RU50658U1 - TEMPERATURE SENSOR - Google Patents

Abstract

The utility model relates to thermometry, namely, to contact temperature sensors and can be used in the oil, chemical industry and in public utilities. The objective of the proposed solution is to expand the measurement range and reduce the cost of the sensor while ensuring high measurement accuracy. The temperature sensor contains an insulating two-channel housing 1, in which a sensitive element 2 made of platinum fixed with glue is located, having two terminals 3 made of high-temperature alloy attached to it, in particular from MNMts 43-0.5. The implementation of the conclusions of the sensor from a high-temperature alloy with higher heat resistance with a sufficiently good conductivity and low cost provides an extension of the measurement range towards higher temperatures (up to 800 ° C instead of 500 ° C in the prototype) while maintaining very high measurement accuracy and reducing the cost of the sensor.

Description

The utility model relates to thermometry, namely, to contact temperature sensors and can be used in the oil, chemical industry and in public utilities.

A known temperature sensor described in the thematic catalog "Temperature Sensors", 2002, No. 2, issue 2, p. 46.

The known sensor contains a sensitive platinum element located in an insulating casing, equipped with leads

The closest in technical essence to the claimed one is the temperature sensor currently used in the production of MP 276.17.02.000 from Heraeus Sensor-Nite (Germany - see Appendix).

The known sensor comprises a platinum sensitive element located in a two-channel insulating casing, equipped with silver leads connected to a signal meter.

A disadvantage of the known sensor is its limited upper limit of the temperature measurement range (≈200 ° C) and the high cost due to the use of silver to make conclusions, due to the correspondingly low heat resistance of silver and its high cost, which is very significant with the length of the terminals from 250 to 3340 mm . and more...

The objective of the proposed solution is to expand the measurement range and reduce the cost of the sensor while ensuring high measurement accuracy. The problem is solved in that in a temperature sensor containing a sensitive platinum element placed in an insulating body with leads in the form of a conductor of a well-conducting material, ACCORDING TO THE USEFUL MODEL, the findings are made of high-temperature alloy. In this case, the conclusions can be made of the Kopel alloy (MNMts 43-0.5) or from the alumel alloy or from the Constantan alloy (MNMts 40-45).

The implementation of the conclusions of the sensor from a high-temperature alloy with higher heat resistance with a sufficiently good conductivity and low cost provides an extension of the measurement range towards higher temperatures (up to 800 ° C instead of 500 ° C in the prototype) at

maintaining very high measurement accuracy and reducing the manufacturing cost of the sensor.

The technical result is the expansion of the measurement range towards high temperatures.

In comparison with the prototype, the inventive temperature sensor has a novelty, differing from it by such an essential feature as the conclusion of the high-temperature alloy, providing the desired result.

The inventive temperature sensor can be widely used in the oil, gas and chemical industries, and therefore meets the criterion of "industrial applicability". The utility model is illustrated by drawings, which show:

- figure 1 is a side view of the sensor;

- figure 2 is a top view of the sensor;

- figure 3 is a front view of the sensor.

The temperature sensor contains an insulating two-channel housing - a sleeve 1, in which a sensitive element 2 made of platinum fixed with glue is located, having two terminals 3 made of a high-temperature alloy attached to it, in particular a copel (MNMts 43-0.5) or alumel or constantan .

During measurement, the sensitive element 2 heats up, its resistance changes and this change in resistance is taken from its terminals 3 to a signal meter (not shown in the drawing), where the signal is converted and its value is displayed.

Compared with the prototype, the implementation in the inventive sensor findings of high-temperature alloy with high heat resistance, provides an extension of the measurement range in the direction of high temperatures with sufficiently good measurement accuracy and lower cost of the sensor.

Claims (4)

1. A temperature sensor comprising a sensitive platinum element located in an insulating casing with leads in the form of conductors of a well-conducting material, characterized in that the leads are made of high-temperature alloy. 2. The temperature sensor according to claim 1, characterized in that the findings are made of alloy "kopel" (MNMts-43-0.5). 3. The temperature sensor according to claim 1, characterized in that the findings are made of an alloy "alumel". 4. The temperature sensor according to claim 1, characterized in that the findings are made of alloy "constantan" (MNMts-40-45).