SU580463A1 - Force efect-to-pneumatic signal transducer - Google Patents

Description

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The invention relates to the field of instrumentation, namely to power effect transducers into a pneumatic signal and regulation.

A known converter of force action into a pneumatic signal, comprising a housing divided by a membrane with a rigid center into two chambers, and a nozzle connected to the atmosphere and installed in a chamber connected directly to the output channel and through a choke to the feed channel, a rigid center connected to the string passing through the nozzle and perceiving force 1.

The known converter has low accuracy.

A known transducer of force is applied to a pneumatic signal containing a single-membrane element, the flow chamber of which is connected through the choke to the feed channel, and the rigid center is connected to the string passing through nozzle 2.

The known methods of improving the accuracy of single-membrane elements do not allow to reduce the conversion error caused by the spread of the parameters of the elastic elements of the converter.

In order to increase the accuracy of the power converter into the pneumatic signal, it contains an additional flow chamber, a second choke and an adder, the additional flow chamber being coaxial with the string and communicated through the second choke with the atmosphere and directly with the nozzle of the single-membrane element and the first input of the adder, the second input of which connected to the flow chamber of the single-membrane element, and the output is connected to the output channel of the converter.

The drawing shows a schematic diagram of the proposed power converter into a pneumatic signal.

The converter contains a single-membrane element 1 with a flow-through chamber 2, which is connected via the choke 3 to the power supply channel Pmii, and through a nozzle 4 is connected to an additional flow-through chamber 5 connected via the second choke 6 to the atmosphere. The rigid center of the membrane is connected to the string 7 passing through the nozzle 4, with an additional flow chamber 5 mounted coaxially with the string and connected directly to the first input of the adder 8, the second input of which is connected to the flow chamber 2 of the membrane element 1, and the output connected to the output channel converter

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The Converter operates as follows.

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The converter is operated by applying pressure to the feed. String 7 reproduces the input force Fj, while the membrane bends and the hard center closes the nozzle, which causes a pressure change in the flow chamber 2. According to the compensation principle, the pressure of the compressed air in the flow chamber is proportional to the input force. The air flow passing through the nozzle 4 and the second choke 6 creates a pressure in the flow chamber 5 depending on the magnitude of the input force. Prism conductivity drops 6, change the magnitude of this pressure and thus the magnitude of the corrective action, which allows you to adjust the calibration characteristic of the converter.

The technical and economic effect is to increase the accuracy of the conversion.

Claims (2)

Invention Formula A force transducer into a pneumatic signal containing a single-membrane element, a flow chamber 4 The throttle is connected to the supply channel, and the hard center is connected to a string passing through a nozzle, characterized in that, in order to improve the accuracy of the converter, it contains an additional flow chamber, a second choke and an adder, the additional flow chamber being coaxial with the string and communicated through the second choke with the atmosphere and directly with the nozzle of the single-membrane element and the first input of the adder, the second input of which is connected to the flow-through chamber of the single-membrane element, and the output is connected to the output channel of the converter. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 292081, cl. G OIL 1/02, 1968. 2. Yu. N. Potepalov. Schematic Method for Improving the Technical and Economic Parameters of Apparatus, Issues of Industrial Cyberies. Proceedings TSNIIKA, vol. 39, M., Energie, 1974, p. 67