RU1808063C - Electromagnetic valve - Google Patents

Abstract

Using; to control fluid flow in systems with a pressure of not higher than 4 atm. SUMMARY OF THE INVENTION: A core with an electromagnetic coil and a locking member are placed in the housing. A glass of non-magnetic material with radial passage openings and a sealing surface is installed in the housing. The locking member is made in the form of a spring-loaded sleeve of magnetic material with a conical inner chamfer and a radial flange mounted inside the core coaxially to the glass with the possibility of axial movement along its outer surface and interaction of the chamfer with the sealing surface of the glass, 1 silt.

Description

The invention relates to valve engineering and can be used for automation in the heating system of automotive tractor industry and in other industries for controlling the flow of fluid in systems where the pressure is not higher than 4 atm.

The purpose of the invention is to increase the reliability and simplify the design of the solenoid valve.

The drawing shows a solenoid valve, section.

The electromagnetic valve consists of a housing 1 in the form of a pipe, on both sides of which caps 2 and 3 are fixedly fixed with inlet and outlet fittings, which can be made integrally with the cover. The housing 1 and the covers 2 and 3 are made of a magnet of soft material. The caps 2 and 3 hold the core of the coil 4 with the winding 5. A cup 6 of non-magnetic material is pressed into the cap 2, on the opposite side of which there are passage holes 7. On the outer surface of the cup 6, the closure member 8 moves axially, which is at the same time, with a core made of a soft magnet material with a radial flange and a conical bevel inside, due to which the fluid flow creates an additional force for opening the electromagnetic valve. The locking element 8 is made of such dimensions and is mounted relative to the coil 4 so that a cavity is formed in the path of the magnetic flux for the free movement of the locking element 8. The locking element 8 is pressed by a conical spring 9 to the core of the coil 4 and the thrust ring 10, which limits the stroke of the core 8 and creates an additional sealing effect on the fluid path. The tightness of the housing 1 is ensured by the sealing rings 11 and 12. Through the wires 13, the electromagnetic valve is connected to the automatic control system.

The solenoid valve operates as follows. As long as no current is supplied to the coil winding 5, the closure member 8 is pressed by the cone spring 9 to the snap ring 10, i.e. electromagnetic valve

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the pan is closed and the flow of fluid is minimal.

When voltage is applied to the coil winding 5, the shut-off element 8 is drawn into the coil winding 5 and, sliding along the glass b, releases the passage openings 7 and a liquid flow appears. When the electric current is disconnected, the locking element 8 returns under the action of the conical spring 9 to its previous position.

If it is necessary to repair, the solenoid valve is easily disassembled, for which it is necessary to remove the cover 3 and the structure easily disintegrates.

The design of the solenoid valve is simple and technologically advanced; cheap and affordable materials are used in the design.

Thus, a compact solenoid valve was created with respect to the nominal diameter with a small number of parts, a technologically advanced, easily detachable, and low hydraulic component

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resistance, which is not affected by the pressure of the controlled medium acting in the direction of movement of the locking element, is energy-efficient and without permanent magnets.

Formula A solenoid valve comprising a housing in which a core with an electromagnetic coil and a locking member are arranged, characterized in that a housing of non-magnetic material with radial passage openings is installed in the housing and a sealing surface, and the locking element is made in the form of a spring-loaded sleeve of soft magnetic material with a conical inner chamfer and a radial flange mounted inside the core coaxially to the glass with the possibility of axial movement along its bore zhnoy chamfer surface and reacting with the sealing surface of the cup.

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