SU721688A1 - Method and apparatus for fluid-tightness testing of articles - Google Patents

Description

The aim of the invention is to reduce the energy costs of separating gels from a gas mixture.

This goal is achieved by using carbon dioxide as the carrier gas.

The method can be carried out by installing a new design. The difference in the installation that allows the proposed method to be implemented is / that the component separation unit consists of a cooler-separator, a source of refrigerant and a regenerative heat exchanger.

The proposed method is implemented as follows.

The product is filled with a mixture of helium and a carrier gas, carbon dioxide is used as a gas carrier, the product is sealed with a leak detector, and then the helium is regenerated from the mixture to be used repeatedly for testing.

The drawing shows an installation diagram for implementing the proposed leak test method.

The installation contains a reservoir 1 of gels and a reservoir 2 of carbon dioxide gas, connected to a common line connected to item 3, a rubber-fabric receiver 4, a compress 5 for pumping the gas mixture from the receiver 4, a gas tank 6, a compressor 7 for pumping the gas mixture from, gas holder 6, unit 8 for cleaning the gas mixture from oil, unit 9 for cleaning the gas mixture from water vapor, unit 10 for extracting low-boiling components, consisting of a cooler-separator 11, a source 12 of the refrigerant and a per-generative heat exchanger 13, an accumulator 14 Torr carbon dioxide sodinenny yield regenerative heat exchanger 13 and the accumulator 15 gels, coupled to the output 11 of the separator-cooler.

The unit for testing leaktightness works as follows.

The test article 3 is installed in the installation, the pipelines are connected, and the product 3 is filled with carbon dioxide. After that, the product from tank 1 is filled with helium to create the necessary concentration of the mixture. After the product has been filled, some time is allowed to smooth out the concentrations of the components and form a homogeneous mixture, after which the leak tightness of the product with the PTI-7 device (7A) is performed.

After completion of monitoring the tightness of the gas mixture of helium-carbon dioxide is released from the product 3 in the rubber fabric receiver 4 and

he is ... pumped by a compressor

5c gas tank 6. From gas tank

6 the mixture is sucked off by the compressor 7 and is directed through block 8, the block

9 cleaning from water vapor in the block 10 for extracting low-boiling components. Unit 10 consists of a cooler separator 11, in which the mixture is cooled below the phase transformation temperature of carbon dioxide with a refrigerant, such as liquid oxygen supplied from source 12. The carbon dioxide released into the solid phase is placed, for example, manually, into a regenerative heat exchanger 13, where it occurs transition to the gaseous phase, and then through the battery 14 it enters the reservoir 2. 11 helium released in the refrigerator separator through the accumulator 15 enters the reservoir 1. At the next | Is. Simultaneously with the described process of the installation, carbon dioxide is continuously supplied to the product 3 until its concentration in the product reaches 99.5%, and the concentration can be controlled by helium using the device ПТИ-6,7 {7А) . Gel concentration should be 0.05%. When this concentration is reached, the carbon dioxide purge is stopped and the helium valve in the unit is closed.

The use of the proposed method of testing products for leaktightness and installations for its implementation reduces the cost of evolving the test gas (gels) during its repeated use.

Claims (2)

1. Method of testing products for tightness, which means that the product is filled with a mixture of gels and carrier gas under pressure, determine the leaktightness of the product using a leak detector, and then regenerate the gels from the mixture for repeated use in the test, characterized in that, in order to reduce the energy costs of separating the gels from the gas mixture, as a gas carrier carbon dioxide is used. 2. An installation for carrying out the method according to claim 1, comprising tanks of gas mixture components included in a closed loop, a receiver, compressors, a gas tank, blocks for cleaning the mixture from oil and water vapor, batteries, a block for extracting from a mixture of low boiling components characterized in that the component extraction unit cocfTOHT from the refrigerator-separator, the source of the refrigerant and the regenerative heat exchanger. Sources of information taken into account in the examination 1. Modern methods and means of control of the g-sealing of products, UDC 620.165.29, NIAT, 1974, p. 40. 2. USSR author's certificate  264745, cl. G 01 M 3/02, 1967 (prototype). (2 LC