SU1652845A1 - Method for checking air-tightness of articles - Google Patents

Abstract

The invention relates to hydraulic tightness tests and can be used in mechanical engineering, chemical industry, etc. The purpose of the invention is to increase the sensitivity and reliability. The method consists in filling the product with liquid and measuring the amount of liquid vapor outside the product using a leak detector, and leakage is measured after draining the liquid from the product, as the difference between the background signal obtained before filling the product with liquid and the maximum signal obtained after draining the liquid. 5 il.

Description

The invention relates to hydraulic tightness tests and can be used in mechanical engineering, chemical industry, etc.

The purpose of the invention is to increase sensitivity and reliability by providing the highest possible leak signal.

FIG. Figure 1 shows a product having a through microcamera filled with a liquid with the meniscus position in equilibrium until the liquid is drained from the product; in fig. 2 - through microchannel in the product after draining the liquid with the formation at its entrance drops; in fig. 3 - position of the meniscus of the liquid in the microchannel after the droplet is drawn into the microchannel; in fig. 4 - experimental installation, with which the proposed method of controlling the tightness of the product is tested; on

FIG. 5 - diagrams representing the results of the experiment (Ј - leak detector signal, T - time).

The method of controlling the tightness of the product is carried out as follows.

The product 1 is placed in a snap-in 2, a leak detector is set up, as which the LHM-80 chromatograph 3 is used in the experimental setup, and the background signal 4 shown in the diagram is measured (Fig. 5). The product 1 is charged with working fluid 5. as which use Chlondond-113. If necessary, the product 1 is supplied under pressure gas (for example, argon). The liquid 5 under the action of capillary forces is drawn into the through microchannel of the wall of the product 1 (figure 1). At the same time, the signal on the chromatograph 3 increases (in Fig. 5, this signal 6). Give technological exposure. This mode is characterized by equilibrium.

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There is a connection between the evaporating liquid 5 of the microchannel meniscus and the liquid 5 feeding the microchannel. Drain the liquid 5, maintaining in the product 1 test gas pressure. In the experiment, the discharge of liquid 5 is provided by the rapid evaporation of freon-113 in the process of aging.

After draining in the form of droplets, some liquid 5 remains. One of the droplets 7 is necessarily formed at the entrance to the microchannel. Under the influence of surface tension forces, liquid droplets 7 are drawn into the microchannel and cause the meniscus to move closer to the mouth of the channel.

Since fluid 5 in drop 7 is significantly larger than in the channel itself, and the surface forces in drop 7 increase as its radius decreases due to fluid 5 being drawn into the channel, there is a significant movement of the meniscus (the position of the meniscus is

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FIG. 1 and 3), and consequently, a significant increase in the flow rate of the fluid 5. In this case, a sharp increase in the signal of the chromatograph 3 and the obtaining of the maximum value of the signal 8 are observed.

The leakage is determined by the difference in the maximum pressure of the signal 8 of the leak detector on the outflow of fluid 5 after draining the last and background signal 4 obtained before filling the product 1 with fluid 5.

Claims (1)

Invention Formula The method of controlling the tightness of the product, which consists in filling the product with liquid and measuring the amount of liquid vapor outside the product, characterized in that, in order to increase the sensitivity and reliability, the liquid from the product is drained before measuring. ; SG U1 1 / r-v FIG. t Compiled by I.Lucheva Editor M.Petrova Tehred L.Serdyukova FIG. 2 Fig.d Phage. 5T Proofreader N.Korol