SU1154563A1 - Transformer-type force transducer - Google Patents

Abstract

A TRANSFORMER POWER SENSOR, containing two transformers, each short-circuit containing primary and secondary windings and a magnetic circuit, two diamagnetic conductive frames, inductively associated with the windings of the respective transformers, and a power source connected by one pole to the first ends of the primary windings of transformers, characterized by In order to improve accuracy by simplifying the power circuit, a variable resistor is inserted in it connecting the second ends of the primary windings of the transformers, ki which are connected in series-opposite, and conductive frame made short-circuited and elastic, and the engine variable resistor connected to the second pole (A power source.

Description

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Y: o 11 The invention relates to load measuring technique and can be used in load measuring devices. A transformer force sensor is known, comprising a transformer, primary and secondary windings, and a magnetic conductor, as well as an electrically conductive frame 1 inductively coupled to the windings. The disadvantage of this sensor is low accuracy. The closest in technical essence to the invention is a transformer sensor - ay, containing two transformers, each of which contains primary and secondary windings and a magnetic circuit, two diamagnetic conductive frames, inductively associated with the windings of the respective transformers, and a power source connected by one pole to the first ends of the primary q6MOTOK transformers of the NW I. A disadvantage of the known sensor is also low accuracy due to the complexity of the power circuit. The purpose of the invention is to improve accuracy by simplifying the power circuit. This goal is achieved by the fact that a transformer force sensor containing two transformers, each of which contains primary and secondary windings and a magnetic conductor, two diametrically conductive frames inductively connected to the windings of the respective transformers, and a power source connected by one pole to the first ends of primary voltages. a coil of transformers, a variable resistor is introduced connecting the second ends of the primary windings of transformers, the secondary windings of which are connected in series-counter, with electric ktroprovodnye frame made korotkozamknutmi and elastic, and DWI. A variable resistor is connected to the second pole of the power source. The drawing shows the structural scheme of the sensor proposed. The transformer force sensor contains a power source 1, a variable resistor 2, the slider 3 of which is connected to one pole of the power source 1, transformers 4 and 5, each of which contains primary 6 and 7 and secondary 8 and 9 windings, as well as 3 magnetic cores 10 and 11, short-circuited conductive frames 12 and 13 of rectangular shape, which are made elastic. The power supply 1 with its second pole is connected to the first ends of the primary windings 6 and 7 of transformers 4 and 5, the second ends of which are connected via a variable resistor 2. The secondary windings 8 and 9 of transformers 4 and 5 are connected in series and all their free ends are: sensor output , and short-circuited electrically conductive frames 12 and 13 are connected with the magnetic cores 10 and 11 of transformers 4 and 5, respectively, as ring rings. Transformer force sensor works as follows. In the unloaded state, using a variable resistor 2, the zero emf value of the sensor output is set. When a measured force is applied to one of the shorted electrically conductive frames 12 or 13, the frame is elastically deformed and changes its ohmic resistance, which leads to an imbalance of currents and voltages in transformers 4 and 5 and to the appearance at the output of the EMF sensor, the value of which is functional dependent on the applied force and if all symmetrical 1 elements of the measuring circuit are identical, it is determined from the expression where Pto is the transformer ratio 4; EMF source 1 power; the number of turns of the winding 6; number of turns of the winding 8; resistance of one shoulder of variable resistor 2; the ohmic resistance of the short-circuited conductive frame 12 (13); the change in resistance of the frame 12 (13) under the action of the measured force. The application of the proposed sensor allows to increase the measurement accuracy by simplifying the sensor circuit.

Claims (1)

A TRANSFORMER POWER SENSOR comprising two transformers, each of which contains a primary and secondary winding and a magnetic wire, two diamagnetic conductive frames inductively coupled to the windings of the respective transformers, and a power source connected by one pole to the first ends of the primary windings of the transformers, characterized in that that, in order to increase accuracy by simplifying the power circuit, a variable resistor is introduced into it, connecting the second ends of the primary windings of the transformers, the secondary windings of the cat ryh connected in series-opposite, and conductive frame made short-circuited and elastic, and the engine variable resistor connected to the second pole of the power source. SU „., 1154563