SU457894A1 - Remote thermometer - Google Patents

Description

one

The invention is intended primarily for measuring the temperature of current carrying parts and contacts of electrical machines, apparatuses, busbars of high-voltage substations and power lines. It can also be used to measure the temperature of solid, liquid and gaseous bodies, being located inside the metal shells that completely shield the object of measurement.

A device for measuring the temperature of a transformer winding is known, consisting of a radio transmitter that changes frequency depending on the temperature at the measured point, which receives power directly from the part of the transformer and receiver winding that receives and deciphers the signal, which is fed to the antenna inserted inside the tank transformer.

The known device requires the installation of an antenna inside the transformer.

In addition, when measuring the temperature of the rotor wire of the generator or engine at a number of rotor positions, the signal is substantially shielded.

When using such a device for stationary measurements of the temperature of current-carrying parts of switches, disconnectors, substations and power lines, it is necessary to use an independent power source of the transmitter with a periodic

substitute. which is inconvenient in operation.

In addition, the known device is not applicable for measuring the temperature of objects inside closed metal structures, the introduction of which the antenna is impossible.

The purpose of the invention is to simplify the measurement technique.

To do this, in the proposed device, a capacitor is connected to the pulse generator, connected via a discharge to the resonant circuit, the output of which is equipped with an electrical-to-mechanical oscillator, and a secondary sensor and a narrowband amplifier are used in the secondary device.

The drawing shows a diagram of the proposed device.

The generator contains a thermistor 1, a storage capacitor 2, a discharge element 3 (dynistor, a thyristor, a cold cathode thyratron, etc.), a shock excitation circuit formed by a capacitor 4 and an inductance of a separate coil 5 and a converter of electrical oscillations into mechanical ones, for example, a piezoelectric element 6 and rectifier 7. When powered by a magnetic sensor 8, a capacitor 9 and a zener diode 10 are used to stabilize the voltage.

The receiver contains a mechanical vibration-to-electrical transducer, for example, a bearer 11, a narrowband amplifier 12 and an indicator 13, the latter can measure either the average output current of the amplifier or the number of pulses per unit of time.

The device works as follows.

The generator is installed directly at the current carrying part, the temperature of which is measured, and the thermistor must be in thermal contact with it. The receiver sensor is positioned on a grounded structure at an insulating distance from the receiver, for example, on the outer surface of a transformer tank, on a support, etc., or it may be portable. The amplifier and the indicator element can be located both near the sensor and at any other point of the substation, for example on the control panel. It is possible to use one amplifier and an indicator element connected to sensors installed on different objects.

The rectified current through the thermistor 1 charges the capacitor 2 until the trigger voltage of the discharge element 3. After the latter triggers in the shock excitation circuit, damped electrical oscillations occur, which are converted to mechanical and radiated.

The pulses are perceived and converted into electrical signals by the piezo sensor I, the narrowband amplifier 12 amplifies them, and the indicator 13 provides the temperature reading.

When used as a radiator of a piezoelectric element, the circuit of shock excitation, the radiating and receiving piezoelectric transducer and the amplifier must have the same natural frequency. When using a magnification receiver, the tuning frequency of the receiving equipment should be equal to twice the frequency of the shock excitation circuit.

A magnetic sensor used as a power source for measuring the temperature of current-carrying parts of disconnectors, switches, busbars and wires should provide a sufficient power level at the output so that the voltage on the capacitor 9 has a minimum ripple, while the voltage at the output of the sensor must exceed voltage stabilization zener diode.

Subject invention

A remote thermometer containing a pulse generator controlled by a thermistor, a power source and a secondary device, characterized in that, in order to simplify the measurement technique, a capacitor is connected to the pulse generator and connected via a discharge to the resonant circuit, mechanical, and in the secondary device used piezoelectric transducer and narrowband amplifier.