RU30025U1 - Thermoelectrode wire (options) - Google Patents

Description

THERMOELECTROD WIRE

The utility model relates to the field of electrical engineering, in particular to the field of cable technology, namely to thermoelectrode wires used in thermal control systems.

Thermoelectrode wires are used in thermal control systems and are designed to connect thermocouple leads to measuring instruments. The instrument readings depend on a correctly selected wire, and, therefore, reliable information about the course of a given technological process.

1 var. Known thermoelectrode wire, consisting of pairs of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the core insulation is made of polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Germany catalog, 121285, March 25, 71, Degiissa "Insulated thermocouple wires DIN 43710).

The disadvantage of this wire is the high complexity and material consumption, and, therefore, the high cost

The technical problem, the solution of which the proposed solution is aimed at, is to reduce material consumption, reduce labor costs and reduce costs.

(OPTIONS) To solve the problem, in the well-known thermoelectric arode

a wire consisting of a pair of conductors isolated from each other, made of conductive materials with different resistivities, for example, one of copper and the other of constantan, which develop a certain thermoelectromotive force at a given temperature of the ends of the wires, the insulation of which is made of polyvinyl chloride, both wires are equipped single layer

Production of thermoelectrode wire with single-layer insulation

significantly reduces material consumption. In addition, the rejection of

applying a sheath over insulated cores, reduces labor costs in the manufacture of wires.

Thus, the combination of essential features provides a solution to the task.

The proposed thermoelectrode wire according to the first embodiment

Utility model is depicted in FIG. 1

The wire contains cores 1, one of which is made of copper, and the other

from constantan, while both cores are insulated 2.

The insulation of the thermoelectrode wire can be made of polyvinyl chloride plastic compound of the usual design or heat-resistant, since the operating temperature of the wire is determined by the type of insulating material used.

{.t7 / & (2This thermoelectrode wire can be used to provide

high-quality operation of thermoelectric converters of the TXA type (GOST R 8.585-2001). It can be laid in pipes, in rooms, and also inside devices.

Thus, the proposed version of the thermoelectrode wire combines all the advantages of the closest analogue and provides additional savings by reducing labor costs, reducing materials for its manufacture, which entails a reduction in cost.

2 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the core insulation is made of polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

The disadvantage of this wire is the lack of protection from external mechanical influences, which reduces its reliability during operation.

The technical problem, the solution of which the proposed solution is aimed at, is to increase security from external mechanical influences.

To solve this problem, in the well-known thermoelectrode wire, consisting of a pair of conductors isolated from each other, made of conductive materials with different specific

resistance, one of which is made of copper and the other of constantan, which develops a certain thermoelectromotive force at a given temperature of the ends of the wires, the insulation of which is made of polyvinyl chloride, both cores are equipped with single-layer insulation, while the outside of the wire is equipped with a shield.

The supply of the wire with a screen allows you to reliably protect it from various mechanical influences that the wire can be exposed to from the outside during operation, thereby increasing its operational reliability.

This thermoelectrode wire can be used to ensure high-quality operation of TXA thermoelectric converters (GOST R 8.585-2001). The insulation of the thermoelectrode wire can be made of polyvinyl chloride plastic compound of the usual design or heat-resistant, since the operating temperature of the wire is determined by the type of insulating material used. Conventional thermoelectrode wires in polyvinyl chloride insulation can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant wires from -40 ° C to + 90 ° C.

It can be laid in rooms where protection against mechanical stress is required.

Thus, the proposed version of the thermoelectrode wire combines all the advantages of the closest analogue and is more reliable in operation.

4 A proposed embodiment of the utility model is shown in FIG. 2, where: 1 wire core, 2 - core insulation, 3 - screen located on the outside of the wire.

Insulation 2 is made of polyvinyl chloride. One of the cores 1 is made of copper, and the other of constantan. The screen 3 can be made of galvanized steel wire by braiding.

The insulation of the thermoelectrode wire can be made of polyvinyl chloride plastic compound of the usual design or heat-resistant, since the operating temperature of the wire is determined by the type of insulating material used.

polyvinyl chloride insulation of the usual design can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant from -40 ° C to + 90 ° C.

3 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the core insulation is made of polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

The disadvantage of this wire is its unsuitability

use as an extension wire for thermoelectric converters of the TPP type (GOST R 8.585-2001), because in such a combination of pairs “copper-constantan is impossible to provide the necessary

5 thermoelectric force for the normal operation of these thermoelectric converters. In addition, the supply of conductors from the outside with an additional polyvinyl chloride sheath significantly increases the cost of manufacturing the wire associated with the additional complexity of manufacturing, material consumption. The technical problem, which the proposed solution is aimed at, is improving the quality of work of thermoelectric converters, as well as reducing material consumption, reducing labor costs, and reducing costs. To solve this problem, in a well-known thermoelectrode wire, containing one pair of conductive materials isolated from each other from conductive materials with different resistivities, a specific thermoelectromotive force is developed at a given temperature of the ends of the wires, one of the conductors is made of copper, and the insulation of both conductors is made of floor and vin ilkhl orida, the second core is made of copper-nickel alloy TP. The implementation of the second core of a copper-nickel alloy type TP allows you to develop a wire attached to a thermocouple, sufficient thermoelectromotive force, providing high accuracy of temperature measurement, and ultimately the accuracy of the readings, thereby ensuring the quality of the process. 6 s The proposed design of the thermoelectrode wire is shown in

FIG. 3.

The proposed thermoelectric wire contains wires 1, each of which is insulated 2. One of the wires is made of copper, the other of a copper-nickel alloy TP.

The insulation of the thermoelectrode wire can be made of conventional PVC compound or heat-resistant, since the working temperature of the wire is determined by the type of applied

insulating material. Thermoelectrode wires in

polyvinyl chloride insulation of the usual design can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant from -40 ° C to + 90 ° C.

The proposed design, the wire can be laid in rooms, pipes, as well as inside devices.

4 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the core insulation is made of polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

The disadvantage of this wire is its unsuitability

use as an extension wire for thermoelectric converters of the TPP type (GOST R 8.585-2001), because in such a combination of pairs “copper-constantan is impossible to provide the necessary

iY //. Hxl 7 thermoelectromotive force for the quality work of thermoelectric

converters.

In addition, this wire is not protected from external mechanical influences.

The technical problem, the solution of which the proposed solution is directed, is to improve the quality of work of thermoelectric converters and the mechanical security of the wire.

To solve this problem, in a known thermoelectrode wire containing one pair of conductive materials isolated from each other from conductive materials with different resistivity, a specific thermoelectromotive force is developed at a given temperature of the ends of the wires, in which one of the conductors is made of copper, and the insulation of both cores is made made of polyvinyl chloride, the second core is made of a copper-nickel alloy TP.

The thermoelectrode wire is equipped with a shield from the outside.

The execution of the second core of a TP-type copper-nickel alloy allows a pair of cores connected to a thermocouple to develop sufficient thermoelectromotive force, which ensures high accuracy of temperature measurement, and ultimately the accuracy of instrument readings and, therefore, the quality of the process.

Providing the thermoelectrode wire with a screen from the outside provides protection of the cores from mechanical influences, which has a positive effect on increasing the reliability of the wire during operation.

 3.L

8 The proposed construction of the thermoelectrode wire is shown in FIG.

The proposed thermoelectrode wire contains cores 1, each of which is equipped with insulation 2. One of the cores is made of copper, the other of a copper-nickel alloy TP. Outside, the wire is equipped with a screen 3.

The insulation of the thermoelectrode wire can be made of conventional PVC or heat-resistant, since the working temperature of the wire is determined by the type of insulating material used.

polyvinyl chloride insulation of the usual design can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant from -40 ° C to + 90 ° C. The screen can be made of galvanized steel wire by braiding.

The proposed design, the wire can be laid in rooms, pipes, as well as inside devices.

5 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the core insulation is made of polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

converters of type TXK (GOST R 8.585-2001), because In such a combination of copper-constantan conductors, it is impossible to provide the necessary thermoelectromotive force for the normal operation of thermoelectric converters, which negatively affects the readings of the instruments and, in general, the quality of the process.

In addition, the supply of conductors from the outside with an additional polyvinyl chloride sheath significantly increases the cost of manufacturing the wire associated with the additional complexity of its manufacture.

The technical problem to which the proposed solution is directed is improving the quality of work of thermoelectric converters, as well as reducing material consumption, reducing labor costs, and reducing costs.

To solve this problem in a known thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities, a certain thermoelectromotive force is developed at a given temperature of the ends of the wires, while the insulation of both cores is made of polyvinyl chloride, one of the cores is made of alloy chromel, and the other is made of copel alloy.

The execution of one core of chromel alloy, and the other of copel alloy allows you to develop a pair of cores attached to a thermocouple, sufficient thermoelectromotive force, providing high

wo.lib

oU 10

ACCURACY of temperature measurement, and ultimately the accuracy of instrument readings, and, consequently, the quality of the process.

The proposed construction of the thermoelectrode wire is shown in FIG. 5.

The proposed thermoelectrode wire contains cores 1, each of which is equipped with insulation 2. One of the cores is made of chromel alloy, the other of copel alloy.

The insulation of the thermoelectrode wire can be made of polyvinyl chloride plastic compound of the usual design or heat-resistant, since the working temperature of the wire is determined by the type of insulating material used.

Conventional thermoelectrode wires in polyvinyl chloride insulation can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant wires from -40 ° C to + 90 ° C.

The proposed design, the wire can be laid in rooms, pipes, as well as inside devices.

6 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the core insulation is made of polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Germany catalog, 121285, March 25, 71, Degiissa "Insulated thermocouple wires DIN 43710).

The disadvantage of this wire is its unsuitability

use as an extension wire for thermoelectric converters of the type THK (GOST R 8.585-2001), because In such a combination of copper-constantan conductors, it is impossible to provide the necessary thermoelectromotive force for the normal operation of thermoelectric converters, which negatively affects the accuracy of the readings of the devices and, in general, the quality of the process.

In addition, this wire is not protected from external mechanical influences.

The technical problem, the solution of which the proposed solution is aimed at, is improving the quality of work of thermoelectric converters and protection from mechanical influences.

To solve the problem in a known thermoelectrode wire containing one pair of conductive materials isolated from each other from conductive materials with different resistivity, develop a certain thermoelectromotive force at a given temperature of the ends of the wires, while the insulation of both cores is made of polyvinyl chloride, one of the cores is made of the alloy is chromel, and the other is made of alloy kopel, and on the outside the wire is equipped with a screen.

The execution of one core of chromel alloy, and the other of copel alloy allows you to develop a pair of cores attached to a thermocouple, sufficient thermoelectromotive force, providing high accuracy of temperature measurement, and ultimately the accuracy of the readings

12

instruments, which favorably affects the quality of the process.

The proposed construction of the thermoelectrode wire is shown in FIG. 6.

The proposed thermoelectrode wire contains cores 1, each of which is equipped with insulation 2. One of the cores is made of chromel alloy, the other of copel alloy. Outside, the wire is equipped with a screen 3.

The insulation of the thermoelectrode wire can be made of polyvinyl chloride plastic compound of the usual design or heat-resistant, since the working temperature of the wire is determined by the type of insulating material used.

polyvinyl chloride insulation of the usual design can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant from -40 ° C to + 90 ° C.

The screen is made of galvanized steel wire by braiding.

The proposed design, the wire can be laid in rooms, pipes, as well as inside devices.

7 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIP.43710). The disadvantage of this wire is its unsuitability

use as an extension wire for thermoelectric converters of the TMK type (GOST R 8.585-2001), because in this combination of copper-constantan conductors, it is impossible to provide the necessary thermoelectromotive force for the normal operation of thermoelectric converters.

In addition, the supply of conductors from the outside with an additional polyvinyl chloride sheath significantly increases the cost of manufacturing the wire associated with the additional complexity of manufacturing, material consumption.

The technical problem to which the proposed solution is directed is improving the quality of work of thermoelectric converters, as well as reducing material consumption, reducing labor costs, and reducing costs.

To solve this problem, in a known thermoelectrode wire containing one pair of conductive materials isolated from each other from conductive materials with different resistivity, a specific thermoelectromotive force is developed at a given temperature of the ends of the wires, one of which is made of honey, and the insulation of both cores is made of polyvinyl chloride, the second core is made of alloy kopel.

, C.

14 thermoelectromotive force to ensure high accuracy

temperature measurements, and ultimately the accuracy of instrument readings, and thereby the quality of the process.

The proposed construction of the thermoelectrode wire is shown in FIG. 7.

The proposed thermoelectrode wire contains cores 1, each of which is equipped with insulation 2. One of the cores is made of copper, the other is made of an alloy of copper.

The insulation of the thermoelectrode wire can be made of polyvinyl chloride plastic compound of the usual design or heat-resistant, since the working temperature of the wire is determined by the type of insulating material used.

polyvinyl chloride insulation of the usual design can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant from -40 ° C to + 90 ° C.

The proposed design, the wire can be laid in rooms, pipes, as well as inside devices.

8 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the core insulation is made of polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Germany catalog, 121285, March 25, 71, Degiissa "Insulated thermocouple wires DIN 43710).

The disadvantage of this wire is the unsuitability of its use as an extension wire for thermoelectric converters of the TMK type (GOST R 8.585-2001), because in this combination of a pair of copper-constantan wires, it is impossible to provide the necessary thermoelectromotive force for the normal operation of these thermoelectric converters.

The specified thermoelectrode wire is subject to external

mechanical stress, which negatively affects its reliability.

The technical problem, the solution of which the proposed solution is aimed at, is improving the quality of work of thermoelectric converters and being protected from mechanical influences.

To solve the problem in a known thermoelectrode wire, containing one pair of conductive materials isolated from each other from conductive materials with different resistivities, a specific thermoelectromotive force is developed at a given temperature of the ends of the wires, where one of the conductors is made of copper, and the insulation of both cores is made of polyvinyl chloride , the second core is made of copel alloy, while the outside of the wire is equipped with a screen.

The execution of the second core of the Kopel alloy allows you to develop a pair of cores attached to a thermocouple, sufficient thermoelectromotive force, which allows for high accuracy of temperature measurement, and

16 ultimately the accuracy of instrument readings, and therefore quality

technological process.

The supply of wire outside the screen allows you to protect it from external mechanical influences, while maintaining its reliable operation.

The proposed construction of the thermoelectrode wire is shown in FIG. 8.

The proposed thermoelectrode wire contains cores 1, each of which is equipped with insulation 2. One of the cores is made of copper, the other is made of a copel alloy. Outside, the wire is equipped with a screen 3.

The insulation of the thermoelectrode wire can be made of polyvinyl chloride plastic compound of the usual design or heat-resistant, since the working temperature of the wire is determined by the type of insulating material used.

polyvinyl chloride insulation of the usual design can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant from -40 ° C to + 90 ° C.

The screen of the wire is made of galvanized steel wire using the braiding method.

The proposed design, the wire can be laid in rooms, pipes, as well as inside devices.

9 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. The core insulation is made of

17

polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Germany catalog, 121285, March 25, 71, Degiissa "Insulated thermocouple wires DIN 43710).

The disadvantage of this wire is its unsuitability

use as an extension wire for thermoelectric converters of the TVR type (GOST R 8.585-2001), because in this combination of copper-constantan conductors, it is impossible to provide the necessary thermoelectromotive force for the normal operation of thermoelectric converters.

In addition, the supply of conductors from the outside with an additional polyvinyl chloride sheath significantly increases the cost of manufacturing the wire associated with the additional complexity of manufacturing, material consumption.

The technical problem, which the proposed solution is aimed at, is improving the quality of work of thermoelectric converters, as well as reducing material consumption, reducing labor costs, and reducing costs.

To solve the problem in a known thermoelectrode wire, containing one pair of conductive materials isolated from each other from conductive materials with different resistivities, a certain thermoelectromotive force is developed at a given temperature of the ends of the wires, in which one of the cores is made of copper, and

INSULATION of both cores is made of polyvinyl chloride, the second cores are made of copper-nickel alloy MN-2L5.

The execution of the second core of copper-nickel alloy MN-2.15

allows a pair of cores connected to a thermocouple to develop sufficient thermoelectromotive force, which allows for high accuracy of temperature measurement, and ultimately the accuracy of instrument readings, and thereby the quality of the process.

The proposed construction of the thermoelectrode wire is shown in FIG. 9.

The proposed thermoelectrode wire contains cores 1, each of which is equipped with insulation 2. One of the cores is made of copper, the other of copper-nickel alloy MN-2.15.

The insulation of the thermoelectrode wire can be made of conventional PVC or heat-resistant, since the working temperature of the wire is determined by the type of insulating material used.

PVC insulation of the usual design can be used at temperatures from -40 ° C to + 70 ° C, and heat-resistant from -40 ° C to -90 ° C.

The proposed design, the wire can be laid in rooms, pipes, as well as inside devices, including for measuring high temperatures, for example, in the metallurgical industry.

. 19 another of constantan .. In this case, the core insulation is made of

polyvinyl chloride. Both cores on top are equipped with a polyvinyl chloride sheath. (Germany catalog, 121285, March 25, 71, Degiissa "Insulated thermocouple wires DIN 43710).

The disadvantage of this wire is the impossibility of its use at elevated ambient temperatures, because It has a low positive operating temperature limit of the insulating material.

The technical problem to which the proposed technical solution is directed is to ensure the operability of the wire at a high ambient temperature.

To solve this problem, in a well-known thermoelectrode wire, containing one pair of conductive materials insulated from each other with different resistivity of copper constantan, a specific thermoelectromotive force is developed at a given temperature of the ends of the wires, while both wires are provided with a common coating, each core is equipped with multilayer insulation, moreover, the first layer is made in the form of a winding from a polyethylene terephthalate film followed by winding with a polyester thread, and the total core coating is made in the form of a braid of polyester yarn impregnated with glue.

The implementation of the first layer of polyethylene terephthalate film can significantly increase the heat resistance of the wire, and the winding with a polyester thread provides the required mechanical characteristics of the wire and the protection of the first insulating layer from external influences, when

€ c.0

20 THIS, impregnation with glue of polyester threads provides hardening of the upper

layer, thereby increasing strength and ensuring the safe operation of the wire under various mechanical loads.

The proposed wire is shown in FIG. 10.

The wire contains cores 1, one of which is made of copper, and the other of constantan. Moreover, each core is covered with a layer of insulation 2. made in the form of a winding from a polyethylene terephthalate film, followed by winding 3 with a polyester thread. Both cores on top have a common coating 4, which is made in the form of a braid of polyester yarn impregnated with glue.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 120 ° C.

This wire can be used indoors and outdoors. The proposed wire is used for thermoelectric converters of the type TXA (GOST R 8.585-2001).

11 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, polyvinyl chloride is used as an insulating material. Both cores are externally equipped with a polyvinyl NIchloride sheath .. (Germany catalog, 121285.25.03.71, Degiissa "Insulated thermocouple wires DIP.43710).

X4 (

21 material of this wire has insufficient positive working limit

temperature. In addition, the specified wire is practically not protected from external electromagnetic fields and various kinds of mechanical influences.

The technical problem to which the proposed technical solution is directed is to ensure the operability of the wire at an elevated operating temperature, as well as its protection from electromagnetic fields and mechanical stresses.

To solve the problem, in a well-known thermoelectrode wire containing one pair of conductive materials isolated from each other from conductive materials with different resistivities of copper constants, a specific thermoelectromotive force is developed at a given temperature of the ends of the wires, where both conductors are provided with a common coating, each core has multilayer insulation, moreover, the first layer is made in the form of a winding of a polyethylene terephthalate film followed by winding with a polyester thread, and the total core coating is made in the form of taphole of polyester yarn, impregnated with glue.

In addition, the outside of the wire is equipped with a screen.

The implementation of the first layer of polyethylene terephthalate film allows to increase the heat resistance of the wire, and the winding with polyester thread provides the required mechanical characteristics of the wire and protects the first layer of insulation from external influences. Glue impregnation of polyester yarns provides hardening of the upper layer, increasing

22

the strength and ensuring the safe operation of the wire under various mechanical loads.

The supply of the wire with a screen allows you to reliably protect it from the effects of external electromagnetic fields, which favorably affects the operation of the thermocouple, which means, in general, on the readings of devices and, as a result, on the quality of the process. The shield also protects the wire from external mechanical influences.

The screen can be made of tinned copper wire by braiding.

The proposed wire is shown in FIG. eleven.

The wire contains cores 1, one of which is made of copper, and the other of constantan. In this case, each core is covered with an insulation layer 2 made in the form of a winding from a polyethylene terephthalate film, followed by winding 3 with a polyester thread. Both cores on top have a common coating 4, which is made in the form of a braid of polyester yarn impregnated with glue. Outside, the wire is equipped with a screen 5.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 120 ° C.

This wire can be used indoors and outdoors.

The proposed wire is used for thermoelectric converters of the type TXA (GOST R 8.585-2001). another of constantan. Moreover, as an insulating material

use polyvinyl chloride. Both cores are provided with a polyvinylchloride sheath on the outside .. (German catalog, 121285, 03.25.71, Degiissa "Insulated thermocouple wires DIN 43710).

This wire is unsuitable for use as an extension cord for thermoelectric converters of the CCI type (GOST R 8.585-2001), because with such a combination of conductive metal cores, it is impossible to provide a certain thermoelectromotive force for the normal operation of these thermoelectric converters, which negatively affects the accuracy of the readings of devices, and therefore the quality of the process.

The disadvantage of this wire is the impossibility of its use at elevated operating temperatures, as wire insulation material has insufficient high plus operating temperature limit.

The technical problem, which the proposed technical solution is aimed at, is improving the quality of work of thermoelectric converters, ensuring the operability of the wire at elevated ambient temperatures.

To solve the problem in a known thermoelectrode wire, made in the form of a pair of conductors isolated from each other, made of conductive materials with different resistivity, developed thermoelectromotive force at a given

the temperature of the ends of the wires, one of which is made of copper, at

both veins are provided with a common coating, the other core is made of copper-nickel alloy TP and each core is equipped with multilayer insulation, the first layer of which is made as a winding of polyethylene terephthalate film followed by winding with a polyester thread, and the general coating of the veins is made in the form of a polyester braid threads impregnated with glue.

The implementation of one of the conductors made of a copper-nickel alloy TP allows you to develop a pair of wire conductors connected to a thermocouple, sufficient thermoelectromotive force, ensuring the accuracy of temperature measurement, and as a result, the accuracy of the readings of instruments that ensure the quality of the process.

The implementation of the first layer of polyethylene terephthalate film allows to increase the heat resistance of the wire. Winding with polyester thread provides the required mechanical characteristics of the wire and protection of the first layer of insulation from external influences. Glue impregnation of polyester yarns provides hardening of the upper layer, thereby increasing its strength and ensuring safe operation under various mechanical loads.

The proposed wire is shown in FIG. 12.

The wire contains cores 1, one of which is made of copper, and the other is made of copper-nickel alloy TP. In addition, each core is covered with an insulation layer 2 made in the form of a winding of polyethylene terephthalate

, r ..

25 films, followed by winding 3 with polyester thread. Both cores on top

have a common coating 4, which is made in the form of a braid of polyester yarn impregnated with glue.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 120 ° C.

This wire can be used indoors and outdoors.

The proposed wire is used for thermoelectric converters of the type TPP (GOST R 8.585-2001).

13 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores are externally provided with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

This wire is unsuitable for use as an extension cord for thermoelectric converters of the CCI type (GOST R 8.585-2001), because with this combination of conductive metal cores, it is impossible to provide the necessary thermoelectromotive force for the normal operation of these thermoelectric converters, which negatively affects the accuracy of the readings of the devices and, in general, the quality of the process.

26 INSULATION material is not high enough plus

operating temperature limit.

A significant disadvantage of this wire is also its insecurity from electromagnetic fields and external mechanical influences.

The technical problem, the solution of which the proposed technical solution is aimed, is to improve the quality of work of thermoelectric converters, ensure the operability of the wire at an elevated operating temperature, and protect it from electromagnetic fields and mechanical influences.

To solve the problem in a known thermoelectrode wire made in the form of a pair of conductors isolated from each other, made of conductive materials with different resistivities, a certain thermoelectromotive force is developed at a given temperature of the ends of the wires, one of which is made of copper, both of which are equipped with a common coated, the other core is made of copper-nickel alloy TP, while each core is equipped with multilayer insulation, the first layer of which is made in the form of a winding of polyethe ilentereftapatnogo film followed by winding with a polyester thread, and the overall coating of the cores is made in the form of a braid of polyester yarn impregnated with glue. The implementation of one of the MSL from a copper-nickel alloy TP allows

to develop a pair of conductors of a wire connected to a thermocouple, sufficient thermoelectromotive force to ensure accurate temperature measurement, and as a result, accuracy of instrument readings, which positively affects the quality of the process.

The implementation of the first layer of polyethylene terephthalate film allows to increase the heat resistance of the wire. Winding with polyester yarn provides the required mechanical (operational) characteristics and protection of the first layer of insulation from external influences, and impregnation with glue of polyester yarns provides hardening of the upper layer, thereby increasing strength and ensuring safe operation of the wire under various mechanical loads.

The supply of the wire with a screen allows you to protect it from external electromagnetic fields, which also ensures the accuracy of the readings. In addition, the screen protects the wire from mechanical stress, which enhances its operational reliability.

The screen can be made of tinned copper wire by braiding.

The proposed wire is shown in FIG. thirteen.

The wire contains cores 1, one of which is made of copper, and the other is made of copper-nickel alloy TP. In this case, each core is covered with an insulation layer 2 made in the form of a winding from a polyethylene terephthalate film, followed by winding 3 with a polyester thread. Both cores on top

have a common coating 4, which is made in the form of a braid from

polyester yarn impregnated with glue. Outside, the wire is equipped with a screen 5.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 120 ° C.

This wire can be used indoors and outdoors.

The proposed wire is used for thermoelectric converters of the type TPP (GOST R 8.585-2001).

14 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores are externally provided with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

This wire is unsuitable for use as an extension cord for thermoelectric converters of the type TXK (GOST R 8.585-2001), because with this combination of conductive metal cores, it is impossible to provide the necessary thermoelectromotive force for the normal operation of these thermoelectric converters.

The disadvantage of this wire is the impossibility of its use at elevated ambient temperatures, because wire insulation does not have a sufficiently high plus limit on the operating temperature.

.at {uzg

29 The technical problem, the solution of which is proposed

technical solution - improving the quality of work of thermoelectric converters, ensuring the operability of the wire at elevated operating temperatures.

To solve the problem in a well-known thermoelectrode wire, made in the form of a pair of conductors isolated from each other, made of conductive materials with different resistivities, developed a specific thermoelectromotive force at a given temperature of the ends of the wires, while both veins are provided with a common coating, one core is made of chromel alloy, and the other is from copel alloy. Each core is equipped with multilayer insulation, the first layer of which is made in the form of a winding from a polyethylene terephthalate film followed by winding with a polyester thread, and the general coating of the wires is made in the form of a braid of polyester threads impregnated with glue.

The execution of one of the cores of chromel alloy, and the other of the coffin alloy allows a pair of cores of a wire attached to a thermocouple, sufficient thermoelectromotive force to ensure accurate temperature measurement, and as a result, the accuracy of the readings on which the quality of the process depends.

The implementation of the first layer of polyethylene terephthalate film allows to increase the heat resistance of the wire. Polyester winding provides the required mechanical characteristics of the wire and protects the first layer of insulation from external ones. Glue impregnation of polyester threads

thirty

provides hardening of the upper layer, thereby increasing strength and ensuring the safe operation of the wire under various mechanical loads.

The proposed wire is shown in FIG. 14.

The wire contains conductors I, one of which is made of chromel alloy, and the other is of copel alloy. In this case, each core is covered with an insulation layer 2 made in the form of a winding from a polyethylene terephthalate film, followed by winding 3 with a polyester thread. Both cores on top have a common coating 4, which is made in the form of a braid of polyester yarn impregnated with glue.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 120 ° C.

This wire can be used indoors and outdoors.

The proposed wire is used for thermoelectric converters of the type TXK (GOST R 8.585-2001).

15 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores are externally provided with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

 .- g. / /; xi- andL / - - since with such a combination of conductive metals, veins are impossible

provide the necessary thermoelectromotive force for the normal operation of these thermoelectric converters, which negatively affects the accuracy of the readings of the devices and in general the quality of the process.

The disadvantage of this wire is also the impossibility of its use at elevated ambient temperatures, because wire insulation does not have a sufficiently high plus limit on the operating temperature.

In addition, the proposed design of the wire is not protected from external electromagnetic fields and mechanical influences.

The technical problem, the solution of which the proposed technical solution is aimed at, is improving the quality of work of thermoelectric converters, ensuring the operability of the wire at an elevated operating temperature, and increasing immunity from electromagnetic and mechanical influences.

To solve the problem in a known thermoelectrode wire, made in the form of a pair of conductors isolated from each other, made of conductive materials with different resistivities, a certain thermoelectromotive force is developed at a given temperature of the ends of the wires, while both wires are provided with a common coating. One core is made of chromel alloy, and the other is of copel alloy. Each core is equipped with a multilayer. isolation, moreover

its first layer is made in the form of a winding of polyethylene terephthalate

films followed by wrapping with polyester thread, and the general coating of the cores is made in the form of a braid of polyester threads impregnated with glue.

The wire outside is equipped with a screen.

The implementation of one of the cores of chromel alloy, and the other of the copel alloy, allows a pair of cores of a wire attached to a thermocouple to develop sufficient thermoelectromotive force to ensure accurate temperature measurement, and as a result, accuracy of instrument readings, which positively affects the quality of the process.

The implementation of the first layer of polyethylene terephthalate film allows to increase the heat resistance of the wire. Winding with polyester thread provides the required mechanical characteristics of the wire and protection of the first layer of insulation from external influences. Glue impregnation of polyester yarns provides hardening of the upper layer, thereby increasing strength and ensuring safe operation of the wire under various mechanical loads.

The screen, made outside the wire, provides its protection from electromagnetic fields and external mechanical influences, thereby increasing the reliability of the wire, the quality of the readings.

The screen can be made of tinned copper wire by braiding.

.

33 The wire contains cores 1, one of which is made of alloy

chromel, and the other is made of copel alloy. In addition, each core is covered with a layer

insulation 2, made in the form of a winding of polyethylene terephthalate

films, followed by winding 3 polyester yarn. Both cores on top have a common coating 4, which is made in the form of a braid of polyester yarn impregnated with glue. Outside, the wire is equipped with a screen 5.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 120 ° C.

This wire can be used indoors and outdoors.

The proposed wire is used for thermoelectric converters of the type TXK (GOST R 8.585-2001).

16 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores are externally provided with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIP.43710).

This wire is not suitable for use as an extension cord for thermoelectric converters of the TMK type (GOST R 8.585-2001), because with this combination of conductive metal cores, it is impossible to provide the necessary thermoelectromotive force for the normal operation of these thermoelectric converters.

The disadvantage of this wire is also the impossibility of its use at elevated ambient temperatures, because its insulation does not have a sufficiently high plus limit of the operating temperature.

The technical problem, which the proposed technical solution is aimed at, is improving the quality of work of thermoelectric converters, ensuring the operability of the wire at an elevated operating temperature.

To solve the problem in a known thermoelectrode wire made in the form of a pair of conductors isolated from each other, made of conductive materials with different resistivities, developed a specific thermoelectromotive force at a given temperature of the ends of the wires, one core is made of copper, and the other is made of a copel alloy, provided with a common coating. Each core is equipped with multilayer insulation, the first layer of which is made in the form of a winding from polyethylene terephthalate film followed by winding with a polyester thread, and the general coating of the wires is made in the form of a braid of polyester threads impregnated with glue ..

The execution of one of the cores made of the Kopel alloy allows a pair of cores of a wire connected to a thermocouple to develop the thermoelectromotive force necessary for accurate temperature measurement, and as a result, the accuracy of the instrument readings, on which the quality of the process depends.

lg - //

v 35 The implementation of the first layer of polyethylene terephthalate film

improves the heat resistance of the wire. Winding with a polyester thread provides the required mechanical characteristics of the wire and protecting the first layer of insulation from external influences, and impregnation with glue of polyester threads provides hardening of the upper layer, thereby increasing strength and ensuring safe operation of the wire under various mechanical stresses.

The proposed wire is shown in FIG. 16.

The wire contains cores 1, one of which is made of copper, and the other is made of an alloy of kopel. In this case, each core is covered with an insulation layer 2 made in the form of a winding from a polyethylene terephthalate film, followed by winding 3 with a polyester thread. Both cores on top have a common coating 4, which is made in the form of a braid of polyester yarn impregnated with glue.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 120 ° C.

This wire can be used indoors and outdoors.

The proposed wire is used for thermoelectric converters of the type TMK (GOST R 8.585-2001).

17 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores are equipped with PVC

(

36

shell. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

This wire is unsuitable for use as an extension cord for thermoelectric converters of the type TMK (GOST R 8.585-2001)., Because With such a combination of conductive metal cores, it is impossible to provide the necessary thermoelectromotive force for the normal operation of these thermoelectric converters, which negatively affects the accuracy of measurement of devices and, in general, the quality of the controlled process.

The disadvantage of this wire is also the impossibility of its use at elevated ambient temperatures, because wire insulation does not have a sufficiently high plus limit on the operating temperature.

An important disadvantage of this wire is its vulnerability to external electromagnetic fields and mechanical influences.

The technical problem, which the proposed technical solution is aimed at, is improving the quality of work of thermoelectric converters, ensuring the operability of the wire in rooms with high humidity, ensuring protection from external electromagnetic fields and mechanical influences.

To solve the problem in a well-known thermoelectrode wire, made in the form of a pair of isolated from each other cores made of conductive materials with different resistivities, developed a specific thermoelectromotive force

at a given temperature of the ends of the wires, in which one core is made of copper and the other is made of an alloy of kopel, while the wires are provided with a common coating. Each core is equipped with multilayer insulation, the first layer of which is made in the form of a winding from a polyethylene terephthalate film followed by winding with a polyester thread, and the general coating of the wires is made in the form of a braid of polyester threads impregnated with glue.

Outside, the wire is equipped with a screen.

The implementation of one of the cores of the alloy kopel allows a pair of cores connected to a thermocouple to develop

thermoelectromotive force to ensure accurate temperature measurement, and as a result, the accuracy of instrument readings and the quality of the process.

The implementation of the first layer of polyethylene terephthalate film

allows you to increase the heat resistance of the wire, and the winding with polyester thread

It provides the required mechanical characteristics of the wire and protects the first layer of insulation from external influences, and the impregnation of polyester filaments with glue provides hardening of the upper layer, thereby increasing strength and ensuring safe operation of the wire under various mechanical loads.

The supply of the wire with a screen allows you to protect it from electromagnetic fields and external mechanical influences, which

dl (

38

significantly improves the quality of thermal converters, and this favorably affects the quality of the process.

The screen can be made of tinned copper wire by braiding.

The proposed wire is shown in FIG. 17.

The wire contains cores 1, one of which is made of copper, and the other is made of an alloy of kopel. In this case, each core is covered with a layer of insulation 2., made in the form of a winding from a polyethylene terephthalate film, followed by winding 3 with a polyester thread. Both cores on top have a common coating 4, which is made in the form of a braid of polyester yarn impregnated with glue.

Outside, the wire is equipped with a screen 5.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 120 ° C.

This wire can be used indoors and outdoors.

The proposed wire is used for thermoelectric converters of the type TMK (GOST R 8.585-2001).

18 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores are externally provided with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

, This wire does not provide the required accuracy when measuring

temperatures due to insufficiently high operational characteristics of the materials of the copper-constantan wires.

The disadvantage of this wire is also the impossibility of its use at high voltages, because wire insulation has low electrical resistance. In addition, this wire cannot be operated at high temperatures, as its insulation material has insufficient positive operating temperature limit.

The technical problem to which the proposed technical solution is directed is to improve the quality of work of thermoelectric converters when measuring high temperatures, ensuring the operability of the wire at high voltage and operating temperature.

To solve the problem in a known thermoelectrode wire, made in the form of a pair of conductors isolated from each other, made of conductive materials with different resistivities, developed a specific thermoelectromotive force at a given temperature of the ends of the wires, one core is made of a nickel-copper alloy, and the other of a copper-titanium alloy, with each core having a multilayer insulation, the first layer of which is made in the form of a winding of a fluoroplastic film with subsequent winding with glass fiber and braid glass fiber impregnated with silicone varnish.

40 Use for the manufacture of cores of said alloys having

stable characteristics, provides high-quality operation of thermocouples, high accuracy of measuring instruments when measuring high temperatures and the quality of the process. Allows you to measure high temperatures.

Use this wire for thermocouples used in pyrometric devices and military products.

The use of a fluoroplastic film provides high reliability to the wire used for thermocouples operating in the high temperature zone, and the use of nickel-copper and copper-titanium alloys makes it possible to measure high temperatures.

The proposed wire is shown in FIG. 18.

The wire contains cores 1, one of which is made of nickel-copper alloy, and the other is of copper-titanium alloy, with each core having multilayer insulation, the first layer of which is made in the form of a winding of PTFE film 2, followed by winding 3 with glass fiber and braid 4 glass fiber. The glass is impregnated with silicone varnish.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 250 ° C.

The fluoroplastic film also provides high dielectric strength.

41 19 var. Known thermoelectrode wire, consisting of a pair

lived isolated from each other, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores are externally provided with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

This wire does not provide the necessary accuracy when measuring high temperatures, because the material of the copper-constantan wires does not have the necessary performance characteristics under the indicated conditions.

In addition, this wire cannot be used at high voltages, as its insulation has low electrical resistance, and use at high temperatures, as Wire insulation material has insufficient positive operating temperature limit.

This wire does not have protection against external electromagnetic fields and mechanical influences.

The technical problem, the solution of which the proposed technical solution is aimed, is to improve the quality of work of thermoelectric converters when measuring high temperatures, ensuring the operability of the wire at high voltages and operating temperature, and protection from external electromagnetic fields and mechanical influences.

: // s

42 To solve the problem, in the well-known thermoelectrode

a wire made in the form of a pair of conductors isolated from each other, made of conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, one core is made of a nickel-copper alloy, and the other is a copper-titanium alloy, each core is equipped with multilayer insulation, the first layer of which is made in the form of a winding of a PTFE film, followed by winding with glass fiber and braid with glass fiber, impregnated with silicone varnish.

Outside, the wire is equipped with a common screen.

The screen can be made of tinned copper wire by braiding.

The use of these alloys with stable characteristics for the manufacture of cores ensures the high-quality operation of thermocouples when measuring high temperatures, which ensures high accuracy of measuring instruments and the quality of the process. Use this wire for thermocouples used in pyrometric devices and military products.

The proposed wire is shown in FIG. 19.

The wire contains conductors I, one of which is made of a nickel-copper alloy, and the other is of a copper-titanium alloy, with each core having a multilayer insulation, the first layer of which is made in the form of a winding from a PTFE film 2, followed by a winding 3

43 glass fiber and braid; 4 glass fiber. Glass fiber impregnated

organosilicon varnish. Outside, the wire is equipped with a screen 5.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 250 ° C.

The use of a fluoroplastic film allows the use of this thermoelectrode wire for thermocouples placed in a zone of high temperatures and at high voltages. The use of these alloys for the manufacture of cores allows a high degree of accuracy to measure high temperatures.

The supply of cores with a screen provides protection of the wire from external electromagnetic fields and mechanical influences.

20 var. Known thermoelectrode wire, consisting of a pair of insulated from each other cores, one of which is made of copper, and the other of constantan. In this case, the insulation of the cores is made of polyvinyl chloride. Both cores are externally provided with a polyvinyl chloride sheath. (Catalog of Germany, 121285, March 25, 71, Degussa "Insulated thermocouple wires DIN 43710).

This wire does not provide the necessary accuracy when measuring high temperatures since the materials of the copper-constantan wires do not possess the necessary performance characteristics under the indicated conditions.

SS: 1b06

44

low elSESphic resistance, as well as the impossibility of using this wire at high temperatures, because the insulating material does not meet the positive limit of the operating temperature.

In addition, this wire is exposed to electromagnetic fields, which negatively affects the readings of measuring instruments. In this case, the wire is not protected from external mechanical influences, which reduces its operational reliability.

The technical problem, which the proposed technical solution is aimed at, is improving the quality of work of thermoelectric converters when measuring high temperatures, ensuring the operability of the wire at high voltages, ensuring protection from external electromagnetic fields and mechanical influences. Expansion of functionality.

To solve the problem in a well-known thermoelectrode wire, made in the form of a pair of conductors isolated from each other, made of conductive materials with different resistivities, developed a specific thermoelectromotive force at a given developed thermoelectromotive force at a given temperature of the ends of the wires, one core is made of an alloy of nickel copper and the other from a copper-titanium alloy, with each core provided with multilayer insulation, the first layer of which is made in the form of a fluoroplastic winding film, followed by winding with glass and braid with glass, impregnated with silicone varnish. Every vein

equipped with a screen.

The use of these alloys with stable characteristics for the manufacture of cores ensures high-quality operation of thermocouples when measuring high temperatures, while significantly increasing the accuracy of measuring instruments and the quality of the process.

Use this wire to connect thermocouples in pyrometric devices and military products. The proposed wire is shown in FIG. 20.

The wire contains cores 1, one of which is made of nickel-copper alloy, and the other is of copper-titanium alloy, with each core having multilayer insulation, the first layer of which is made in the form of a winding of PTFE film 2, followed by winding 3 with glass fiber and braid 4 glass fiber. The glass is impregnated with silicone varnish. Outside the wire there is a screen 5.

The proposed design of the wire can be used at ambient temperatures from - 60 ° C to + 250 ° C.

The screen can be made of tinned copper wire by braiding.

The use of a fluoroplastic film allows the use of a thermoelectrode wire for thermocouples placed in a zone of high temperatures and at high voltages.

The supply of core wires provides protection of wires from external

electromagnetic fields and mechanical influences.

Providing each core with a screen allows you to expand the functionality of the wire.

School 44

Claims (20)

1. Thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities of copper constantan, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while the insulation of the cores is made of polyvinyl chloride, characterized in that both cores are equipped with a single layer isolation. 2. A thermoelectrode wire containing one pair of cores isolated from each other from conductive materials with different resistivities of copper-constants, which develop a certain thermoelectromotive force at a given temperature of the ends of the wires, while the insulation of the cores is made of polyvinyl chloride, characterized in that both cores are equipped with a single layer insulation, while both cores on the outside are equipped with a common screen. 3. A thermoelectrode wire containing one pair of cores isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while one of the cores is made of copper, and the insulation of both cores is made of polyvinyl chloride, characterized in that the second core is made of a copper-nickel alloy TP. 4. Thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while one of the cores is made of copper, and the insulation of both cores is made of polyvinyl chloride, characterized in that the second core is made of a copper-nickel alloy TP, while both wires outside are equipped with a common screen. 5. A thermoelectrode wire containing one pair of conductive materials isolated from each other with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, and polyvinyl chloride is used as insulation, characterized in that one of the cores is made of chromel alloy, and the other is made of alloy kopel. 6. A thermoelectrode wire containing one pair of conductive materials isolated from each other with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, and polyvinyl chloride is used as insulation, characterized in that one of the cores is made of chromel alloy, and the other is made of alloy kopel, while both cores on the outside are equipped with a common screen. 7. A thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while one of the cores is made of copper, and polyvinyl chloride is used as insulation, characterized in that the second core is made of an alloy of copel. 8. A thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities, developed thermoelectromotive force at a given temperature of the ends of the wires, while one of the cores is made of copper, and polyvinyl chloride is used as insulation, characterized in that the second core is made of copel alloy, while both wires are equipped with a common screen from the outside. 9. A thermoelectrode wire containing one pair of cores isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, one of the cores made of copper, and polyvinyl chloride used as insulation, characterized in that the second core is made of copper-nickel alloy MN-2.15. 10. A thermoelectrode wire containing one pair of conductive materials isolated from each other with different resistivity of copper constantan, developed a specific thermoelectromotive force at a given temperature of the ends of the wires, while both cores are provided with a common coating, characterized in that each core has a multilayer insulation moreover, the first layer is made in the form of a winding from a polyethylene terephthalate film followed by winding with a polyester thread, and the total core coating is made in the form of a polyester braid yarns, impregnated with glue. 11. A thermoelectrode wire containing one pair of conductive materials isolated from each other with different resistivity of copper constantan, developed a specific thermoelectromotive force at a given temperature of the ends of the wires, while both wires are provided with a common coating, characterized in that each core has a multilayer insulation moreover, the first layer is made in the form of a winding from a polyethylene terephthalate film followed by winding with a polyester thread, and the total core coating is made in the form of a polyester braid yarns impregnated with adhesive, the wire is provided with a screen from outside. 12. A thermoelectrode wire containing one pair of cores isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while one of the cores is made of copper, and both cores are provided with a common coating, characterized in that the other core is made of copper - nickel alloy TP, with each core having multilayer insulation, the first layer being made in the form of a winding from a polyethylene terephthalate film followed by winding with a polyester thread, and the general coating of the cores is made in the form of a braid of polyester threads impregnated with glue. 13. A thermoelectrode wire containing one pair of cores isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while one of the cores is made of copper, and both cores are provided with a common coating, characterized in that the other core is made of copper-nickel alloy TP, while each core has a multilayer insulation, the first layer being made in the form of a winding from a polyethylene terephthalate film followed by winding along with a polyester thread, and the overall core coating is made in the form of a braid of polyester threads impregnated with glue, while the wire is provided with a screen from the outside. 14. A thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while both cores are provided with a common coating, characterized in that one of the cores is made of chromel alloy and the other is made of copel alloy, with each core having multilayer insulation, the first layer being made in the form of a winding from a polyethylene terephthalate film followed by winding with polyester nit w, and the total lived braid is made of polyester yarn, impregnated with glue. 15. A thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while both cores are provided with a common coating, characterized in that one of the cores is made of chromel alloy and the other is made of copel alloy, with each core having multilayer insulation, the first layer being made in the form of a winding from a polyethylene terephthalate film followed by winding with polyester nit w, and the total coating lived configured as a braid of polyester yarns impregnated with adhesive, the outside provided with a wire screen. 16. A thermoelectrode wire containing one pair of cores isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while one of the cores is made of copper, and both cores are provided with a common coating, characterized in that the other core is made of copel alloy, with each core having multilayer insulation, the first layer being made in the form of a winding from a polyethylene terephthalate film followed by winding polyester thread, and the total coating lived configured as a braid of polyester yarns impregnated with adhesive. 17. A thermoelectrode wire containing one pair of cores isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, one of the cores made of copper, and both cores are provided with a common coating, characterized in that that the other core is made of copel alloy, with each core having multilayer insulation, the first layer being made in the form of a winding from a polyethylene terephthalate film followed by winding polyester thread, and the total coating lived configured as a braid of polyester yarns impregnated with adhesive, the outside provided with a wire screen. 18. Thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while both cores are provided with a common coating, characterized in that one of the cores is made of nickel alloy -copper, and the other is made of copper-titanium alloy, with each core having multilayer insulation, the first layer being made in the form of a winding of a fluoroplastic film followed by winding with glass fiber, and mended fiber glass impregnated with silicone varnish. 19. A thermoelectrode wire containing one pair of conductors isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while both cores are provided with a common coating, characterized in that one of the cores is made of nickel alloy -copper, and the other is made of copper-titanium alloy, with each core having multilayer insulation, the first layer being made in the form of a winding of a fluoroplastic film followed by winding with glass fiber, and mended fiber glass impregnated with silicone varnish, in addition, provided with a wire outside a common screen. 20. A thermoelectrode wire containing one pair of cores isolated from each other from conductive materials with different resistivities, developing a certain thermoelectromotive force at a given temperature of the ends of the wires, while both cores are provided with a common coating, characterized in that one of the cores is made of nickel alloy -copper, and the other is made of copper-titanium alloy, with each core having multilayer insulation, the first layer being made in the form of a winding of a fluoroplastic film followed by winding with glass fiber, and mended fiber glass impregnated with silicone varnish, with each core is equipped with a screen outside.