RU52147U1 - SOLENOID VALVE - Google Patents

Abstract

The utility model relates to pipe fittings and can be used in pneumatic, hydraulic and the like systems.

The technical problem before the utility model is to increase the reliability of the valve and expand its operational capabilities.

The essence of the utility model is that in the solenoid valve having the main and auxiliary electromagnetic actuators with axially spring-loaded anchors, adjustment of the compression force of the springs with screws having shanks interacting with the armature springs is introduced.

Description

The proposed utility model relates to pipe fittings and can be used in pneumatic, hydraulic and the like systems.

A known electromagnetic valve comprising a housing with valves for entering, leaving and dumping the working medium, autonomous main and auxiliary electromagnetic actuators with axially spring-loaded anchors interacting with the feet. (AS No. 1652723, F 16 K 31/02, 1991)

This design has low reliability due to the large number of sealing elements. In addition, the anchor springs are designed for a certain pressure, which can lead to spontaneous opening of the valves and depressurization of the system, and also limits the scope of the valve.

The technical problem posed before the utility model is to increase the reliability of the valve and solving its operational capabilities.

This technical problem is solved in that in an electromagnetic valve containing a housing with channels for input, output and discharge of the working medium, autonomous main and auxiliary electromagnetic drives with axially spring-loaded anchors and feet, the latter are made stationary with axial channels in which are installed

adjusting screws with shanks interacting with the springs of the anchors of the electromagnets, while the lead-in parts of the channels with the springs are made conical.

The valve is reliable in operation, since the possibility of spontaneous opening of the “inlet” and “outlet” valves is excluded by adjusting the compression force of the springs of the anchors with adjusting cables. The adjustment ensures reliable operation of the valve within the pressure range from 0.5 to 10 kg / cm ² , which allows its use in pneumatic, hydraulic and other systems where it is necessary to maintain the pressure in the consumer system or change it during operation (for example, change tire pressure on the go, refueling gas cylinders, fire extinguishers, etc.).

Figure 1 shows a cross section of a solenoid valve. It consists of a housing 1 with input 2, output end 3, side output 4 and a discharge channel 5 of the working medium. Identical autonomous electromagnetic drives, main 6 and auxiliary 7 with anchors 8 and stops 9, made integral with the cover, are mounted on the housing 1. The anchors 8 are provided with axial springs 10, and in the feet 9 there are axial channels where the adjusting screws 11 with shanks 12 interacting with the springs 10 are located. Outside the axial channel is closed by a sealed plug 13. In the lower part of the anchors 8, plugs 15 and 15 are installed on the horizontal axes 14 with a clearance in the axial direction of the pistons 16, in the lower part of which are screwed nozzles 17 and 18, interacting with caps 15 and supported by

O-rings 19 on the seats 20, thereby forming the "input" valve of the main electromagnetic actuator and the "exhaust" valve of the auxiliary electromagnetic actuator.

The valve operates as follows.

When you turn on the main electromagnetic actuator 6, the "input" valve opens and the working medium from channel 2 through channels 3 and 4 enters the consumer system. When the required pressure in the systems is reached, the actuator is turned off, and the "inlet" valve closes under the action of a spring-loaded armature 8, stopping the flow of the working medium into the valve. In this case, although the source of external pressure at the inlet is turned off, the pressure inside the valve is the same as in the consumer system. In order to prevent the spontaneous opening of the “inlet” and “outlet” valves from this pressure, adjustment screws 11 are provided that rely with their shanks 12 on the springs 10 of the anchors 8 and ensure reliable closing of these valves and, therefore, the sealing of the system as a whole.

To relieve pressure from the consumer systems, an auxiliary electromagnetic actuator 7 is turned on, opening the “exhaust” valve, and the working medium is discharged through the discharge opening 5. As when pumping the working medium and when it is discharged, the nozzles 17 and 18 open before the valves themselves. This allows you to compensate for the pressure drop outside and inside the valve and to avoid possible water hammer.

If the consumer systems are not connected to all valve outlet channels, unused openings are closed with plugs (not shown).

To prevent jamming of the thread of the adjusting screw in the axial channel of the armature, the inlet part of its hole is made conical.

Claims (1)

An electromagnetic valve comprising a housing with inlet, outlet and discharge channels for the working medium, autonomous main and auxiliary electromagnetic actuators with axially spring-loaded anchors and feet, characterized in that the feet are fixed with axial channels in which adjusting screws with shanks are installed, interacting with springs of the mentioned anchors of electromagnets, while the entry parts of the channels with springs are made conical.