SU1250862A1 - Method of leakage testing of articles - Google Patents

Abstract

The invention relates to the control of leak tightness by a mass spectrometry method and permits an increase in the sensitivity and reliability of the control by providing the possibility of detecting a leak until a gas flow that is inadmissible for a leak detector. The controlled product is placed in the chamber, the test gas is supplied to the product, and after exposure, the gas sample is passed through the chamber through a selectively permeable sample gas element to a leak detector, according to the indications of which the product is leaking, and the area of the selectively permeable element is selected based on the required sensitivity and the thickness is due to the condition that the time allowed for the leak detector to reach the full gas flow through the selectively permeable element exceeds the time it reaches the minimum th detected teche- crawler sample gas stream, and selectively permeable element is formed from open toporistogo material. This makes it possible to register a leak and cut off the gas flow from the detector before the gas flow through the selectively permeable element reaches the maximum permissible for the leak detector. 1 3. Clause f-ly, 1 ill. i (l ate o o o o) y

Description

The invention relates to a measurement technique and can be used to control the leaktightness of products using a mass spectrometric method.

The purpose of the invention is to increase sensitivity and reliability by making it possible to detect a leak until it reaches the maximum gas flow allowed for a flow detector.

The drawing shows a diagram of the device for implementing the method.

The device comprises a chamber 1 for accommodating a controlled article 2, a gas-permeable prefix 3 with a selectively permeable gas sample element 4, a cavity 5, on one side of which is communicated through valve 6 with chamber 1, and a cavity 7 on the other side of the selectively permeable element 4 communicates through a valve 8 with those of the vacuum station 9, 9, communicated through the valves 11 and 12, respectively, with cavities 5 and 7. The selectively permeable element 4 of the manufacture is in the form of a set of discs, the area of which is chosen from the conditions required th sensitivity, and thickness - of conditions exceeding allowable scheni time to achieve complete leak detector for gas flow through the selectively permeable element over time to achieve a minimum registriue- direct leak detector the sample gas stream. The selectively permeable element 4 can be made from both microporous material with a molecular mode of gas flow through the pores, and from materials with selective ability (polymeric materials), the permeability of which is due to the electron interaction between the gas and solid molecules.

The method for controlling the tightness of products is implemented as follows.

The product 2 is placed in the chamber 1, the latter is sealed, the product 2 is supplied with helium and the product 2 is kept. Simultaneously, the cavities 5 and 7 of the attachment 3 are pumped out by pumps of the vacuum station 10 to a pressure of 5-10 mm Hg. After holding the product 2, the valves 11 and 12 are closed, the valves 6 and 8 are opened and the contents of chamber 1 are passed into the cavity 5 of the attachment 3. Through the selectively permeable element 4 of microporous material, helium passes earlier than air and other gases. Therefore, a total gas flow exceeding the gas flow allowed for the leak detector 9 will be formed earlier than in cavity 7, valve 8 will be closed and valves 11 and 12 will be opened to release cavities 5 and 7 from the residual gases in them. The number of disks in the set was set depending on the required difference in the time of the flow of gels and the total flow of all gases. So with the free volume of the camera

five

1, equal to 0.1 l, and permissible leakage, equal to 5, l-μm / s, the length of the selectively permeable element 75 mm, its diameter 80 mm through 7 s, the flow of the leak on the leak detector 9 is fixed on the scale O-1 V as a useful signal 430 mV, and if you do not disconnect the leak detector, it is turned off after 11 axes using a vacuum interlock when the total leakage flow approaches the maximum allowed.

Disconnecting the leak detector 9 from the element 4 after registering the permissible leakage allows to exclude the operation of the protection and thereby to find the reliability of the tests and operation of the equipment.

Thus, the invention allows

by increasing the area of the selectively permeable element to significantly increase the sensitivity of the control. At the same time, the use of a known pattern, according to which the diffusion rate

0 gas through a gas-permeable barrier is inversely proportional to the square root of its molecular weight, allows first to leak test gas 9 such as helium to the leak detector, fix the signal it creates and cut off the flow of other gases passing through the selectively permeable element 4 through the leak detector 9 some time after the registration of the useful signal.

The implementation in the proposed device of a selectively permeable element of a gas permeable prefix made of open-cell material with the Knudsen mode of gas flow in the pores makes it possible to obtain a clearer temporary boundary between gases penetrating the element, and the longer the element of open-cell material, the clearer these boundaries. All this will increase the diameter of the selective element and increase the sensitivity of the control.

Claims (2)

1. Method of monitoring the tightness of products by placing the product into the chamber, feeding the sample gas into the cavity on one side of the product, holding the product, taking a portion of the test gas on the other side of its walls, passing it through a selectively permeable gas sample and registering it with a leak detector the amount of propane gas produced, by which a leakage of a product is judged, characterized in that, in order to increase sensitivity and reliability, the area of the selectively permeable element is chosen from provide the required sensitivity, and thickness - of conditions exceeding the time dostizhe5 audio allowable leak detector to complete the gas flow through the selectively permeable element over time to achieve the minimum detectable leak detector 0 five the sample gas stream, and after recording the amount of sample gas corresponding to the permissible leakage, disconnect the leak from the selectively permeable element. 2. A method according to claim 1, characterized in that an element from an open porous material is used as a selectively permeable element in the test gas. 72 l //