CS256770B1 - Solenoid valve - Google Patents

Abstract

The solution falls into the field of fittings and concerns an electromagnetic valve, in whose body of non-magnetic material a straight vertical flow channel is made interrupted by a working cavity with a seat, in which a ball closing member made of magnetic material is loosely placed. An electromagnet is fixed to the valve body at the seat location for controlling the closing member. The essence of the solution is that the working cavity is provided with an offset space and an inclined guide in the lower part with a slope to the offset space, in which the ball closing member is located in the non-working position. The size of the offset space is such that the ball closing member is in the non-working position with its contour outside the flow channel. This solution can be advantageously used for pressure test benches for testing fittings, installed behind the tested fitting.

Description

(54)

Solenoid valve

The solution falls within the field of fittings and relates solely to a solenoid valve in which a body made of non-magnetic material is made a straight vertical flow channel interrupted by a working cavity with a seat in which a ball-shaped shut-off element made of magnetic material is loosely seated. An electromagnet for actuating the closing member is mounted at the seat of the valve body. The principle of the solution is that the working cavity is provided with an offset space and a slanted guide in the lower part inclined to the offset space, in which the ball closing member is located in the non-operational position. The size of the offset space is such that the ball shut-off member is out of the flow channel in its inoperative position by its contour. This solution can be advantageously used for test press stands for testing valves installed behind the tested valve.

- 1. BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a solenoid valve, in particular intended for testing pressure test stands of valves.

There is known a solenoid valve consisting of a body of non-magnetic material, provided with Ipemi throats, which are connected to the inner spherical working cavity of the body. In this case, two of the necks are connected to the inner spherical working cavity from opposite sides so as to form a straight flow channel, which is provided with seats at the point of connection to the inner spherical cavity. Inside the working cavity there is a loosely placed ball closing member made of magnetic material.

A solenoid coil is mounted on the valve body necks. By applying electrical voltage to one of the solenoid coils, the ball closure is actuated and engages the seat of the respective throat, the coil of which is engaged, thereby closing the flow through the throat. When the voltage is interrupted, the ball closure returns with its own weight to the initial non-working position in the inner spherical working cavity of the body outside the flow channel seats. The disadvantage of this solenoid valve is that the cross-section of the inner spherical working cavity is such that, in the rest position, the ball closure extends in its contour into the flow space of the valve, thereby creating places in the working cavity of the body. when testing fittings for tightness and strength performed on pressurized mills, it is not desirable.

Essentially, the invention is an electromagnetic valve consisting of a body of non-magnetic material comprising a straight vertical flow channel interrupted by an inner working cavity provided with a seat, in which a non-magnetic ball closure member in the working cavity abuts in the working position. body, on which is mounted the electromagnet at the seat, and its essence lies in the fact that the work. The cavity is provided with an oblique space and an oblique guide at the bottom with an inclined space, in which the ball shut-off member is located in the non-working position, the seat being located in the upper part of the working cavity.

Another object of the invention is that the size of the offset space in the working cavity is selected such that the ball shut-off member is in the non-working position by its contour outside the flow channel.

A higher effect of the solution of the solenoid valve according to the invention is that the ball valve is moved to the upright position by virtue of the oblique guide in the internal working cavity.

- 2 spacious in the inner working cavity of the body, so that its contour does not interfere with or narrow the clearness of the body's flow channel and thus does not create in the working cavity where air bubbles can be trapped, which have the possibility to rise to the surface and are visually observed by the operator , which is advantageous for testing fittings. The advantage of this solved electromagnetic v

The valve is that it allows to test the valves for strength and tightness for a single clamping in the press stand.

An example of a particular embodiment of a solenoid valve according to the invention is shown schematically in the attached drawing, representing a partial longitudinal section of a body with a working cavity of a solenoid valve.

The electromagnetic valve according to the invention consists of a partially illustrated body 1 made of a non-magnetic material, provided with a straight flow channel 11 vertically arranged. The straight flow channel 11 is interrupted by an inner working cavity 12 of an axially unsymmetrical shape in which a ball-shaped shut-off member 6 made of magnetic material is loosely located. In the upper part 121 of the internal working cavity 12, a seat 13 is formed, on which the ball shut-off member 2 rests in the operating position, whereby the flow through the flow channel 11 is closed. The inner working cavity 12 is provided at the lower part 122 with an inclined guide 123 with an inclination into the offset 124. Control of the ball shut-off member 2 is provided by an electromagnet J whose coil 21 is mounted on a partially illustrated solenoid valve body 1 from the outside, comprising an upper portion 121 of the internal working cavity 12.

The function of this solenoid valve is that, in the open state, i.e., the shut-off valve 2 is located in the offset space 124 of the internal working cavity 12 of the body 11 so that the working medium can flow through the flow channel 11 from the bottom up. After the electrical voltage is applied to the electromagnet J, due to the electromagnetic field generated, the ball shut-off member 2 is lifted into the seat 13 in the upper part 121 of the internal working cavity 12 of the body 1 and the working medium flow is shut off. Once sufficient 256770 pressure is generated under the ball shut-off valve 2, the power supply to the electromagnet J can be interrupted and the ball shut-off member 2 is held closed by the pressure of the working medium. The solenoid valve opens automatically as soon as the pressure of the working fluid supplied to the working cavity 12 drops below the ball shut-off member 2, which is moved by its own weight and by inclined guide 123 at the bottom 122 of the working cavity 12 of the body 1. .

Claims (2)

SUBJECT OF THE INVENTION A solenoid valve, comprising a body of non-magnetic material, comprising a straight vertical flow passage interrupted by an inner working cavity provided with a seat, in which a ball-like non-magnetic ball closure member abuts in a working cavity of the body on which the electromagnet is mounted. a seating position, characterized in that the working cavity (12) is provided with an offset chamber (124) and an oblique guide (123) at the bottom (122) inclined to the offset chamber (124) in which the ball shut-off position is located in the inoperative position the body (2), the seat (13) being located in the upper part (121) of the working cavity (12). The solenoid valve according to claim 1, characterized in that the size of the offset space (124) in the working cavity (12) is selected such that the ball shut-off member (2) is out of the flow channel (11) in its inoperative position.