SU553368A2 - Pneumoelectric discrete converter - Google Patents

Description

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The invention relates to the field of combined discrete transducers for use in control systems and is an improvement of the known device described in ed. St. No. 233102.

According to the main author. St. No. 233102 is a known pneumo-electric discrete converter containing a membrane whose hard center is connected to a heat pipe, a resistor and two rods connected to sources of "cold and" hot heat signals.

The known device has a constant response level, which limits its scope.

The purpose of the invention is to expand the scope.

This is achieved by the fact that in the pneumoelectric discrete converter according to the author. St. No. 233102, a backpressure formation unit is installed in the form of an additional membrane, on which a rigid center of a thermomagnetic material connected to a heat pipe is installed, against which a permanent magnet is located, and the chamber between the additional membrane and the housing is connected to the supply and discharge channels .

The drawing shows a diagram of the Converter.

The transducer includes a housing 1 in which an π-membrane 2 is installed and an additional membrane 3 with a rigid center of a thermomagnetic material. Membranes form chambers 4, 5 and 6.

Chamber 4 is connected to the input channel 7. The rigid centers of the membranes 2 and 3 are connected to the heat pipe 8. In the chamber 5 there is a thermistor 9, a rod 10 connected to a source of heat signal “hot, and a rod 11 connected to a source of heat signal“ cold. The thermistor 9 is connected in series to the electric circuit 12. The permanent magnet 13 is located in

chamber 5 and interacts with thermomagnetic rigid center of the membrane 3.

Chamber 6 is connected to supply channels 14 and discharge 15 of the working medium of the setpoint temperature.

The Converter operates as follows. In the absence of pressure in the inlet channel 7 and the medium temperature below the Curie point of the thermomagnetic material of the rigid center of the membrane 3, it is under the action of a force

the attraction to the magnet 13 presses the heat pipe 8 to the upper end of the thermistor 9 and to the rod 10 connected with the source of the heat signal "hot". When the temperature of the resistor changes, the resistance of the latter changes, and the current in the electric circuit 12 changes. When the pressure in chamber 4 of membrane 2 and 3 increases, the heat line 8 goes to the lower position, and the resistor will be connected to rod I.

The moment of operation of the converter is determined by the force of attraction of the hard center of the membrane 3 to the magnet 13. This force depends on the temperature of the working medium passing through the chamber 6.

Thus, by varying the temperature of the working medium in chamber 6, the response force of the converter can be set.

Claims (1)

1. Copyright certificate № 233102, cl. 15 N 01N 39/00, 1967 (prototype). /four