SU1341403A1 - Pneumatic valve - Google Patents

Abstract

The invention relates to pneumatic machine building and allows to increase the speed of a pneumatic actuator. For this, it is equipped with additional distributor devices made in the form of controllable spring loaded valves 5 and 6 of the piston type. Ejector nozzles (ES) 7 and 8, connecting the main distribution device with working cavities 2 and 3, are installed in the latter, are oriented along the axis of the valve and are permanently connected to the source of working medium. When gas is injected by one of the ES in acc. The working cavity is simultaneously the second ES ejecting gas in the other cavity. The rarefaction that arises in the latter leads to a decrease in the forces of resistance to the movement of the movable element 4. The presence of cone-shaped projections on the locking elements 11, 12 of the valves 5, 6 helps to prevent the gas from reflecting from the locking elements towards the ES. I zp f-ly, 2 ill. "(L oo N O oo y

Description

The invention relates to a pneumomachine structure and can be used in various sectors of the national economy for actuating actuators.

The aim of the invention is to increase the speed of the pneumatic drive.

FIG. 1 schematically shows a pneumatic actuator; in fig. 2 - valve shut-off element.

The pneumatic actuator includes a housing 1 with working cavities 2 and 3, a movable element 4, control valves 5 and 6, and ejector nozzles 7 and 8 installed in cavities 2 and 3 and oriented along the axis of valves 5 and 6. Movable element 4 made in the form of a carriage with rollers. Controllable valves 5 and 6 are made in the form of spring-loaded pistons 9 and 10 with shut-off elements 11 and 12 and outlet windows 13 and 14. Ejector nozzles 7 and 8 are permanently connected to the source of working medium. The locking elements 11 and 12 are made with conical protrusions 15 (Fig. 2)

Pneumatic operates as follows.

When ejector nozzles 7 and 8 are connected to the source of the working medium, the signal goes to the control system (not shown) with valves 5, 6, as a result, valve 5 opens outlet windows 13, and shut-off element 12 of valve 6 blocks output window 14.

In this case, the ejector 8 injects gas into the cavity 2, which causes the moving element 4 to move. At the same time, the gas jet coming from the ejector nozzle 7 ejects gas in the cavity 3. The gas is sucked out of the working cavity 3, in which the discharge is generated reducing the resistance to movement of the movable element 4, and consequently, to increase the speed of the pneumatic actuator.

In order to carry out the reversal, it is necessary to close the output window 13 and open the output window 14 by means of controllable valves 5 and 6, while the ejector nozzle 7 will be forcing, and the ejector nozzle 8 will be ejecting.

The presence of cone-shaped protrusions 15 on the locking elements 11, 12 of the valves 5, 6 helps to prevent the reflection of gas from the locking elements towards the ejector nozzles.

Claims (2)

Invention Formula 0 five I. A pneumatic actuator, comprising a housing, a movable element dividing the housing into working cavities, communicated with a source of working medium through a distribution device, Ejector nozzles installed in the communication lines of the distribution device with working cavities, characterized in that its speed, it is equipped with additional distribution devices made in the form of piston-type spring-loaded control valves, and the ejector nozzles are installed directly 0 in the working cavities, mounted along the valve axis and permanently connected to the source of the working medium. 2. A pneumatic actuator according to claim I, characterized in that the valve closure member is designed with a cone-shaped protrusion. 15 11 5 LJ..L thebes. 2