JPH06265435A - Airtight checking method and device - Google Patents

Abstract

PURPOSE:To provide an airtight checking method and device that is relatively simple in system constitution and well improvable in terms of inspection accuracy. CONSTITUTION:This method consists of the following five processes that 1) a subject 3 is set at a specified position in a chamber2 in a sealing state and, after an inner part of this chamber 2 is cleaned, gas is sealed up in the subject 3, performing a checkup of differential pressure leakage, and this sealed gas is re-exhausted, 2) helium and air are sealed and mixed in the subject 3 at the specified pressure, 3) sample gas in the chamber 2 is diffused and stirred as long as the specified time, 4) a sample charge tank 17 is evacuated when the sample gas is gathered into this tank 17 from the chamber 2, and the sample gas is inducted into an He-leak detector 21 from the tank 17 in which the sample gas is charged, respectively.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for performing an airtight inspection of various test works by using a leak inspection medium such as helium gas.

[0002]

2. Description of the Related Art An airtight inspection of this kind is performed on various industrial products such as die cast products.
Conventionally, for example, in a gas-type airtightness inspection device, a CFC gas is used as a leakage inspection medium, and a charge tank type leak detector is used. This airtightness inspection device has a feature that it does not require a vacuum process or a vacuum pump. When Freon gas is used as the leakage inspection medium, environmental problems occur due to the influence on the human body and the like, which makes it practically difficult to use the device.

Further, it is possible to use helium gas instead of CFC gas as an inspection medium. If this helium gas is used, environmental problems can be solved. On the other hand, when using the helium gas instead of the CFC gas, it is difficult to diffuse the helium gas in the chamber of the apparatus, which causes a problem that the inspection time is long.

[0004]

By the way, in this type of apparatus, a chamber for accommodating the subject and a tank for collecting the sample gas are used. However, in the case of using the above helium gas, an airtight inspection is performed. At this time, there are a method of inspecting under atmospheric pressure and a method of inspecting by making a chamber or a tank vacuum. In the former method, the apparatus itself can be configured simply, but the inspection accuracy is generally lower than that of the vacuum method. On the other hand, in the latter vacuum method, high inspection accuracy can be obtained, but there is a problem that the configuration of the apparatus becomes complicated.

In view of the above points, it is an object of the present invention to provide an airtightness inspection method and device which have a relatively simple device configuration and can improve inspection accuracy.

[0006]

According to the airtightness inspection method of the present invention, an object is set in a predetermined position in a chamber in a sealing state, the inside of the chamber is cleaned, and then a gas is sealed in the object. A differential pressure leak test, exhausting the enclosed gas again, and enclosing and mixing helium gas and air in the subject at a predetermined pressure,
A step of diffusing and stirring the sample gas in the chamber for a certain period of time, a step of evacuating the sample charge tank when collecting the sample gas from the chamber to the sample charge tank, and a step of charging the sample gas with the sample gas Introducing the sample gas from the sample charge tank to the He-leak detector.

Further, the airtightness inspection apparatus of the present invention comprises a chamber for accommodating the subject, a sealing means for sealing the inside of the accommodated subject from the chamber, and a differential pressure leakage inspection by enclosing gas in the chamber. To supply and exhaust air to and from the chamber, a means for supplying and exhausting helium gas into the subject, and a sample gas in the chamber to diffuse and stir. Means, a means for collecting the sample gas in the chamber, a means for evacuating the means for collecting the sample gas, and an inspection of the collected sample gas to detect a helium leak. And a leak detector that does.

An opening / closing valve may be attached to the exhaust pipe connected to the chamber.

[0009]

According to the present invention, by using helium gas as the inspection medium, it is possible to eliminate the concern about environmental problems and the like. However, in the airtight inspection, the chamber for accommodating the subject is kept at atmospheric pressure. It is possible to carry out the process without using a vacuum process. Therefore, it is possible to simplify the apparatus configuration for the vacuum equipment and its control. On the other hand, when the sample gas is sampled from the chamber to the sample charge tank, the sample charge tank is evacuated, so that the sample gas can be sampled efficiently and quickly into the sample charge tank, resulting in high measurement. Accuracy can be obtained.

In the above case, an opening / closing valve can be attached at an appropriate position of the exhaust pipe connected to the chamber chamber. However, when the sample gas is introduced into the sample charge tank, the opening / closing valve is closed. The sample gas can be introduced without being diluted, and the sample gas can be efficiently collected.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the airtightness inspection method and apparatus according to the present invention will be described below with reference to FIG. FIG. 1 shows the overall configuration of an apparatus for carrying out the airtightness inspection of the present invention. In the figure, 1 is a device main body, 2 is a subject 3 described later.
Is a chamber for housing. An exhaust pipe 2a for scavenging is connected to the chamber 2. Reference numeral 4 is a seal member such as an O-ring, and 5 is a drive device including a pneumatic or hydraulic cylinder for moving the chamber 2 forward and backward with respect to the apparatus main body 1.

In this embodiment, the subject 3 is, for example, a vehicle aluminum wheel or a road wheel. Of course, in addition to these cases, it can be applied to various test objects 3. The subject 3 is stored and set in a predetermined position in the chamber 2 as shown in the figure, but at that time, it is elastically pressed from both sides by the seal pressure plate 7 via the clamp seal 6. The seal pressure plate 7 is moved back and forth by a drive device 8 composed of pneumatic or hydraulic cylinders.

Reference numerals 9, 10 and 11 are air pressure sources, of which the air pressure source 9 supplies air into the chamber 2 and the air pressure sources 10 and 11 supply air into the subject 3. A differential pressure gauge 12 is attached to the air pressure source 11. A helium gas pressure source 13 supplies helium gas into the subject 3. Reference numeral 14 is a discharge conduit that communicates with the inside of the subject 3. Further, 15 is a chamber 2
The drive motor 16 is a stirring fan installed inside
Is driven to rotate.

Reference numeral 17 is a charge tank for collecting a sample gas to be used for inspection, and this charge tank 17 is connected to the chamber 2 via an opening / closing valve 18.
Reference numeral 19 is a vacuum pump connected to the charge tank 17 via the opening / closing valve 20, 21 is a He-leak detector into which the sample gas is introduced from the charge tank 17, and this He-leak detector 21 is connected via the opening / closing valve 22. Connected to the charge tank 17. In the above case, an opening / closing valve 23 may be attached at an appropriate position of the exhaust pipe 2a, and the opening / closing valve 23 can be appropriately opened / closed to sweep and exhaust the chamber 2. The on-off valve 1 above
The operation of 8, 20, 22, the drive devices 5, 8 and the drive motor 16 are controlled by a control circuit (not shown).

Next, an airtightness inspection method by the airtightness inspection apparatus will be described. The subject 3 is centered in the chamber 2 so as to be set at a predetermined position in the chamber 2, and is advanced from the driving device 8 to be sealed from both sides by the clamp seals 6. And drive device 5
The chamber 2 as a whole by moving the chamber 2 forward.
The chamber 2 is shut off from the outside air at atmospheric pressure and sealed.

Next, air is supplied from the air pressure source 9 into the chamber 2, and the air is discharged from the exhaust pipe 2a,
The inside of the chamber 2 is cleaned. The air used for cleaning the chamber 2 is as dry as possible. In addition, the opening / closing valve 23 is attached to the exhaust pipe 2a.
Is attached, the opening / closing valve 23 is opened.

After cleaning the inside of the chamber 2, a gas, in this embodiment air (4
(kg / cm ² G) is sealed and a differential pressure leak test (gross leak) is performed. This differential pressure leakage inspection is a preliminary inspection for inspecting whether or not there is a relatively large hole or the like in the subject 3, and if such preliminary inspection result is acceptable or good, the subsequent inspection is continued. To be done. After the completion of the differential pressure leak inspection, the enclosed air is exhausted again through the exhaust pipe line 14. As the gas, other than air, for example, a mixed gas of nitrogen gas and air may be used.

After completion of the preliminary inspection, helium gas is sealed in the object 3 from the helium gas pressure source 13. Further, air is supplied from the air pressure source 10 into the subject 3 and pressurized to a constant pressure, and helium gas and air are mixed in the subject 3. In this case, a mixed gas prepared by previously mixing an appropriate amount of helium gas and air is, for example, 4.5 kg / cm ² G
To some extent, it may be directly enclosed in the subject 3. After the helium gas and the air are filled and mixed in the subject 3 at a predetermined pressure as described above, the fan 1 is driven by the drive motor 16.
5 is driven to rotate, and the sample gas in the chamber 3 is diffused and stirred for a certain period of time.

Next, when the sample gas diffused and stirred in the chamber 3 is charged into the charge tank 17, the sample charge tank 17 is evacuated by the vacuum pump 19. That is, open the on-off valves 18 and 20,
On the other hand, the opening / closing valve 22 is closed, and the vacuum pump 19 is operated in this state to collect the sample gas into the charge tank 17. In this case, first, only the opening / closing valve 20 is opened, that is, both the opening / closing valves 18 and 22 are closed to temporarily bring the inside of the charge tank 17 into a vacuum state, and then the opening / closing valve 18 is opened to release the sample gas. Although it can be collected, which method should be selected depending on the type of detection gas used and the like. Then, the He inspection is started next, but the stirring sample gas in the charge tank 17 is replaced by the He-leak detector 2.
When introducing / collecting into No. 1, there are a method in which only the opening / closing valve 22 is opened, and a method in which both the opening / closing valve 20 and the opening / closing valve 22 are opened and the vacuum pump 19 is operated.

In this way, the sample gas is charged from the chamber 3 into the charge tank 17, and the charge tank 1 is further charged.
When the He-leak detector 21 is sampled and introduced into the He-leak detector 21, the open / close state of the opening / closing valve 18, 20 or 22 is set as described above, and vacuuming is performed appropriately. Thereby, the sample gas can be efficiently and promptly sampled into the sample charge tank 17 and then into the He-leak detector 21, and as a result, high measurement accuracy can be obtained. Further, in that case, when the sample gas is charged into the sample charge tank 17, the open / close valve 23 is closed so that the sample gas can be introduced without being diluted and the sample gas can be efficiently collected. it can.

The He-leak detector 21 conducts a He leak test on the sample gas sampled, and judges the leak of the subject 3. After the He leak inspection is completed, the charge tank 17 is evacuated by the vacuum pump 19, and the charge tank 17 is cleaned.

After the He leak test is completed, the mixed gas in the subject 3 is discharged or recovered to the outside through the discharge pipe line 14, and the inside of the subject 3 is returned to the atmospheric pressure. When the result of He leak test is not good (NG), the air pressure source 9 is used to exhaust the agitated sample gas remaining in the chamber 2.
From the above, air is supplied into the chamber 2 to clean the inside of the chamber 2 as described above. In the method of the present invention, the cleaning of the chamber 2 or the subject 3 can be performed after the sample gas is collected and before the leak determination. Finally, the chamber 2 and the seal pressure plate 7 are respectively retracted by the drive device 5 and the drive device 8 to unclamp the subject 3, and the inspection is completed.

As described above, the preliminary inspection is performed on the subject 3, whereby the gross leak of the subject 3 can be inspected and judged in advance. In the He leak inspection, the helium gas used as the inspection medium does not cause an environmental problem. Further, particularly in the differential pressure leak inspection, the inside of the chamber 2 accommodating the subject 3 can be brought to the atmospheric pressure state, and there is no need for a vacuum process or the like, whereby a device configuration for vacuum equipment and its control can be provided. It can be simplified. On the other hand, when collecting gas from the chamber 2 into the charge tank 17 and performing a He leak test, the charge tank 17 is evacuated into the charge tank 17 and then into the He-leak detector 21 efficiently. The sample gas can be quickly collected.

[0024]

As described above, according to the present invention, an airtight inspection of this kind can be safely performed without any danger of causing an environmental problem. Further, the inside of the chamber is inspected at atmospheric pressure, and the inspection is simplified, and when the sample gas is charged and sampled, an appropriate vacuum is drawn, which allows the sample gas to be sampled efficiently. Therefore, high measurement accuracy can be obtained without complicating the device.

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view showing an overall configuration according to an embodiment of an airtightness inspection device of the present invention.

[Explanation of symbols]

 1 Device Main Body 2 Chamber 2a Exhaust Pipe 3 Subject 5 Driving Device 6 Clamp Seal 7 Seal Pressure Plate 8 Driving Device 9 Air Pressure Source 10 Air Pressure Source 11 Air Pressure Source 13 Helium Gas Pressure Source 15 Fan 17 Charge Tank 18, 20, 22, 23 Open / close valve 19 Vacuum pump 21 He-leak detector

Claims (3)

[Claims] 1. A test object is set at a predetermined position in a chamber in a sealing state, the inside of the chamber is cleaned, a gas is sealed in the test object, and a differential pressure leak test is performed.
The enclosed gas is evacuated again, then helium gas and air are enclosed and mixed at a predetermined pressure in the subject, and the sample gas in the chamber is diffused and stirred for a certain period of time, and the sample gas is ejected from the chamber. When the sample charge tank is sampled, the sample charge tank is appropriately evacuated, and then the sample gas is introduced into the He-leak detector from the sample charge tank charged with the sample gas. Inspection method. 2. A chamber for accommodating a subject, a sealing means for sealing the interior of the accommodated subject from the chamber, and means for sealing a gas in the chamber to perform a differential pressure leak test. Means for supplying / exhausting air to / from the chamber, means for supplying / exhausting helium gas into the subject, means for diffusing / stirring the sample gas in the chamber, A means for collecting the sample gas in the chamber, a means for evacuating the means for collecting the sample gas, and a leak detector for inspecting the collected sample gas to detect a helium leak. Airtightness inspection device characterized by 3. The airtightness inspection apparatus according to claim 2, wherein an on-off valve is attached to an exhaust pipe connected to the chamber.