SU969988A1 - Electropneumatic digital converter - Google Patents

Description

(54) PNEUMATIC ELECTRIC DISCRETE CONVERTER

This invention relates to pneumatic automation and is intended to convert a pneumatic signal into an electrical signal. ,

A pneumatic transducer is known, which contains a magnetically controlled contact, a permanent magnet and a single-membrane element with a rigid center made of a magnetically soft material 1.

The known converter has limited speed.

Of the known ones, the closest in technical essence is a transducer, comprising a housing in which a rigid center membrane, two ring magnets and a magnetically controlled contact 2 are installed.

This converter also has insufficient speed.

 The purpose of the invention is to increase the speed of the converter.

This goal is achieved by the fact that in a pjemoelectric discrete converter, comprising a housing with a first cascade of amplification and a deaf, the chamber of which is connected to an input channel, a submembrane kakyur with the atmosphere and a nozzle The second amplification cascade is connected to the atmosphere; a permanent permanent magnet is mounted on the rigid center of the membrane of the second amplification cascade, against which the magnetic control is located. act, and the housing has a second permanent magnet,

10 spaced against a rigid center made of magnetically soft material, the hard center of the second reinforcement cascade is made with a ledge and channel in which a choke is mounted, and an additional channel connected to the input reinforcement of the second reinforcement cascade is installed in the case power supply through nHeBNiOKOHTaKT between the second permanent magnet and the protrusion of the hard center and with the submembranous one of the second amplification box through the throttling gap between the body and the hard center.

25

On the drawing a schematic representation of the transducer is shown, in a sectional view.

In case 1, the first amplification cascade is formed by membrane 2. Deaf

30 chamber 3 is connected to the inlet channel 4, and submembrane chamber 5 with the atmosphere and through the nozzle 6 with the inlet chamber 7 of the second amplification stage, made with a membrane 8. The hard center 9 is made with channel 10, in which the throttle 11 is installed, and with a protrusion 12 A first permanent magnet 13 is mounted on the rigid center 9, against which a magnetically controlled contact 14 is located. A second permanent magnet 15 is mounted in the housing against the projection 12, and there is also an additional channel 16 connected to the chamber 7, to the power supply chamber 17 via a pneumatic contact mandu the magnet 15 and the protrusion 12, and with the submembrane chamber 18 through the throttles channel air 19. The chamber 17 is connected to the power supply channel 20 and the chamber 18 is connected to the atmosphere. The resistance of the channel 16 uv hectare more resistance of the nozzle 6, the resistance of the throttles 11 - less than the total resistance of the channel 16 and the gap 19 and more resistance of the nozzle 6 ..

The Converter operates as follows.

Due to the indicated resistance ratios in the absence of an input signal and an open qonne 6, the pressure in chamber 7 is close to zero.

When the input signal is applied, the membrane 2 closes the nozzle 6. Since the resistance of the gap 19 is greater than the resistance of the throttles 11, the pressure in the chamber 7 increases and this causes the rigid center 9 to move downwards and the magnetic contact 14 is activated. The increase in speed is achieved due to the fact that when the hard center 9 is moved, channel 16 is supplied to chamber 7 by feeding pressure.

When the input signal is removed, the membrane 2 opens the nozzle 6. Since the resistance of the nozzle 6 is less than the resistance of channel 16, the pressure in chamber 7 decreases and the hard center 9 with membrane 8 returns to its original position due to the interaction between magnet 15 and protrusion 12.

The effectiveness of the invention is determined by the improvement of the characteristics of the control systems in which the proposed converter is applied.

Claims (2)

1. Eugenbrot V.M. Converters of the kind of energy signals in automatic control systems. M., Energie, 1970, p. 237, fig. 56. 2. Authors certificate USSR 510596, cl. F 15 C 3/04, 1974 (about totype). 3 12