SU564454A1 - Pneumatic power amplifier - Google Patents

Description

(54) PNEUMATIC POWER AMPLIFIER

one

This invention relates to pneumatic automation and relates to pneumatic power amplifiers.

A power amplifier is known that contains two membranes, a nozzle that interacts with the first membrane, and a laser, whose mobile element interacts with the second membrane and with the saddle 1.

The known amplifier has a low quality of the flow characteristic, a large hydraulic loss at the valve and requires a considerable supply pressure for the operation. Due to the use of ball elements as a moving element of the valve; The known amplifier has a heightened sensitivity to position changes, an instability of errors due to the instability of the degree of valve compaction. As a result of the rotation and vibration of the ball, noise (whistling) occurs. Low stability of operation (oscillation) hampers the parallel operation of several amplifiers. In this case, a well-known amplifier has low accuracy and manufacturability due to the h-ore

sufficiently accurate fit of the valve parts and its centering relative to the membrane.

The aim of the invention is to improve the accuracy of the device by improving the centering of the movable valve element relative to the seat.

To achieve this goal: in the amplifier the movable valve element is made in the form of a thin-walled hollow cone, the top of which is provided with an elastic centering hanger, through which it is connected to the amplifier body.

The use of a second amplifier membrane in the hachest of a non-elastic centering suspension, which simultaneously simplifies the design, also contributes to improving the accuracy of the device.

FIG. 1 shows an amplifier with a centering hanger of a movable valve element; in fig. 2 - A variant of the amplifier using the second membrane as a centering support.

The housing 1 of the amplifier membranes 2 and 3 is divided into three cavities: 4-6. In the cavity 5 are located the nozzle 7, forming with

ecTKiiM center of the first membrane 2 choke of a nozzle-flap type, n valve consisting of a saddle S and a floating element 9. Epemeng 9 is in contact with the rigid center of the Brqpofi membrane 3 Cavity 4 and 5 between itself and the amplifier input, and cavity 6 from the output, the house of the amplifier.

Element 9 is made in the form of a double-core hollow cuscus and a pa & t cone right up to the memephagus 3. The cone of the cone of the 9 closed valve in an elastic centering hanger U, which has a very small south section, is stiffer in the direction The top of the ditch of this foundation. The suspension may be of a scaled vein, for example, in the form of a washer with oriental cuts.

In the case of isofase on ftk 2, the cone vertex of element 9 is fixed directly on the rigid center of the membrane 3, which is expedient at small membrane passages to small values, passing 1x sections, as well as with a small width of the membrane floor. Under other conditions, the preferred embodiment of FIG. one.

With increasing pressure at the inlet of the amplifier, the membrane 2 closes the discharge nozzle 7, and the membrane 3 moves the element 9 to the valve opening side connected to the supply air source, which leads to a corresponding increase in the output pressure (cavity 6) before controlling it with the cavity pressure x 4 and 5 j with decreasing inlet pressure, similarly, a corresponding decrease in outlet pressure occurs. In this case, by fixing the element 9 in the elastic centering suspension 10, this element is free to move along the axis of the valve, the degree of compaction is high (since the place of the initial contact during assembly remains unchanged) and rotation that leads to noise is eliminated. . In addition, the conical shape of the element 9 with a thin wall implies manufacturing and assembly, and, together with the centering, provides less flow loss and less influence on the mass of the element, i.e., increased sensitivity and reduced position variation errors, at the same time, meshes of the magnitude of the supply pressure of the feed.

Claims (2)

1. Pneumatic power amplifier (q containing two membranes, a nozzle that interacts with the first membrane, and a valve whose movable element interacts with the second membrane and with a seat, characterized in that, in order to improve the accuracy of device operation, by improving the centering of the movable valve element relative to the saddle, this element is designed in the form of a thinnest foreigner; 0., a colus, the top of which is equipped with an elastic centering hanger for connection to the amplifier body. 2. The pneumatic power amplifier according to claim 1, characterized in that a second membrane is used as the elastic centering suspension, Sources of information taken into account in the examination: 1. USSR author's certificate, cl. F 15 with Z / OO, 1969. VUi.2