SU777485A1 - Device for testing parameters of thermocouples - Google Patents

Description

The invention relates to the field of electrical engineering, in particular to devices for thermotechnical measurements, designed to control the parameters of industrial thermocouples.

Known devices for controlling the parameters of thermocouples, providing for the preliminary heating of the working junction of the thermocouple with subsequent measurement of thermopower [1] ·

These devices require large energy costs for heating thermocouple junctions and therefore, in conditions of mass control of thermocouple parameters at manufacturing plants, their use is economically disadvantageous.

Also known is a device for checking the polarity of thermoelectric temperature sensors, containing a heated measuring probe in the form of electrodes made of a homogeneous material (eg, copper) connected to a measuring device [2].

The disadvantage of this device is the inability to obtain information on the type of thermocouple in a short period of time and the correspondence of its calibration to the factory marking.

The closest in technical essence and the achieved effect is a device for measuring the polarity and material of thermocouples containing a measuring probe in the form of an electrode identical to the material of the electrode of the controlled thermocouple connected to the measuring device [3].

The disadvantage of this device is the significant length of the process of determining the parameters of thermocouples.

The indicated drawback is especially noticeable during mass control of the type and polarity of thermocouples at manufacturers, and in the conditions of conveyor assembly of thermocouples it becomes the main obstacle to improving production efficiency.

The aim of the invention is to reduce the time control parameters of thermocouples.

This goal is achieved by the fact that in a known device containing a measuring probe in the form of an electrode identical to the material of the electrode of the controlled thermocouple connected to the measuring device, the probe is made in the form of two electrodes identical to the material of the electrodes of the controlled thermocouple.

The drawing shows a diagram of the proposed device.

The device comprises a measuring probe 1, electrodes 2 and a measuring device 3.

The device operates as follows.

The preheated electrodes 2 of the probe 1 are brought into thermal and electrical contact with the free ends of the controlled thermocouple in accordance with the factory marking of the thermocouple. For example, when controlling a thermocouple of type XA, the material of one electrode of the measuring probe should be chromel, the material of the other electrode of the measuring probe should be alumel, and when controlling thermocouples of the type XK, chromel and Konel, respectively.

The electrodes 2 of probe 1 should be contacted with the free ends of the thermocouple so that the chromel electrode of the measuring probe coincides with the chromel end of the thermocouple (+ by marking), while the alumel electrode of the probe contacts the alumel end of the thermocouple (- by marking).

The thermoelectric power in a closed circuit formed by a controlled thermocouple, the electrodes of the measuring probe and the measuring device is equal to zero, since the thermoelectric power does not occur in an electric circuit composed of two homogeneous electrodes, but with different temperatures.

The absence of a thermoelectric power in the circuit indicates the correspondence of the controlled thermocouple type and polarity indicated in the factory marking.

The presence of a thermoelectric power in the circuit, i.e., a deviation of the reading of 'measuring device 3 from zero, indicates a mismatch either with the type or with the polarity of the thermocouple being controlled by its factory marking.

The value of the temperature of the electrodes of the measuring probe, as well as the stability of its value do not affect the correctness of control. The minimum value of the temperature of the electrodes of the measuring probe is limited by the temperature of the medium in which the control is carried out and the sensitivity of the measuring device.

Using the proposed device increases labor productivity, which helps to increase production efficiency in conditions of mass control of thermocouples at manufacturing plants.

Claims (3)

Claim A device for monitoring thermocouple parameters, comprising a measuring probe with an electrode of a material identical to the material of the electrode of the controlled thermocouple connected to the measuring device, characterized in that, in order to reduce the time for monitoring thermocouple parameters, the measuring probe 5 is made with two electrodes, each of which is made from a material identical to the material of the electrodes of the controlled thermocouple. ¹⁰ Sources of information taken into account in the examination 1. Copyright certificate of the USSR Ke 302622, cl. G 01K 7/02, 1969. fifteen 2. Patent Poland No. 75831, cl. 42, 8/02, published. 12/23/74. 3. Dubai N.V. A device for determining the polarity and material of thermocouples. - "Energetic", 1977, No. 5, p. 18, 19 (prototype). .thirty