RU194590U1 - SOLENOID VALVE - Google Patents

Abstract

The utility model relates to shut-off devices used to remove water condensate from air lines, and can be used in valves for remote control of the compressed air flow in railway pneumatic systems, as well as in compressed air preparation systems. A useful model is aimed at increasing the retraction force of the electromagnetic valve . The specified technical result is achieved by the fact that at the end of the armature an internal groove is made, intersecting with the longitudinal grooves on outer cylindrical surface.

Description

The invention relates to shut-off devices used to remove water condensate from air lines, and can be used in valves for remote control of the compressed air flow in railway pneumatic systems, as well as in compressed air preparation systems.

Known solenoid valve [RU 101137U1] containing inlet and outlet nozzles, an inner sleeve, a spring and an armature with a locking element fixed by a nut.

The disadvantages of this device are:

- high complexity of manufacturing and assembling the anchor with a locking element fixed by a nut;

- low retraction force due to loss of magnetic flux due to a decrease in the area of the magnetic circuit in the plane of the axes of the radial holes of the armature.

The closest to a utility model in technical essence is an electromagnetic valve [RU 148241U1] containing an inlet and outlet flange, an inner sleeve, a spring and an armature.

The disadvantage of this device is the small pulling force due to loss of magnetic flux due to a decrease in the area of the magnetic circuit in the plane of the axis of the radial holes of the armature.

The task to which this utility model is directed is to increase the retraction force of the electromagnetic valve.

The problem is solved due to the fact that the electromagnetic valve containing the sleeve flange, inlet and outlet flanges, between which are placed in the sleeve: an anchor with longitudinal grooves, on the outer cylindrical surface, and a locking element, spring-loaded, according to a new technical solution, at the end An anchor is made of an internal groove intersecting with longitudinal grooves on the outer cylindrical surface.

The essence of the utility model is illustrated by the figure, which depicts an electromagnetic valve.

The electromagnetic valve contains a flange 1 of the sleeve 2, an inlet flange 3 with a seat, an output flange 4, between which in the sleeve 2 are placed: an anchor 5 with a locking element 6, preloaded by a spring 7. There are longitudinal grooves on the outer cylindrical surface of the anchor 5, and the end is made inner groove intersecting with longitudinal grooves on the outer cylindrical surface.

The principle of operation of the solenoid valve is as follows.

In the initial state, the solenoid valve is de-energized. Anchor 5 with a locking element 6 is spring-loaded 7 to the output flange 4, the electromagnetic valve is open. When applying voltage to the solenoid valve, the anchor 5 with the locking element 6, under the influence of magnetic flux, overcoming the force of the spring 7, is pressed to the seat of the inlet flange 2, the electromagnetic valve closes. The magnetic flux passes from the flange 1 of the sleeve 2 to the anchor 5, bypassing the inner groove, made at the end intersected by longitudinal grooves on the outer cylindrical surface, and along the anchor 5 without loss.

When removing the voltage from the electromagnetic valve, the anchor 5 with the locking element 6 under the action of the spring 7 and the flow of compressed air returns to its original state - the electromagnetic valve opens.

The proposed design with an anchor having an inner groove at the end, intersecting with longitudinal grooves on the outer cylindrical surface, allows the magnetic flux to pass through the anchor without loss and, accordingly, increase the retraction force of the electromagnetic valve.

Claims (1)

An electromagnetic valve comprising a flange, a sleeve, an inlet flange with a seat, an outlet flange, an anchor with longitudinal grooves on the outer cylindrical surface, and a locking element and a spring, characterized in that the end of the armature has an internal groove intersecting with the longitudinal grooves on the outer cylindrical surface.

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