KR20020052869A - Shunt error free sheathed thermocouple - Google Patents

Abstract

PURPOSE: A high temperature measurement thermo couple is provided to lengthen useful life of thermo couple by preventing the metallic protection tube from corrosion or damage, while achieving improved accuracy for the temperature measurement. CONSTITUTION: A high temperature measurement thermo couple comprises a temperature sensing section(1) having a temperature measurement contact(2) formed inside of the temperature sensing section; two thermo couple wires(3) connected to the temperature measurement contact; an inorganic insulating material(4) filling the space formed between two thermo couple wires; and a metallic protection tube(5) for protecting all the components. The temperature sensing section is compressed so as to improve the filling density of the inorganic insulating material contained in the temperature sensing section. The metallic protection tube is coated with a heat resistant insulating material(6), and coated with a jacket metallic protection tube(7) onto the heat resistant insulating material.

Description

Thermocouple for high temperature measurement to prevent shunt error {Shunt error free sheathed thermocouple}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sheath thermocouple with a novel structure, and more particularly to a thermocouple for high temperature measurement for preventing shunt error caused in the process of measuring a high temperature target object temperature using thermoelectric power.

In general, thermocouple thermometers that measure temperature using thermoelectric power form thermocouples by joining one end of thermocouple wires of different dissimilar metals, and then place the thermocouples in the area to be measured, and then reference the other end. By measuring the thermoelectric power with the temperature, it is possible to know the temperature of the measurement site. Such thermocouple thermometers are widely used for temperature measurement in various fields because they are relatively simple in structure and can measure a wide range of temperatures from a cryogenic temperature of 0.5 ° K to a high temperature of about 3000 ° C.

By the way, the conventional thermocouple consists of the thermocouple element wire 3 in which the inorganic insulating material 4 and the temperature-temperature contact point 2 were formed in the metal protective tube 5 as shown in FIG. The element wire 3 of the thermocouple is surrounded by the metal protective tube 5, and the inorganic insulating material 4 insulates the thermocouple element 3 and the metal protective tube 5 and integrates these three materials through a compression process. In this thermocouple thermometer, the metal protective tube 5 is exposed to high temperature, and the activity of the moisture remaining in the inorganic insulating material 4 becomes active, so that the purity of the inorganic insulating material 4 is obtained even if a shunt error occurs or water is completely removed. The degree to which the shunt error occurs depends on the interval between the thermocouple element wires 3. In general, the insulation resistance starts to drop sharply from the 600 ° C band and is affected by the residual moisture. At 1000 ° C or higher, there is little residual moisture and even if the purity of the inorganic insulating material is very high, the chance of shunt error is increased. This is because the metal protective tube 5 is eroded and damaged by the surrounding environment, resulting in inaccurate temperature measurement, and eventually the life of the thermocouple due to the malfunction of the protective tube 5 ends. Usually, in sheath thermocouples, the longer the length of the thermocouple exposed to high temperature and the thinner the thickness of the metal protective tube 5, the higher the probability of occurrence of shunt error. The temperature sensing unit 1 located at the tip of the thermocouple removes an appropriate amount of the inorganic insulating material 4 at the time of processing and forms the temperature-contacting point 2 by welding, and then refills the inorganic insulating powder in the area. The jig is worked as a jig, and the metal protective tube 5 is welded and sealed. The tip portion formed as described above does not reach the filling density of the inorganic insulating material before processing, and thus the measurement accuracy of vibration resistance is not reduced, and there is a problem of generating a shunt error even at a relatively low temperature. If a thermocouple with such a problem is used on site, it may be different depending on the application location and purpose, but it causes a lot of loss in terms of time, expense, and manpower.

The present invention is designed to improve the problems of the conventional thermocouple for high temperature measurement, by forming an insulating material on the surface of the metal protective tube to have a heat insulating function and corrosion of the metal protective tube by the jacketed metal tube added to the thermocouple exposed to the flame This prevents the occurrence of shunt error at high temperature, and compresses and reduces the outer diameter of the temperature sensing unit appropriately to increase the packing density of the internal insulating material to maintain the accuracy of the measurement and to extend the service life of the thermocouple.

1 is a cross-sectional cutaway view of a thermocouple according to the present invention,

2 shows an application example of a thermocouple according to the present invention,

3 is a comparative example of the measurement results of the thermocouple and the conventional thermocouple according to the present invention,

4 is a cross-sectional view of a conventional thermocouple.

Explanation of symbols of main parts in drawings

1: temperature sensing unit, 2: RTD,

3: thermocouple element wire, 4: inorganic insulating material,

5: metal protective tube, 6: heat insulating material,

7: jacket metal protective tube

The present invention relates to a sheath thermocouple of a novel structure for preventing the occurrence of shunt error caused in the process of measuring the temperature of the subject under high temperature using the thermoelectric power.

The present invention was developed in order to achieve the above object, the temperature sensing unit formed inside the temperature sensing contact, the two thermocouple wires connected at the above-mentioned temperature contact point, and the inorganic insulating material filled between the thermocouple wires, and wrap them In the thermocouple for high temperature measurement to be configured to the outside of the metal protective tube to protect the outside temperature, the temperature sensing unit is crimped to improve the filling density of the inorganic insulating material therein, the metal protective tube is a heat-resistant insulating material thereon It provides a thermocouple for measuring the high temperature, characterized in that the cover, and to cover again to assemble the jacket metal protective tube (7).

In the present invention, since the inorganic insulating material of the temperature sensing unit is filled with high density, the metal protective tube is protected and insulated by the heat insulating material, and the outer jacket metal protective tube is protected again, thereby reducing the occurrence of shunt errors and extending the life. have.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. However, the accompanying drawings are only described to more easily disclose the contents of the present invention, but the scope of the present invention is not limited to the accompanying drawings.

1 is a schematic cross-sectional view shown to explain the configuration of the main portion of the high temperature thermocouple according to the present invention.

In the present invention, the thermocouple temperature sensing unit 1 compresses and processes the outer peripheral surface of the tip portion 1 '. In this case, the filling density of the temperature sensing unit 1 of the present invention is improved as the inorganic insulating material 4 filled therein is compressed. For this reason, the present invention significantly reduces the possibility of shunt error between the high temperature-filled inorganic insulating material 4 and the metal protective tube 4 of the RTD 1 'and the tip portion 1', and at the same time, vibration resistance characteristics. It is effective to improve the accuracy of the temperature measurement.

In the present invention, the metal protective tube 5 of the thermocouple coats the heat-resistant insulating material 6 thereon, and again coats the jacketed metal protective tube 7 thereon to secure the assembled state. At this time, the heat-resistant insulating material 6 is to prevent or delay the heat transfer from the external high temperature environment to the inside of the thermocouple to suppress the occurrence of shunt error, and at the same time damage due to erosion of the metal protective tube (5) This prevents the use of thermocouples for a long time, and extends the life of the product. In addition, the jacket metal protective tube (7) protects the elements therein from a high temperature environment, and also has a noise shielding function, thereby increasing the stability of the temperature measurement. In addition, the jacketed metal protective tube 7 can be used while adjusting by using a cutter to the length that the sensing portion of the thermocouple is inserted.

2 schematically shows examples of the use of a thermocouple according to the present invention. At this time, Figure 2a shows the case used in the steel manufacturing process, and more specifically used to measure the temperature rising process in the heating furnace of the slab which is the hot-rolled address material. On the other hand, Figure 2b shows the case used in the crude oil heating process of the refinery, more specifically in the case of using the thermocouple according to the invention welded to the heat pipe for heating the crude oil in the crude oil heating process, the core process of the refinery. Indicates. As can be seen clearly in FIG. 2, the thermocouples are all used in a high temperature environment, and since these temperatures directly affect the performance or quality of the product, control of these temperatures is the most important factor in the production process. In order to do this, accurate and accurate temperature measurement becomes an essential prerequisite. For this reason, if the accuracy of the thermometer side of the thermocouple is deteriorated due to the deviation of the measurement temperature, the correct product cannot be produced. In addition, if the thermocouple cannot be used for more than the desired period, the temperature control is an essential element of the production process, so of course, the old thermocouple must be replaced frequently, and the related equipment must be shut down in the process. As a result, manufacturing costs are increased. As such, the accuracy and reliability of the temperature measurement value are important, as the result measured in the manner as shown in FIG. 2A affects not only the quality of the product but also the manufacturing cost. Therefore, in consideration of these factors, the temperature measurement value determines the combustion control pattern of the furnace. This is because it is used as an important basic data.

Fig. 3 shows the results obtained by measuring the conventional thermocouple and the thermocouple according to the present invention in the same heating furnace in the same steel manufacturing process. However, the two products were installed in the same heating furnace, but the results were measured by installing them at different positions, which was not repeated by igniting the heating furnace again for the performance test of the present invention due to the characteristics of the steel manufacturing process. Therefore, they were installed in different positions. According to the above test results, the thermocouple according to the present invention shows a stable state, while the measured thermocouple shows an unstable large deviation in the high temperature region over 1000 ° C. in the conventional thermocouple. (On the other hand, the thermocouple according to the present invention was shown to show a slight deviation in the low temperature region of the initial experiment, but since the position in the furnace is different from each other, it cannot be uniformly determined.)

Since the thermocouple according to the present invention has a structure in which a heat-resistant insulating material is coated on a metal protective tube of the sheath thermocouple and then overlaid with a jacketed metal protective tube thereon, a thermocouple exposed to a high temperature atmosphere such as a flame or a flame is introduced into the inside by the heat-resistant insulating material. By exhibiting the effect of preventing or delaying heat inflow, it is possible to prevent the occurrence of shunt errors.

In addition, the thermocouple according to the present invention has a jacketed metal protective tube located on the outermost layer to protect the inner metal protective tube from corrosion and damage caused by an external environment, thereby extending the life of the thermocouple itself and enhancing the noise shielding function, thereby improving the accuracy of the measurement temperature. Can greatly increase.

In addition, the present invention by pressing the front end of the metal protective tube as the temperature sensing unit can improve the packing density of the inorganic insulating material and the vibration resistance of the thermocouple element wire to suppress the occurrence of shunt error.

The thermocouple for high temperature measurement according to the present invention has been described in detail with reference to the accompanying drawings, but this is only for describing the most preferred embodiments of the present invention, and the present invention is not limited thereto. In addition, anyone of ordinary skill in the art will be able to make various modifications and imitations by the description of the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

Claims (1)

A temperature sensing unit 1 having a temperature-contacting point 2 formed therein, two thermocouple wires 3 connected at the temperature-contacting point 2, an inorganic insulating material 4 filled between the thermocouple wires, and these In the thermocouple for measuring the high temperature is configured to the outside of the metal protective tube (5) to wrap and protect the temperature, the temperature sensing unit (1) is crimped to improve the filling density of the inorganic insulating material (4) therein. And the metal protective tube (5) covers the heat-resistant insulating material (6) thereon, and recoats and assembles the jacketed metal protective tube (7) thereon to assemble the thermocouple for high temperature measurement.