SU1622695A1 - Safety device - Google Patents

Description

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(21) 4472463/29 (22) 08.23.88 (46) 01.23.91. Bul Number 3

(71) Leningrad Institute of Railway Engineers

them. Acad. V.N.Obraztsova

(72) V.I. Zubov and G.Ye. Sereda (53) 621.646 (088.8)

(56) Patent of France No. 2353779, cl. F 16 K 17/00, 1976.

Patent GDR Nfc245021, cl. F 16 K 17/04, 1987.

(54) SAFETY DEVICE

(57) The invention relates to valves and can be used in moving tanks, including in mobile cryostats. The purpose of the invention is to increase the reliability of operation by eliminating fluid loss. Before starting the operation, container 4 is filled with fluid through valve 7. When chamber 1 is moving, the liquid in tank 4 begins to act on its walls. Since the material of the container does not allow the liquid to pass through, but it passes the vapor, liquid does not leak, and the liquid vapor, regardless of the direction of movement of the chamber 1, passes through the container 4 into the gap 5, and from it into the drain hole 2, thereby preventing the system from breaking . 1 il.

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The invention relates to reinforcement construction and can be used in mobile tanks, including mobile cryostats.

The purpose of the invention is to increase the reliability of operation by eliminating fluid loss.

The drawing shows a safety device having a chamber and a locking hydraulic device of spherical shapes, a general view.

The safety device consists of a chamber 1 with a drainage hole 2. Inside chamber 1, on supports 3, there is a reservoir 4, and there is a gap 5 between chamber 1 and reservoir 4. Pipeline 6 connects reservoir 4 to the liquid line. A valve 7 is installed in the pipeline 6. In the case of the container 4 being made of a non-rigid material, it can be equipped with a safety cage accommodated therein to preserve the shape of the container and to prevent it from collapsing.

Chamber 1 can be made of durable and gas-proof material, for example stainless steel, titanium, aluminum alloys, or it is made in the form of a cryostat, i.e. of two gas-tight walls with superinsulation between them.

The chamber 1 through the drainage hole 2 communicates with the surrounding space or it is connected to a gas collector (gas tank). The supports 3 are made of durable material, for example stainless steel or fiberglass laminate, or another similar material with good strength characteristics and low thermal conductivity, which is expedient if the liquid is a refrigerant and the device to be cooled is a superconducting device.

Inside the vessel 4, a superconducting device (not shown) can be placed. The material of the container 4 is such that it does not let in liquid, but passes it in vapors. For liquid gels, such material can be porous nickel or ceramics.

The device works as follows.

Before starting work, the tank 4 is filled with liquid, for which the valve 7 is opened. Liquid from the liquid line 6 enters tank 4, and its vapors pass through the body of tank 4,

enter the cavity formed by the gap 5 between the chamber 1 and the container 4. and through the drainage opening 2 are removed into the drainage gas pipeline connected to

gasholderom, or to the environment. After charging, the valve 7 is closed, the container 4 is disconnected from the liquid line. When the liquid evaporates its vapor through the gas-permeable surface of the capacitance 4 or through the perforations of the frame, the walls of the container 4, through the drainage hole 2 are removed into the drainage gas line, while the safety device works as a safety valve, releasing excess pressure of liquid vapor from the container 4.

With the start of movement under the action of forces acting on the container 4 with the liquid, the latter begins to accelerate, being affected

on the wall of the container 4. Due to the fact that the liquid line 6 is disconnected from the container 4, and the walls of the container 4 are made of a material impermeable to liquid, the latter from the container 4 is not lost due to acceleration of an arbitrary size and direction. At the same time, liquid vapors have the ability to drain from the tank 4. to protect it from destruction, i.e.

The device works as a safety valve. The superconducting device, which may be in the capacitance 4, is not dried, thereby preventing the superconductor of the superconducting device from going into a normal (non-superconducting) state and increasing the reliability of the superconducting device as a whole. The liquid is drained from the container 4 in the order opposite to the filling of the container, while gas or air is passed into the container 4 to replace the liquid to be poured.

Claims (1)

Claims of the Invention A safety device comprising a chamber with a drainage hole, a locking device located in the chamber, fastened with it, made of a material not diffused by the liquid, but diffused by its vapor, characterized in that. that, in order to increase the reliability of operation, the locking device is made in the form of a tank located with a gap along the walls, and the gap is connected to the drainage hole.