SU731081A1 - Pneumatic intensifier transducer - Google Patents

Description

The invention relates to the field of instrumentation and may find application in the creation of control and recording devices used in pneumatic systems.

Known pneumatic amplifier Converter containing a sensing element, rigidly connected to a lever, an adjustable throttle type nozzle-damper, the nozzle of which is connected to the input of a pneumatic servo mechanism with an output rod connected to the output shaft, and a feedback node [1].

The disadvantages of the known pneumatic converter amplifier are the low accuracy and reliability due to the presence of a cylindrical spring in the feedback unit, experiencing both torque and bending moment, which affects the linearity of the spring characteristics, the accuracy and reliability of the converter amplifier.

The aim of the invention is to improve the accuracy and reliability of the amplifier converter.

This goal is achieved in that the feedback node is made in the form of two coil springs, the first of which is rigidly connected with one end to the output shaft, and the other with the end of the second spring, the other end of the latter is rigidly fixed to an axis connected to the lever.

The drawing shows a structural diagram of an amplifier-converter.

The pneumatic converter amplifier comprises a sensing element 1, rigidly connected to a lever 2 mounted on a spring suspension 3, an adjustable throttle of the nozzle-damper type with 10 damper 4 and a nozzle 5 connected to the input of the pneumatic servomechanism 6, consisting, for example, of a cuff membrane 7 , piston 8, output rod 9, connected to the output shaft 10. The feedback assembly 15 is made in the form of two spiral springs 11 and 12, and the spring 11 is rigidly connected at one end to the output shaft 10, and the other through the bar 13 with the end pr zhiny 12, the other end 20 of which is rigidly fixed to the axle 14 fixed to the suspension 15 and connected to the lever 2 rod 16. The apparatus also includes a power source 17 connected through a throttle 18 pnevmomagistral 25 and 19 with the nozzle 5 and servo 6.

The amplifier Converter operates as follows.

The input signal _Rin P is supplied to the sensor element 1. chuvstvi30 developing force is transmitted to the elements ry731081 chaga 2, which leads to a change in the gap between the flap 4 and the nozzle 5, and hence a change in pressure in pnevmomagistrali 19, for example, to increase. The influence of increasing pressure leads to the displacement of the output rod 9 and the rotation of the output shaft 10. The moment developed on the output shaft 10 is perceived by the spring 11 of the feedback unit and, through the connecting bar 13, by the spring 12. This causes the springs 11 and 12 to twist (untwist) at a certain angle, creating a moment on the axis 14, which is converted into a force Q _oc and transmitted through the rod 16 to the lever 2.

The pressure change in the servomechanism 6 will occur until the feedback force is equal to the force from the input signal. 20

By moving the connecting bar 13 along the turns of the spring 11 and 12, you can change the number of turns of the feedback springs, therefore, adjust the range of the amplifier-transformer.

The positive effect of the proposed device is that, since the material of the coil springs included in the feedback unit experiences only bending moment, the springs of this type have greater linearity, which allows to increase the accuracy of the converter, and the direct connection of the coil spring with the output shaft increases the reliability of the device.

Claims (1)

Claim 10 Pneumatic amplifier-converter containing a sensing element, rigidly connected to a lever, an adjustable throttle type nozzle-damper, the nozzle of which is connected to the input of a pneumatic servo mechanism with an output rod connected to the output shaft, and a feedback unit, characterized in that, with In order to increase the accuracy and reliability of the amplifier-converter, the feedback unit is made in the form of two coil springs, the first of which is rigidly connected with one end to the output shaft, and the other with the end of the second zhiny, the other end of the latter rigidly zakrep25 linen on the axis associated with the lever.