SU586290A1 - Safety device - Google Patents

Description

The invention relates to the field of fittings, and more specifically, to safety devices for systems under pressure, and can be used in thermal control systems of sealed objects. A safety device is known, consisting of a cornus with a piston located in it, which separates the internal cavity into a gas and liquid cavity, the liquid one having a controlled system. The disadvantage of this device is the low sensitivity associated with the presence of friction in sealing rings, and tightness is incomplete. It is also known a safety device consisting of a body in which two cavities, gas and liquid, are made, separated by a flexible diaphragm, the gas cavity connected to the atmosphere and the liquid channel with an adjustable system. A disadvantage of the known safety device is the low accuracy of pressure maintenance in the hydraulic system . The purpose of the invention is to improve the accuracy of pressure maintenance in the system. This is achieved by the fact that a partition is installed between the liquid cavity and the channel, and there is a safety valve and a pump on the cavity side, the valve inlet and outlet of the pump with a channel, and the valve outlet and the pump inlet with a liquid cavity. The drawing shows a safety device, a general view. The safety device contains a cord 1, in which a gas A and liquid B cavities are made, separated by a flexible diaphragm 2. Gas cavity A is bounded on one side by a diaphragm 2, and on the other side by a hemisphere 3, with a spring-loaded movable cup 4 placed on it, fitted with a supporting thicket 5 with a bulge in the direction of the diaphragm and a spring 6, and is connected through the openings 7 to the atmosphere. The liquid bone of B is formed by the diaphragm 2, the housing 1 and the partition 8 and is connected by a channel (not shown in the drawing) with an adjustable system. On the partition 8, a safety valve 9 and a pump 10 are located. The inlet 11 of the valve and the outlet of the pump are connected via a channel with an adjustable system, and the outlet of the valve and the inlet pump are connected with a liquid. The operation of the safety device is as follows. With increasing pressure in the regulated

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due to the expansion of the fluid, when the temperature rises, a safety valve 9 is installed, which is installed in the fluid cavity B of the safety device, and excess liquid from the temperature-controlled system flows into the cavity B.

In the case of liquid cooling, a decrease in its volume occurs and the pressure in the system decreases. At the same time, the pump 10 is turned on by a signal from the pressure sensor. The pump 10 pumps a part of the fluid from cavity B into the system until pressure is restored, after which the pump is turned off. When the pressure in the system increases, when valve 9 is triggered, some of the fluid is released from the system into cavity B and mixes flexible diaphragm 2, displacing air from cavity A through openings 7 into the atmosphere.

With a further increase in the amount of fluid in cavity B, when the diaphragm displaces all air from cavity A and reaches the walls of the cavity, a mechanical protection system begins to work: diaphragm 2 acts on the support bowl 5 of the movable cup 4, compressing the spring 6.

The accuracy of pressure maintenance in the system depends only on the setting of the sensors and can be set arbitrarily small,

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in addition, the implementation of the device with two stages of protection more case protects the system.

F o rm} l and inventions

The safety device, in the case of which two cavities, a gas and a liquid, are formed by means of a flexible diaphragm,

the gas cavity communicating with the atmosphere and the liquid channel with an adjustable system, characterized in that, in order to improve the accuracy of pressure maintenance in the system, between the liquid cavity

and a baffle is installed in the channel, with a relief valve and a pump located on the cavity side, the valve inlet and outlet of the pump are connected to the channel, and the valve outlet and the inlet of the pump with a liquid cavity.

Sources of information taken into account in the examination

1. Bashta TM Calculations and designs of aircraft hydraulic devices. M.,

“Oborongiz, 1961, p. 303, fig. 2126.

2. Bashta TM. Calculations and designs of ca}, -let of hydraulic devices. M., “Oborongiz, 1961, p. 305, fig. 2146.