RU2037716C1 - Gas safety device - Google Patents

Abstract

FIELD: low-pressure pneumatic systems. SUBSTANCE: seat is installed on the side of the inlet port. The shut-off member is made in the form of two coaxially installed valves, the inner valve has a rod. Adjusting nut with a hole is installed at the end of the outer valve. The space of the sensing element communicates with the inlet port. The seat is made as a funnel, it is secured on the body and makes up the shut-off pair together with the outer valve. Made in the outer valve is the central through hole overlapped by the inner valve whose rod is passed through the hole of the nut restricting the displacement of the inner valve and secured on the tie of the movable system. The sensing element is made as an elastic ball installed between the body and stop of the movable system. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to automation elements in pneumohydraulic systems and may find application in low-pressure pneumatic systems to protect them from overloads.

 A device is known that contains a locking element interacting with the main and additional sensitive elements interconnected by a sleeve with a discharge channel made in it, connecting the cavity between the sensitive elements with the valve outlet and an additional closed locking element interacting with an adjustable lock.

 Closest to the invention is a gas safety device comprising a housing, a seat mounted on the inlet side, a shut-off element made in the form of two coaxially mounted valves, the inside of which is made with a stem, an adjusting nut with a hole installed in the end of the external valve, sensitive an element whose cavity is in communication with the input channel, and a movable system with a stop and rods.

 A disadvantage of the known devices is the design complexity and the need for additional means for indicating pressure.

 The objective of the invention is to simplify the design and increase the sensitivity of the device.

 This task is achieved by the fact that in the device containing the housing, the seat mounted on the input channel side, the shut-off element made in the form of two coaxially installed valves, the inside of which is made with a rod, the adjusting nut with a hole installed in the end of the external valve is sensitive the element, the cavity of which is in communication with the inlet channel, and the movable system with emphasis and rods, the seat is made in the form of a socket mounted on the body and forms a locking pair with the external valve, while in the outer m the valve has a central through hole overlaps the inner valve stem which is passed through the hole of the adjusting nut, which limits movement of the inner valve and fixed to the rod of the moving system and the sensitive element is designed as an elastic ball mounted between the housing and the stop motion system.

 In FIG. 1 schematically shows a gas safety device; in FIG. 2 node I in FIG. 1.

 The gas safety device comprises a housing 1 connected to the input channel 2. In the housing 1, on the side of the input channel 2, a locking element 5 interacting with the sensitive element 3 through the movable system 4 is located. The cavity of the sensitive element 3 is in communication with the input channel 2, where the locking element 5 has a saddle 6, made in the form of a bell, a lower valve 7 and a corkscrew 8, while the saddle 6 is mounted on the housing 1 of the device and connected to the inlet channel 2. A lower valve 7 is installed on the bell of the saddle 6. The corkscrew 8 is installed on the through versts 9 of the lower valve 7 and connected to the rod 10 of the movable system 4, passing through the hole of the sealing nut 11, abutting against the corkscrew 8. The sensing element 3 is made in the form of an elastic ball and is installed between the housing 1 and the stop 12 of the movable system 4. The movable system 4 interacts with additional load 13.

 The device operates as follows.

 The working medium (gas) creates pressure in a closed system and an inlet channel 2 connected to a closed system. When exposed to pressure on the elastic element 3 is an increase in its size. When the ball reaches a certain size, the ball acts on the movable system 4, consisting of two shelves and two racks, which has its own weight, which is regulated by the installation of additional load 13. The selection of the weight of the movable system 4 determines the necessary pressure at which the system begins to move. Moving up the system with a stop 12 causes the opening of the hole 9 with a corkscrew 8 of the rod 10 connected to the stop 12. The hole 9 has a cross section necessary to create a gas outlet to compensate for the minimum pressure increase. With a sharp increase in pressure, there is a significant increase in the size of the elastic element 3 and the stop 12 of the thrust 10 and the lower valve 7 are moved. The rise of the lower valve 7 in the hole of the seat 6 with its internal curved walls allows a passage section for the outlet, which varies depending on the overpressure. The pressure drop in the system due to the discharge of the working gas reduces the pressure in the rubber ball and causes it to decrease. The movable system 4 lowers and moves the bottom valve 7 to the closed position. This phenomenon can be used to purge closed systems with working gas.

Claims (1)

 GAS SAFETY DEVICE, comprising a housing, a saddle mounted on the inlet side, a shut-off element made in the form of two coaxially mounted valves, the inside of which is made with a stem, an adjusting nut with a hole installed in the end of the external valve, a sensing element, the cavity of which is communicated with an inlet channel and a movable system with an emphasis and rods, characterized in that the saddle is made in the form of a bell, is mounted on the body and forms a locking pair with an external valve, while in The external valve has a central through hole, which is blocked by an internal valve, the rod of which is passed through the hole of the adjusting nut restricting the movement of the internal valve and is fixed on the rod of the movable system, and the sensing element is made in the form of an elastic ball mounted between the housing and the stop of the movable system.

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