KR100941178B1 - Burying type underground electroic line connector - Google Patents

Abstract

PURPOSE: A burying type underground cable connector is provided to protect a worker safely from an electric shock by covering an underground cable connected a fixing device and an electrode with an insulation rod cover. CONSTITUTION: A burying type underground cable connector includes a cable fixing tool(A) and a detecting unit(B). The cable fixing tool includes an insulation rod cover(10) covering an electrode(3) and a fixing tool(3a), a connecting bar(20), a slide block(30), a buffering device, a spring, a detecting sensor(60), a controlling unit(70), a switch(80) and a battery(90). The detecting sensor senses the slide block and outputs a sensing signal. The detecting unit includes a picking device with the first cover and the second cover member and an alarming device emitting sound.

Description

Buried Type Underground Electroic Line Connector

The present invention relates to a buried underground cable connector, which is capable of effectively carrying out safety management, as well as a detachable connection between the underground cable and the wire connecting rod.

In general, underground cables are installed in underground pipelines buried in the ground, and are connected to each building or house by being extended or branched to an insulator provided in the underground pipeline to supply electricity.

At this time, the underground wire is to use a wire capable of transmitting electricity of sufficient capacity, the wire connecting rod connecting the underground wire, as shown in Figure 1, the inside of the underground pipeline in which the underground wire (1) is embedded It is installed at regular intervals, and is composed of an insulating stand (2), a copper bar as a conductor, and both ends are provided with a fixing mechanism (3a) for fixing the underground wire (1), and is installed to be insulated from the metal frame It consists of an electrode 3 to be fixed, by fixing the ground wire (1) at both ends of the electrode (3), it is configured to electrically connect the ground wire (1) or to branch the ground wire (1).

On the other hand, in order to wire such underground wires 1, the worker cuts one end of the underground wires 1 in the oblique state in which the power applied to the underground wires 1 is cut off. And the other end of the underground wire (1) is pulled and then fixed to the insulator (2) electrode (3) of the next wire connecting rod so that the underground wire (1) is extended or one end is connected to the electrode (3). By pulling the other end of the branched underground cable (1) and connecting it to the switchboard of a building or a house, the wiring of the underground cable (1) can be completed, and the underground cable (1) extended after the wiring of the underground cable (1) is completed. ) To power the building or house.

As shown in FIG. 1, the insulating band 2 to which the underground wire 1 is connected, the electrode 3, and the fixing mechanism 3a are exposed to the outside, whereby an electrode 3 through which a high-voltage current flows. When a worker is in contact with or is exposed to moisture or permeated water in contact with the exposed electrode 3 and the fixing mechanism 3a, electrical safety accidents such as electric short circuits, short circuits, and electrocution occur frequently.

In addition, in the process as described above, one end of the power transmission line (1) is normally provided with a carbushing means, with sufficient margin on the power transmission line (1), the other end is pulled and connected to the wire connecting terminal to be connected next, The process was complicated, and when the pull was severe, problems such as the easy release of the carcass means and the wire connection part was such a problem.

Meanwhile, in the above process, the worker excessively pulls the transmission line 1 and the connection portion between the electrode 3 of the support 2 and the transmission line 1 is loosened, or the transmission line 1 or the electrode 3 is damaged. Occurred frequently, and when the worker fixes one end of the power transmission line 1 to the fixing mechanism 3a and pulls the other end, most workers bend the other end of the power transmission line 1 to pull with a large force. Since it is pulled in a state, a problem occurs in that the coating of the power transmission line 1 is easily cracked or a part of the wire is damaged due to frequent bending. Therefore, studies to solve such problems have been actively conducted.

The present invention has been made to solve the above problems, through the insulated cover to be installed on the insulated table to protect the worker from electric shock accidents and at the same time eliminate the electrical short circuit and leakage caused by the inflow of water or moisture. Even if the slide block rushes toward the bracket due to the elasticity of the ball spring due to the carelessness of the operator, the shock absorber prevents the shock absorbing and absorbs the impact amount, thus preventing damage due to the collision between the slide block and the bracket. It is equipped with a gripping mechanism on the other end of the transmission line, which prevents the transmission line from being damaged from external force when the operator lifts the transmission line, as well as easily lifts the transmission line, and the operator pulls the transmission line excessively and the electrode and the transmission line of the wire connection line To loosen the connection or to damage the power line or electrode. It provides a buried-type ground wire connector for electrical safety to help you avoid to prevent haryeoneunde has its purpose.

The present invention for achieving the above object,

Insulation stand, and both ends are provided with a fixing mechanism for fixing the ground wire includes an electrode made of a conductor material to be insulated from the insulator, and is installed at a predetermined interval inside the underground pipe line in which the underground wire is embedded, In the buried underground cable connector for electrically connecting the underground wires connected to the fixing mechanism of the electrode,

An insulating stand cover installed on the upper surface of the insulating stand so as to be opened and closed by a hinge, and having an injection hole communicating with the inside thereof, covering the electrode and the fixing mechanism to protect the outside from the outside; A connection bar having a bracket detachably installed on the insulator; A slide block having a fixing bracket configured to fix an underground wire on an outer surface thereof, the slide block being slidably installed in the connecting bar; A shock absorber mounted on an outer surface of the connection bar and having a shock absorbing spring having one end fixed to the bracket and a shock absorbing pad made of rubber material installed at the other end of the shock absorbing spring; A ball spring mounted on an outer surface of the connection bar to swing the slide block in one direction; A detection sensor installed on an outer surface of the connection bar and detecting a slide block moving along the connection bar and outputting a detection signal; A control unit which receives a detection signal from a detection sensor and outputs an operation control signal; A switch unit which receives the operation control signal from the controller and connects the interrupted power to the electrode and sends power to the electrode; Wire fixing mechanism with battery part that continuously supplies power through the switch part:

It is provided with a 1st pressing member applied in arbitrary thickness inside, the 1st cover arrange | positioned at the other end of underground wire, and the 2nd press member applied in arbitrary thickness inside, and installed rotatably in 1st cover And a holding mechanism having a second cover member for wrapping and detaining the underground cable:

One end is connected to the other end of the underground wire connected to the electrode via a clamp, it is characterized in that it comprises a sensing device having an alarm device that is operated by the power supplied from the battery unit to emit sound.

The present invention made of the above configuration, by covering the insulated cover to the underground wire and the electrode connected to the fixing mechanism, it is possible to safely protect the worker from electric shock accidents, the infiltration water and foreign matter flowing from the outside flows the current It can be touched by an electrode which can cut off the electric safety caused by short circuit and short circuit.

In addition, by providing a shock absorber between the bracket of the connecting bar and the slide block, the slide block moved along the connecting bar compresses the ball spring spring slides, due to the carelessness of the operator due to the elastic force of the ball spring spring Even if it is advanced toward the bracket, since the shock absorber blocks and absorbs the impact amount, the damage caused by the collision between the slide block and the bracket can be basically eliminated.

In addition, by holding a gripping mechanism on the underground wires, not only can the worker be prevented from falling out of the hand when pulling the underground wires, but also there is no need to bend and pull the underground wires as before. It is possible to fundamentally prevent damage to the coating of the underground cables or to break or damage the conductors inside.

Furthermore, when the worker pulls the underground wire excessively, the slide block may be advanced beyond the allowable limit position and may be notified by the alarm device to prevent the worker from pulling the underground wire excessively.

Hereinafter, with reference to the accompanying drawings will be described in detail.

Figure 2 is a side view showing a buried underground cable connector according to the present invention, Figure 3 is a front cross-sectional view taken separately of the buried underground cable connector according to the present invention, Figures 4a to 4b is buried according to the present invention Fig. 5 is a perspective view of a folded state and an expanded view of a gripper mechanism separately taken from a type underground cable connector, and Fig. 5 is a block diagram showing a correlation between some components of a buried underground cable connector according to the present invention.

In the case of the buried underground cable connector according to the present invention, an insulating stand 2 and a fixing mechanism 3a capable of fixing the underground wire 1 are provided at both ends thereof so as to be insulated from the insulating stand 2. It includes the electrode (3) of the material material, is installed at a predetermined interval inside the underground pipeline where the underground wire (1) is embedded, connected to the fixing mechanism (3a) of the electrode (3) to mutually electrical Connection is the same as in the prior art.

Although the insulator 2 is not shown in detail, except for the electrode 3 and the fixing mechanism 31, a rubber material may be applied to the outer surface so that a current does not flow to the outside when a short circuit occurs, By using an insulator 2 made of reinforced plastic that does not flow well, it is desirable for the worker to be protected from an electrical safety accident due to a short circuit.

The buried underground wire connector is detachably connected to the insulator 2 to prevent the underground wire 1 from being excessively pulled, and the underground wire 1 when the underground wire 1 is excessively pulled beyond the standard. Wire fixing mechanism (A) for flowing electricity to the; A gripping mechanism 100, one end of which is installed at the other end of the underground wire 1 connected to the electrode 3 so that the worker can easily lift it; It is further provided with a sensing unit (B) having one end connected to the other end of the underground wire (1) connected to the electrode (3) and provided with an alarm device (110) operated by a power supply applied from the wire fixing mechanism (A). do.

Removably connected to the insulator 2 to prevent the underground wire 1 from being excessively pulled, and to transmit electricity to the underground wire 1 when the underground wire 1 is excessively pulled beyond the standard. The fixing mechanism (A) has an injection hole (11) communicating with the inside, and is installed on the upper surface of the insulator (2) so as to be opened and closed by a hinge to cover the electrode (3) and the fixing mechanism (3a). Insulation stand cover 10 to protect from; A connection bar 20 having a bracket 21 detachably installed on the insulator 2; A slide block (30) having a fixing bracket (31) adapted to fix the underground wire (1) on an outer surface thereof, the slide block (30) being slidably installed on the connecting bar (20); Shock absorber having a shock absorbing pad (42) mounted on the outer surface of the connecting bar (20), one end of which is fixed to the bracket (21), and a rubber shock absorbing pad (42) installed on the other end of the shock absorbing spring (41). 40; A ball spring 50 mounted on an outer surface of the connection bar 20 to swing the slide block 30 in one direction; A detection sensor 60 installed on an outer surface of the connection bar 20 to detect a slide block 30 moving along the connection bar 20 and output a detection signal; A control unit 70 receiving the detection signal from the detection sensor 60 and outputting an operation control signal; A switch unit 80 which receives the operation control signal from the control unit 70 and connects the interrupted power to the electrode 3 to supply power; It is composed of a battery unit 90 for continuously supplying power through the switch unit 80, as shown in FIG.

In the present embodiment, as shown in Figure 7, the insulating cover 10, the overall shape is arcuate, the receiving portion is provided inside the electrode 3, the fixing mechanism (3a) and underground wire (1) The injection hole 11 is connected to the inside so that the filling material (not specifically shown) is introduced into the upper center of the insulating stand cover 10, and the screw bolt is provided on the outer surface. The fastening part 12 is provided to be fixed to the furnace insulator 2.

In addition, the filling material (not specifically shown) introduced through the injection hole 11 of the insulating stand cover 10 is a conventional silicon material, and underground wires 1 connected to the inside by blocking infiltration water introduced from the outside. ) To prevent other electrical safety accidents due to short circuit and leakage.

The connecting bar 20 is configured in the form of a square pipe, one end of which is provided with a bracket 21 detachably coupled to the insulator 2 via a bolt is fixed to the insulator 2, the other end is underground It extends in the extending direction of the electric wire 1.

In the present embodiment, the cross-sectional shape of the connection bar 20 is shown as a square, but the shape of the connection bar 20 can be produced in various ways, if necessary, is not limited to the square.

The slide block 30 which is installed to be movable in the connection bar 20 has a through hole 32 formed in the center thereof, and is slidably coupled to the outside of the connection bar 20, that is, the outer surface of the connection bar 20. It is configured to move forward and backward along.

In the present embodiment, the fixing bracket 31 provided in the slide block 30 includes a support block 31a having a coupling groove 31b formed at one side thereof; It consists of a screw member (31c) provided in the support block (31a) to insert the underground wire (1) in the coupling groove (31b) and then tighten the screw member (31c) is configured to fix the underground wire (1). 3 is shown.

The shock absorber 40 which is fixed to the outer surface of the connecting bar 20 so that the slide block 30 does not contact the bracket 21 is mounted to the outer surface of the connecting bar 20 so that one end thereof is attached to the bracket 21. A buffer spring 41 fixed thereto; It is composed of a shock absorbing pad 42 of rubber material installed at the other end of the shock absorbing spring 41, as shown in FIG.

In the present embodiment, the shock absorbing spring 41 is a conventional coil spring, it is preferable to use a relatively weak elastic strength compared to the carbon spring 50 will be described later, the shock absorbing pad 42 is any thickness It is preferable to use a rubber pad or a silicone pad provided with cushioning capacity.

By providing a shock absorber 40 between the bracket 21 and the slide block 30 of the connecting bar 20 as described above, the slide block 30 moved along the connecting bar 20 is a bullet spring ( 50) is compressed and slides, even if the slide block 30 is advanced toward the bracket 21 by the elastic force of the ball spring 50 due to the carelessness of the operator, the shock absorber 40 to block it to absorb the impact amount Therefore, the damage caused by the collision between the slide block 30 and the bracket 21 can be solved at the source.

It is preferable to use the ballistic spring 50 having a relatively high elasticity as compared to the buffer spring 41 as a normal coil spring.

In the present embodiment, the tan spring (50) is fitted to the outer surface of the connection bar 20, one end of the tan spring (50) is fixed to the end of the connection bar 20 is fixed so as not to move, the other end is In close contact with the front of the slide block 30, the slide block 30 is elastically pressed to slide to one end of the connecting bar 20, the slide block 30 is pulled to one side of the connecting bar 20, As the ball spring 50 is compressed, the slide block 30 is elastically supported.

The sensing sensor 60 is a micro switch provided in the connecting bar 20 to be positioned behind the slide block 30, and the knob 61 protrudes to one side after the slide block 30 is moved beyond the allowable limit position. When pressed, it detects this and outputs a detection signal.

The detection signal output from the detection sensor 60 is transmitted to the control unit 70 connected to the detection sensor 60, the control unit 70 receives the detection signal from the detection sensor 60 operates the switch unit 80 To control.

Accordingly, the switch unit 80 controlled by the control unit 70 is electrically connected to the battery unit 90 installed at one side. When the operation signal is input from the control unit 70, the blocked lines are mutually connected. Electrically connected, the current of the battery unit 90 flows along the connected line, thereby causing the current to flow through the clamp (c) connected to the electrode (3) to the underground wire (1), this series of processes As shown in FIG.

The gripping mechanism 100, one end of which is installed at the other end of the underground wire 1 connected to the electrode 3, to be easily pulled by an operator, has a first crimping member 101b that is applied to any thickness therein. A first cover (101) disposed at the other end of the underground wire (1); It is composed of a second cover 102 is rotatably installed on the first cover 101 having a second pressing member (102b) applied to a predetermined thickness therein wrapped around the underground wire (1), 4a to 4b are illustrated.

In the present embodiment, the outer surface of the first cover 101 and the second cover 102 and the first wing piece (101a) having a plurality of mounting holes (101a-1) so as to be coupled to each other and fixed The second blade piece 102a having a plurality of mounting protrusions 102a-1 is integrally formed.

In addition, the outer surface of the first cover 101 and the second cover 102 in the longitudinal direction on the outer surface to enable the operator to easily grip when holding the gripping mechanism 100 and to prevent it from being separated from the hand To form a non-slip groove (h) at equal intervals along the.

In this way, by mounting the grip mechanism 100 to the underground wire (1), it is possible to prevent the operator from being separated from the hand when pulling the underground wire (1) to easily connect the underground wire (1) Not only can it be pulled up, but also there is no need to bend and pull the underground wire 1 as in the related art, and thus it is possible to fundamentally prevent the coating of the underground wire 1 from being damaged or broken by breaking the wire inside. .

The sensing device portion B, which is connected to the other end of the underground wire 1 to warn the worker, is connected to the other end of the underground wire 1 connected to the electrode 3 and applied from the wire fixing mechanism A. An alarm device 110 is provided which is activated by power supply.

In the present embodiment, the other end of the alarm device 110 and the underground wire 1 is connected via the clamp (c), at this time, the alarm device 110 is the underground wire (1) by the battery unit 90 When electricity is supplied to it, it is operated through this to output an alarm sound.

As such, by connecting the alarm device 110 to the underground wire 1, the operator can intuitively recognize the current state of the underground wire 1 through the alarm sound to improve the convenience of work will be.

Referring to the operational relationship of the present invention made of the above configuration as follows.

First, in order to perform the wiring work, the worker fixes the bracket 21 to the connecting bar 20 of the wire fixing mechanism A to the insulator 2 through the bolt (not specifically shown) through the wire. After the installation of the fixing mechanism (A) is completed, one end of the ground wire (1) is fixed to the fixing mechanism (3a) provided in the insulator (2), and then the middle portion of the ground wire (1) is fixed to the slide block (30). It is fixed to the bracket 31, and pulls the underground wire 1 provided with the holding mechanism 100 to the place where the next underground wire 1 is connected.

In this case, in order to prevent an electric shock of the worker, all the power applied to the insulator 2 to which the underground wire 1 is connected is cut off so that no electricity flows in the underground wire 1, and the underground wire 1 is As shown in FIG. 2, even when the slide block 30 is advanced to the allowable limit position where the detection sensor 60 is turned on, the electrode (in the state in which the end of the underground wire 1 is bent to have a sufficient margin so as not to be straightened) 3) and the fixing mechanism 3a and the fixing bracket 31 of the slide block 30 are preferably fixed respectively.

In the connection state as described above, the operator squeezes the outer surface of the gripping mechanism 100 installed on the other end of the underground wire 1 and pulls the other end of the ground wire 1 on the other end of the insulated table 2. It is fixed to the other wire connection bar provided with the electrode 3 or the fixing mechanism 3a.

At this time, one end of the underground wire (1) is supported by the bullet spring 50 in a state fixed to the fixing bracket 31 of the slide block 30, when the operator pulls the other end of the underground wire (1) slide block 30 is advanced in a state supported by the bullet spring 50, thereby preventing the underground wire 1 from being excessively pulled out.

And, as shown in Figure 6a, when the operator excessively pulls the underground wire (1) when the slide block 30 is advanced to a preset tolerance position, the knob 61 of the sensor 60 detects this Outputting a detection signal, the detection signal of the detection sensor 60 is transmitted to the control unit 70, the control unit 70 by controlling the operation of the switch unit 80 is blocking the power connection by the received detection signal This allows the current of the battery unit 90 to be energized.

Accordingly, the current is moved by the controller 70 along the switch unit 80 energized with the battery unit 90 so that the current flows to the electrode 3 fixed through the clamp c, and the electrode 3 ) Is connected to the underground wire (1), one end is fixed to the fixing mechanism (3a), the current flows to the alarm device 110 connected to the other end of the underground wire (1) to generate a warning sound.

As such, the alarm device 110 of the sensing device unit B may be operated by the supplied power to inform the worker that the underground wire 1 is being excessively pulled, and thus, the worker may detect the sensing device unit B. By pulling the underground wire 1 to the extent that the alarm device 110 of) does not operate, the other end of the underground wire 1 can be securely fixed to the insulator 2 of another wire connector with a fixing mechanism 3a.

On the other hand, if the operator loses the underground wire 1 held by the operator's carelessness while the worker pulls the underground wire 1, the ball spring 50 compressed by the slide block 30 is forced to recover. By pushing the slide block 30 strongly, in this case, even if the slide block 30 is rushing toward the bracket 21, because the shock absorber 40 to block it to absorb the impact amount, the slide block 30 and the bracket ( 21) it is possible to fundamentally resolve the damage caused by the collision, as shown in Figure 6b.

In this way, when the installation of the underground wire (1) to the insulator (2) of the other wire connecting rod as a fixing mechanism (3a) is completed, the worker is the wire fixing mechanism (A), the sensing unit (B) and the gripping The mechanism 100 may be detached from the insulator 2 and the underground cable 1 to be installed on the next cable connection bar.

Furthermore, when the connection process of the underground wire 1 is completed, as shown in FIG. 7, the insulation cover 10 is covered to protect the underground wire 1 and the electrode 3 connected to the fixing mechanism 3a. At this time, the screw bolt is inserted through the fastening part 12 to be fastened together with the insulator 2, and after the fixing is completed, the filler (not specifically shown) is filled with the filler through the injection hole 11. It is injected into the inside of the 10 so that the underground wire 1 connected to the fixing mechanism 3a and the electrode 3 are completely wrapped.

As described above, by covering the insulation wire cover 10 on the underground wire 1 and the electrode 3 connected to the fixing mechanism 3a, the worker can be protected from electric shock, and the infiltration water introduced from the outside And foreign matters may contact the electrode 3 through which current flows, thereby preventing electrical safety due to a short circuit and a short circuit. In addition, a filler (not specifically shown) may be injected into the insulation cover 10. By completely surrounding the ground wire (1) and the electrode (3) connected to the fixing mechanism (3a), it is possible to fundamentally eliminate the electrical short and leakage caused by the inflow of water or moisture.

After the installation of the underground cable 1 is completed in this manner, the wire fixing mechanism A, the sensing device unit B, and the holding device 100 are removed, and then the power is applied to the underground wire 1. Power can be supplied to buildings and houses.

In addition, in the case of the buried underground cable connector configured as described above, the front end of the underground cable (1) is fixed to the fixing bracket 31 of the slide block 30 supported by the bullet spring 50, the user It is possible to prevent the ground wire 1 from being damaged by unduly pulling or excessively pulling the connection portion between the electrode 3 of the insulator 2 and the ground wire 1 by excessively pulling (1). Rather, since the slide block 30 is supported and supported by the carbon spring 50, the slide block 30 is elastically moved forward and backward when the underground wire 1 is pulled, thereby impacting the underground wire 1. This can be prevented from being applied.

Furthermore, when the slide block 30 is excessively pulled in the wire fixing mechanism A, the detection sensor 60 is turned on, so that the current of the battery unit 90 connected to the switch unit 80 receives the electrode 3. By applying power to the) to operate the alarm device 110 of the sensing device (B), there is an advantage that can prevent the operator from excessively pulling the underground wire (1).

In particular, the alarm device 110 is supplied from the wire fixing mechanism (A) is operated by a power applied to the underground wire (1) to sound an alarm, not only a separate power supply structure is very simple, Regardless of the installation position of the underground cable (1) and the operator's working position can always be transmitted accurately, the signal is always transmitted correctly to prevent the operation error occurs to improve the operation reliability.

Although the present invention has been described in detail only with respect to the specific embodiments described, it will be obvious to those skilled in the art that various modifications and changes can be made within the technical scope of the present invention, and such modifications and modifications belong to the appended claims.

1 is a side configuration diagram showing a conventional buried underground wire connector.

Figure 2 is a side view showing a buried underground cable connector according to the present invention.

Figure 3 is a front cross-sectional view taken separately of the buried underground cable connector according to the present invention.

Figures 4a to 4b is a perspective view of the folded state and the expanded state shown by extracting the holding mechanism separately from the buried underground cable connector according to the present invention.

Figure 5 is a block diagram showing the correlation between some components of the buried underground cable connector according to the present invention.

6a to 6b is an operation relationship diagram of the buried underground cable connector according to the present invention.

Figure 7 is a state of use of the insulated stand cover in the buried underground cable connector according to the invention.

* Description of the symbols for the main parts of the drawings *

1: underground wire 2: insulator 3: electrode

10: insulator cover 11: injection hole 12: fastening portion

20: connecting rod 21: bracket 30: slide block

31: fixing bracket 40: shock absorber 41: shock absorbing spring

42: shock absorbing pad 50: bullet spring 60: detection sensor

70: control unit 80: switch unit 90: battery unit

100: holding mechanism 110: alarm device

Claims (1)

Insulating table (2), and both ends are provided with a fixing mechanism (3a) for fixing the ground wire (1) includes an electrode (3) made of a conductor material which is installed to insulate the insulator (2), In the embedded underground cable connector, which is installed at a predetermined interval inside the underground pipeline where the electric wire 1 is embedded, and electrically connects the underground electric wire 1 connected to the fixing mechanism 3a of the electrode 3 with each other. An insulating stand installed on the upper surface of the insulator 2 so as to be opened and closed by a hinge, and having an injection hole 11 communicating with the inside thereof to cover the electrode 3 and the fixing mechanism 3a to protect it from the outside. A cover 10; A connection bar 20 having a bracket 21 detachably installed on the insulator 2; A slide block (30) having a fixing bracket (31) adapted to fix the underground wire (1) on an outer surface thereof, the slide block (30) being slidably installed on the connecting bar (20); Shock absorber having a shock absorbing pad (42) mounted on the outer surface of the connecting bar (20), one end of which is fixed to the bracket (21), and a rubber shock absorbing pad (42) installed on the other end of the shock absorbing spring (41). 40; A ball spring 50 mounted on an outer surface of the connection bar 20 to swing the slide block 30 in one direction; A detection sensor 60 installed on an outer surface of the connection bar 20 to detect a slide block 30 moving along the connection bar 20 and output a detection signal; A control unit 70 receiving the detection signal from the detection sensor 60 and outputting an operation control signal; A switch unit 80 which receives the operation control signal from the control unit 70 and connects the interrupted power to the electrode 3 to supply power; Wire fixing mechanism (A) having a battery unit 90 for continuously supplying power through the switch unit 80 and: The first cover 101 is provided at the other end of the underground wire 1 with the first pressing member 101b applied to the inside at an arbitrary thickness, and the second pressing member 102b applied to the inside at any thickness. And a holding mechanism (100) having a second cover member (102) rotatably installed on the first cover (101) and wrapped around the underground wire (1). One end is connected to the other end of the underground wire (1) connected to the electrode (3) via a clamp (c) is operated by the power supplied from the battery unit 90 is provided with an alarm device 110 for emitting sound Buried underground wire connector comprising a sensing device (B).

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