SU781649A1 - Apparatus for article tightness monitoring - Google Patents

Description

one

The invention relates to mechanical engineering, namely to devices for monitoring leaktightness with the help of pressure sensitive transducers.

A device for monitoring the leaktightness of products is known, a coaxial chamber for accommodating a test article and a pneumatic transducer with a jet element l.

However, the device provides control of the tightness of products with low sensitivity.

The closest to the invention to the technical essence and the achieved result is a device for monitoring the tightness of products, containing a chamber for placing a controlled product, a membrane transducer, the input cavity of which is connected to the chamber, and the output cavity is connected to the measuring pneumatic unit through a nozzle that interacts with the membrane transducer 2 .

The disadvantage is that the device does not provide control of large leaks and fails because of the destruction of the membrane with large gas leaks from the test product.

The purpose of the invention is to expand the range of monitored leakages and increase the reliability of the device.

To achieve the goal, the device is equipped with an additional membrane of greater rigidity, rigid

10 by a partition, having a conical opening coaxially with the nozzle and a stem mounted between the membranes, mounted in the conical opening and made in the form of a truncated cone, the larger base of which is connected to an additional diaphragm, and the smaller base interacts with the first membrane, and an adjustable choke whose entrance connected to the input

20 cavity transducer, and the output with a cavity formed by a septum and an additional membrane.

The drawing schematically shows the device.

25

The device comprises a chamber 1 for accommodating the test article 2, a membrane transducer 3, an input cavity 4 which is connected to the chamber 1, and an output cavity 5 is connected to a measuring pneumatic unit,

b through the nozzle 7, which interacts with the membrane 8 of the converter 3. On the side of the input cavity 4, an additional membrane 9 of greater rigidity is installed in the converter.

Between the membranes 8 and 9, a rigid partition 10 is installed, which has a conical opening 11 coaxially with the nozzle 7, in which the rod 12, made in the form of a truncated cone, is located. the large base of which is connected to the additional membrane 9, and the smaller axis interacts with the membrane 8. The input cavity 4 of the converter 3 and the cavity 13, formed by the partition 10 and the additional membrane 9, are connected by a main line with an adjustable choke 14,

The device works in the following way ..

Gassed product 2 is supplied with gas under pressure. If there is no leakage, the membrane 8b is deformed, and the jets of BOisJiyxa iyayeritelnbgb pneumoblock b passes freely through the nozzle 7 into the exhaust cavity 5 of the transducer 3 and out of it into the atmosphere. In the case of a counter. and small leakage in the chamber 1, in the inlet cavity 4 of the converter 3, in the cavity 13 m, between the partition 10 and the additional membrane 9 and in the cavity between the partition 10 and the first membrane 8, the pressure on the additional membrane 9 evenly or correctly increases caused by adjustable throttle 14, is insufficient for the deflection of the additional, more rigid membrane 9, and the membrane 8 bends and covers the exit of the air jet from the nozzle 7, which is registered by the measuring pneumatic unit

By controlling the repivieTH4HocTH product with a large leakage on the additional membrane, a pressure differential is created enough to deflect it, while the rod 12 moves in the conical bore 11 nep town 10 until it touches the first membrane 8, which moves towards the nozzle under the action of the rod 12 and pressure limited by additional throttling of the flow in the decreasing annular gap between the conical bore 11 and the rod 12.

The change in the range of values of the controlled leaks is carried out by adjusting the chokes 14,

In case of leakages exceeding the maximum monitored value, the additional membrane, deflection, trans-. closes the exit from the line with the choke 14 into the cavity 13, protecting the membrane 8 from overload.

The invention allows to record both coarse and small leaks without readjustment when monitoring the tightness of products and has increased reliability.

Claims (2)

1. Sazhin S.G. et al. Automation of leak tightness testing of Mass production, Gorky, Volga-V tsik publishing house, 1977, p. 103 2. USSR author's certificate in accordance with the application 248 4007 / 25-28, cl. G 01 M 3/26, 1977 (prototype).