SU795538A1 - Method of testing gas-filled vessels for hermetic sealing - Google Patents

Description

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The invention relates to mechanical engineering and can be used in Bcs attempting to fill vessels filled with a working medium, such as carbon dioxide fire extinguishers.

A known method for testing the tightness of gas-filled vessels, which consists in placing the vessel in an airtight container, evacuates the internal vessel. half the tank capacity and measure the magnitude of the leak | gas from the vessel.

However, the well-known vessel does not provide the necessary intensity of testing due to the slowly flowing processes of separating gas puffs from the inner surface of the container and the outer surface of the Test Vessel.

The purpose of the invention is to intensify the tests.

The goal is achieved by the fact that in a known test method the vessel is heated before being placed in a container and the vessel is filled with an inert gas under pressure. At the same time, evacuation is performed to a pressure not lower than

about 5 10 mm Hg

The drawing shows a device implementing the proposed method.

The device contains a container 1 for placing carbon dioxide fire extinguishers 2c with a sealing cover 3. The connector between the container 1. And the cover 3 is sealed with a seal 4. The container 1 is connected by pipeline 5 through valve 6 to the vacuum system (jja drawing not shown) by pipe 7 to pressure measurement sensor 8 made in the form of a liquid manometer.

The cover 3 is fixed to a spring bracket consisting of a cylindrical guide 9, spring Yu and bracket 11. The neutral gas is supplied to the tank through pipelines 12 and 13 through valve 14 and unit 15 for drying and heating the neu- tral gas.

The method for testing the tightness of gas-filled vessels is carried out as follows.

Fire carbon dioxide extinguisher 2 is heated in a thermostat (not shown in the drawing) to 50-60 C. As a result of the heating, the pressure in the fire extinguisher increases, which increases the sensitivity of the control. At the same time, the valve 14 is opened, and the gas, heated and dried in block 15, flows through pipelines 12 and 13 into the tank. When the volume is filled, a capacitive gas, such as a spring 10, moves cattle rod 11 along guide 9 to the correct upper position, and the neutral gas emerging from the tank prevents atmospheric air from entering the container. The heated fire extinguisher 2 is placed in a tank 1 filled with an inert gas, closed with a sealing pot 3, thus stopping the supply of inert gas through the valve 14.

The valve 6 is opened and the cavity of the tank is evacuated to a stable vacuum, fixing its value with the sensor 8. The valve 6 is closed and, during a fixed period of time, the change in the degree of vacuum in the tank is determined, the size of the gas leakage from the fire extinguisher is determined. At the end of the measurement, the valve 14 opens and the fire extinguisher is removed from the container. Then into the tank

the next extinguisher is placed and the cycle repeats.

The use of a heated inert gas intensifies the testing process, since dry gas can be easily separated from the surface of the container and fire extinguisher, reducing the evacuation time of the internal cavity of the container, and preheating the fire extinguisher increases the pressure in the fire extinguisher, which increases the sensitivity of the extinguisher tests.

Claims (1)

Invention Formula The method for testing the tightness of gas-filled vessels, mainly carbon dioxide fire extinguishers, which consists in placing the vessel in an airtight container, evacuating the internal cavity of the container, and measuring the amount of gas leaking from the vessel, characterized in that, in order to intensify the tests, before placing the vessel in the container its heating and the tank are filled with a heated inert gas under pressure, at the same time, the vacuum is produced to a pressure not lower than 5-10 mm Hg. Sources of information taken into account in the examination of 1, USSR Author's Certificate NO 337674 Cl. G01L 23/00, 1969. // // eight / 977 /