SU1142664A1 - Pneumatic amplifier - Google Patents

Description

The invention relates to machine-building and can be used in pneumatic and hydraulic power amplifiers. A pneumatic amplifier consisting of a casing in which a nozzle and a flap are located is known, the nozzle inlet is connected via a choke to a pressure source Cl 1. A disadvantage of the known pneumatic booster is that the air flow in the gap between the end face of the nozzle and a flap and a force arises that presses the flap to the nozzle, which leads to bounce and unstable operation of subsequent amplification stages. A pneumatic amplifier is known that includes a housing with an installed one. with the formation of two control chambers by a membrane, the first control chamber communicating with the control signal source, and in the second, connected through holes in the housing to the atmosphere, a nozzle is installed, with an end directed to the membrane, and an inlet connected through a choke to a source of compressed air 2 This pneumatic amplifier is that at small distances between the membrane and the end of the nozzle, oscillatory movements of the transducer occur due to the change in the nature of the air flow in the gap. Membrane oscillations reduce the reliability of the pneumatic amplifier. The purpose of the invention is to increase the reliability of work. This goal is achieved by the fact that in a pneumatic amplifier containing a housing with a membrane installed in it with the formation of two control chambers, the first control chamber communicating with the control signal source, and in the second connected through holes in the housing with the atmosphere, a nozzle is installed directed to the membrane, and the inlet is connected via a choke with a source of compressed air, the membrane is provided with a cylindrical ring placed on the side of the second control chamber, and the holes in the housing connect oruyu control chamber with the atmosphere are formed at least partially between the membrane surface and the plane pr.ohod therethrough end of the cylindrical ring. The drawing shows a schematic diagram of a pneumatic amplifier. The pneumatic amplifier 1 consists of a housing 2 with a membrane 5 installed in it with the formation of two control chambers 3 and 4. The control chamber 3 of channel 6 is connected to a control signal source (not shown in the drawing). Control chamber 4 is connected by openings 7 in housing 2 with the atmosphere. In the chamber 4, a nozzle 8 is installed, with an end face directed toward the membrane 5, the inlet of which is connected through a throttle 9 and a channel 10 with a source of compressed air. A membrane ring 11 is mounted on the membrane 5c of the side of the chamber 4. The choke 9 and the nozzle 8 form an inter-throttle chamber 12, in which the spool 13 is mounted with the end face, which is spring-loaded from the other end by the spring 14. The channels 15 and 16 in the housing 2 connect the spool with an air source LTO and with the consumer .. The pneumatic amplifier works as follows. With the passage of the working medium through the channel 10, the throttle 9 and the nozzle 8 in the inter-throttle chamber, pressure is established, determined by the conductivity of the throttles 9 and throttles, surrounded by the nozzle 8 and the membrane 5, the spool 13, compressing the spring 14, is displaced in proportion to the pressure in the inter-throttle the camera. Air from the compressed air source flows to the consumer through channels 15 and 16. When control pressure is supplied from the control signal source through channel 6 to chamber 3, membrane 5 deforms and shifts towards nozzle 8. Conductivity of throttles J formed by nozzle 8 and membrane 5 changes , which leads to a change in pressure in the inter-throttling chamber and a change in the movement of the spool 13. Thus, proportional adjustment of the spool 13 is carried out in accordance with the pressure of the control signal in chamber 3. At small between the membrane 5 and the sockets of 8, air flow regimes occur along the membrane 5, causing the formation of a vacuum zone on the surface of the membrane 5 from 3111426644

Camera Ron 4. Pass on top-position. Thus, the elimination of the membrane 5 and the circumference of the cylindrical vibration of the membrane 5 and the slide ring 11, compressed air from-13 is eliminated. A uniform arrangement cancels the moment of the number of movements of the 7 in the housing and creates equal reactive force, the rapid distribution of pressures all over the membrane 5 to return to the original membrane 5 from the side of the chamber 4.

Claims (1)

(543 PNEUMATIC AMPLIFIER containing a housing with a membrane installed in it with the formation of two control chambers, the first control chamber communicating with the control signal source, and a nozzle with an end face directed to the membrane installed in the second, connected through openings in the housing with the atmosphere, and the inlet connected through a throttle to a source of compressed air, characterized in that * in order to increase the reliability of operation, the membrane is equipped with a cylindrical ring placed on the side of the second control chamber, and the holes in the housing connecting the second control chamber with the atmosphere is made at least partially between the surface of the membrane and the plane passing through the end face of the cylindrical ring.