KR101346774B1 - Device for sensing temperature of terminal block - Google Patents

Abstract

The present invention provides a terminal block temperature sensing device for sensing a temperature of a terminal block having a connecting plate connected to one end of an electric wire connected to one end of an electric wire. tube; And a temperature sensor mounted on the tube to sense and output an ambient temperature of a connection portion between the connection terminal and the connection plate.

Description

Terminal Block Temperature Sensing Device {DEVICE FOR SENSING TEMPERATURE OF TERMINAL BLOCK}

The present invention relates to a terminal block temperature sensing device, and more particularly, to detect a temperature of a connection portion between a terminal block and a lead wire of a terminal block and a temperature of a connection portion between the connection plate and a load side wire. It relates to a device for.

In general, terminal blocks are installed in terminal boxes of buildings or control boards of various mechanical devices. These terminal blocks are for connection, branching or relaying of electric wires. Accordingly, the terminal block includes connecting plates for connecting the incoming wires and the load side wires, and an insulator supporting the connecting plates.

The connection between the connecting plate and the incoming wires or between the load-side wires is mainly made by bolts. In this case, if the bolts are not tightened properly, Joule heat may be generated and lead to fire. Therefore, the Korean Industrial Standard specifies the tightening torque of bolts.

Nevertheless, terminal blocks are a major source of fire because electrical and mechanical stresses cause bolts to loosen. When the bolts are loosened, an arc occurs at the connection between the connecting plate and the incoming wire or at the connection between the connecting plate and the load side wire. If this condition persists, a fire will occur.

Korean Laid-Open Patent Publication No. 1998-84191 (hereinafter referred to as 'prior document 1') discloses a technique for preventing a fire from occurring in a terminal block. In this technique, the thermistor is attached to the outer surface of the insulator supporting the connecting plates.

In reality, however, even if a temperature change occurs at the connection portion between the connecting plate and the wires, the temperature change hardly occurs in the insulator. Therefore, according to the prior document 1, the temperature of the portion of the terminal block that is the source of fire, that is, the connection between the connecting plate and the wire cannot be accurately detected.

In addition, in the terminal block, a plurality of connection plates and a plurality of wires are connected, and all of the parts where the connection is made may be a source of fire. According to Prior Art 1, an outer surface of an insulator supporting the connection plates is provided. Since the thermistor is attached, the temperature of the parts where the connection connection between the plurality of connecting plates and the plurality of wires is made cannot be sensed one by one.

Korean Utility Model Utility Model No. 2009-0007165 (hereinafter referred to as “Previous Document 2”) also discloses a technique for preventing a fire from occurring in a terminal block. In this technique, as shown in FIG. 1, the overheat sensor 3 is provided on the upper part of the connecting plate 20 provided in the outermost block element 1. When the overheat sensor 3 senses a temperature above a predetermined temperature, the overheat sensor 3 transmits an overheat signal to a remote central control room by wire or wirelessly.

In Prior Art 2, the overheat sensor 3 detects the air temperature on the connection plate 20. However, even if a temperature change occurs at the connection portion between the connecting plate 20 and the connecting terminal 2 of the electric wire, the temperature change hardly occurs in the upper air of the connecting plate 20. Therefore, even in accordance with the prior document 1, the temperature at which the site of the source of the fire in the terminal block A, that is, the connection between the connection plate 20 and the connection terminal 2 of the wire cannot be accurately detected.

In addition, in the prior document 2, the overheat sensor 3 is installed only in two block elements 1 located at the outermost of the plurality of block elements 1 provided in the terminal block A. Therefore, according to the prior document 2, the temperature cannot be detected in the block elements 1 positioned between the two outermost block elements 1.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a terminal block temperature sensing device capable of accurately detecting the temperature of all the parts of the source of fire in the terminal block as compared with the conventional art. have.

The present invention for achieving the object as described above is a terminal block temperature sensing device for sensing the temperature of the terminal block having a connecting plate for connecting with a connection terminal connected to one end of the wire, the connection between the wire and the connection terminal A tube mounted to the wire to cover the portion; And a temperature sensor mounted on the tube to sense and output an ambient temperature of a connection portion between the connection terminal and the connection plate.

The temperature sensor is embedded in the tube so as to protrude into the hollow of the tube, or in the tube so as to protrude outward from either one of both ends of the tube.

The terminal block temperature sensing device includes a control block mounted to one side of the terminal block; And an LED mounted on the control block. At this time, the control block operates the LED when the temperature output from the temperature sensor is greater than a preset reference temperature.

According to the present invention, since the temperature sensor detects the ambient temperature of the connecting portion between the connecting plate of the terminal block and the connecting terminal of the wire, the temperature of the terminal block can be detected more accurately than in the related art.

In addition, according to the present invention, since the temperature sensor is embedded in the tube mounted on the wire, not only the temperature sensor is easily installed, but also the temperature sensing of all the connection portions between the connection plates and the connection terminals is easy.

In addition, according to the present invention, when the overheat occurs at a predetermined connection part, the corresponding LED is turned on, so it is easy to identify the overheat part.

1 is a partially exploded perspective view of a terminal block disclosed in Korean Utility Model Model No. 2009-0007165.
2 is a perspective view illustrating a terminal block temperature sensing apparatus according to the present invention.
FIG. 3 is a perspective view illustrating a tube of the terminal block temperature sensing apparatus shown in FIG. 2.
4 is a cross-sectional view taken along line A-A 'in Fig.
Fig. 5 is a modification of Fig.

Hereinafter, preferred embodiments of the terminal block temperature sensing apparatus according to the present invention will be described in detail with reference to the drawings. It is to be understood that the terminology or words used herein are not to be construed in an ordinary sense or a dictionary, and that the inventor can properly define the concept of a term to describe its invention in the best possible way And should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

The terminal block 10 to be monitored is for connecting, branching or relaying the wires 20, and has a connection plate 12 connecting the incoming wire and the load side wire. The wires 20 are connected to the straight rear end 22b of the connection terminal 22, and the connection plate 12 is connected to the ring-shaped front end 22a of the connection terminal 22. The connection between the connecting plate 12 and the tip 22a of the connecting terminal 22 is made by the bolt 14 provided with the washer 16.

The present invention 100 for monitoring the temperature of the terminal block 10 made in this way, as shown in Figures 2 to 4, the tube 110, the temperature sensor 120, and the control block 130 It includes.

The temperature sensor 120 is an element that outputs the sensed temperature as an electrical signal. Applicant first attached the temperature sensor 120 to the bottom surface of the connecting plate 12 provided in the terminal block 10. The output of the temperature sensor 120 was examined while fixing the connection terminal of the load-side wire to one end of the connection plate 12 and causing a deliberate spark between the connection terminal of the incoming wire and the connection plate 12. However, in this case, the output change of the temperature sensor 120 hardly occurred.

These experimental results show that the temperature of the terminal block 10 can be accurately detected only when the temperature sensor 120 is installed to detect the ambient temperature of the connection area between the connection plate 12 and the connection terminal 22. However, if the temperature sensor 120 is installed in the terminal block 10 to detect the ambient temperature of the connection between the connection plate 12 and the connection terminal 22, not only the production of the terminal block 10 becomes difficult The temperature sensor 120 may be damaged in the process of connecting the connecting plate 12 and the connecting terminal 22.

In the present invention, the temperature sensor 120 is embedded in the tube (110). The tube 110 has a hollow 112 as a shrink tube made of an insulating material. The tube 110 is mounted to all the wires 20 so as to surround the connecting portion between the wires 20 and the connection terminals 22.

The temperature sensor 120 is embedded to protrude into the hollow 112 of the tube 110 as shown in FIG. The temperature sensor 120 is positioned above the rear end 22b in a state in which the tube 110 is separated from or in contact with the rear end 22b of the connection terminal 22 when the tube 110 is mounted on the wire 20. do. Therefore, the temperature sensor 120 can detect the ambient temperature of the connection portion between the connection plate 12 and the connection terminal 22.

Meanwhile, as illustrated in FIG. 4, the temperature sensor 120 may be embedded in the tube 110 to protrude outward from one of both ends of the tube 110. In this case, the temperature sensor 120 is directed in the direction in which the bolt 14 is located when the tube 110 is mounted on the wire 20.

The control block 130 is mounted on one side of the terminal block 10, includes a control board (not shown), and includes a plurality of LEDs 132 on an outer surface thereof. The control board is a printed circuit board (not shown) in which various electronic devices are mounted, and is connected to the positive wire 122 and the negative wire 124 of the temperature sensors 120 and the plurality of LEDs 132. have. The control board receives the temperature output from the temperature sensor 120 and compares it with a preset reference temperature, and operates the LED 132 when the input temperature is greater than the reference temperature. Meanwhile, the LEDs 132 are provided in greater numbers than the temperature sensor 120.

In addition, the control block 130 may further include a communication function. In this case, the control block 130 transmits the temperature output from the temperature sensor 120 and the identification symbol of the temperature sensor 120 to the central control computer (not shown) by wire or wirelessly.

Hereinafter, an operation process of the terminal block temperature sensing device 100 will be described.

The temperature sensors 120 of the tubes 110 mounted on the wires 20 are connected to the connection plate 12 of the terminal block 10 and the connection terminals 22 connected to the wires 20. The ambient temperature is continuously detected and output. The control block 130 continuously compares each of the temperatures output from the temperature sensors 120 with a preset reference temperature. When the temperature output from the predetermined temperature sensor 120 exceeds the reference temperature, the corresponding LEDs 132 ). And the operator checks the number of the LED 132 is turned on and then inspect the wire of the corresponding number.

Meanwhile, the control block 130 also transmits each of the temperatures output from the temperature sensors 120 to the central control computer. In this case, when the operator detects an abnormality while checking the output of the temperature sensors 120 at a remote location, the worker may visit the terminal block 10 where the terminal is located and inspect the wire.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

100 terminal block temperature sensing device 110 tube
112: hollow 120: temperature sensor
130: control block 132: LED

Claims (4)

delete A terminal block temperature sensing device for sensing a temperature of a terminal block having a connection plate connected to a connection terminal connected to one end of an electric wire,
A tube mounted to the wire to cover a connection portion between the wire and the connection terminal; And
And a temperature sensor configured to detect an ambient temperature of the connection portion between the connection terminal and the connection plate and output the electrical signal as an electrical signal.
And the temperature sensor is embedded in the tube to protrude into the hollow of the tube or to protrude outwardly from either end of the tube. delete 3. The method of claim 2,
A control block mounted to one side of the terminal block; And
Includes; LED mounted to the control block;
The control block is a terminal block temperature sensing device, characterized in that for operating the LED when the temperature output from the temperature sensor is greater than a predetermined reference temperature.

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