RU220330U1 - Gas solenoid valve - Google Patents

Abstract

The utility model relates to a coaxial type shut-off valve with an electromagnetic drive, which can be used in various pneumatic and gas pipelines in the petrochemical, gas and other sectors of the national economy, as well as in housing and communal services to control gas flows. The problem posed in the utility model is solved in a gas electromagnetic valve, which includes: housing 1 in the form of a hollow cylinder located coaxially with the controlled line; nut 2 in the form of a sleeve threaded at one end of the body coaxially with its longitudinal axis, fitting 3 in the form of a sleeve threaded at the other end of the body coaxially with its longitudinal axis; spool 4, located inside the housing coaxially with its longitudinal axis; magnetic element 5; frame 6 located coaxially with the longitudinal axis of the housing, control winding 7 placed on the frame coaxially with the longitudinal axis of the housing, wherein housing 1 is made of non-magnetic material, nut 2 is made of metal, fitting 3 is made of magnetic metal, spool 4 is made of magnetic material, magnetic element 5 is made in the form of a sleeve located concentrically around the body, frame 6, made of non-magnetic electrical insulating material, and the control winding 7 placed on it are located concentrically around the magnetic element 5, and the valve is inserted: sleeve 8 made of non-magnetic material in the form of a sleeve located concentrically around the magnetic element, a plug 9 made of non-magnetic material in the form of a sleeve located concentrically around the body, a retainer 10 made of magnetic material in the form of a flat ring washer located concentrically around the body 1, characterized in that the plug 9 with an elongated skirt is a sleeve made made of polymer located concentrically around the body.

Description

The utility model relates to a coaxial type shut-off valve with an electromagnetic drive, which can be used in various pneumatic and gas pipelines in the petrochemical, gas and other sectors of the national economy, as well as in housing and communal services to control gas flows.

From the patent information search carried out, a gas shut-off valve with electromagnetic control is known (patent for invention No. 2638122, IPC F16K 31/02, publ. 12/11/2017, Bulletin No. 35), consisting of a cylindrical frame with a fixing ring, a shut-off element, made in the form of a shutter with a gasket, an inlet pipe and an outlet pipe with a seat, made of non-magnetic material, a control unit placed in a casing on top of the frame and including at least one coil, a pusher, a magnet and a connector, wherein the coil and the magnet are located along relative to each other in such a way that when an electrical pulse is applied, the magnetic flux created by the coil moves the magnet and the shutter towards the seat, characterized in that the fixing ring, coil, pusher and magnet are located coaxially with the frame on its outer surface and are separated from the controlled working environment , the casing with the control unit is made with the possibility of free rotation around the longitudinal axis of the valve, while the pusher is made in the form of a cylinder with a protruding ring for manual control. The valve contains a filter inside the inlet pipe, as well as an additional fixing ring on the side of the inlet pipe, and the inlet and outlet pipes can be made with both external and internal threads.

The disadvantage of the known design is the low throughput, since as a result of the use of a cylindrical valve, resistance to the passage of gas inside the valve is created.

The closest to the proposed design is a gas electromagnetic valve (utility model patent No. 208667, IPC F16K 31/02, published 10/11/2017, Bulletin No. 29), which includes: a body in the form of a hollow cylinder located coaxially with controlled highway; a nut in the form of a sleeve threaded at one end of the body coaxially with its longitudinal axis, a fitting in the form of a sleeve threaded at the other end of the body coaxially with its longitudinal axis; a spool located inside the housing coaxially with its longitudinal axis; magnetic element; a frame located coaxially with the longitudinal axis of the housing, a control winding placed on the frame coaxially with the longitudinal axis of the housing, wherein the housing is made of non-magnetic material, the nut is made of metal, the fitting is made of magnetic metal, the spool is made of magnetic material, the magnetic element is made in the form of a sleeve, located concentrically around the body, a frame made of non-magnetic electrical insulating material, and the control winding placed on it are located concentrically around the magnetic element, and the following are inserted into the valve: a sleeve made of non-magnetic material in the form of a sleeve located concentrically around the magnetic element, a polymer plug in the form of a sleeve , located concentrically around the body, a retainer made of magnetic material in the form of a flat annular washer located concentrically around the body, characterized in that the spool has a parabolic shape and is a glass made of polymer, inside of which there is an armature, to which a sealing washer is attached using a rivet .

The technical task of the utility model is to eliminate the misalignment of the plug during axial movement of the sleeve.

The problem is solved in a gas electromagnetic valve, which includes: housing 1 in the form of a hollow cylinder located coaxially with the controlled line; nut 2 in the form of a sleeve threaded at one end of the body coaxially with its longitudinal axis, fitting 3 in the form of a sleeve threaded at the other end of the body coaxially with its longitudinal axis; spool 4, located inside the housing coaxially with its longitudinal axis; magnetic element 5; frame 6, located coaxially with the longitudinal axis of the housing, control winding 7, placed on the frame coaxially with the longitudinal axis of the housing, wherein housing 1 is made of non-magnetic material, nut 2 is made of metal, fitting 3 is made of magnetic metal, spool 4 is made of magnetic material, magnetic element 5 is made in the form of a sleeve located concentrically around the body, frame 6, made of non-magnetic electrical insulating material, and the control winding 7 placed on it are located concentrically around the magnetic element 5, and the valve is inserted: sleeve 8 made of non-magnetic material in the form of a sleeve located concentrically around the magnetic element, a plug 9 made of non-magnetic material in the form of a sleeve located concentrically around the body, a retainer 10 made of magnetic material in the form of a flat annular washer located concentrically around the body 1, characterized in that the plug 9 is made with an elongated skirt and is a sleeve , made of polymer located concentrically around the body.

The difference from the prototype is that plug 9 has an elongated skirt.

The technical result of the application of the proposed design is the elimination of axial misalignment of the plug during axial movement of the sleeve, as a result of the fact that the plug is made with an enlarged skirt.

The proposed utility model is illustrated by drawings. In fig. 1 shows a gas electromagnetic valve, Fig. 2 - plug with an extended skirt.

The utility model consists of a housing 1 in the form of a hollow cylinder located coaxially with the controlled line; nuts 2 in the form of a sleeve threaded at one end of the body coaxially with its longitudinal axis, fitting 3 in the form of a sleeve threaded at the other end of the body coaxially with its longitudinal axis; spool 4, located inside the housing coaxially with its longitudinal axis; magnetic element 5; frame 6, located coaxially with the longitudinal axis of the housing, control winding 7, located on the frame coaxially with the longitudinal axis of the housing. In addition, housing 1 is made of non-magnetic material, nut 2 is made of metal, fitting 3 is made of magnetic metal, spool 4 is made of magnetic material, magnetic element 5 is made in the form of a sleeve located concentrically around the body, frame 6 is made of non-magnetic electrical insulating material , and the control winding 7 placed on it are located concentrically around the magnetic element 5, and the following are inserted into the valve: a sleeve 8 made of non-magnetic material in the form of a sleeve located concentrically around the magnetic element, a plug 9 with an elongated skirt made of non-magnetic material in the form of a sleeve with an enlarged skirt, located concentrically around the body, a retainer 10 made of magnetic material in the form of a flat annular washer located concentrically around the body 1, and the spool 4 has a parabolic shape and is a glass 11 made of polymer, inside of which there is an armature 12, to which it is attached using a rivet 13 sealing washer 14, and at the junction of the housing and the fitting there is a sealing ring 16, and in front of it a filter mesh 15.

The valve works as follows.

In normal condition the valve is open. The sleeve 8 with the magnetic element 5 is located in the position in which the spool is open. The working medium is supplied from the side of nut 2 and flows around spool 4 through the existing channels.

When a control current pulse is applied, the magnetic field of the control winding 7 pushes the magnetic element 5 with the sleeve 8 in the direction of movement of the working medium, the magnetic element 5, due to the magnetic clutch, moves the spool 4 to the “closed” position. The spool 4 is pressed against the fitting 3, blocking the flow of the working medium with a sealing washer 14.

In the closed state, the shutter is held by the magnetic field of the permanent magnet 5, which, in turn, is held in the “closed” position due to magnetic connection with the locking ring 10.

To open the valve, it is necessary to manually move the sleeve 8 with the magnetic element 5 towards the control winding 7 to the “open” position. In this case, the spool will also move along with magnet 5 due to the magnetic clutch, ensuring free flow of the working medium.

The valve can be closed manually by moving the sleeve 8 with magnet 5 away from the control winding 7 to the “closed” position. In this case, the spool will also move along with magnet 5 due to the magnetic clutch and press against the seat, blocking the flow of the working medium.

Claims (1)

An electromagnetic gas valve, which includes: housing 1 in the form of a hollow cylinder located coaxially with the controlled line; nut 2 in the form of a sleeve, threaded on one of the ends of the body coaxially with its longitudinal axis; fitting 3 in the form of a sleeve threaded at the other end of the housing coaxially with its longitudinal axis; spool 4, located inside the housing coaxially with its longitudinal axis; magnetic element 5; frame 6, located coaxially with the longitudinal axis of the housing, control winding 7, placed on the frame coaxially with the longitudinal axis of the housing, wherein housing 1 is made of non-magnetic material, nut 2 is made of metal, fitting 3 is made of magnetic metal, spool 4 is made of magnetic material, magnetic element 5 is made in the form of a sleeve located concentrically around the body, frame 6, made of non-magnetic electrical insulating material, and the control winding 7 placed on it are located concentrically around the magnetic element 5, and the valve is inserted: sleeve 8 made of non-magnetic material in the form of a sleeve located concentrically around the magnetic element, a plug 9 made of non-magnetic material in the form of a sleeve located concentrically around the body, a retainer 10 made of magnetic material in the form of a flat annular washer located concentrically around the body 1, characterized in that the plug 9 is made with an elongated skirt and is a sleeve , made of polymer located concentrically around the body.