CS232537B1 - Electromagnetic valve - Google Patents

Abstract

The electromagnetic valve of the present invention differs from prior-art valves of a similar type by the advantageous transfer of the moment of tearing off the valve plate to the final opening phase, which is achieved in particular by reciprocally connecting the valve plate to the electromagnet armature. The invention can be predominantly used in mechanical engineering for electromagnetically operated valves where the pressure difference of the medium above and below the valve plate has a noticeable effect on the force required to open the valve. The electromagnetic valve of the present invention can be designed in any size and media.

Description

The invention relates to a solenoid valve, the valve plate and the solenoid armature being slidably connected to each other.

Previously known embodiments of solenoid valves of this type consist of a valve body, a valve plate fixed to the solenoid armature, an electromagnet and a compression closing spring.

The disadvantage of such valves is that the solenoid, when opening the valve, overcomes the effect of the pressure closing spring and at the same time the pressure difference on the valve plate in the least favorable position for it, i.e. at the greatest gap between the armature and the pole piece. The electromagnet must be dimensioned in proportion to the need.

This disadvantage is overcome by the solenoid valve according to the invention, consisting of a valve body firmly connected to the solenoid, an solenoid armature formed by at least one part, a valve plate and a compression closing spring. Its essence is that the valve plate and the solenoid armature are slidably connected to each other in the direction of movement of the solenoid armature, a compression closing spring is located between the solenoid armature and the valve body, and an auxiliary compression spring is located between the solenoid armature and the valve plate.

The maximum stroke of the auxiliary compression spring can be limited by the opening stop surfaces.

Preferably, it is at least partly provided with a resilient element. A damping compression spring may be positioned between the valve plate and the solenoid armature.

The electromagnetic valve according to the invention makes it possible to shift the overcoming of the force component due to the differential pressure on the valve plate from the opening opening to the final phase, when the space between the electromagnet armature and the pole piece of the electromagnet is already smaller and hence the electromagnet is greatly increased. Since the force conditions when opening the valve have a decisive influence on the required size of the control solenoid, the invention allows a significant reduction in its dimensions.

1, 2, 3 show some of the possible variants of the solenoid valve according to the invention.

Giant. 1 shows the simplest version. The valve body χ is rigidly connected to the solenoid χ so that the solenoid armature χ, formed for the sake of simplicity here, only passes into the cavity of the valve body X where it rests on the valve plate 2. The valve plate 6 is slidably connected to the electromagnet armature χ in the direction of movement of the electromagnet armature.

The solenoid armature χ is pushed away from the valve body χ by a pressure closing spring The auxiliary pressure spring 6, located between the armature X of the solenoid and the valve plate 2, is dimensioned so that in the final opening phase of the valve exceeded the maximum force given by the differential pressure exerted on the valve plate 2, tore the valve plate 2 away from the valve body, pulling it to the solenoid armature X, thereby ensuring the valve clearance is maintained.

FIG. 2 shows the previous embodiment, supplemented by the stroke limitation of the auxiliary compression spring 6, with the opening stop surfaces χ. For detaching the valve plate 2. held by the differential pressure of the valve body X, when opening the valve, the opening stop surfaces X abut one another, this moment being selected in the final opening phase of the valve.

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In the initial opening phase of the valve, solenoid X only overcomes the force of the compression closing spring χ; the auxiliary force of a compression spring sixth ^e j negligible. The valve plate 2 is pulled from the valve body X by the auxiliary spring 6 to the armature X of the solenoid, thereby ensuring the valve clearance is maintained. The auxiliary compression spring 8 is sized to overcome any dynamic effects of the medium on the valve plate 2.

In Fig. 3, the preceding embodiments are supplemented by a damping compression spring 8, which mitigates the impact of the valve plate 2 against the anchor 4 of the electromagnets. A damping compression spring 8 is located between the valve plate 2 and the electromagnet armature 6.

The invention can be used in valve construction wherever the force given by the differential pressure of the medium below and above the valve plate has a noticeable effect on the dimensioning of the control solenoids.

Claims (3)

SUBJECT MATTER A solenoid valve comprising a valve body fixedly coupled to an electromagnet, an electromagnet armature formed of at least one part, a valve plate and a compression spring, characterized in that the valve plate (2) and the electromagnet armature (3) are slidably connected to one another in the direction movement of the electromagnet armature (3), a compression spring (5) is located between the electromagnet armature (3) and the valve body (1) and an auxiliary compression spring (6) is located between the electromagnet armature (3) and the valve plate (2), Solenoid valve according to claim 1, characterized in that the maximum stroke of the auxiliary compression spring (6) is limited by opening stop surfaces (7), at least one of which is preferably provided with a resilient element. Solenoid valve according to Claim 1, characterized in that a damping compression spring (81) is arranged between the valve plate (2) and the solenoid armature (3).