressure supply passage 124 formed in the center of the operating rod 120, the leak test is performed.

After completion of the leak test, when the air supply path 134 formed in the first connector 130 and the air supply path 136 are cut off to supply the air supplied to the inside of the body 110, the operation rod 120 is connected to the body ( The elastic spring of the coil spring 116 disposed inside the 110 returns to its original position, and when the worker moves the sleeve 144 toward the first connector 130, the pair of pressing members 154 Pressurization of the inlet portion 12 by the release can be easily removed from the inlet portion 12 coupler (100).

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art may variously modify and change the present invention without departing from the spirit of the invention as set forth in the claims below. I can understand that.

110; Bodybuilder
120; Working rod
122; Flange
124; Pressure supply
126; Receptacle
130; First connector
132; Through hole
134; Air vent
136; Air supply
140; 2nd connector
142; Body
144; sleeve
146; spring
148; Pressurized Ball
150; Splice
152; housing
154; A pair of pressurized bodies

Claims (5)

In the coupler which is provided in the radiator for the leak test of the radiator, and coupled to the inlet portion having a coupling portion at the end,
A body having a coil spring disposed therein;
The body is installed in the body so as to reciprocally elastically move in the axial direction by the coil spring, the pressure supply passage formed in the axial direction at the center, and formed in communication with the pressure supply passage at one end thereof to accommodate the coupling portion. An operating rod having a portion;
Is coupled to one side of the body, the through hole formed so that the other end of the operation rod is inserted through the center and located in the outside of the body and the air discharge passage formed in the axial direction at a predetermined position in the radial direction, and the air discharge passage and A first connector having an air supply path formed on an outer circumferential surface thereof so as to be connected;
A spring coupled between the body coupled to the other side of the body and the outer circumferential surface of the body so as to be slidably movable in the axial direction of the body, and interposed between the outer circumferential surface of the body and the inner circumferential surface of the sleeve to apply elastic force to the sleeve; And a second connector having a plurality of circumferentially spaced spaced apart from each other on the outer circumferential surface of the body, the pressure ball reciprocating in the radial direction of the body according to the movement of the sleeve; And,
A housing coupled to the body of the second connector and having a pair of cutouts symmetrically formed on an outer circumferential surface and an insertion hole formed to insert the inlet portion in a central portion thereof, and the housing through the pair of cutouts inside the housing; And a coupler formed of a pair of pressurizing members installed to reciprocate in a radial direction of the pressurized outer edge of the inlet portion.
The pair of pressurizers radiator leakage test coupler, characterized in that for pressing the outer edge of the inlet portion by the pressing ball.
The method according to claim 1,
Radiator leak test coupler, characterized in that the outer edge of the housing is provided with a pressing band for pressing the pair of pressing members to move inward in the radial direction of the housing.
The method according to claim 1,
The press body is,
A moving flange seated on an inner bottom surface of the housing and reciprocally moved in the radial direction of the housing through the pair of cutouts, and a semicircular pressurizing protrusion protruding perpendicularly to an end of the movable flange; Radiator Leak Test Coupler.
The method according to claim 3,
The radiator leakage test coupler, characterized in that the guide portion is inclined on the inner boundary surface of the movable flange and the pressure projection.
The method according to claim 1,
Radiator leakage test coupler, characterized in that the pressing portion for pressing the outer peripheral surface of the inlet portion is installed in the receiving portion.

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