RU2451856C1 - Normally closed electromagnetic gate valve - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: normally closed electromagnetic gate valve comprises a body with inlet and outlet ports, a seat, a spring-assisted shutting-off device with a rod, an electromagnet with a magnetic circuit with a magnetising winding and an anchor. The shutting-off device is represented in the form of a gate. On a cylindrical surface of the gate, there is a pair of packing boxes and a pilot-operated valve pinned with the rod mounted in the gate having a pilot-operated valve in the base. An electromagnet is arranged on a guide linear bushing between flanges with an upper flange pressed by a cup to a screw cover and fixed by a retaining ring on the guide bushing. The device comprises an inductive position sensor of the shutting-off device which is fastened on a lower end face of the body and a valve control assembly placed on a printed-circuit board and located inside the cup.

EFFECT: invention provides higher operating reliability and enhances the valve.

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Description

The invention relates to the field of valve engineering, in particular to shut-off (emergency) and shut-off valves, can be used in remote control systems for gas burner devices, heating installations in technological pipeline systems for controlling the flow of fuel hydrocarbon gases in petrochemical, gas equipment and other engineering industries.

A known electromagnetic shut-off valve is normally closed, comprising a housing with inlet and outlet channels, a seat closed by a spring-loaded shut-off element, a rod, a spring, a winding and an armature (RF Patent No. 2302576, class F16K 31/02 of 07/10/2007).

This valve improves the magnetic system of the electromagnetic valve actuator, which provides stable fixation of the valve body and elimination of forced vibrations. The disadvantage of this valve is the low operational reliability due to leakage in the structure and lack of control over its position.

The closest technical solution for the totality of essential features is a normally closed electromagnetic shut-off valve, comprising a housing with inlet and outlet channels, a saddle closed by a spring-loaded locking body having a rod, and an electromagnet including a magnetic circuit with a magnetizing winding and an anchor connected to the locking body rod, moreover, the anchor and the rod of the locking element are connected with the possibility of mutual axial movement, and the electromagnet is stationary, while the rod is constipated of a body, a compression spring is installed with the possibility of counteracting the axial movement of the armature relative to the stem of the locking body (RF Patent No. 95379, CL F16K 31/02 of 06/27/2010).

This normally-closed electromagnetic shut-off valve reduces power consumption, the mass of the electromagnet and the impact loads on the armature. The disadvantage of this valve is the low operational reliability due to leakage in the structure and lack of control over its position.

The problem to which the invention is directed, is to increase the operational reliability of the valve and increase the functionality.

The problem is solved due to the fact that in the valve shutoff electromagnetic normally closed, containing a housing with inlet and outlet channels, a seat closed by a spring-loaded shutoff body having a rod, and an electromagnet including a magnetic circuit with a magnetizing winding and an anchor connected to the rod of the shutoff body, moreover, the anchor and the rod of the locking element are connected with the possibility of mutual axial movement, and the electromagnet is stationary, while a compression spring is installed on the rod of the locking element with the possibility of counteracting the axial movement of the armature relative to the rod of the locking element, the locking element is made in the form of a valve, on the cylindrical surface of which there is a pair of gaskets, a pilot valve fastened with a pin with a rod installed in the valve, having a sealing ring at the base and the possibility of axial movement inside the case, on which a cylindrical guide sleeve is screwed on top with a compression spring mounted on it, coaxial to the rod, which is rigidly fixed to a mutually perpendicular second with an anchor, which has the possibility of axial movement in the cylindrical guide sleeve, while the electromagnet is mounted on the cylindrical guide sleeve between the flanges, the upper flange being pressed by a glass with a screw cap and fixed on the guide sleeve by a locking ring, the pole being mounted on top of the cylindrical guide sleeve and rigidly it is fixed by a locking ring, while an inductive sensor of the position of the locking element is introduced, which is mounted on the lower end of the housing, and the control unit is pan placed on a printed circuit board and installed inside the glass.

The invention is illustrated in the drawing.

The drawing shows an electromagnetic shut-off valve, a cut. The following symbols are introduced in the valve: inductive position sensor of the locking element 1, seat 2, pilot valve 3, pin 4, rod 5, compression spring 6, lower flange 7, pole 8, magnetizing winding 9, snap ring of pole 10, printed circuit board of the control unit valve 11, screw cap 12, cup 13, snap ring of cylindrical guide sleeve 14, upper flange 15, magnetic circuit 16, anchor 17, cylindrical guide sleeve 18, mutually perpendicular second pin 19, seals 20, housing with inlet and outlet channels 21, shutter 22, seal Flax ring 23 and h - a hysteresis of the sensor gap.

The shutoff valve of the electromagnetic shutoff valve is made in the form of a shutter 22, on the cylindrical surface of which there are a pair of glands 20, the pilot valve 3 is fastened by a pin 4 with a stem 5 installed in the shutter 22, having a sealing ring 23 at the base and the possibility of axial movement inside the housing 21, on which is screwed on top of a cylindrical guide sleeve 18, which fixes the compression spring 6 from above coaxially to the stem 5. From below, the compression spring 6 is fixed by the step of the armature 17, which is rigidly fixed mutually perpendicular to the second pin 19 and has the possibility of axial movement in a cylindrical guide sleeve 18.

An electromagnet comprising a pole 8, an armature 17, a magnetizing winding 9, and a magnetic circuit 16 is mounted on a cylindrical guide sleeve 18 between flanges 7 and 15, the upper flange 15 being pressed against a glass 13 with a screw cap 12.

The electromagnetic shut-off valve normally closed operates as follows.

When applying voltage to the magnetizing winding 9 of the electromagnet under the influence of electromagnetic forces, the armature 17, overcoming the resistance of the compression spring 6, moves upward, pulling the rod 5, the pilot valve 3 and the shutter 22 with the sealing ring 23. The valve goes into the "Open" state.

To close the valve, it is necessary to remove the supply voltage from the winding 9 of the electromagnet. In this case, due to the kinetic energy of the compression spring 6, the armature 17, the rod 5, the pilot valve 3 and the shutter 22 are moved with the sealing ring 23, which lowers onto the seat 2, which brings the valve to its original state, translating it into the “Closed” position.

In an emergency, for example, in the event of a sudden loss of supply voltage, a similar process occurs as described above.

Thus, the proposed shut-off solenoid valve normally closed allows you to increase the operational reliability and functionality of the valve.

Claims (1)

An electromagnetic shut-off valve, normally closed, comprising a housing with inlet and outlet channels, a seat closed by a spring-loaded shut-off element having a rod, and an electromagnet including a magnetic circuit with a magnetizing winding and an armature connected to the shutoff rod, and the armature and the shut-off rod are connected with the possibility mutual axial movement, and the electromagnet is stationary, while a compression spring is installed on the rod of the shut-off element with the possibility of counteracting the axial displacement the anchor relative to the stem of the locking member, characterized in that the locking member is made in the form of a valve, on the cylindrical surface of which there is a pair of gaskets, a pilot valve fastened with a pin with a rod installed in the valve, having a sealing ring at the base and the possibility of axial movement inside the housing, on which a cylindrical guide sleeve is screwed on top with a compression spring mounted on it, coaxial to the rod, which is rigidly fixed by a mutually perpendicular second pin with an anchor, which there is the possibility of axial movement in the cylindrical guide sleeve, while the electromagnet is mounted on the cylindrical guide sleeve between the flanges, and the upper flange is pressed by a glass with a screw cap, and is fixed on the guide sleeve by a locking ring, and the pole is mounted on top of the cylindrical guide sleeve and rigidly fixed by the locking ring, at the same time, an inductive sensor of the position of the locking element is introduced, which is mounted on the lower end of the housing, and a valve control unit located on the chat board and mounted inside a glass.