SU368492A1 - LEVEL METER FOR LIQUID METALS - Google Patents

Description

one

Isob (relativity refers to measurement technology, in particular, to monitoring and measuring the level of liquids by inductive means.

Known level gauges for liquid metals, containing a sensor, made in the form of two inductive windings, located in a tubular casing together with a temperature compensator and connected to a measuring device.

To improve the accuracy of the level gauge, the temperature compensator is made in the form of a set of thermocouples with electrically insulated hot couplings, the cold junctions of which are connected in series and connected to a measuring device.

FIG. 1 schematically shows the sensor of the proposed level gauge; in fig. 2 - Principle electrical circuit of the level gauge.

A high-temperature cable 2 with magnesia insulation is laid on the hollow frame rod / stainless steel tightly coil to the coil. One end of the cable along with the conductors is welded to the rod 1, which is reliably grounded. The other end of the cable is unmuted in the head 3 of the sensor. Hot spots of thermocouples 4 measuring the temperature of the sensor windings are located at 1 point along the height of the sensor. In the sensor head, the cold ends of the thermocouples are connected in series and output to the measuring circuit

2

signal proportional to sensor temperature.

The secondary winding 5 of the sensor through the diode 6 is loaded on the resistance 7. To smooth out the ripple of the output signal, serves a capacitor 8. Thermo-emf. a temperature compensator made of thermocouples 4 is added to the output signal of the sensor. A potentiometer 9 is used to adjust the compensator.

Due to the fact that the signal of the secondary winding 5 is reduced by 25-30% when the sensor is fully immersed with the technological cover in the liquid metal, a reference potential is applied from the generator output through the diode 10, against which the total potential of the primary winding temperature compensator. Magnitude of the reference potential due to

resistances 11 and 12 are selected to be equal to the magnitude of the operating potential (thermo-emf. -i -} is the signal of the secondary winding of the sensor) when the sensor is in a dry state.

Further, when the sensor is immersed in

liquid metal, working potential B falls, and the reference potential remains approximately constant. An automatic potentiometer measures the potential difference between points A and B, which is a measure of the level

liquid metal.

PREDIMS II 3 of a b about this and and

A level gauge for liquid metals, containing a sensor, made in the form of two inductive windings, located in a tubular body together with a multimeter compensator and connected to a measuring device, characterized in that electrically insulated hot dreams, the cold junctions of which are connected by nose and connected to the measuring device.

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