SU1000783A1 - Temperature pattern measuring method - Google Patents

Description

(54) METHOD FOR MEASURING TEMPERATURE FIELD

The invention relates to a technique for measuring temperatures with thermal sensors and can be used in determining temperature fields in various media and on the surface of solids.

Methods are known for measuring temperature fields by thermoelectric sensors in the form of welded dissimilar wires 1.

A disadvantage of the known methods is the difficulty of implementation due to the need to remove a large number of insulated conductors from each other in the measurement section.

There is a method of measuring a temperature field using a thermoelectric sensor in the form of a grid with quadrangular cells of m and n dissimilar thermoelectric conductors forming columns and rows, respectively, by measuring the emf between the output ends of the conductors PSJ.

Nedo (± gatkom of the known method is the difficulty of its regiscicin because of the need to measure the EMF between all the output ends of the thermoelectric conductors.

The purpose of the invention is to simplify the measurement of the temperature field.

This goal is achieved by the fact that in the method of measuring the temperature ROLE using a thermoelectric sensor in the form of a grid with quadrangular cells of go and η dissimilar thermoelectric conductors, respectively

10 columns and rows, measure the EMF between the connected output ends of the columns and rows, change their resistance N times, moreover N m-n, and find the temperature

15 field.

The drawing shows a connection diagram for the conductors of a thermoelectric sensor.

Thermoelectric sensor 1 is made in the form of a grid with quadrangular cells of m and n dissimilar thermoelectric conductors forming tables of columns 2 and lines 3, respectively.

The conductors are electrically connected at N 4 intersection points. And N "t-p.

The left part of the sensor 1 is shown as a circuit diagram of the connection of thermoelements,

30 rights - as a mechanical connection of conductors. The output ends 5 of the column conductors 2 are connected to the switching device 6, the bus 7 of which allows electrically shorting all the conductors of the columns 2 at different lengths of the output ends 5. Similarly, the output ends 8 of the conductors of the rows 3 are connected to the switching device 9, and the bus 10 closes them shortly at different lengths of the output ends 8,

Tires 7 and 10 are connected to the output terminals 11 of the measuring device.

To perform measurements, the sensor is installed in the temperature field under study. The conductors of columns 2 and 3 are closed with busbars 7 and 10, respectively, and the EMF is measured at the output terminals 11. The operation is repeated N times, the position of the tires 7 and 10 changes, and consequently, the resistance of the output ends 5 and 8.

The algorithm for determining the temperature field is as follows: The emf measured at terminals 11 can be represented as

andE,

+ a.Ejt2. g

EMF of thermoelements,

where is E.

N formed at the intersection points of the conductors 4;

values that are

functions of the conductivities of the considered circuit and changing at different positions of BUS 7 and 10. If the switching device has the ability to change the N ra conductivity of individual sections of the sensor circuit, for example, the resistance of the output ends 5 and 8 when changing their length, then linear equation system

and EO

but .

TIP 1g i (1)

S,

2W

EN N

MgE

MN t I

solvable with respect to E,

... Ец пр

the condition of the invariability of these quantities in the process of switching operations by the switching device, the availability of information on the quantities and when the determinant composed of these coefficients is not equal to zero

det / a. I o;

N ;. (2) i 1. .....

The obtained EMF values Е ... t are used to determine the temperatures from the calibration tables.

The proposed method allows to simplify the measurement of temperature fields, since the number of leads from thermoelectric conductors decreases and, consequently, the reliability decreases and the size of devices for its implementation decreases.

Claims (2)

1. USSR Author's Certificate 165324, cl. G 01 K 13/02, 1963. 2. The patent of France No. 2315689, cl. G 01 K 7/02, 1975 (prototype).