SU1241132A1 - Contactless thermoelectric temperature transducer - Google Patents

Abstract

The invention relates to a measurement technique and can be used in variable-voltage transducers of arbitrary shape over a wide frequency range into a constant voltage proportional to the root-mean-square value of the variable, as well as in thermoelectric devices. The purpose of the invention is to increase the sensitivity of the converter. When alternating voltage is applied to the heaters 5 connected in the sections, Joule heat is generated in the latter, which is transferred through the material of the substrates 4 to the hot spans of each thermopile 6. Due to the temperature difference between the hot and cold slots Based on the Seebeck effect, their thermoelectric emfs arise. A ssgmarn thermoEMF is applied to an electronic circuit of a variable voltage converter. This goal is achieved by introducing the p-1 section, the identical heaters of which face each other and are in contact with each other. 2 Il. O) 3 5 6 f / /) g 1, 1113 8 Eiil

Description

The invention relates to a measuring technique and can be used in variable-voltage transducers of arbitrary shape in a wide frequency range into a constant voltage proportional to the rms value of the variable as well as in thermoelectric devices.

The purpose of the invention is to increase the sensitivity of the thermoelectric converter.

The fifat of FIG. 1 shows a non-contact thermoelectric converter; in FIG. 2 -., section A-A in FIG. one.

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The converter comprises a housing 1 with insulated glass springs from it; 1 and 2, a converter unit of two identical sections 3, each located on a flat dielectric substrate 4, on opposite sides of which film heaters 5 and a thermopile 6 are placed.

In substrates 4 coaxial with inserts 2 are made. Through holes 7.

The heaters 5 and thermopile 6 are equipped with contacts 8 located around the holes 7 and adjacent to them.

The substrates 4 are arranged in such a way that the surfaces of the heaters 5 are in contact, and also coincide in configuration, and are rigidly fixed on the terminals 2 by soldering the contacts 8 to them, while simultaneously securing the respective heaters and thermocouple sections. FIG. 2 the substrate 4 is shown transparent

Both heaters 5 and thermopiles 6 have the same structural dimensions and resistances.

Thermocouples 6 consist of successively connected thermocouples, each of the branches of the p- and n-types of conductivity.

Thermoelectric converter works as follows.

When alternating voltage is applied to junction heaters 5 connected in sections, Joule heat is generated in the latter, which is transferred to hot spares through the material of the support 4.

each thermopile 6.For the account of the temperature difference between the hot and cold junction in the thermopile x 6 per

Based on the Seebeck effect, its own thermoelectric power is generated. The sum of the thermoelectric power is applied to the electronic circuit of the variable voltage converter.

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Claims (1)

Invention Formula A non-contact thermoelectric converter, comprising a housing and a converter unit, which is a section consisting of film heaters and thermopiles placed on opposite surfaces of a flat dielectric substrate, characterized in that, in order to increase the sensitivity, p-1 sections are inserted into the conversion unit, while the adjacent sections face each other contact each other in a plane and match the configuration. : i -7 fie. 2