SU558109A1 - Pneumatic transducer - Google Patents

Description

The movable membrane can jump in one of two stable positions. At the same time, she, Irogiba, has a “ring of a bend. The inductance coil 10 is fixed on the outer part of the movable peripheral portion of the bistable membrane 4 relative to the "bend ring.

The device works as follows. When compressed air is supplied to cavity 6 through feed channel 1, pressure is built up through adjustable throttle 2, since nozzle 13 is closed by valve 8 of permanent magnet 7. At a certain pressure, bistable membrane 4 together with a permanent magnet 7 abruptly changes to another stable position , now relying on the opposite torps of the cylindrical groove 3 with its movable peripheral section. The permanent magnet 7, lifting up, opens the nozzle 13 and closes the nozzle 14, and the inductors 10 descend. In the inductors 10 induces e. d. one polarity. At the same time in the cavity 5, the pressure will increase and at a certain value of it, the bistable membrane 4 together with the permanent magnet 7 will descend abruptly, opening the nozzle 14 and closing the nozzle 13, and the inductors 10 will abruptly rise, and they will eject. d. opposite polarity. The pressure in cavity 5 drops sharply, as it connects with the atmosphere, and in cavity 6 the pressure rises. This cycle will be repeated until power is supplied through channel 1. In this case, the relative speed of movement of the Inductance coils 10 and the fixed magnet 7 is equal to the sum of the absolute velocities of the movement of the inductors 10 and the fixed magnet 7. This is achieved due to the fact that during operation, the inductor 10 and the permanent magnet 7 are mixed in opposite directions. Due to this, in the inductors 10 will be induced e. d. greater amplitude.

When a constant pneumatic signal is applied to the pneumatic electric converter, a sequence of constant electric pulses of constant frequency will be removed from its output.

Thus, the constructive implementation of the proposed pneumoelectric transducer allows to increase the gain of the device, i.e., increase the output signal power compared to the prototype.

The pneumatic counting trigger, built on the basis of the proposed pneumoelectric transducer, comprises a housing consisting of a section that form three chambers 16, 17, 18. In a cylindrical bore of the middle chamber 17 a bistable membrane 19 is made of an elastic material that is connected to the switching element , made in the form of a permanent magnet and being the core of two inductances 21, installed at that point in the middle chamber 17.

In terms of the blostable diameter, the membrane 19 rests on one of the ends of the cylindrical groove and presses the switching element 20 to one of the nozzles 22, 23. The lateral surface of the cylindrical groove is provided with an inlet channel 24.

The chambers formed by the bistable membrane and the housing are connected via atmosphere with the chokes 25, 26, respectively. The outputs of the outer chambers 16 and 18 are connected to each other and with the output channel 27 of the trigger.

The trigger works as follows. In the absence of an input signal, the bistable membrane 19 presses the switching element 20 to one of the nozzles, for example, to a nozzle connected to a source of compressed air. In this case, the output channel of the trigger is connected to the atmosphere, and the pressure at the output of the device is zero.

When a pressure pulse arrives at the input 24, the bistable membrane 19 together with the switching element 20 jumps to the lower position, closing the atmospheric nozzle. The trigger outlet is connected to a compressed air source. The bistable membrane 19 in outer diameter will rest on the opposite end of the cylindrical groove. Moving the switching element, which is the core of two inductors 21 connected in series, induces an em of them. with. one polarity.

The trigger output will be connected to a compressed air source before the next pressure pulse arrives at input 24. In this case, the bistable membrane 19, together with the switching element 20, will abruptly move to the upper position, opening the atmospheric nozzle 22 and closing the nozzle 23 connected to a source of compressed air. At the same time in the inductors 21 will be - induced em. with. opposite polarity, and the trigger outlet is connected to the atmosphere.

To compensate for possible air leaks through the technological gaps between the Q switching element 20 and the inductors 21, the chambers formed by the bistable membrane 19 and the housing are in communication with the atmosphere through the throttles 25 and 26.

The proposed pneumatic counting g-trigger allows you to increase the load capacity and extend the functionality of the device, since the induced em. with. in inductors 21 connected in series, it is possible to judge the number of pneumatic pulses arriving at the input 24 of the trigger.

Claims (3)

1. US Patent Lo 3539840, Cl. 310-2, 1972. 2.Balmer Tom. Pneumatie wheatstone bridge “Des. News, 1971, 26, ° 2Q. 3. Authors certificate of the USSR K ° 220770, M. Cl. - C 08C 1968 (prototype). five // 2 and