KR200210049Y1 - Insulation structure of exchangeable temperature measuring device - Google Patents

Abstract

The present invention is designed so that the thermocouple which detects the temperature installed on the outside of the measurement object can be separated / combined using the lock nut and the hollow bolt, so that the thermocouple can be repaired and replaced more easily. A heat insulation structure of the apparatus, which is installed on the outer upper portion of the object to be measured 30 and is screwed to the main body 40 having an internal threaded portion 42 and the internal threaded portion 42 of the main body 40. A hollow bolt 50 having a male thread portion 52 and a hollow portion 54 into which a sheath-type thermocouple 60 is inserted, and compressed between the hollow bolt 50 and the object to be measured 30; The first shield member 70 is hermetically in close contact with the outer circumferential surface of the measurement object 30, the inner surface of the body 40, and the lower end of the hollow bolt 50, and the hollow of the first shield member 70. In close contact with the portion 72 to block the external heat conduction to the siege-type thermocouple (60) A heat insulating tube 80 and a lower end portion of the insulating tube 80 and an outer circumferential surface of the object 30 to measure the heat of the object 30 to the siege type thermocouple 60. The second shield member 100 and the hollow bolt 50 to be in close contact between the thermal conductive pad 90 to be transferred to the heat insulating tube 80 and the sheath-type thermocouple 60 to maintain airtightness. Is screwed to the screw 52 of the lock bolt 110 is configured to prevent the loosening of the hollow bolt (50).

Description

Insulation structure of exchangeable temperature measuring device

The present invention provides an exchangeable temperature measuring apparatus used for indirectly measuring the fluid temperature inside by measuring the surface temperature of a workpiece such as a conveyor heat treatment furnace or a heating conduit for preheating fuel such as bunker-seed oil. It relates to a heat insulating structure, and more particularly, by having a heat insulating tube that insulates from the outside of the siege type thermocouple to reduce the thermal effect of the siege type thermocouple due to external heat, and thus the temperature of the siege type thermocouple. The thermocouples can be further improved, and the thermocouples can be easily separated / joined from the measured object by using lock nuts and hollow bolts to make the thermocouples more convenient to repair and replace. An insulating structure of an exchangeable temperature measuring device is provided.

In general, sheath type thermocouples use a physics phenomenon called the Seebeck effect to join both ends of metal wires of different materials to each other and to insert one end into a part to measure temperature. The temperature is detected by using a thermal current according to the thermoelectric power generated corresponding to the temperature difference with the opposite junction point, and the electromotive force generated therefrom is not affected by the thickness or length of the line and depends on the type of the line.

Such a temperature measuring device using a siege type thermocouple is shown in the accompanying drawings US Patent No. 5382093 (name: interchangeable temperature measuring device) in Figures 1 to 3, as shown in the thermocouple 10 is a jacket Surrounded by (14), opposite ends of the cable (13) exposed to one side of the jacket (14) were provided with opposing lead wires (11) and (12), and the jacket ends (14-A) had curvature. It had a radius A-1 and was formed into a bow shape.

Shield member 40 is composed of an arc-shaped body 61 and the heat insulating material (64) shown in phantom in the drawing, one end of the body 61 is a slot portion for exposing the guide tube 20 to the outside ( 63-A) was formed integrally, and the semi-circular groove 62 in which the recessed part 63-B was formed in the other end part was formed.

The semicircular recess 62 formed in the shield member 40 has an open end 21 on one side and a closed end 22 on the other side, and has a radius of curvature A-1 of the thermocouple 10. A guide tube 20 formed with the same radius of curvature A-2 is inserted, and a C-shaped pad 30 having a cutout portion 31 is fixed to the closed end 22 of the guide tube 20. This pad 30 was comprised so that it might be caught while fitting in the said recessed part 63-B.

In addition, the shield member 40 was installed on the outer circumferential surface of the conduit 80 provided near the wall 91 by a joining means such as welding, and the thermocouple 10 is inserted into the guide tube 20. It is fixed.

In addition, the pad 30 has a function of transferring the heat of the conduit 80 to the thermocouple 10 while being in close contact with the surface of the conduit 80, thereby improving the temperature measurement accuracy. It was configured to be.

However, the heat insulating material 64 provided in the conventional thermocouple 10 is located between the conduit 80 and the thermocouple 10 and is an end of the thermocouple 10 measured from the conduit 80. It only serves to prevent heat conduction outside the part, and has a structure that cannot effectively block external heat transmitted to the thermocouple 10 by convection or light energy from the outside of the main body 61, so that the temperature measurement is Had the problem of becoming inaccurate.

In addition, in order to form the shield member 40, the main body 61 is arcuate, and a semicircular groove 62 having a slot 63-A at one end and a recess 63-B at the other end is formed. Since it was configured to form a single body, the molding was very difficult and had a problem of raising the cost.

In addition, when the conventional thermocouple 10 is replaced, the welded portion formed by the shield member 40 and the conduit 80 must be separated by heat. In this case, there is a problem in that the separation operation becomes very cumbersome. When fuel such as bunker-seed oil (F) is passed, it is possible only to remove all of them for the safety of the work. Therefore, there is a problem of delaying the work. I had.

The present invention has been made to solve the above problems, the purpose is to block the external heat transmitted to the thermocouple by convection or light energy from the outside to improve the temperature measurement accuracy, and to provide a thermal insulation structure By simplifying the molding and simplifying the cost, the cost can be lowered, and the insulating structure of the exchangeable temperature measuring device that can preserve the appearance more cleanly can be made faster and more convenient to replace the sheath type thermocouple. Is in.

In order to achieve the object of the present invention and the hollow bolt is installed on the outer upper side of the object to be measured and has a female screw portion on the inside, and a hollow portion having a male screw portion screwed to the female screw portion of the main body is inserted; And a first shield member that is compressed between the hollow bolt and the object to be hermetically adhered to the outer circumferential surface of the object to be measured, the inner surface of the body and the lower end of the hollow bolt, and the hollow part of the first shield member. A heat insulation tube for blocking external heat from being conducted to the siege thermocouple in a closed state, and positioned between a lower end of the heat insulation tube and an outer circumferential surface of the object to be measured, the heat of the object being measured A second pad for thermal conduction to transfer to the thermocouple, and close contact between the heat insulating tube and the sheath-type thermocouple to maintain airtightness It characterized consisting of lock nut for preventing loosening of de member and is threaded into a threaded portion of the hollow bolt is a hollow bolt.

1 is an exploded perspective view showing the configuration of a heat insulating structure of a conventional exchangeable temperature measuring device;

2 is a longitudinal cross-sectional view cut along a shield attached to an object under test during a conventional temperature measurement;

3 is an enlarged perspective view showing a connection state of a pad and a shield member in a heat insulating structure of a conventional exchangeable temperature measuring device;

Figure 4 is an exploded perspective view showing the configuration of the insulating structure of the exchangeable temperature measuring apparatus according to the present invention

5 is a cross-sectional view showing the configuration of the insulating structure of the exchangeable temperature measuring apparatus according to the present invention

6 is a view showing a state in which the insulating structure of the exchangeable temperature measuring device according to the present invention is applied to measure the temperature of the bunker-seed oil

* Explanation of Signs of Major Parts of Drawings *

30: measured object 50: hollow bolt

42: female thread portion 70: first shield member

40: main body 80: heat insulation tube

52: male thread portion 90: thermal conductive pad

54, 72: hollow part 100: second shield member

60: siege type thermocouple 110: lock nut

Figure 4 is an exploded perspective view showing the configuration of the insulating structure of the replaceable temperature measuring apparatus according to the present invention, Figure 5 is a cross-sectional view showing the configuration of the insulating structure of the exchangeable temperature measuring apparatus according to the present invention, Figure 6 is the present invention The insulating structure of the replaceable temperature measuring device according to the present invention is a view showing a state applied to measuring the temperature of the bunker-seed oil, which is installed on the outer upper portion of the object to be measured 30 and the inner threaded portion 42 on the inner side thereof. Hollow bolt having a main body 40 having a hollow portion 54 having a male thread portion 52 screwed to the female screw portion 42 of the main body 40 and a sheath-type thermocouple 60 is inserted ( 50) and the hollow bolt 50 and the measurement object 30 is compressed between the outer peripheral surface of the measurement object 30 and the inner surface of the main body 40 and the lower end of the hollow bolt 50 Of the first shield member 70 and the first shield member 70 that are tightly sealed. Insulating tube 80 to prevent the external heat from being conducted to the siege-type thermocouple 60 in a state in close contact with the hollow portion 72, the lower end of the insulating tube 80 and the measurement object ( A thermally conductive pad 90 positioned between the outer circumferential surface of the substrate 30 and transferring the heat of the object 30 to the siege type thermocouple 60, and the insulating tube 80 and the siege type thermocouple. Locking for preventing the loosening of the hollow bolt 50 is screwed to the second shield member 100, which is in close contact between the couple 60 to maintain the airtight, and the threaded portion 52 of the hollow bolt 50 It consisted of the nut (110).

Here, the first shield member 70 and the second shield member 100 may be configured using wool, but are not necessarily limited to these materials.

The hollow bolt 50 has a hexagonal head 57, which is convenient to hold and turn using a tool, at the upper end, and at the lower end thereof, the first shield member 70, the insulation tube 80, and the second shield member ( A portion of the upper portion of the 100 is formed in the recess portion 58 can be inserted, the hollow portion 54 is formed so as to penetrate from the upper end of the hollow bolt 50 to the lower end.

The main body 40 is formed in the shape of a pipe, welded in a state where it is installed above the object to be measured 30, and an internal thread part 42 is formed on an inner upper portion thereof.

And formed on the outer peripheral surface of the upper end of the first shield member 70 in the same shape as the lower end of the hollow bolt 50 to improve the airtightness with the hollow bolt (50).

In addition, the insulating tube 80 may be molded using, for example, ceramics, but is not necessarily limited thereto.

The thermal conductive pad 90 is formed in the shape of a flat disc having a center penetrated in a vertical direction, so that the lower end of the siege type thermocouple 60 can be inserted through the hollow part 92 formed at the center thereof. Configured.

The lock nut 110 is screwed to the male screw portion 52 formed in the hollow bolt 50, and when the lock nut 110 is locked, the lock nut 110 is turned to be caught by the upper end of the main body 40.

In the figure, reference numeral F denotes a bunker-seed oil passing through the inside of the measurement object 30.

Hereinafter, the operation according to the present invention will be described in detail with reference to the accompanying drawings.

First, Figures 4 to 6 is a view showing a state in which the interchangeable temperature measuring device according to the present invention is applied to measure the temperature of the bunker-seed oil, as shown in the bunker-seed oil (F) at room temperature as a burner Since it has a viscosity higher than the viscosity suitable for injection, the preheater is applied through a preheater 200 located in the middle before feeding from the fuel tank T to the burner B to lower the viscosity at room temperature, and then burner. It is made to convey to (B).

At this time, if the temperature of the bunker-seed oil (F) is too high or low, the combustion efficiency is reduced by the burner (B). In order to prevent this, the middle of the fuel supply line formed between the preheater (200) and the burner (B). The temperature of the bunker-seed oil (F) flowing through the preheater (200) to the burner (B) is periodically detected by placing a siege thermocouple (60) in the preheater (200), and if the detected temperature is higher than the set temperature, the preheater (200). ) Lowers the heating temperature applied to the bunker-seed oil (F), and if the detected temperature is lower than the set temperature, the operation of raising the heating temperature applied to the bunker-seed oil (F) by the preheater 200 repeatedly. It is configured to feed-back control while performing.

In this process, the heating conduit through which the bunker-seed oil (F) is passed becomes an object to be measured 30 to indirectly measure temperature, thereby conducting heat to the sheath type thermocouple 60 through the thermal conductive pad 90. The temperature of the bunker-seed oil F is indirectly detected by the sheath-type thermocouple 60.

In this process, the thermally conductive pad 90 receives heat from the surface of the measurement object 30 that the bottom surface of the siege type thermocouple 60 that contacts the outer circumferential surface of the measurement object 30 does not reach. Since the heat is conducted through the outer peripheral surface of the lower end of the siege type thermocouple 60, it serves to further improve the accuracy of the temperature measurement.

At this time, the heat insulating tube 80 surrounding the lower end of the siege type thermocouple 60 has an adiabatic action to prevent the outside heat is conducted to the siege type thermo couple 60 and the temperature detected is inaccurate. The heat shield tube 80 and the sheath type thermocouple 60 and the second shield member 100 and the first shield member 70 positioned between the heat insulation tube 80 and the main body 40 are respectively the main body 40. ) And the hollow bolt 50 and the outside air introduced into the lower end of the siege type thermocouple 60, that is, the main body 40, through a gap formed between the siege type thermocouple 60 and the hollow bolt 50. By blocking it, the accuracy of temperature detection is further improved.

On the other hand, when the siege type thermocouple 60 causes a failure or changes over time, and a new one needs to be replaced, the hollow bolt 50 is rotated in a direction that is separated from the main body 40 while the lock nut 110 is loosened. If so, it is separated as shown in FIG.

At this time, the siege type thermocouple 60 is separated from the hollow part 54 of the hollow bolt 50, and then a new siege type thermo couple 60 is inserted into the hollow part 54 formed in the hollow bolt 50. After inserting the first shield member 70, the heat insulation tube 80, the second shield member 100 and the thermal conductive pad 90 to the lower end of the siege type thermocouple 60 exposed to the lower state, all of them When the hollow bolt 50 is screwed to the main body 40 in the state of being positioned inward of the 40, the first shield member 70 and the second shield member 100 are compressed and insulated from the main body 40. The airtight contact between the tube 80 and the heat insulating tube 80 and the sheath type thermocouple 60 is also a strong pressing of the sheath type thermocouple 60.

That is, the seizure-type thermocouple 60 is prevented from naturally separating upward by the friction force with the second shield member 100.

The present invention as described above is configured to block the external heat transmitted to the thermocouple by the convection or light energy from the outside by an insulating tube surrounding the outside of the thermocouple, it is possible to further improve the temperature measurement accuracy It is effective, and since the insulating tube is cylindrical, it is easy to process and lowers the cost according to manufacturing. When exchanging the sheath-type thermocouple, very troublesome work such as removing the welding part as in the past It does not require, and it is configured to exchange the new siege type thermocouple simply by separating the lock nut and the hollow bolt from the main body, so that the work can be done quickly and conveniently. There is an effect that can be kept more clean.

Claims (1)

A main body 40 provided on an outer upper portion of the object to be measured 30 and having an internal thread portion 42 therein; A hollow bolt 50 having a male thread portion 52 screwed to the female thread portion 42 of the main body 40 and a hollow portion 54 into which the sheath type thermocouple 60 is inserted; Compressed between the hollow bolt 50 and the measurement object 30 to be in close contact with the outer circumferential surface of the measurement object 30 and the inner surface of the main body 40 and the lower end of the hollow bolt 50. A first shield member 70; An insulating tube (80) for blocking external heat from being conducted to the sheath-type thermocouple (60) in close contact with the hollow portion (72) of the first shield member (70); A thermal conductive pad 90 positioned between the lower end of the insulating tube 80 and the outer circumferential surface of the object 30 to transfer the heat of the object 30 to the siege type thermocouple 60. )Wow; A second shield member 100 in close contact with the insulating tube 80 and the sheath type thermocouple 60 to maintain airtightness; Insulation structure of the replaceable temperature measuring device, characterized in that it comprises a lock nut (110) for preventing the loosening of the hollow bolt 50 is screwed to the threaded portion 52 of the hollow bolt (50).