KR20060065830A - Temperature sensor for conductor contact type low voltage of conducting state - Google Patents

Abstract

The present invention provides a conductive contact low-voltage converter in which a low voltage line (low voltage is 600 V or less in AC and low voltage 750 V or less in AC) can be detected and judged as an abnormal temperature in a energized state. It relates to a temperature sensor for.

The present invention short-circuits two metal conductors of different types and welds them to make a closed circuit, which is placed inside a case made of a material having high conductivity, and then solidified by inserting and compressing an insulating material into the case. This is achieved by forming a junction at the outside of the junction and joining the conductor in the energized state. By checking the conductor temperature in the energized state, an abnormal condition is detected early, and an immediate follow-up is possible when an abnormality occurs.

Temperature sensing, sensor, thermocouple, electromotive force

Description

Temperature sensor for conductor contact type low voltage of conducting state}

1 is an explanatory diagram of a sensor electromotive force measurement state of the present invention

2 is a plan view of a metal conductor of the present invention

Figure 3 is a plan view of a closed circuit composed of a metal conductor of the present invention

Figure 4 is a plan view of the state welded to the metal conductor connection of the present invention

5 is an exploded cross-sectional view of the sensor of the present invention.

Figure 6 is a cross-sectional view of the sensor assembly state of the present invention

7 is a plan view of the sensor clamp connection state of the present invention

8 is a cross-sectional view of the installation state of the present invention

9 is a plan view of the installation state of the present invention

10 to 12 are cross-sectional views of another embodiment of the present invention.

[Description of Symbols for Main Parts of Drawing]

1,2: metal conductor 10: sensor

11: case 12: thermocouple

13: insulating material 15,15a-15c: junction

20: conductor 30: measuring device

The present invention provides a conductive contact low-voltage converter in which a low voltage line (low voltage is 600 V or less in AC and low voltage 750 V or less in AC) can be detected and judged as an abnormal temperature in a energized state. It relates to a temperature sensor for.

As power facilities become larger and more complex, many unexpected electrical problems occur, which in turn necessitates more on-site inspections for the safe operation of power facilities. I'm doing it.

In particular, the protection relay system of the power system is rapidly and rapidly developed from the analog relay system to the digital relay system in order to secure the reliability and safety of the power supply as the scale of the power system is enormous and complicated.

Since the protection relay system technology is a high level of expertise that incorporates a wide range of advanced technologies, it is true that the signal system has grown so high that it is difficult to understand for many people except some experts. The presence of abnormality can be determined by a representative detector as simple as that. One of the detectors is voltage detection (PT) and the other is current detection (CT), and the reason for using such a detector is being energized. This is due to the fact that the condition must be detected, so there are other structural or methodological difficulties, while the voltage range is wide.

However, it is insufficient to check the abnormality of the power system by using the above-described detector, and to take precautions based on the abnormal signs before the accident or to protect the track by the immediate measures when the abnormality occurs. Increasing complexity of power systems and the use of digital relays has made it difficult to identify any abnormalities.

In the present invention, since the temperature of the wire or the temperature rise of the other conductor in the energized state is proportional to the current square, the temperature of the low voltage line can be detected by contacting the conductor in the energized state so as to detect the temperature change. It is an object of the present invention to provide a temperature sensor for a conductive contact low voltage converter in an energized state.

The present invention short-circuits two metal conductors of different types and welds them to make a closed circuit, which is placed inside a case made of a material having high conductivity, and then solidified by inserting and compressing an insulating material into the case. This is achieved by forming a junction at the outside of the junction and coupling the conductor to the energized state so that the conductor temperature in the energized state can be checked to detect an abnormal state early and immediately follow up when an abnormality occurs.

The present invention is to provide a temperature sensor for detecting the conductor temperature of the energized state, by checking the temperature change of the conductor in the energized state can quickly confirm that the abnormal state occurs, it is possible to prevent and follow-up.

The present invention is connected to the conductor in the energized state to check the thermoelectric power using the Seebeck effect in order to detect the temperature change of the conductor to detect the temperature change, when the detected temperature is ideally out of the temperature at normal energization By notifying managers that abnormal phenomena are occurring, it is possible to find out the cause before an accident occurs and prevent it.In case of abnormality in the converter due to the rapid rise in temperature, the protection device of the latter stage can be protected by tripping the protective device. To ensure that

The temperature sensor of this invention is demonstrated based on attached drawing.

The temperature sensor 10 of the present invention includes a case 11, a thermocouple 12 positioned inside the case, an insulating material 13 filling the inside of the case, and a conductor 20 in which the case 11 is energized. It is configured by forming the joining portion 15 to be bonded to).

The thermocouple 12 peels off the tip covering of the metal conductors (1) and (2) made of two kinds of metals by a predetermined length and shorts the tip to form a closed circuit, and the shorted portion is acetylene or argon welding (16). To fix it firmly.

The thermocouple 12 has a closed circuit by shorting both ends of two kinds of metal conductors (1) and (2), and based on the Seebeck effect in which a current flows in the circuit when a temperature difference occurs between the connection points. The electromotive force generated is called thermoelectric power, and its value is determined by the temperature difference between both ends. The two kinds of metal conductors (1) and (2) include copper and constantan, chromel and aluminel, platinum and platinum rhodium. The temperature range which can be measured using this is -200 degreeC-+2000 degreeC.

When the thermocouple 12 is prepared, the case 11 having the thermocouple 12 located therein is prepared, but the case 11 is made of copper or stainless steel having high conductivity, while mainly using a circular pipe. The thickness and length can be varied.

Here, the case 11 forms a junction 15 in one body, or welds and fixes a separate junction 15a-15c on the outside of the case 11 and then energizes the junctions 15 and 15a-5c. It is to be coupled to the conductor 20, that is, the conductor 20 of the bus bar, and the junctions 15, 15a-15c to be firmly coupled using the conductor 20 and the bolt (21).

The thermocouple 12 is positioned and fixed at the inner center of the case 11, and the case 11 is filled with an insulating material 13, and the insulating material 13 becomes magnesia (sand). .

At this time, the case 11 is fixed to the vibrator feeder to vibrate, and the insulating material 13 is introduced into the case 11 through which the vibration proceeds by using an insulating material injector so that the thermocouple is inside the case 11. In the state where 12 is positioned, the insulating material 13 is densely compacted and filled.

 After filling the inside of the case 11 with the insulating material 13 but applying it with vibration, the insulating material 13 is compressed by compressing the insulating material 13 by compressing at a pressure of 2-5 tons using a molding compressor. To be solidified.

The outer side of the case 11 is finished with an insulating material 14, and the metal conductors 1 and 2 exposed to the outside of the case 11 are treated with a long length while being covered with a clamp. (5) is combined, the metal conductor (1) (2) is covered with a metal mesh (3), the front end of the metal mesh (3) is used as an earth wire by coupling the clamp (6).

The completed sensor 10 is fastened to the side of the conductor 20 by the bolt 21 using the joint 15 on one side of the conductor 20, and between the conductor 20 of the energized state and the junction 15 of the sensor 10. To prevent the resistance from being generated, and the clamps 4 and 5 of the sensor 10 are connected to the measuring device 30 for measuring the electromotive force of the thermocouple 12 while the clamp 6 is coupled to the earth terminal. Give it.

Since the current flows in the conductor 20, when no abnormality is generated in the power system, heat is generated in the conductor 20, and heat generated in the conductor 20 is transferred to the sensor 10 to provide a case ( 11) The thermocouple 12 located therein detects this to generate an electromotive force, and the electromotive force generated by the thermocouple 12 is measured by the measuring device 30 coupled to the clamps 4 and 5 and displayed as a temperature. Do it.

Therefore, the temperature of the conductor 20 rises due to the current flowing through the conductor 20 even when no abnormality occurs in the power system, and the temperature is displayed externally by detecting the flow of electromotive force in the thermocouple 12. The temperature at this time is displayed as normal temperature.

However, when the temperature of the conductor 20 rises, an abnormality is generated in the power system. At this time, an abnormality is displayed, and when the temperature rises excessively, a protection relay installed on the power system is tripped to protect the electrical and electronic devices from abnormal current. Do it.

That is, the increase in the temperature of the conductor 20 means a state in which an abnormality occurs in the power system. In the present invention, the temperature of the conductor 20 is transmitted to the thermocouple 12 located inside the insulating material 13. When the electromotive force of the thermocouple 12 is checked to increase, if it is detected that the temperature rises above the proper temperature, it is indicated by an abnormality indication to remove the cause of abnormality early to prevent the occurrence of abnormality in the device, and the conductor 20 If the temperature rises excessively, the protective relay is tripped rather than an early indication of an abnormal condition, so that the expensive equipment is protected from the flow of overcurrent.

Since the thermocouple 12 of the present invention is placed inside the case 11 and is pressed into a solidified insulating material 13, heat generated in the conductor 20 is transferred to the junction 15 and the case 11. And the conductor 20 by being transferred to the thermocouple 12 through the insulating material 13 so as to change the electromotive force by receiving only the temperature change of the conductor 20 without being affected by the current flowing through the conductor 20. ) Temperature can be displayed.

The present invention enables to check the temperature of the conductor in the energized state in which the conductor current is supplied. If an abnormality occurs in the power system, it is indicated by checking the temperature change in advance, or the temperature change rapidly rising when an excessive abnormality occurs. Check to protect the device by tripping the protective relay.

In addition, the present invention can detect an abnormal power system inconspicuous by temperature change, so that it is possible to identify or correct an abnormal condition at a glance, and to detect an abnormality in advance to take an early action to cut off or excessive power supply. The flow of current eliminates the case where an abnormality occurs in the latter device.

Claims (5)

Two different types of metal conductors (1) and (2) are short-circuited and welded (16) to have a thermocouple (12) having a closed circuit, and the thermocouple (12) is located at the center of the inside and fixed and the metal conductor (1). (2) is provided with a case 11 which is drawn out to the outside and made of a high conductivity metal, and filled with the inside of the case 11 and provided with an insulating material 13 which is solidified by compression, A temperature sensor for a conductive contact low voltage line in the energized state, characterized in that it comprises a junction portion (15) for fixing the case (11) to the conductor (20) which is formed outside of the case (11) and is energized. The thermocouple (12) according to claim 1, wherein the thermocouple (12) located at the inner center of the case (11) is formed by shorting two metal conductors (1) (2) of different types, and the metal is drawn out of the case (11). Conductor contact in an energized state, characterized in that the conductors (1) and (2) are covered with a sheath, and a metal mesh (3) connected to an earth terminal is covered on the outer side of the metal conductor (1) and (2) which is covered with the sheath. Temperature sensor for low voltage line. The conductive contact of claim 1, wherein the metal conductors 1 and 2 of the thermocouple 12 connect a measuring device 30 that senses the electromotive force of the thermocouple 12 and displays the temperature. Temperature sensor for low voltage line. According to claim 1, wherein the insulating material 13 to be filled in the case 11 is filled with a vibration, the insulating material 13 filled in the case 11 is pressed to a solid of 2-5 tons to solidify Temperature sensor for a conductor contact type low voltage line in the energized state. The conductor 20 according to claim 1, wherein a junction 15 is formed integrally with the case 11 on the outside of the case 11, or the junctions 15a-15c are fixed to the case 11. A temperature sensor for a conductive contact low voltage line in the energized state, characterized in that coupled to.

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