KR20200011111A - Sealing device for leak testing device with automatic position correction function - Google Patents

Abstract

The present invention relates to a device for sealing a path on an opposite side to inject water or air for a test in a leak test. In the present invention, a sealing means is installed to be movable while sliding in the lateral direction, so that the center is automatically aligned as the sealing means moves in the lateral direction in a process where the sealing means comes in close contact with a connection pipe of an inspection target. Therefore, the present invention ensures an accurate sealing by automatic centering even when a position of the path to be closed has an error in the lateral direction.

Description

Sealing device for leak testing device with automatic position correction function}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for testing the leakage of various devices in which a fluid is used, and to a device for sealing an opposite passage (connection pipe) for injecting water or air for a test. Even if the position of the error in the lateral direction relates to a sealing device that ensures accurate sealing while the center is automatically centering it.

As is well known, various devices in which fluids such as air, water, or oil with pressure may be used may be leaked due to defects such as joints or welds in the manufacturing process. Is going through the process of checking the leakage by applying water or air pressure in advance. This is called 'leaking test'.

A leak test apparatus having such a function is usually provided with a device for injecting pressure into one passage of the device under test, and the other passage of the device under test must be sealed to ensure that pressure is released during the test to ensure accurate measurement. have.

For this purpose, the sealing device of the leak test apparatus has a sealing opening made of a material with a cushion that can be sealed while the object is in close contact with a passage to be sealed, and is close to the passage to be sealed, and when the measurement starts, the passage is to be closed by moving forward. In this state, the pressure is injected into the pressure injecting state, and the pressure is measured to check whether it is sealed, and then rewinds and waits for the next test.

However, the device to be tested for leakage is usually in the form of a sealed container consisting of welding, injection, or joining parts, and the position of the connector is laterally than the designed position due to an error in welding or joining work or an error in plastic injection during the manufacturing process. There is a slight shift in the error.

In this case, even if the test object is fixed in the correct position, the connector is not positioned correctly at the position where the masking tool for sealing is advanced. Therefore, the connector cannot be blocked correctly, so leakage test is impossible or incorrect test result. Due to such problems, such as judging to the normal product is generated.

In contrast, conventionally, a planar sealing means wider than the diameter of a connecting tube to be sealed is installed at the tip to cope so that even if the position of the passage is different, the sealing means always has a slightly different position. It is difficult to maintain uniform sealing because it is repeatedly in close contact with the inlet of the connector and if there is a sharp part at the tip of the connector, it is necessary to replace it frequently because the damage is directly applied to the sealing means. As a result, the accuracy and uniformity of the test was also lowered and the life of the sealing means was very short.

Patent Publication 10-2007-0116050 (published date: 2007.12.06)

The present invention devised to solve the above problems, even if the position of the connection tube of the test object is slightly different from the previously designed position, while the seal is moved forward for sealing to automatically move to the correct center position in the process of closing The purpose of the sealing is to improve the accuracy and speed of sealing and the efficiency of discrimination of parts.

The present invention for achieving the above object, the sealing means is coupled to the support to move forward and backward for the inspection, the sealing means for the inspection, the sealing means is installed to be movable while sliding in the lateral direction sealing means In the process of being in close contact with the connection pipe of the inspection object characterized in that the center is automatically matched while moving in the lateral direction.

Examples of specific means for allowing the sealing means to move in the lateral direction, comprising a plate fixed to the support, coupled to the plate by the flow shaft, the steel ball on the upper and lower surfaces of the plate while engaging to have a circular flow space With the steel ball in close contact, the fixing ring is engaged to press the steel ball from the top, and the spacer is screwed to close the steel ball under the plate in the middle of the flow shaft.

According to the present invention, even if the position of the passage to be sealed in the manufacturing process is not uniform, even if there is a deviation, the masking tool is moved laterally in the process of being combined for sealing, the center is coincident, the deformation of the soft sealing means This prevents long life and improves the repeatability of the closed test (R & R). Accordingly, there is an effect that the efficiency of discriminating whether the article to be inspected is normal is greatly improved.

1 is an exemplary view of the overall configuration of the present invention
Figure 2a, Figure 2b is a cross-sectional view before and after the operation of the present invention
3 is a perspective view of parts according to another embodiment of the present invention
4 is a cross-sectional view of the installation state of FIG.

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

The present invention is installed near the position where the test object (2) is seated for the test to advance back and forth toward the connector (3) of the test object (2) to repeat the action of closing the connection pipe (3) in the test process It is composed.

As shown in FIG. 1, the lifting block 102 is configured to move up and down by the action of the cylinder 101 fixed to the support 100, and a guide for achieving a straight up / down movement on one side of the lifting block 102. The rod 103 is configured to be guided while moving up and down in a state inserted into the guide tube 104 fixed to the support 100.

The main device including the masking tool 1 of the present invention is configured below the elevating block 102, and the cover 16 is coupled to protrude below the elevating block 102 and the center of the cover 16 is formed. The plate 16 ′ is fixed thereto, and the masking tool 1 of the present invention is coupled in a lateral direction by using the plate 16 ′.

The masking tool 1 of the present invention has a masking adapter 12 having an inner space for accommodating a connection pipe 3 protruding to the outside of the inspection object 2, and the masking adapter ( It consists of a soft cap 11 coupled to the tip of 12 and a flow shaft 13 coupled to the top of the masking adapter 12 and coupled to the plate 16 '.

The upper end of the flow shaft 13 is coupled to have a plate 16 'and a circular flow space 13', and the steel ball 15 is brought into close contact with the upper and lower surfaces of the plate 16 '. Engage the retaining ring 14 to press the steel ball 15 at the top of the coaxial 13 and the spacer 17 to bring the steel ball 15 below the plate 16 'into the middle of the flow shaft 13. ) Was screwed together, and the ring nut 18 was coupled to the bottom of the spacer 17 so as to keep the steel ball 15 in close contact with the proper pressure.

The steel ball 15 is advantageous for correct operation and function as it is assembled with a retainer of the type used in the thrust bearing to maintain its position, and evenly replaces the steel ball to allow the object to move freely horizontally. It is also possible to use technical means, that is, means using sliding friction.

The masking adapter 12 has a groove provided at the bottom of the masking tool 1 to accommodate the connector 3 protruding outward from the inspection object 2, in order to seal the inspection object 2. O-ring and the like are used so as to be in close contact with the connecting pipe (3) effectively.

In order to improve the airtightness of the masking adapter 12 and the connection pipe 3, when the inspection object 2 is sealed with a soft cap 11 covering the outer surface and the lower surface of the masking adapter 12. The masking adapter 12 and the connector 3 are configured to be crimped.

At this time, the curved portion 11-1 is formed inside the cap 11 so that the curved portion 11-1 is pushed by the upper end of the connecting tube 3 when the connecting tube 3 is inserted into the masking tool ( 1) to move the connector (3) to form a guide to the center.

Referring to the operation of the present invention configured as described above are as follows.

First, the masking tool 1 of the present invention is tightly sealed to the connecting pipe 3 to be sealed to the inspection object 2 to be sealed, and then pressure is applied to another connecting pipe to check whether the pressure leaks. By determining the airtight state, by the action of the cylinder 101, the lifting block 102 or less, the whole configuration of the present invention is guided by the guide pipe body to move up and down.

In this case, in order to ensure the reliability of the inspection, it is important to completely seal the connecting pipe (3), when the inspection object (2) is made of synthetic resin injection, the connecting pipe (3) is configured at the exact same position for each inspection object (2) Since the deviation occurs in the position and the masking tool 1 always moves forward and back only at a constant position, it is difficult to always seal the same.

 To this end, a flexible cap 11 surrounding the connecting pipe 3 and the masking adapter 12 is basically provided, and at the same time, a curved portion 11-1 is formed on the inner surface of the cap 11.

In particular, in the present invention, since the steel ball 15 is inserted into the upper and lower surfaces of the plate 16 'in the cover 16 and has the flow space 13', the horizontal direction of the flow shaft 13 in the cover 16 is achieved. While the movement is free, the complementary means is provided to form a curved portion (11-1) on the inner side of the cap 11 in contact with the connecting pipe (3) to cope with the deviation of the connecting pipe (3) position as described above. .

That is, when the masking adapter 12 is slightly misaligned when the center is coupled to the connector 3, the connector 3 slides while applying pressure to a part of the curved portion of the cap 11, The masking adapter 12 and the flow shaft 13, which are free to move horizontally by the ball 15, are pushed in the pressing direction so that the flow shaft 13 and the masking adapter 12 at the center of the connecting pipe 3 are eventually moved. Center coincides

Since the flexible cap 11 is pressed against the surface of the masking adapter 12, the connecting tube 3, and the inspection object 2 while the connector 3 is fully inserted and closely adhered to the groove of the masking adapter 12. More confidentiality is possible.

On the other hand, the above-described configuration of the present invention has been described as an example of the configuration in which the masking tool (1) while acting vertically up and down, but also when the test action while moving forward and backward horizontally according to the form or functional characteristics of the inspection object. There will be. If the entire configuration is arranged horizontally for this test operation, the entire flow shaft 13 and the masking adapter 12 is not located in the center of the flow space (13 '), but the problem that the close contact by the own weight occurs .

In order to solve the problem, the present invention inserts a cylindrical cushioning ring 20 that fits snugly into the flow space 13 'so that the flow shaft 13 is centered by the cushioning ring 20 before the test. , When the action is pushed to one side, the cushioning ring 20 is compressed to either side, so that the flow shaft 13 is pushed, and thus the connection pipe 3 and the cap 11 coincide with each other so that accurate sealing can be achieved.

1: masking tool 2: inspection target
3: connector
11: cap 11-1: curved portion
12: masking adapter 13: fluid shaft
13 ': flow space
14: retaining ring 15: steel ball
16: cover 16 ': plate
17: spacer 18: ring nut
20: cushioning
100: support 101: cylinder
102: lifting block 103: guide rod
104: guide tube

Claims (3)

Leakage is installed near the position where the test object (2) is seated for the test, and configured to repeat the action of sealing the connector (3) during the test process while moving forward and backward toward the connector (3) of the test object (2) In the sealing device for the test device,
The plate 16 'is fixed under the lifting block 102, which is lifted by the cylinder,
The flow shaft 13 constituting the masking tool 1 is coupled to the plate, but coupled to have a circular flow space 13 ',
The fixing ring 14 is coupled to press the steel ball 15 from the upper end of the flow shaft 13 while the steel ball 15 is in close contact with the upper and lower surfaces of the plate 16 ′ and the flow shaft 13 In the middle of the spacer 17 is screwed to bring the steel ball 15 under the plate 16 'into close contact,
Masking adapter 12 is coupled to the lower end of the flow shaft,
Sealing device for a leak test device having a position automatic calibration function, characterized in that the cap 11 is coupled to the lower and outer surfaces of the masking adapter. The device of claim 1, wherein the steel ball (15) is assembled with a retainer of the type used in the thrust bearing to maintain its position. The method according to claim 1, wherein the cylindrical cushioning ring 20 is inserted into the flow space 13 'so that the flow shaft 13 is centered by the cushioning ring 20 before the test. Sealing device for a leak test device having a position automatic correction function, characterized in that the cushion ring 20 is compressed to either side when pushed to one side.

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