RU148241U1 - SOLENOID VALVE - Google Patents

Abstract

An electromagnetic valve comprising an inlet and an outlet flange, an anchor located in an inner sleeve consisting of an inlet flange, a diamagnetic insert and an output sleeve, characterized in that the diamagnetic insert is installed on the inlet flange and the output sleeve by press fit and is hermetically welded with these parts, moreover, the inlet flange is made in the form of a single part, and the fixing of the inner sleeve with the outlet flange is carried out by means of a press fit and key connections, the anchor is made in the form of a cylindrical rod with grooves located along the outer diameter and extending along the entire length of the anchor, at the end of which there is a blind hole having inner diametrical annular grooves with radial technological holes and reinforced with a rubber mixture, the outer end, which is the working surface of the locking element.

Description

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 compressed air flow in railway pneumatic systems, as well as in compressed air preparation systems.

The main requirements for locking devices installed in the pneumatic systems of railway transport is to increase reliability and increase service life.

A known electromagnetic valve [RU 86695 U1, 2009.05.14, F16K 49/00], comprising a winding, inlet and outlet flanges, an inner sleeve with a cylindrical armature inside and a locking element consisting of a cup and a rod reinforced with rubber mixture.

The disadvantage of this solenoid valve is:

- low reliability of the valve due to insufficient tightness of the locking element and the high complexity of its manufacture and assembly;

- insufficient tightness of the connection, which is under high pressure of moist air, the inlet flange with the inner sleeve and moisture in the winding;

- rotation of the input flange relative to the inner sleeve due to the absence of a fixing element and as a result, the winding is broken.

Closest to the utility model in technical essence is an electromagnetic valve [RU 101137 U1, 2010.07.27, F16K 31/02] containing a winding, inlet and outlet flanges, an inner sleeve consisting of a diamagnetic insert fixed to the inlet sleeve and outlet flange with with the help of sealing rings and electric rivets, an anchor is located in the inner sleeve with a locking element made in the form of a reinforced sleeve fixed by an anchor with a nut, the inlet flange with the inner sleeve is sealed with a sealing ring, and their fixation by a locking element.

The disadvantages of this device are:

- low reliability of the valve due to insufficient tightness of the locking element and the high complexity of its manufacture and assembly;

- insufficient tightness of the connection, which is under high pressure of moist air, the inlet flange with the inner sleeve using a sealing ring, and as a result moisture gets on the winding;

- insufficient tightness of the connections of the diamagnetic insert with the input sleeve and output flange, carried out with the help of o-rings and electro-rivets;

- failure of the valve during its installation or dismantling associated with insufficient fixation of the inlet flange and inner sleeve by the locking element, as a result of which the nozzles rotate and, as a result, the winding breaks.

The tasks that this utility model is aimed at are: increasing the reliability of the electromagnetic valve in operation and increasing the service life.

The tasks are solved due to the fact that the electromagnetic valve containing the inlet and outlet flanges, an anchor located in the inner sleeve, consisting of an inlet flange, a diamagnetic insert and an output sleeve, according to a new technical solution, a diamagnetic insert is installed on the inlet flange and the output sleeve in press fit and hermetically welded with these parts, and the inlet flange is made as a single part, and the fixing of the inner sleeve with the outlet flange is carried out using the press fit and shp night connections, the anchor is made in the form of a cylindrical rod with grooves located along the outer diameter and extending along the entire length of the anchor, at the end of which there is a blind hole having inner diametrical annular grooves with radial technological holes and reinforced with rubber mixture, the outer end, which is the working surface of the locking element.

The essence of the utility model is illustrated in the drawing:

- in FIG. 1 shows a section through a solenoid valve.

The electromagnetic valve contains: an inlet flange 1, made in the form of a single part and an outlet flange 2, an inner sleeve 3, consisting of an inlet flange 1, a diamagnetic insert 4 and an output sleeve 5, hermetically welded together. The fixing of the inner sleeve 3 with the output flange 2 is carried out by means of a press fit and key connections 6. An anchor 8 is drawn in by means of a spring 7 and made in the form of a cylindrical rod with grooves 9 located along the outer diameter and extending along the entire length of the armature. At the end of the armature 8 there is a blind hole 10 having inner diametrical annular grooves 11 with radial technological holes 12. This hole 10 is reinforced with a rubber mixture, the outer end of which is the working surface of the locking element.

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

In the initial state, the solenoid valve is de-energized. Under the action of the spring 7 and compressed air, the anchor 8 with the locking element is preloaded. The flanges of input 1 and output 2 are disconnected. When voltage is applied to the solenoid valve retractor coil, the armature 8 is displaced with the locking element and the spring is compressed 7 - the electromagnetic valve opens and compressed air, along with condensate from the inlet flange 1, enters the outlet flange 2. When the voltage is removed from the solenoid valve retractor coil, the armature 8 with a locking unit under the action of the spring 7 and compressed air returns to its original state - the electromagnetic valve closes.

The proposed design of the solenoid valve with a diamagnetic insert installed on the inlet flange and the output sleeve by press fit and hermetically welded with these parts allows to achieve stable tightness of these connections.

The inlet flange, made in the form of a single part, allows you to get away from unnecessary connections using the o-ring under high pressure moist air.

The technical solution associated with the fixation of the inner sleeve and the output flange, carried out by means of a press fit and key connections, allows you to absorb more force when installing and removing the solenoid valve and prevent the inner sleeve from turning with respect to the output flange.

The design of the anchor made in the form of a cylindrical rod with grooves located along the outer diameter along the entire length of the anchor and a blind hole located at its end, having diametrical annular grooves with radial technological holes, reinforced with a rubber mixture, which is a locking element, allows you to:

- increase the reliability of the electromagnetic valve in terms of transmission of air and condensate a certain degree of pollution;

- significantly increases the reliability of fixing the reinforced rubber mixture inside a blind hole and diametrical annular grooves with radial technological holes.

Claims (1)

An electromagnetic valve comprising an inlet and an outlet flange, an anchor located in an inner sleeve consisting of an inlet flange, a diamagnetic insert and an output sleeve, characterized in that the diamagnetic insert is mounted on the inlet flange and the output sleeve by press fit and is hermetically welded with these parts, moreover, the input flange is made in the form of a single part, and the fixing of the inner sleeve with the output flange is carried out by means of a press fit and key connections, the anchor is made in the form of a cylindrical rod with grooves located along the outer diameter and extending along the entire length of the anchor, at the end of which there is a blind hole having inner diametrical annular grooves with radial technological holes and reinforced with a rubber mixture, the outer end, which is the working surface of the locking element.

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