SU1749601A1 - Solenoid valve - Google Patents

Description

The main spool 6, seat 7, the control diaphragm 8 and the control valve 9, are combined with the cortex of the electromagnetic actuator 10. The seals 11 and 12 are built in the ends of the cortex 10. The anchor is spring-loaded with springs 13 through the pins 14. The control valve 9 is located coaxially with the main spool b in the cavity 15, which is the combination of the cavity of the control valve and the supramembrane cavity. In the center of the main spool b there is a loading channel 16, terminated by a nozzle 17 in the upper part, which is closed by a control valve 9. In the cavity 15 there is a stop 18, rigidly connected with

nozzle 17 boot channel 16 in the main spool. The height of the stop 18 is such that it provides the necessary minimum magnitude of the magnetic gap a. When an electrical signal is applied to the electromagnetic actuator 10, the bore is drawn in, the seal 12 closes the discharge channel 5, and the seal 11 opens the loading channel 16. The working medium from channel 2 passes through channel 16 into cavity 15. As a result, pressure in channel 2 and cavity 15 is equalized . The main valve b under the action of the pressure of the working medium on the annular platform b goes down and informs channels 2 and 3, and channel 4 closes. The valve is open. 1 il.

The invention relates to reinforcement and can be used, for example, in electro-pneumatic equipment for controlling the supply of compressed air to pneumatic devices.

The aim of the invention is to simplify the design of the valve.

This goal is achieved by the fact that the inlet channel of the housing is located between the control diaphragm and the seat and is connected to the supermembrane cavity of the loading channel, which eliminates the need for additional channels in the valve body to power the control valve.

The drawing shows the solenoid valve, the cut.

The valve body 1 with input 2, output 3, main and additional discharge channels 4 and 5 houses the main valve b, the seat 7, the control diaphragm 8 and the control valve 9, combined with the bark 10 of the electromagnetic actuator. Seals 11 and 12 are inserted at the ends of the core 10. The anchor is spring-loaded with springs 13 through pins 14. The control valve 9 is located coaxially with the main spool 6 in the cavity 15, which is the combination of the cavity of the control valve with the supermembrane cavity. In the center of the main spool 6 there is a loading channel 16, terminated by a nozzle 17 in the upper part, which is closed by a control valve 9. In the cavity 15, a stop 18 is mounted, rigidly connected to the nozzle 17 of the loading channel 16 in the main spool. The height of the stop 18 is such that it provides the necessary minimum magnitude of the magnetic gap a

The solenoid valve operates as follows.

In the initial position, the working medium enters the inlet channel 2, while the main spool 6 with the help of the membrane 8 rises to the upper position up to the stop 6, the body so that between the channel 5 and the bark 10 remains the initial working gap a. Seal 11, embedded in the end of the core 10,

under the action of the springs 13 and the pins 14, it closes the channel 16 ending in the upper part with the nozzle 17.

When an electric signal is applied to the electromagnetic actuator 10, the measles 9 are drawn in, the seal 12 closes the discharge channel 5, and the seal 11 opens the loading channel 16. The working medium from channel 2 through channel 1 & passes into the cavity 15. As a result, the pressure in the channel

2, the cavities 15 are aligned. The main valve b under the action of the pressure of the working medium on the annular platform b goes down and informs channels 2 and 3, and channel 4 closes. The valve is open.

When an electric signal is removed from an electromagnetic drive, the measles 10, under the action of springs 13 and pins, 14, closes channel 16, simultaneously opening channel 5. As a result, pressure in cavity 15

compared with atmospheric. Under the action of the pressure of the working medium in channel 2, the main valve 6 together with the bark 10 comes to its original position. In this case, the input channel 2 is disconnected from channel 3,

channel 3 communicates with channel 4. The valve is closed:

Claims (1)

The invention of the electromagnetic valve, in the case of which the inlet, outlet and additional discharge channels and the seat, the main spool, is placed with the fact that, in order to simplify the design, equalizing membrane, in the center of which the entrance channel of the housing is located between a loading channel, an end-control membrane and a saddle, formed by a nozzle in the upper part, are made, and the spool is located on the side squeezed in the supermembrane cavity coaxially with the entrance channel and in the supermembrane cavity the main spool is a control lock-out stop tightly connected to the nozzle The body combined with the core of the electro-loading channel of the main zolotnomignitnogo drive, different ke.