SU1696925A1 - Method of checking articles for tightness - Google Patents

Abstract

The invention relates to leak tightness control using a pneumatichydraulic method and allows extending the operational capabilities by simultaneously controlling the inner wall of multi-cavity products. The product with a free hole is immersed in a liquid and create pressure in it. Then, the space above the liquid is evacuated in such a way that the level of the liquid column inside the cavity is kept constant and coincident with the plane of the free opening. The presence of a leak in the internal cavity is judged by gas bubbles flowing from the free opening of the product. 1 il.

Description

The invention relates to leak tightness control using a pneumatichydraulic method and can be used to test the leak tightness of products whose internal cavity is not closed.

The purpose of the invention is the expansion of technological capabilities by simultaneously controlling the inner wall of multi-cavity products.

The drawing shows a diagram of an apparatus for carrying out the method.

The device comprises a container 1 with a liquid in which the test article 2 is immersed, a cover 3 mounted on the container 1, a vacuum gauge 4 placed on the cover 3 and communicating with the internal cavity of the container 1, and a vacuum pump 5 connected by means of a valve 6 to the internal cavity of the container one.

The method is carried out as follows.

The test product 2 is immersed in the container 1 with the liquid, oriented open

surface 7 is parallel to the liquid mirror so as to keep E open cavity 8 ggs, and immersed to a depth of N. Then close the container 1 with the cover 3 and the cavity between the liquid and the cover 3 vacuum pump 5 after opening the valve 6.

After vacuuming the cavity 9 to a pressure of PBA in cavity 3, a pressure equal to Pvs + / ed N is controlled, which is controlled with a vacuum gauge 4. Gas, which is in cavity 8 and initially compressed to pressure p g H, expands, flows partially and completely fills cavity 8. Under the action of a pressure differential, varying from zero (surface 7) to p g (H - h) at the top of cavity 8, gas bubbles form and tear off from the existing leaks on the test surface 10 of product 2 judged on the tightness of the product. Simultaneously (in the presence of leaks on

(L

WITH

oh oh oh

go

SP

inner surface 11) gas bubbles emerge from the open surface 7.

When the product is lowered into a liquid, the gas in the product cavity is compressed from the atmospheric pressure Ратм to the pressure Ратм + р g H, where р is the density of the liquid; H is the height of the liquid column; g is the acceleration of the force of gravity.

At the same time, the liquid level in the product rises above its cut. During the evacuation process, the pressure in the space above the liquid decreases, the gas in the cavity of the product expands, pushes the liquid out of the product, and the level of the liquid approaches the cutoff. When a certain pressure Pi is reached, the level of the liquid in the product coincides with the cut, while the pressure in the cavity of the product is equal to atmospheric Ratm.

Based on the equality of pressures at the cut of the product, have

Ratm P1 +.

A further decrease in pressure above the surface of the liquid is not infinite and is determined by the pressure of the saturated vapor of the liquid Ps. If the pressure above the liquid surface is less than the saturated vapor pressure, then intense evaporation of the liquid occurs and gas bubbles appear on its surface, which interfere with the tightness test.

From this, the pressure to which the space above is vacuumed

liquid, determined from the condition (Ratm- / oggh). Pi Ps. In this case, an extraneous source of pressure in the test cavity is not required, and the immersion depth H, for example, for water

must be less than 10 m.

Claims (1)

The invention The method of testing for leaktightness of products, which consists in creating an overpressure of gas in the product by immersing it with a free hole in a liquid so that its axis is perpendicular to the surface of the liquid, the space above the liquid is evacuated so that the level of the liquid column inside the cavity maintain a constant and coincident with the plane of the free hole, and the presence of a leak is judged by the release of gas bubbles on the walls of the product, characterized in that, in order to expand technological capabilities by simultaneously controlling the inner wall of multi-cavity spaces, gas bubbles flowing from free opening of the product, and it is judged by the presence of leaks in the inner wall.