RU7503U1 - DEVICE FOR MONITORING PRODUCT TIGHTNESS - Google Patents

Abstract

A device for monitoring the tightness of products containing a chamber with channels for entering and exiting the carrier gas and a leak detector connected to the camera outlet, characterized in that a sorption storage element is installed between the chamber and the leak detector.

Description

YcipoECTBO for KOV1ROLYa tightness of products

The device relates to test equipment and can be used to control the tightness of products.

The device is known Sazhin S.G., Evlampiev A.I., Makarov Yu.N. Automation of tightness control using a halogen leak detector // Defectoscopy.- 1978.- No. 6.- p.37-40 for monitoring the tightness of products, containing a chamber with channels for entry and exit of carrier gas and a leak detector connected to the chamber output. During the inspection, the product / filled with test gas is placed in the chamber and kept for a certain time. If there is a leakage in the product, the sample gas leakage flow accumulates in the chamber and when it is purged with a gas carrier, the sample gas enters the sensitive element of the leak detector, which is indicated. If a controlled product with a complex configuration or product dimensions is relatively large, then when the carrier is purged with a carrier gas, the concentration of test gas in it may be lower than the sensitivity threshold of the leak detector. This is a disadvantage of this device.

The task of the solution is to improve the quality of control.

The technical result is an increase in the sensitivity of control.

This result is achieved by the fact that in the device for monitoring the tightness of products containing a chamber with channels for entering and exiting the carrier gas and a leak detector connected to the outlet of the chamber, an additional sorption storage element is installed between the chamber and the leak detector.

about 01 m 3/02

The tightness control device comprises a chamber 1, in which the controlled product 2 is located, channels for entry and exit of the carrier gas 3, 4 with shut-off valves. The sensing element 5 of the leak detector 6 is connected to the output of the camera, and between them is a sorption storage element 7. The device operates as follows. In the chamber 1 is placed the controlled product 2. The valves on the input 3 and output 4 channels are closed. The product is kept in the chamber for a certain time. If the product is not hermetic, then in the free space of the chamber accumulation of test gas leak occurs. Then the valves open, purge the chamber with carrier gas and discharge it into the atmosphere. In this case, the test gas is sorbed in the storage element 7. Further heating of this element leads to intensive desorption of the accumulated test gas, which in the carrier gas stream enters the sensitive element 5 of the leak detector b.

Example. A product with a volume of 5 liters was controlled, while the free volume between the product and the camera was 1.2 liters. The control medium is ammonia-air mixture. As a sensitive element, a piezoresonant mass-sensitive detector (Malov V.V. Piezoresonant sensors, Moscow: Energoatomizdat, 1989.- 272 p.) With an initial frequency of a quartz resonator of 10 MHz was used. After applying a sensitive coating, the initial frequency decreased by 40 kHz. 0.2 grams of activated carbon was loaded into the sorption storage element. The exposure time of the product in the chamber was 150 seconds, the purge time of the chamber by the carrier gas was 30 seconds with a flow rate of 2 l / min. After that, the sorption storage element was heated to a temperature of 150 ° C, after which it was purged -; carrier gas with a flow rate of 0.5 l / min for 5 seconds. In this case, the leak detection threshold was 10 m Pa / s, and without the use of a storage element, 610 m Pa / s, which indicates an increase in sensitivity.

Vice-rector p / Petrikov V.G. / / Dobrotin S.A. / / Maslennikov A.V. /

Claims (1)

A device for monitoring the tightness of products containing a chamber with channels for entering and exiting the carrier gas and a leak detector connected to the chamber outlet, characterized in that a sorption storage element is installed between the chamber and the leak detector.