SU1046697A1 - Device for measuring physical values - Google Patents

Abstract

A DEVICE FOR MEASURING PHYSICAL VALUES, containing a measured value sensor with a primary winding connected to the output of a voltage supply source, two secondary windings. interconnected and connected to one of the outputs of a fuzzy voltmeter, and a movable magneto-protodrome mechanically connected with the object being monitored, characterized in that, in order to improve the measurement accuracy, a transformer with magnetic core, identical to the same and the elements of the sensor of the measured value are, the transformer winding being nervous, connected to the high voltage supply of the voltage source, the secondary windings are connected, each according to and connected to another input of a phase-sensitive voltmeter, and the magnetic circuit is fixed in the area of the working part of the transformer, g

Description

O5 O5 with fl The invention relates to electrical measuring equipment and is intended for use in controlling torque, deformation, roll, trim, etc. A device for measuring physical quantities, in particular, angular or linear displacements, is known. measured value sensor with primary winding connected to the output of the power supply source, secondary (signal) and supporting windings connected to the inputs of the phase-sensitive unit and rotating (rotary magnetic circuit mechanically connected with the object under control 1. The main drawback of the known device is in the influence of the reference winding on the secondary, caused by the mutual inductance of these windings changing with the change of the angle of rotation of the magnetic circuit, which adversely affects the accuracy of Moreover, the known device does not allow monitoring of small values of physical quantities, since the supporting voltage at small angles of rotation of the magnetic circuit has an amplitude insufficient for the operation of the phase-sensitive unit. The closest technical solution to the present invention is a device for measuring physical quantities that contains a sensor of the measured value with the primary winding connected to the outlet of the drain of the supply voltage, two secondary windings connected together and connected to one of the inputs of a phase-sensitive voltmeter, the other input of which is connected to the output of the supply voltage source, and a moving magnetic circuit mechanically connected with the object to be monitored 2. Fie wealth of the specified device is determined by a low measurement accuracy due to the influence of various kinds destabilizing factors, such as temperature, by a phase shift between the primary and secondary windings of the sensor of the measured value. The purpose of the invention is to improve the measurement accuracy of the device. The goal is achieved by that; that a device for measuring physical quantities, containing a measured value sensor with a primary winding connected to the output of a supply voltage source, two secondary windings interconnected oppositely and connected to one of the inputs of a phase-sensitive voltmeter, and a movable magnetic circuit mechanically connected with a controlled object, a transformer with a magnetic core, primary and secondary windings, identical to the same 7 elements of the sensor of the measured value, is introduced, with the primary TCA transformer connected to the output power supply voltage, the secondary windings are connected together and are connected according to another input of the phase-sensitive voltmeter, and the magnetic field of the transformer is fixed in the working region. The drawing shows the functional diagram of the proposed device for measuring physical quantities. The device contains a measured value sensor 1 (linear differential transformer) with primary 2, secondary 3 and 4 windings and a moving magnetic core 5. Primary winding 2 is connected to the output of the supply voltage source (not shown) Secondary windings 3 and 4 are interconnected connected to one of the entrances of the phase voltage voltme1; -a 6. The magnetic circuit 5 is mechanically connected with the object to be controlled. The reference signal for the phase-sensitive voltmeter 6 produces a transformer 7 with a primary 8, secondary 9 and 10 windings and a magnetic conductor 11. The primary winding 8 is connected to the output of the supply voltage source. The secondary windings 9 and 10 are interconnected according to and connected to another input of the phase-sensitive voltmeter 6. The magnetic circuit 11 is fixed in the area of the working section of the transformer 1. The device operates as follows. When a physical magnitude arises, such as deformation, a voltage is induced at the output of sensor 1, the amplitude of which is proportional to the amount of deformation, and the phase corresponds to the direction of information (stretching or compression). At the output of the transformer 7, a reference voltage is produced, in phase with output 1m. the voltage of sensor 1, which is supplied to another input of the phase-sensitive voltmeter 6. As a result, a constant voltage is generated at the output of the latter, the value of which is proportional to the magnitude of the deformation, and the sign: corresponds to the direction of action. Due to the fact that the signal and reference circuits of the phase-sensitive voltmeter 6 in the inventive device are made with analogous lvffl structural elements, a parasitic phase shift between the signals present in these circuits is prevented and, as a result, the measurement accuracy increases.

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Claims (1)

DEVICE FOR MEASURING PHYSICAL VALUES, containing a measured value sensor with a primary winding connected to the output of the supply voltage, two secondary windings interconnected in the opposite direction and connected to one of the outputs of the phase-sensitive voltmeter, and a movable magnetic circuit mechanically connected to the controlled object, characterized in that, in order to improve the accuracy of measurement, a transformer with a magnetic circuit, primary and secondary windings identical to the same name was introduced into it sensor units of the measured value; moreover, the primary winding of the transformer is connected to the output of the supply voltage source, the secondary windings are interconnected according to and connected to another input of the phase-sensitive voltmeter, and the magnetic circuit is fixed in the region of the working section of the transformer. §