KR20030078348A - Airtight inspection apparatus - Google Patents

Abstract

PURPOSE: A sealing state inspecting device is provided to precisely inspect a sealing state of a vacuum chamber in short time by detecting gas leaked from a measuring member contained in the vacuum chamber. CONSTITUTION: A sealing state inspecting device(1) includes a vacuum chamber(2) for receiving a measuring member, a vacuum pump(3) for forming the vacuum chamber(2) in a vacuum state, a gas feeder(5) for feeding as to the measuring member, and a connector(6) detachably assembled to an inlet of the measuring member so as to maintain a sealing state of an assembling section. A control device(7) is provided to measure internal pressure of the measuring member. When the measuring member is in a vacuum state, the control device(7) stops a measuring member vacuum pump(4) and measures pressure of gas introduced into the measuring member so as to stop an operation of the gas feeder(5) when internal pressure of the measuring member exceeds a predetermined level. Gas leaked from the measuring member is detected by a gas detector(9).

Description

Airtight inspection apparatus

The present invention relates to a measurement object airtight inspection device for inspecting the airtight state of the product to be measured, in particular, the gas leaked from the measurement by storing the gas-filled measurement inside the vacuum chamber It relates to a measuring object airtight inspection device that can detect and detect the airtight state accurately in a short time.

Products that require air tightness, that is, products such as oil tanks, radiators, and compressors are subject to airtightness inspection during the manufacturing process. One embodiment of the conventional airtightness test method includes an air-filled measuring object in water It was confirmed whether it was airtight by the bubble phenomenon generated when it leaked.

In another embodiment, there is a method of filling air into a measurement object and attaching a pressure gauge to the measurement object to check whether it is airtight according to a change in the pressure gauge generated when air flows out.

However, the method using water as described above must be inspected in the state that the measurement must be put in the water, so the labor is increased and the work is cumbersome, and the measurement that can not be put in the water had the disadvantage that the measurement is impossible, the change in air pressure According to the measurement method, most of the filled air flows out in small amounts, so it takes a lot of time to measure, and there is an inconvenience of having to rely on the manual work because the change of the pressure gauge should be checked visually.

Accordingly, the present invention is to solve the above-mentioned problems, the object of the present invention is to store the gas-filled measuring object inside the chamber in a vacuum state, the gas detector detects the gas leaked from the measuring object to maintain the airtight state It is an object of the present invention to provide a leak tightness inspection device for accurate confirmation in a short time.

The measurement object airtight inspection apparatus is configured to be openable and closed, the chamber for receiving the measurement object to be measured therein; A chamber vacuum pump connected to the chamber and a pipe to vacuum the inside of the chamber; A measurement vacuum pump connected to the measurement object housed in the chamber by a pipe to make the measurement vacuum state; A gas supply connected to the pipe through the measurement object to supply gas to the measurement object; A connector fixed to a pipe end to which the workpiece vacuum pump and the gas supplier are connected and detachably assembled at the inlet of the workpiece to maintain the airtightness of the assembly; Connected to each pipe connected to the workpiece vacuum pump and the gas supply, the micro sensor connected to the pressure sensor stops the workpiece vacuum pump when the pressure sensor installed therein measures the internal pressure of the workpiece and becomes a vacuum state. And control means for stopping the driving of the gas supply by the micro sensor when the pressure sensor measures the pressure of the gas introduced into the measurement object by the gas supply and the pressure is higher than the set pressure; A connector detachably installed at an end of a supply pipe connected to the gas supply unit, the connector being inserted into an inlet of the measurement object to fill the measurement gas with gas supplied from the gas supply unit; An inspection vacuum pump connected to the chamber and a pipe and discharging air in the chamber for an airtight inspection of a workpiece; And a gas detector connected to a pipe connected to the inspection vacuum pump to detect a gas leaked from the measurement object and discharged by the inspection vacuum pump.

1 is a conceptual diagram of the measurement object airtight inspection apparatus according to the present invention

2 is a height adjustment device is installed in the lower chamber of the present invention

Figure 3a shows the airtight structure of the chamber of the present invention, a view of the state before the chamber is closed

Figure 3b is a view showing the airtight structure of the chamber according to the measurement object airtight inspection apparatus of the present invention, the chamber is in a closed state

4 is a front view showing a connector according to the present invention;

5 is an enlarged view showing a state in which the connector according to the present invention is assembled to the chamber;

Explanation of symbols on the main parts of the drawings

1: Measurement object airtight inspection device 2: Chamber

3: chamber vacuum pump 4: workpiece vacuum pump

5 gas supply 6 connector

7: control means 8: inspection vacuum pump

9 gas detector 10 height adjustment device

Hereinafter, on the basis of the accompanying drawings will be described in detail an embodiment configuration of the measurement object airtight inspection apparatus according to the present invention.

1 is a conceptual diagram of a workpiece tightness inspection apparatus according to the present invention, Figure 2 is a view of the height adjustment device is installed in the lower chamber of the present invention, Figure 3 is a state before and after the assembly of the chamber airtight structure according to the present invention 4 to 5 are views showing a connector according to the present invention and a state of use of the connector.

As shown in the figure, the measurement object airtight inspection apparatus 1 of the present invention has a chamber 2 which accommodates the measurement object Q largely, as shown in FIG. 1, and a chamber vacuum which makes the inside of the chamber 2 in a vacuum state. Pump 3, workpiece vacuum pump 4 to vacuum the workpiece Q, gas supplier 5 for supplying gas to the workpiece Q, the workpiece vacuum pump 4 and gas supplier A connector (6) which is fixed to the end of the pipe (P1) to which it is connected and detachably assembled to the workpiece inlet (Q1) to maintain the airtightness of the assembly part, and measures the internal pressure of the workpiece (Q) in a vacuum state. Stop the workpiece vacuum pump 4 and measure the pressure of the gas introduced into the workpiece Q by the gas supplier 5, and when the pressure is above the set pressure, the gas supplier 5 Control means (7) to stop the operation of the test, the test to discharge the air inside the chamber (2) for the airtight inspection of the measurement object (Q) It is leaking from a ball pump (8), the workpiece (Q) comprising: a gas sensor (9) for detecting a gas discharged by the test vacuum pump 8.

In addition, the measurement object airtight inspection device 1 of the present invention is mounted on the lower chamber 2, the height adjustment device 10 is further installed to adjust the height of the chamber (2). .

The chamber 2 is required to be configured to be opened and closed to be in a vacuum state, the configuration of the base 11 of the plate, the cover 12 and the base 11 to be covered on the base 11 And an airtight means 13 formed on the contact portion of the cover 12 to maintain airtightness.

The cover 12 is formed in a container shape to form a storage space 14 therein, and an opening is formed at one side thereof to seal the storage space 14 when the cover 12 is fixed to the base 11. do. The cover 12 is preferably composed of a transparent body so that the inside can be confirmed. In addition, the material of the base 11 and the cover 12 is preferably made of a metal material in consideration of the vacuum inside.

The airtight means 13 includes a lower gasket 15 detachably fixed to the base 11 and an upper gasket 16 detachably installed on the cover 12.

The lower gasket 15 has an elastic material and at least one protrusion 15a and a concave portion 15b are formed on the upper surface thereof, respectively, and are fixed on the base 11 in contact with the cover 12. In Fig. 3, there are two projections 15a and one recess 15b.

The upper gasket 16 has an elastic material and at least one protrusion 16a and a concave portion 16b are formed on the bottom thereof so that the upper gasket 16 can be fitted with the base gasket 15. It is fixed to the cover 12 in contact.

Since the airtight means 13 configured as described above is assembled with the protrusions 15a and 16a and the concave portions 15b and 16b to each other, the contact area is increased to increase the airtight effect.

Here, the upper and lower gaskets 15 and 16 may be made of an elastic material, and synthetic resin such as polycarbonate may be used.

The chamber vacuum pump 3, which vacuums the inside of the chamber 2, is connected to the chamber 2 by a pipe so that gas leaks from the measurement Q stored in the storage space 14 of the chamber 2. If so, only the gas is present in the chamber 2 so that the gas detector 9 can detect the gas quickly and accurately.

Since the chamber vacuum pump 3 is the same as the structure of a conventional pump, a detailed description thereof will be omitted, and the output may be selectively adjusted according to the size of the chamber 2.

Here, the pipe (P2) in which the chamber vacuum pump (3) is installed, the vacuum valve (3b) is installed so that when the chamber vacuum pump (3) does not operate for a short time for the airtight inspection of the measurement (Q) the pipe (P2) ) To allow the chamber 2 to maintain a vacuum.

The workpiece vacuum pump 4 is connected to the workpiece (Q) stored in the chamber (2) by a pipe (P1) to test the airtight inspection of the workpiece (Q) before the gas injection (Q) ) Is a function for maintaining a vacuum state, which is the same as the configuration of a conventional vacuum pump, a detailed description thereof will be omitted.

The gas supplier 5 for supplying gas to the workpiece Q is connected to the pipe P1 connecting the workpiece Q and the workpiece vacuum pump 4 to supply gas to the workpiece Q. To this end, the gas filled therein can be used a variety of gases, but preferably helium gas. The gas supplier 5 pumps the gas filled therein into the measurement object Q by driving the transfer pump 17 installed on the pipe P1 path.

The connector 6 is fixed to an end of a pipe P1 to which the workpiece vacuum pump 4 and the gas supplier 5 are connected to connect the workpiece inlet Q1 in a hermetic state. Removably connected to the workpiece inlet with a clamp (C).

The connector 6 has an inlet portion 6a formed at one side of the body to be connected to the pipe P1, and an outlet portion 6b communicating with the inlet portion is formed at one end thereof, and the outlet portion 6b is formed. A locking jaw 6c is formed at the outer diameter so that the clamp C can be gripped.

The outlet 6b of the connector 6 is formed to be selectively varied depending on the size of the inlet Q1 of the workpiece to keep the connection airtight.

The control means 7 is installed on a pipe P1 to which each of the workpiece vacuum pump 4 and the gas supplier 5 is connected, and the vacuum state inside the workpiece Q before the gas is supplied. The gas pressure supplied into the measurement object Q is measured so that the measurement object Q is not damaged by a vacuum or high pressure.

The control means 7 is provided therein a pressure sensor 7a for measuring the pressure inside the workpiece Q and a microcomputer 7b for controlling the pressure sensor 7a. Therefore, when the pressure sensor 7a detects a pressure higher than the set pressure, the microcomputer 7b stops the driving of the workpiece vacuum pump 4 and the gas supplier 5 to protect the workpiece Q.

Here, the microcomputer 7b not only controls the workpiece vacuum pump 4 and the gas supplier 5 as described above, but also the chamber vacuum pump 3, the inspection vacuum pump 8, and the gas detector 9. To control them so that they can be classified.

The inspection vacuum pump 8 is connected to the chamber 2 by a pipe, and when the airtight inspection of the measurement object Q is performed, the air inside the chamber 2 is discharged to the outside to leak from the measurement object Q. In addition, the gas detector 9 can detect the gas discharged to the outside, and the configuration thereof is the same as that of a conventional pump, and a detailed description thereof will be omitted.

The gas detector 9 is connected to the pipe P3 to which the inspection vacuum pump 8 is connected, and detects the air discharged from the chamber 2 by the inspection vacuum pump 8, and the chamber in the discharged air. In (2), the leaked gas is detected so that the airtight state of the measured object (Q) can be confirmed.

The gas detector 9 generates a signal when the gas is sensed like a conventional gas detector so that the measurer can confirm that the measured object Q is not in a gastight state. Here, the signal of the gas detector 9 may be applied in various ways, but the embodiment may be a beep or a signal light.

On the other hand, the height adjustment device 10 of the chamber 2 is installed in the lower portion of the chamber 2, the conveyor for conveying the workpiece (Q) in the system to which the measurement object airtight inspection apparatus 1 of the present invention ( 18) so that the height can be properly adjusted. The height adjusting device 10 may be used in various ways, but in this specification, the hydraulic lifting device is commonly used in automobile repair shops.

Next will be described an example of use of the measurement object airtight inspection apparatus of the present invention configured as described above.

In the layout as shown in FIG. 1, when the workpiece Q is supplied from the conveyor 18 of the system to which the present invention is applied, the measurer passes the outlet of the connector 6 to the inlet Q1 of the workpiece Q. After inserting and connecting to) to secure the airtight connection portion using a clamp (C) provided separately. Here, the connector 6 may be automatically fixed to the workpiece inlet Q1 when the automation system is equipped.

After the workpiece Q is connected in this way, the lid 12 of the chamber 2 is closed, and the inside of the chamber 2 is vacuumed by the chamber vacuum pump 3, and at the same time, the workpiece vacuum pump 4 ) To vacuum the inside of the workpiece (Q). At this time, the chamber 2 is kept airtight because the upper gasket 16 installed on the cover 12 is fitted to the lower gasket 15 installed on the base 11.

After that, the transfer pump 17 is driven to transfer the gas stored in the gas supplier 5 to the measurement object Q, and when the pressure in the measurement object Q becomes higher than the set pressure, the pressure sensor 7a detects it. When the signal is sent to the microcomputer 7b, the microcomputer 7b stops the driving of the workpiece vacuum pump 4 so that the internal pressure of the workpiece Q is not higher than the set pressure.

As described above, when the inspection vacuum pump 8 is driven while gas is filled in the measurement object Q, the air in the chamber 2 is discharged to the outside of the inspection vacuum pump 8, and in this process The gas detector 9 detects the gas leaked and discharged at (Q). Therefore, since the gas detector 9 generates a signal, the measurer can confirm that the measured object Q is not in a gastight state so that the gas detector 9 is defective.

Since the gas detector detects the outflow of gas and generates a signal at the same time, the gas tightness inspection device of the present invention configured as described above can perform the inspection more accurately and quickly than the conventional water inspection method and the inspection method by the pressure difference caused by the air leakage. It is possible to inspect the bulky workpiece by making the chamber larger, and also have the advantage of simultaneously inspecting a plurality of workpieces having a low defective rate.

In addition, when the internal pressure of the workpiece is increased, not only the tightness of the workpiece but also the pressure resistance can be inspected, and the automation from supplying to taking out the workpiece can be realized, thereby simplifying the inspection process, thereby reducing the inspection cost. Have

Claims (4)

A chamber configured to be openable and closeable, and containing a measurement object to be measured therein; A chamber vacuum pump connected to the chamber and a pipe to vacuum the inside of the chamber; A measurement vacuum pump connected to the measurement object housed in the chamber by a pipe to make the measurement vacuum state; A gas supply connected to the pipe through the measurement object to supply gas to the measurement object; A connector fixed to a pipe end to which the workpiece vacuum pump and the gas supplier are connected and detachably assembled at the inlet of the workpiece to maintain the airtightness of the assembly; Connected to each pipe connected to the workpiece vacuum pump and the gas supply, the micro sensor connected to the pressure sensor stops the workpiece vacuum pump when the pressure sensor installed therein measures the internal pressure of the workpiece and becomes a vacuum state. And control means for stopping the driving of the gas supply by the micro sensor when the pressure sensor measures the pressure of the gas introduced into the measurement object by the gas supply and the pressure is higher than the set pressure; An inspection vacuum pump connected to the chamber and a pipe and discharging air in the chamber for an airtight inspection of a workpiece; And a gas detector connected to a pipe connected to the inspection vacuum pump to detect a gas leaked from the measurement object and discharged by the inspection vacuum pump. According to claim 1, wherein the measurement object tightness inspection device Mounting the chamber in the lower portion of the chamber to adjust the height of the chamber height adjustment device is characterized in that the installation further characterized in that it is installed. The method of claim 1, wherein the chamber Plate-shaped base; A cover configured in a container shape having an opening at one side to have a storage space therein, wherein the cover is detachably covered with the base; And an airtight means formed on a contact portion of the base and the cover to maintain the airtightness of the storage space. The method of claim 3, wherein the airtight means A lower gasket having an elastic material and having at least one or more protrusions and recesses formed on an upper surface thereof, and fixed to a base in contact with the cover; An upper gasket having a material of an elastic material and having at least one protrusion and a concave portion respectively formed on the bottom thereof so as to fit with the lower gasket, and fixed to a cover in contact with the base; Device.