RU2485460C1 - Thermocouple sensor - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: thermocouple sensor comprises a protective body 1 with a sealed inner cavity, where wire thermoelectrodes 2 and 3 are installed. In the upper part of the body there is a sealed lead of thermoelectrodes with connecting elements 4 and 5. The sensor comprises a cylindrical ceramic dielectric element 6 made of aluminium nitride or alundum, and on this element at the sides of the cylindrical element there is opposite winding of thermoelectrodes, forming a dense double-turn spiral, with alternating turns of thermoelectrodes. There are multiple point solders 7 of thermoelectrodes are made across the turns of the spiral. With the double-turn winding of thermoelectrodes onto the cylindrical ceramic dielectric element 6 and by making, for instance, with the method of laser welding, multiple point solders 7 of thermoelectrodes 2 and 3 between adjacent turns of winding, the sources of thermal electromotive force in point solders 7 are connected in parallel. With such connection of solders 7 their individual thermal electromotive forces are averaged by multitude.

EFFECT: increased reproducibility of thermoelectric parameters of temperature sensors.

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Description

The invention relates to the field of thermometry and can be used in process control systems where high reliability of readings and interchangeability of temperature sensors are required.

Known temperature sensors based on the thermoelectric effect arising in the junction of dissimilar metals or alloys (RF Patent No. 2237122, IPC G01K 7/02, publ. 06/20/2008).

A disadvantage of the known sensors is the individual nature of the junction, requiring the removal of the calibration characteristics attached to the sensor.

The closest in technical essence is a temperature sensor containing a protective housing with a sealed internal cavity, a junction of thermoelectrodes is placed in the lower part of the housing, and a sealed thermoelectrode output with connecting elements is placed in the upper part (RF Patent No. 2289107, Bull. No. 7, MKI G01k 7 / 02, publ. 10.12.06). A disadvantage of the known device is the poor reproducibility of the characteristics of the sensor, due to the fact that during the individual manufacture of the junction, its geometrical dimensions (length, thickness), physical parameters of the junction (gradient of the transition between thermoelectrodes), technological parameters (oxidation state of thermoelectrodes, torch temperature, oxidizing or reducing character torch, etc.) are not amenable to control and retention within any given limits. As a result of the influence of multiple and uncontrolled factors, the thermometric characteristics of the sensors vary from instance to instance, therefore, an individual calibration characteristic is attached to each sensor.

The disadvantages of the solution are low reproducibility of thermoelectric parameters and complicated repair work or the creation of a series of technological units, since when replacing or installing temperature sensors it is necessary to introduce new calibration characteristics into the control programs.

The technical problem solved by this invention is to increase the reproducibility of thermoelectric parameters of temperature sensors.

This is achieved by the fact that in a thermocouple sensor containing a protective housing with a sealed internal cavity in which wire thermoelectrodes are placed, a sealed terminal of thermoelectrodes with connecting elements is placed in the upper part of the housing, a cylindrical ceramic dielectric (aluminum nitride or alundum) element is inserted on which the ends of the cylindrical element made counter winding of thermoelectrodes, forming a dense two-way spiral with alternating turns of thermoelectrodes, across Normally the turns of the spiral are made thermoelectrodes point junctions.

The invention is illustrated by drawings, where figure 1 shows a General view of a temperature sensor, and figure 2 shows a sensing element.

The thermocouple sensor contains a protective housing 1 with a sealed internal cavity in which wire thermoelectrodes 2 and 3 are located, in the upper part of the housing there is a sealed terminal of thermoelectrodes with connecting elements 4 and 5, a cylindrical ceramic dielectric made of aluminum nitride or alundum element 6, on which counter winding of thermoelectrodes is made from the ends of the cylindrical element, forming a dense two-way spiral with alternating turns of thermoelectrodes transversely stone spiral made multiple point junctions 7 thermoelectrodes.

Thermocouple sensor works as follows.

When two-way winding of thermoelectrodes on a cylindrical ceramic dielectric element 6 and performing, for example, by laser welding of multiple spot junctions 7 of thermoelectrodes 2 and 3 between adjacent winding turns, the sources of thermoelectric power in point junctions 7 are turned on in parallel. With this connection of junctions 7, their individual thermoEMFs are averaged over many. In other words, thermoEMF values falling out due to technological variation are absorbed by statistically prevailing values. This means that the next thermocouple sensor of this design due to the averaging process will have close to the previous characteristics. Improving the reproducibility of thermoelectric parameters of temperature sensors allows you to replace the sensors in temperature measurement systems without adjusting the inherent calibration characteristics.

The cylindrical ceramic element 6 has two functions. On the one hand, this is the dielectric base for winding a two-way helix of thermoelectrodes, and on the other, the high thermal conductivity of element 6 makes it possible to equalize the temperature of all sensor junctions.

The use of the invention improves the reproducibility of thermoelectric parameters of temperature sensors.

Claims (1)

A thermocouple sensor containing a protective case with a sealed internal cavity in which wire thermoelectrodes are located, a sealed terminal of thermoelectrodes with connecting elements is placed in the upper part of the protective case, characterized in that a cylindrical ceramic dielectric element is inserted into it, on which the counter-winding of the thermoelectrodes is made from the ends forming a dense two-way spiral with alternating turns of thermoelectrodes, pointwise transversely made to the spiral coils junctions of thermoelectrodes.

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