RU2693801C1 - Semi-automatic ball cryogenic crane - Google Patents

Abstract

FIELD: reinforcement bars production.

SUBSTANCE: invention relates to shutoff-control pipeline valves. In a semi-automatic ball cryogenic crane, comprising a cylindrical housing with flanges for attachment to a pipeline, with horizontal inlet and outlet holes, a vertical bend with a hole for passage of the rod, base for saddles made of fluoroplastic located in the body centre at the intersection of the symmetry axes of the horizontal inlet and outlet holes and the hole for the rod passage, the ball plug with the horizontal hole installed in the seats resting on the base, to which is rigidly attached to rod with handle, for its fixation in open state to housing through bracket is electromagnet with possibility of interaction with metal plate, installed vertically on lower surface of handle, and to close between housing and handle accommodating return spring, one end is fixed in upper part of housing on branch for passage of rod, and other end is fixed by means of retainer on handle, wherein retainer is located in front of metal plate.

EFFECT: invention makes it possible to quickly close the supply of liquid cryogenic fuel in automatic mode without command.

1 cl, 1 dwg

Description

The invention relates to valves and control valves, in particular to semi-automatic cryogenic ball valves.

Known ball valve, comprising a housing with inlet and outlet holes, in which a ball plug with a through hole is installed, driven in motion by a rod, and polyurethane seats, interacting with the spherical surface of a ball plug (patent for invention RU №2641 544 "Ball valve" , IPC F16K 5/06, F16K 5/08, published on 10.01.2018).

The disadvantage of the ball valve design is manual control and the impossibility of opening and closing the ball valve in automatic mode, which reduces the safety of its operation in the event of an abnormal situation, for example, leakage of the working environment or fire.

A pneumatically controlled ball valve is known (catalog of Energomash, Pipe Fittings for the Gas Industry, 2017, p. 44, RSBV model valve with pneumatic actuator manufactured by Control Seal), which includes a housing with inlet and outlet openings in which the ball is installed with a through hole, polyurethane seats, interacting with the spherical surface of the ball valve. Ball plug is driven by a pneumatic cylinder with direct and reverse action.

The disadvantage of a pneumatically controlled ball valve is to increase its dimensions, reducing the reliability of opening and closing at low ambient temperatures due to the possibility of freezing of water contained in the air in the control channel of the pneumatic cylinder.

Known ball valve controlled by an electric motor (catalog of Energomash, Pipe Fittings for the Gas Industry, 2017, p. 44, RSBV crane with electric motor and gearbox from Control Seal), comprising a housing with inlet and outlet openings which has a ball plug with a through hole, saddles made of polyurethane, interacting with the spherical surface of the ball tube. Ball plug is driven by an electric motor with a worm gear.

The disadvantage of the design of a ball valve controlled by an electric motor is that the opening and closing process takes a lot of time, and when the power is turned off, the crane remains in the position it was at when the power was turned off, which requires a duplicate manual drive and, accordingly, increases the size and weight of the crane, reduces safety in the event of an abnormal situation, such as a leakage of the working environment or the occurrence of a fire

The technical result of the invention is to improve the safety of operation of semi-automatic ball cryogenic crane, if necessary, to quickly shut off the supply of liquid cryogenic fuel in automatic mode without issuing a command or if it is impossible to close the valve in manual mode in case of an emergency situation, such as a leakage of the working environment or a fire.

The technical result is achieved by the fact that in a semi-automatic cryogenic ball valve containing a cylindrical body with flanges for mounting to the pipeline, with horizontal inlet and outlet holes, a vertical outlet with a hole for the passage of the rod, the base for the seat, made of fluoroplastic, located in the center of the body on the intersection of the axes of symmetry of the horizontal inlet and outlet openings and the hole for the passage of the rod, a spherical plug with a horizontal opening installed in the saddles resting on The base, to which the rod with the handle is rigidly attached, for its fixation in the open state, an electromagnet is attached to the body through the bracket with the possibility of interaction with a metal plate mounted vertically on the lower surface of the handle, and for its closing between the body and the handle a return spring is placed, at one end fixed in the upper part of the vertical outlet for the passage of the rod, and the other end fixed by means of a retainer on the handle, and the retainer is located on the lower surface of p koyatki front metal plate.

Also, the technical result is achieved by the fact that two sensors can be additionally installed on the body of a semi-automatic ball cryogenic crane, one of which is designed for remote signaling of the open position of the handle, and the other for remote signaling of the closed position of the handle.

The invention is illustrated in the drawing.

The drawing shows a semi-automatic cryogenic ball valve in the section.

Semi-automatic ball cryogenic valve contains a cylindrical body 1 with flanges 2 for fastening to the pipeline (not shown in Fig.) With horizontal inlet 3 and outlet 4 holes, a vertical outlet 5 with a hole 6 for the passage of the rod 7, base 8 for saddles 9, made of fluoroplastic. The base 8 is located in the center of the cylindrical body 1 at the intersection of the axes of symmetry of the horizontal inlet 3 and outlet 4 holes and holes 6 for the passage of the rod 7. In the saddle 9 there is a ball plug 10 with a horizontal through hole 11. The ball plug 10 is rigidly attached to the ball plug 10 through the hole 6 of the vertical outlet 5. To the rod 7 is attached a handle 12, on the bottom surface of which a metal plate 13 is vertically mounted, in front of which is fixed a locking 14. Between the cylindrical body 1 and the handle 12 is a mustache A return spring 15 is fixed, one end fixed in the upper part of the vertical outlet 5, and the other end fixed by means of a clamp 14 on the handle 12. The electromagnet 16 is attached to the body 1 through the bracket 17 with the possibility of interaction with a vertically mounted metal plate 13 placed on the lower surface of the handle 12 with the open position of the semi-automatic cryogenic ball valve to hold the handle 12.

The invention is as follows.

In the closed (inoperative) position when there is no semiautomatic ball cryogenic valve in the power supply circuit (hereinafter referred to as the crane), it is closed by the force of the return spring 15, one end fixed in the upper part of the vertical outlet 5 for the passage of the rod 7, and the other end fixed by means of the lock 14 on the bottom surface of the handle 12 of the crane, on which, after the latch 14, a metal plate 13 is vertically arranged to interact with the electromagnet 16. attached to the housing 1 via the bracket 17. Electr omagnita 16 is selected from the condition of retaining the handle 12 in the open state of the crane taking into account the compressive force of the returning spring 15.

When the flow of electrical energy through the power supply circuit to the electromagnet 16, a magnetic field is formed around it (the electromagnet is powered from a third-party power source, not shown in the figure). When the handle 12 is rotated, the return spring 15 is manually compressed and the metal plate 13 touches the electromagnet 16, as a result of which the handle 12 is held in the open position of the crane. When the electric supply circuit is opened, the interaction between the electromagnet 16 and the metal plate 13 is stopped, the return spring 15 is unclamped, turning the handle 12 and closing the valve through the latch 14. To re-open the valve, you must manually turn the handle 12, after turning on the power of the electromagnet 16.

Claims (2)

1. Semi-automatic ball cryogenic valve containing a cylindrical body with flanges for mounting to the pipeline, with horizontal inlet and outlet, a vertical outlet with an opening for the passage of the rod, the base under the seat, made of fluoroplastic, located in the center of the case at the intersection of the axes of symmetry of the horizontal inlet and the outlet and the hole for the passage of the rod, a ball tube with a horizontal through hole installed in the saddles resting on the base, which is rigidly attached En a rod with a handle, characterized in that for its fixation in the open state, an electromagnet is attached to the body through a bracket with the ability to interact with a metal plate mounted vertically on the lower surface of the handle, and for its closure a return spring is placed between the body and the handle in the upper part of the vertical outlet, and the other end secured by means of a clamp installed on the lower surface of the handle, the clamp being located in front of the metal plate. 2. Semi-automatic ball cryogenic valve under item 1, characterized in that the body can additionally be equipped with two sensors, one of which is designed for remote alarm of the open position of the handle, and the other for remote alarm of the closed position of the handle.

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