RU2270423C1 - Method for measuring temperature by thermal transformers - Google Patents

Abstract

FIELD: measuring equipment engineering.

SUBSTANCE: method includes preparation of mutually interconnected functional assemblies for heating, thermo-pair with working soldered junction, protective armature and calibration assembly. In addition at each thermal transformer forming of standard temperature determining means is performed in zone of thermo-pair soldered junction. Detection of errors is performed by comparison of temperature coefficients of standard temperature determining means and device for determining actual temperature coefficients.

EFFECT: decreased laboriousness and improved precision of measurements.

1 dwg

Description

The invention relates to the energy sector and, in particular, to the production of thermal converters

A known method of measuring temperature by thermocouples, including interconnected, interconnected functional operations of preparing thermocouples with thermocouples, installing thermocouples, identifying their errors and determining the temperature in real time / cm. Polytechnical Dictionary, M., S.E., 1989, p. 528 /.

There is also a known method of measuring temperature by thermocouples, including interconnected functional operations of preparing thermocouples with thermocouples, installing thermocouples, identifying their errors and determining temperature in real time / cm. Polytechnical Dictionary, M., S.E., 1989, p. 529 /.

The disadvantages of the known inventions are the relatively high complexity of the calibration of the heat generator and the low accuracy of the measurement of real temperature.

The purpose of the invention is to reduce the complexity and improve the accuracy of measuring real temperature at a particular point in time.

This is achieved by the fact that the preparation of thermal converters is carried out together with the formation of a reference temperature determiner on each thermal converter, while the formation of a reference determinant is carried out in the junction zone of the thermocouple, and errors are detected by comparing the temperature of the thermal converter and the reference temperature determiner.

It is advisable that chemically pure metals be used as a reference temperature determinant.

It is useful that chemically pure metals with clear melting points be used as a reference temperature determinant.

It is advisable that chemically pure metal alloys be used as a reference temperature determinant.

It is useful that chemically pure indium is used as a reference temperature determinant.

It is advisable that chemically pure tin is used as a reference temperature determinant.

It is useful that chemically pure bismuth be used as a reference temperature determinant.

It is advisable that chemically pure cadmium be used as a reference temperature determinant.

It is useful that chemically pure lead is used as a reference temperature determinant.

It is advisable that chemically pure zinc be used as a reference temperature determinant.

It is useful that chemically pure tellurium be used as a reference temperature determinant.

It is advisable that chemically pure antimony is used as a reference temperature determinant.

It is useful that chemically pure magnesium be used as a reference temperature determinant.

It is advisable that chemically pure aluminum be used as a reference temperature determinant.

It is useful that chemically pure cerium is used as a reference temperature determinant.

It is useful that chemically pure lanthanum is used as a reference temperature determinant.

It is advisable that chemically pure germanium be used as a reference temperature determinant.

It is useful that chemically pure silver is used as a reference temperature determinant.

It is advisable that a chemically pure alloy of bismuth lead and tin be used as a reference temperature determinant.

It is useful that a chemically pure alloy of tin and zinc is used as a reference temperature determinant.

It is advisable that a chemically pure alloy of lead and gold be used as a reference temperature determinant.

It is useful to alloy lead and platinum.

It is advisable that a chemically pure alloy of lead and antimony is used as a reference temperature determinant.

It is useful that a chemically pure alloy of antimony and silver be used as a reference temperature determinant.

It is advisable that a chemically pure alloy of magnesium and lead be used as a reference temperature determinant.

The method meets all the requirements of the features of the invention, namely:

- the sign of "the presence of an action or set of actions" since the preparation of thermal converters is carried out in conjunction with the formation on each thermal converter of a reference temperature determinant,

- a sign of the procedure for performing such actions in time, since the formation of the reference determinant is carried out in the junction zone of the thermocouple,

- the sign of the conditions for the implementation of actions, since the detection of errors is performed by comparing the temperature of the thermal converter and the reference temperature determinant.

The drawing shows a diagram of a thermal converter, a section along the longitudinal axis.

The method of measuring temperature by thermocouples is carried out using a thermocouple, which includes interconnected functional units of heating 2, thermocouples 3 with working junction 4, protective fittings 5 and calibration unit 6, while the thermocouple is equipped with a device for detecting actual indicators located on thermocouple 3 temperature 7, which is made in the form of a mounted on the lower end 8, identical in cross section to the protective fittings 5 of the working tank 9 with e Alone temperature determiner 10, while the walls 11 of the working tank 9 are identical to the protective fittings 5 and are offset along the length relative to the working junction 4 of the thermocouple 3, and the bottom 12 is installed with a lateral location of the weld 13, and the reference temperature determiner 10 of the device for detecting actual temperature readings 7 made of chemically pure metals, or chemically pure metals with clear melting points, or chemically pure metal alloys, or indium, or tin, or bismuth, or cadmium, or from lead, or from zinc, or from tellurium, or from antimony, or from magnesium, or from aluminum, or from cerium, or from lanthanum, or from Germany, or from silver, or from an alloy of bismuth, lead and tin, or from an alloy of tin and zinc, or from an alloy of lead and gold, or from an alloy of lead and platinum, or from an alloy of lead and antimony, or from an alloy of antimony and silver, or from an alloy of magnesium and lead

The operation of the thermal Converter is as follows.

First, they prepare for operation interconnected functional units of heating 2 mounted on the housing 1, a thermocouple 3 with a working junction 4, protective fittings 5 and a calibration unit 6, while the thermocouple is equipped with a device for detecting actual temperature values 7 located on the thermocouple 3, which is made in the form mounted on the lower end 8, identical in cross section to the protective reinforcement 5 of the working tank 9 with a reference temperature determiner 10, while the walls 11 of the working tank 9 perform ideally Protective reinforcement 5 and offset along the length relative to the working junction 4 thermocouples 3, and the bottom 12 is installed with the lateral location of the weld 13, and the reference temperature determiner 10 devices for detecting actual temperature values 7 are made of chemically pure metals, or of chemically pure metals with clear melting points, or from chemically pure metal alloys, or from indium, or from tin, or from bismuth, or from cadmium, or from lead, or from zinc, or from tellurium, or from antimony, or from magnesium, or from aluminum,or from cerium, or from lanthanum, or from Germany, or from silver, or from an alloy of bismuth, lead and tin, or from an alloy of tin and zinc, or from an alloy of lead and gold, or from an alloy of lead and platinum, or from an alloy of lead and antimony, or from an alloy of antimony and silver, or from an alloy of magnesium and lead, after which, under operating heating, according to indications, i.e. from the difference in the readings of the calibration fusible thermo-indicator and thermocouple, the accuracy of the readings of the latter is determined and then the cycle is repeated.

Claims (1)

A method of measuring temperature by thermocouples, including interconnected functional operations of preparing thermocouples with thermocouples, installing thermocouples, identifying their errors and determining temperature in real time, characterized in that the functional preparation operations include preparing interconnected functional heating units mounted on the body, thermocouples with working junction, protective fittings and calibration unit, together with this on each thermo The browser generates a reference temperature determiner in the junction area of the thermocouple, and errors are detected by comparing the temperature indicators of the reference temperature determiner and the device for detecting actual temperature indicators, made in the form of a working tank with a reference temperature determiner.