KR20160080250A - Temperature measurement sensor with excellent insulating property and heat-resisting property - Google Patents

Abstract

Disclosed is a temperature measurement sensor with excellent insulating and heat resistant properties which employs a flexible extension wire connection structure to be easily inserted into a pipe for temperature measurement and discharged from the pipe, and has excellent insulating and heat resistant properties to minimize a leakage current and a harmful material produced when working to secure user convenience and safety of a worker and reduce costs by improving product life. According to the present invention, the temperature measurement sensor with excellent insulating and heat resistant properties is inserted and used in a pipe for temperature measurement to measure a temperature of carbon paste in an electrode bar, and comprises: a thermocouple wire to form a temperature measurement point in the electrode bar; a sheath enclosing the thermocouple wire; an adapter connected to a lower end of the sheath; an extension wire connected to the thermocouple wire via the adapter; a ceramic protection pipe mounted to enclose an upper end of the sheath to insulate the sheath and the thermocouple wire, and provided with a stepped protrusion arranged on a position corresponding to an uppermost end of the sheath; and a plurality of joining reinforcement members attached to an outer circumferential surface of the upper end of the sheath.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a temperature measuring sensor having excellent insulation and heat resistance,

The present invention relates to a temperature measuring sensor, and more particularly, by adopting a flexible extension line connection structure, it is easy to charge and take out a pipe for temperature measurement, and is excellent in insulation property and heat resistance, The present invention relates to a temperature measuring sensor having excellent insulation and heat resistance that can be expected to have a cost-saving effect by minimizing the influence of harmful substances, convenience of use, safety of workers, and improvement of product life.

In the Soderberg type electrode used in the electric furnace, the solid carbon paste filled in the metal casing is fired to form an electrode rod. At the time of operation, the carbon paste is supplied with heat through a heater and softened at about 50 to 90 ° C, melted at 100 to 450 ° C, and fired at 450 to 500 ° C.

At this time, the fired electrode rod rises to a lower part of the electric furnace and the temperature rises, and the temperature of the tip point is over 2500 캜 and arc is generated. Electrodes are continuously consumed during operation, and when they reach a certain level, casing welding and carbon paste charging work must be performed on the top of the electric furnace because they are descending. If the paste is lowered to the bottom of the electrode in a state in which the firing is not sufficiently performed, an operation accident may occur in which the melted paste is detached from the electrode case.

For this reason, sintering of the carbon paste inside the electrode casing is very important during operation. Since the paste is softened, melted and baked according to different temperature ranges, understanding the internal temperature of the paste is an important evaluation criterion for grasping the baking state of the paste.

Hereinafter, a conventional temperature sensing sensor will be described with reference to the accompanying drawings.

FIG. 1 is a side sectional view showing a conventional temperature measuring sensor, and FIG. 2 is a perspective view showing an electrode case in which the temperature measuring sensor of FIG. 1 is inserted.

1 and 2, a conventional temperature measuring sensor 1 includes a thermocouple wire 20 and a sheath 40 made of metal and having a length of about 20 m and surrounding the thermocouple wire 20.

The conventional temperature measuring sensor 1 performs an operation of inserting and extracting the thermocouple wire 20 coated with the sheath 40 into the inside of the temperature measuring pipe 5 to measure the temperature of the carbon paste inside the electrode 5 .

However, in the process of measuring the carbon paste temperature inside the electrode 5 using the conventional temperature measurement sensor 1, protrusions may be formed due to the melted paste or the like introduced into the temperature measurement pipe 15, Due to the characteristics of the sheath thermocouple, it can easily bend even with a weak impact, and when it is charged into the pipe 5 for temperature measurement, warping may occur when it is caught on the wall, which may cause a latching.

Therefore, the conventional temperature measurement sensor 1 is not easy to insert and extract, and leakage current flows to the metal sheath 40 during the operation, resulting in product failure, and the operator is exposed to the risk of electric shock There is a drawback to this.

The temperature measuring sensor 1 according to the related art has a side temperature T of the thermocouple wire 20 covered with the sheath 40 when molten paste or noxious gas penetrates into the temperature measuring pipe 5, There is a problem that the thermocouple wire 20 is broken or the life is shortened.

A related prior art is Korean Patent Laid-Open Publication No. 10-1996-0011394 (published on Apr. 20, 1996), which discloses a temperature measuring sensor element in a temperature measuring apparatus.

It is an object of the present invention to provide a pipe for temperature measurement which is easy to charge and take out, and has excellent insulation and heat resistance by employing a flexible extension line connection structure, thereby minimizing the influence of leakage currents and harmful substances generated during operation, A temperature measuring sensor which is excellent in insulation and heat resistance that can be expected to have a cost saving effect due to convenience of the operator, safety of an operator, and improvement of a product life.

According to an aspect of the present invention, there is provided a temperature measurement sensor having an insulation and an excellent heat resistance, the temperature measurement sensor being inserted into a pipe for measuring temperature to measure a temperature of a carbon paste in an electrode, A thermocouple wire forming a side temperature point of the thermocouple; A sheath surrounding the thermocouple wire; An adapter connected to a lower end of the sheath; An extension connected to the thermocouple wire through the adapter; A ceramic protective pipe coupled to the upper end of the sheath so as to insulate the sheath from the temperature measuring pipe and having a step disposed at a position corresponding to a top end of the sheath; And a plurality of bonding reinforcing members attached to an upper peripheral surface of the sheath.

The temperature measuring sensor having excellent insulation and heat resistance according to the present invention not only improves the convenience of operation by facilitating charging and discharging into the pipe for temperature measurement in the electrode case for measuring the temperature of the carbon paste inside the electrode, The heat resistance of the hot spot is improved to increase the lifetime of the product and ensure the insulation property so that the influence by the leakage current is minimized to secure the safety of the operator.

In addition, the temperature measuring sensor having excellent insulation and heat resistance according to the present invention employs a flexible extension line connection structure, thereby facilitating charging and discharging into and out of a pipe for temperature measurement, and is excellent in insulation and heat resistance, By minimizing the influence of current and harmful substances, it is possible to expect a cost saving effect by convenience of use, safety of workers, and improvement of product life.

1 is a side sectional view showing a conventional temperature measurement sensor.
2 is a perspective view showing an electrode case case into which the temperature measurement sensor of FIG. 1 is inserted.
3 is a side sectional view showing a temperature measuring sensor having excellent insulation and heat resistance according to an embodiment of the present invention.
4 is a perspective view illustrating a temperature measuring sensor having excellent insulation and heat resistance according to an embodiment of the present invention.
5 is an enlarged cross-sectional view of a portion A in Fig.
Fig. 6 is an exploded perspective view of the portion A in Fig. 4 in an enlarged manner.
7 is a schematic view for explaining the process of inserting the temperature measurement sensor into the electrode case.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a temperature measuring sensor having excellent insulation and heat resistance according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a side sectional view showing a temperature measuring sensor having excellent insulation and heat resistance according to an embodiment of the present invention, and FIG. 4 is an assembled perspective view showing a temperature measuring sensor having excellent insulation and heat resistance according to an embodiment of the present invention.

Referring to FIGS. 3 and 4, a temperature measurement sensor 100 having excellent insulation and heat resistance according to an embodiment of the present invention is inserted into a pipe for temperature measurement in order to measure the temperature of the carbon paste in the electrode. To this end, the temperature measuring sensor 100 having excellent insulation and heat resistance according to the embodiment of the present invention includes a thermocouple wire 110, a sheath 120, an adapter 130, an extension line 140, a ceramic protection tube 150, And a reinforcing member (160).

The thermocouple wire 110 forms a side temperature point T inside the electrode rod. This thermocouple wire 110 is covered by a sheath 120. The thermocouple wire 110 serves as a side temperature point T for temperature measurement when the temperature measurement sensor 100 is inserted into the temperature measurement pipe.

The sheath 120 surrounds the thermocouple wire 110. At this time, the sheath 120 is inserted into a temperature measurement pipe (not shown) and may be made of a metal material.

The adapter 130 is connected to the lower end of the sheath 120. The adapter 130 serves to electrically connect the thermocouple wire 110 to an extension line 140 to be described later. At this time, it is preferable to form an insulation protection layer 135 for protecting the thermocouple wire 110 and the extension line 140 inside the adapter 130. This is because the thermocouple wire 110 It is intended to prevent the adapter 130 from being exposed to a high temperature to break the insulation by sealing the connection portion between the extension lines 140.

As the material of the insulating protection layer 135, at least one selected from a heat-resistant epoxy resin, a silicone resin, a polyimide resin, and the like, which is used at a high temperature, not an epoxy used in a general sheath thermocouple, may be used.

Although not shown in the drawing, the adapter 130 may have a structure in which a connection portion between the thermocouple wire 110 and the extension line 140 is sealed by a silicon protection tube (not shown) The influence of the leakage current applied to the adapter 130 can be minimized.

The extension line 140 is connected to the thermocouple wire 110 through the adapter 130. At this time, it is preferable that the extension line 140 is covered with an insulating heat-resistant material, and as the insulating heat-resistant material, one or more kinds selected from Teflon, epoxy resin, silicone resin and the like may be used, and among them, Teflon is most preferably used. As described above, when the Teflon material is used as the covering material of the extension line 140, the insulating property and the heat resistance are excellent, so that the adverse effect of the leakage current due to the contact with the metal sheath 120, As a result, it can improve the life span and prevent the electric shock of the worker.

That is, the temperature measuring sensor 100 having excellent insulation and heat resistance according to the embodiment of the present invention is formed by extending the flexible extension line 140 through the adapter 130 to facilitate insertion and extraction into the inside of the temperature measurement pipe, A thermocouple wire 110 covered with a metal sheath 120 is used for a section of about 2 m in length from the front end of the heat affected sheath 120 and an adapter 130 is attached to the rear end of the sheath 120, 120 is connected to an extension line 140 which is much more flexible than the electrode extension pipe 120, thereby facilitating the charging and extraction of the temperature measurement pipe attached to the inside of the electrode case.

The ceramic protection tube 150 is mounted so as to surround the upper end of the sheath 120 and is installed for the purpose of protecting the sheath 120 and the temperature measurement pipe from insulation and harmful environment. The ceramic protection tube 150 has a step T disposed at a position corresponding to the uppermost end of the sheath 120. At this time, the step T of the ceramic protective pipe 150 is interposed between the joint surfaces of the sheath 120 and the ceramic protective pipe 150, and when the cement adhesive (not shown) And is formed to prevent slipping off and loss.

This will be described more specifically with reference to the accompanying drawings.

Fig. 5 is an enlarged cross-sectional view showing part A of Fig. 4, and Fig. 6 is an exploded perspective view of an enlarged view of part A of Fig.

5 and 6, a temperature measuring sensor 100 having excellent insulation and heat resistance according to an embodiment of the present invention includes a ceramic protection tube 150 attached to an upper end of a sheath 120, The tip portion of the sheath 120 having the side-on point T is not burned or corroded by the melting paste or the harmful gas penetrating into the inside of the temperature measuring pipe, .

The ceramic protective pipe 150 and the sheath 120 are bonded together with a cement adhesive for high temperature so as to have insulation and heat resistance. At this time, the ceramic protective pipe 150 serves as a weight for facilitating insertion into the temperature measurement pipe.

The sheath 120 and the ceramic protection pipe 150 are physically joined by a cement adhesive interposed between the metal sheath 120 and the ceramic protection pipe 150. The joint between the metal sheath 120 and the ceramic protection pipe 150 is subjected to impact during use, The bonding strength of the cement adhesive may be lowered due to exposure to high temperatures. Particularly, since the surface coated with the metal sheath 120 is smooth, the entire ceramic protective pipe 150 can be easily detached from the sheath 120 if the bonding force of the cement adhesive is low.

Therefore, the temperature measuring sensor 100 having excellent insulation and heat resistance according to the embodiment of the present invention includes a plurality of bonding reinforcing members 160 (not shown) attached to the upper end of the sheath 120 to prevent the ceramic protecting tube 150 from falling off, ). ≪ / RTI > The plurality of bonding strengthening members 160 are attached to the upper end of the sheath 120 to enhance bonding strength between the sheath 120 and the ceramic protective pipe 150.

Particularly, the plurality of bonding strengthening members are spaced apart from the uppermost end of the sheath, and the diameter of the bonding reinforcing member disposed at the uppermost end of the sheath is the largest, and the uppermost bonding reinforcing member is inserted and fixed in the step of the ceramic protective pipe .

Particularly, the plurality of bonding reinforcing members 160 are formed such that the outer diameter of the bonding reinforcing member 160 disposed at the uppermost end is large enough to be caught by the step of the ceramic protective pipe 150, and the remaining bonding reinforcing member 160 is bonded to the uppermost bonding reinforcing member 160 160 to prevent detachment of the ceramic protection tube 150. [ Accordingly, the uppermost joining reinforcing member 160 is inserted and fixed to the step T of the ceramic protective pipe 150, so that the ceramic protective pipe 150 can be prevented from falling off .

The ceramic protection tube 150 can be easily manufactured by opening the upper end of the ceramic protection tube 150, so that the sensitivity of the side temperature T can be improved. In addition, the ceramic protection pipe 150 may be formed to have a structure in which the upper end of the selectively opened upper end is closed, or the upper end of the ceramic protection pipe 150 is closed with heat-resistant cement to prevent corrosion or the like.

Since the temperature measuring sensor 100 having excellent insulation and heat resistance according to the embodiment of the present invention is directly connected to the adapter 130 by covering the extension line 140, the load is greatest during the insertion and extraction operations. Therefore, in order to prevent the short-circuit between the thermocouple wire 110 and the extension line 140, it is necessary to maintain the flexible movement but to maintain the proper rigidity so as to prevent the short-circuit between the thermocouple wire 110 and the extension line 140 .

To this end, the temperature measuring sensor 100 having excellent insulation and heat resistance according to the embodiment of the present invention may further include a high-elasticity heat-resistant flexible member 170.

At this time, the high-elasticity heat-resistant flexible member 170 is mounted between the adapter 130 and the extension line 140 so as to cover the extension line 140, thereby preventing the occurrence of a short circuit. As the material of the highly elastic heat-resistant flexible member 170, heat-resistant rubber or buffer spring may be used, but the present invention is not limited thereto.

FIG. 7 is a schematic view for explaining a process of inserting a temperature measurement sensor into the electrode case, which will be described in connection with FIG. 3. FIG.

3 and 7, a temperature measurement sensor 100 having excellent insulation and heat resistance according to an embodiment of the present invention includes a temperature measurement pipe 115 for measuring the temperature of the carbon paste inside the electrode 105, And is taken out and used.

At this time, the temperature measuring sensor 100 having excellent insulation and heat resistance according to the embodiment of the present invention employs a flexible extension line connection structure, so that charging and discharging into the temperature measuring pipe 115 is easy, The insulated and heat-resistant flexible material is designed to be inserted into the electrode rod 105 to ensure excellent insulation and heat resistance. The tip of the side-on point T covered with the sheath 110 is covered by the ceramic protection tube 150 This has a heat resistant structure, and there is no fear that the thermocouple wire 110 is burned or eroded due to melting paste or noxious gas.

Accordingly, it is easy to grasp the softening, melting and sintering states of the internal carbon paste according to the temperature, and it is easy to grasp the state of the internal carbon paste according to the temperature. In the temperature measuring sensor 100 having excellent insulation and heat resistance according to the embodiment of the present invention, To be performed properly and ultimately to stabilize the operation.

As described above, the temperature measuring sensor having excellent insulation and heat resistance according to the embodiment of the present invention facilitates the charging and discharging of the inside of the pipe for temperature measurement in the electrode case for measuring the temperature of the carbon paste in the electrode rod, And the heat resistance of the side point is improved to increase the lifetime of the product and ensure the insulation property so that the influence by the leakage current is minimized to secure the safety of the operator.

Further, the temperature measuring sensor having excellent insulation and heat resistance according to the embodiment of the present invention adopts a flexible extension line connection structure, thereby facilitating charging and taking out of the pipe for temperature measurement, and is excellent in insulation property and heat resistance, It is possible to expect a cost saving effect by minimizing the influence of leakage current or harmful substances to be generated, thereby improving convenience in use, safety of workers, and improvement of product life.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. These changes and modifications may be made without departing from the scope of the present invention. Accordingly, the scope of the present invention should be determined by the following claims.

100: Temperature measurement sensor 110: Thermocouple wire
120: System 130: Adapter
135: Insulation protection layer 140: Extension line
150: Ceramic protection tube 160:
170: High elasticity heat resisting flexible member T: Side temperature point

Claims (9)

A temperature measuring sensor inserted into a pipe for temperature measurement for measuring a temperature of a carbon paste inside an electrode,
A thermocouple wire forming a side-point within the electrode;
A sheath surrounding the thermocouple wire;
An adapter connected to a lower end of the sheath;
An extension connected to the thermocouple wire through the adapter;
A ceramic protective pipe coupled to the upper end of the sheath so as to insulate the sheath from the temperature measuring pipe and having a step disposed at a position corresponding to a top end of the sheath; And
And a plurality of bonding strengthening members attached to an upper outer peripheral surface of the sheath.
The method according to claim 1,
The extension line
A temperature measuring sensor excellent in insulation and heat resistance, characterized by being covered with an insulating heat-resistant material.
3. The method of claim 2,
The insulating heat-
A thermosetting resin, a thermoplastic resin, a thermoplastic resin, a thermoplastic resin, and a silicone resin.
The method according to claim 1,
The plurality of bonding strengthening members
And a joint reinforcing member disposed at the uppermost end of the sheath to be spaced from the uppermost end of the sheath and having the largest diameter and the uppermost joining reinforcing member being inserted into and fixed to the step of the ceramic protective tube Which is excellent in insulation and heat resistance.
The method according to claim 1,
Inside the adapter
And an insulating protective layer for protecting the thermocouple wire and the extension line are formed on the thermocouple wire.
6. The method of claim 5,
The insulating protective layer
Wherein the thermosetting resin comprises at least one of a heat resistant epoxy resin, a silicone resin and a polyimide resin.
The method according to claim 1,
The temperature measuring sensor
Further comprising a high-elasticity heat-resistant flexible member mounted between the adapter and an extension line and surrounding the extension line.
8. The method of claim 7,
The high-elasticity heat-
Characterized in that the heat-resistant rubber or the buffer spring is the heat-resistant rubber or the buffer spring.
The method according to claim 1,
The mounting position of the temperature measuring sensor
And the inside of the electrode rod.

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