SU972259A1 - Electromechanical temperature pickup - Google Patents

Description

(54) ELECTRIC / V EXHAUSTABLE TEMPERATURE SENSOR

one

The invention relates to a measurement technique and can be used when measuring the temperature of a medium in hydrometeorology.

A known temperature sensor comprising a frame, a measuring transducer, a heat insulating jacket 1.

The disadvantage of the sensor is a large temperature error.

Closest to the proposed sushi, nosti and the achieved result is a temperature sensor that contains a frame with measuring and compensating coils and the eddy current sensor located in the magnetic field of the measuring coil 2.

The disadvantage of the sensor is low sensitivity due to the low resistance of the sensing element.

The purpose of the invention is to increase the sensitivity of the sensor.

The goal is achieved by inserting an eddy-current compensation element in the sensor located in the magnetic field of the compensation coil, and the sensing element is bimetallic and installed with a gap relative to the measuring coil.

The drawing shows a schematic representation of the design of the sensor.

The electromechanical temperature sensor contains a dielectric frame 1, identical measuring 2 and compensating 3 coils, compensating 4 and measuring 5 eddy current elements, placed at equal gaps 6) and 82 from the coils of the same name and fixedly attached to the frame along the sensor axis. The measuring element is designed as a bimetallic plate with the possibility of axial movement of the peripheral part of the element relative to its neutral position, and the compensation element is made

15 of a homogeneous material similar in properties to the material of the measuring sensitive element facing the measuring coil. To compensate for the temperature error of the sensor, the coils are included differentially.

20

Electromechanical temperature sensor operates as follows.

The measuring 2 and compensation 3 coils supply a variable current.

At normal ambient temperature, the gaps 6i and & 2 3 therefore the impedances of the coils are equal, therefore the signal from the sensor is zero. When the medium temperature changes, the peripheral part of the measuring element 5 moves from its neutral position, for example, towards the measuring coil (at a positive temperature) or in the opposite direction (at a negative temperature), as a result of which the gap size & at the output of the sensor signal, whose value is proportional to the amount of movement of the element. By changing the signal from the sensor, the temperature of the medium is judged.

The present invention allows for measuring both positive and negative ambient temperatures with high sensitivity.

J /. Z

Claims (2)

1. USSR author's certificate number 172086, cl. G 01 K 7/00, 1965. 2. USSR author's certificate No. 393621, cl. G 01 K 7/00, 1971 (prototype).