RU2357141C1 - Double-circuit cock - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention is related to pipeline valves and is intended for use as stop distribution valve for application in gas equipment, chemical industry, machine building, etc. Double-circuit tap includes body with two parallel channels and valves in them. The latter contact to four supports. Both valves are arranged with tubular structure in the form of hollow cylinder. Every valve consists of two elements: large valve and small valve. Large valve is arranged with contact end and teeth in the form of rack on side surface. Contact end of small valve is arranged in the form of collar. Large and small valves are connected to each other by means of bushing and spring. Bushing has side opening for flow of working medium. In tap body between two channels there is stem installed perpendicularly to valve axes. Stem gear is engaged with teeth of large valves.

EFFECT: reduction of control forces with provision of manual control of cocks, and also increase of its operational reliability.

3 dwg

Description

The proposed device relates to shutoff distribution pipe fittings and can be used for gas and liquid media in the gas industry, chemical industry, mechanical engineering, utilities, etc.

Known multi-way double-circuit valve, comprising a housing with channels for passage of the working medium, valves that are in contact with hard seats, sealing elements and a mechanism for guaranteed landing of valves on the seats, the valve is actuated by the pressure of the control medium on the command piston, movably connected with the valve / A.s . No. 838235, M. cl. 3, F16K 11/02, dated 15.06.81 /.

The disadvantages of this design is a great management effort.

The invention is aimed at reducing the control effort by providing manual control of the cranes while maintaining the advantages of the known construction.

The result is achieved in that in a double-circuit tap, comprising a body with two parallel channels, valves in them in contact with four supports, according to the invention, both valves are made of a tubular design in the form of a hollow cylinder, each of the valves consists of two elements: a large valve with one contact the end face and teeth cut in the form of a rack on the side surface, and a small valve, the contact end of which is made in the form of a shoulder, the large and small valves are interconnected by a sleeve and a spring, while the sleeve has a lateral hole for the flow of the working medium, in the valve body between the two channels perpendicular to the axes of the valves a rod is installed, the gear of which engages with the teeth of large valves.

The double-circuit crane is shown in the drawings, FIG. 1 is a general view, FIG. 2 is a section A-A, and FIG. 3 is a view along arrow B.

The double-circuit crane includes a housing 1 with two channels (circuits) and fittings P ₁ and P ₂ (supply of the working medium). Inside the channels of the housing 1 are placed valves of a tubular design in the form of a hollow cylinder, consisting of two elements: a large valve 2 with a contact end and teeth on the side, cut into a rack. The sleeve 3 is screwed into the large valve 2 and has an opening in the side for the flow of the working medium and a shoulder for engagement with the small valve 4. The valve 4 has a contact end face made in the form of a shoulder. A spring is installed on the sleeve 3, which ensures tight contact of the ends of the valves 2 and 4 with the supports 5, which have a sealing insert for this purpose. All four supports 5 by means of a thread on the spokes are screwed into the “inlet” and “discharge” fittings, respectively. Supports 5 have ducts for the working environment. These fittings themselves are screwed into the channels of the housing 1. The teeth of the valves 2 are meshed with the teeth of the gear of the rod 6 with a handle fixed to its shank, by turning which the gear moves the valves 2 and 4 in opposite directions. The rod 6 is installed in the housing 1 perpendicular to the axis of the valves 2 and 4. Valves 2 and 4 have sealing elements that separate the cavity "input", P ₁ / P ₂ / "discharge" and prevent the discharge of the working medium out through the rod 6.

The crane works as follows. The rotation of the rod handle 6 to position P _{2 will} rest against the small valve 4 of the first channel with a spring into the support 5, freeing this valve from the collar of the sleeve 3, and will open the “reset” in the first channel. The working medium will cease to flow into P ₁ and will be discharged from it through an opening in the sleeve 3 inside the large valve 2 between the ends of this valve and the support 5, through the duct of the corresponding support, the “discharge” fitting and further. At the same time, the collar of the sleeve 3 in the second channel moves the small valve 4 away from the support 5 and through the “input” the working medium begins to flow into P ₂ , closing the duct with a large valve 2, rests on the corresponding support 5. When the rod handle 6 is turned to position P _{1, the} working medium fed into the first channel, stopping the reset. The supply of the working medium to the second channel is stopped, it is reset.

Valves 2 and 4 are held by forces from the pressure of the working medium on the shoulder of the small valve 4 and the contact end face of the large valve 2 of the parallel channel. This sum of the forces and friction forces of the sealing elements of the valves 2 and 4 and the rod 6 on the housing 1 must be overcome by the force applied to the handle of the rod 6.

The use of the prefabricated design of valves 2 and 4, made of two elements in the form of a hollow cylinder with a spring and a sleeve 3, ensures tight contact of the valve-bearing simultaneously in two opposite planes of parallel channels. The force from the pressure of the working medium on the area of the tubular end is much less than the force from the same pressure on the diametrical area of the "shutter" of a known design of the same flow section. Therefore, the control force in the proposed device is less, which allows the use of manual control. The absence of parts, complex configuration makes the design easy to manufacture. The device is unpretentious and reliable in operation.

Claims (1)

Double-circuit crane, comprising a housing with two parallel channels, valves in them in contact with four supports, characterized in that both valves are made of a tubular design in the form of a hollow cylinder, each of the valves consists of two elements: a large valve with a contact end face and teeth cut in the form of a rail on the side surface, and a small valve, the contact end of which is made in the form of a shoulder, the large and small valves are interconnected by a sleeve and a spring, while the sleeve has a lateral hole for the duct eyes of the medium, in the valve body between two channels perpendicular to the axes of the valves, a rod is installed, the gear of which is engaged with the teeth of large valves.

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