KR101453925B1 - Equipment for power transmission and transformation - Google Patents

Abstract

The present invention relates to a power transmission structure that includes a safe grounding apparatus. The power transmission structure according to an embodiment of the present invention includes the following: voltage transforming unit (600); a bushing (800); an elbow connection member (900); grounding apparatus (1000); a support (700); a buffer (100); a left power transmission cable fixture (200); a right power transmission cable fixture (300); a distance measuring unit (400); and a control unit (500). The voltage transforming unit includes a built-in transformer (610) and is supplied with electricity from a power plant. The bushing is mounted on a part of the exterior of the voltage transforming unit and is electrically connected to a side of the transformer (610).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a transmission and a transmission structure having a grounding device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission and transmission structure equipped with a grounding device with stability.

Electricity generated in the power plant is transmitted to the substation. At this time, the electricity that is transmitted to the substation is transformed through the transformer and transmitted to another substation.

At this time, the transformer is connected to the transmission line via the bushing and the elbow connection member, and receives electricity from the power plant.

On the other hand, when an external force is generated due to temporary shock or strong wind or the like to the transformer, a collision occurs between the transmission lines, or an external force is concentrated on the connection between the transmission line and the elbow connection material, thereby breaking the connection. At this time, when the disconnection occurs, a short circuit occurs from the power transmission line and a very dangerous situation occurs.

If the transmission line can not be stably installed, it is difficult to supply stable power to the transmission line from the power plant to the substation and from the substation to the substation.

Therefore, there is a need for a technique that can alleviate the external force applied to the transmission line while maintaining the spacing between the transmission lines, prevent disconnection of the transmission line, and secure the safety of the electricity leaked when the line is disconnected.

Patent No. 10-1310691 Patent No. 10-0460622

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method for preventing the disconnection of a transmission line by relieving external force applied to a transmission line while maintaining a gap between transmission lines, And a transmission / reception structure having the secured grounding device.

According to an aspect of the present invention,

A transformer unit 600 incorporating a transformer 610 and supplied with electricity from a power plant;

A bushing 800 mounted on one external side of the transforming unit 600 and electrically connected to the primary side of the transformer 610:

An elbow connecting member 900 mechanically connected to the bushing 800 to electrically connect the bushing 800 and the transmission line L,

An insertion hole 1011 penetrating vertically and an opening 1012 opened downward and communicating with the insertion hole 1011 so as to be inserted into the connection portion of the elbow connection member 900 and the transmission line L, (1010); A conductor 1020 inserted into the interior of the insert 1010 and disposed around the transmission line L; And a grounding line (1030) connected to the conductor (1020) and passing through the opening hole (1012) and grounded to the ground.

A fixing unit 710 installed outside the transforming unit 600 and projecting forward; And a rotation unit 720 rotatably installed on the support unit 710 and projecting downwardly and having a support 700 disposed between the transmission line L and the transmission line L,

A left side through hole 112 formed to penetrate laterally on the left side surface, a right side through hole 113 formed to penetrate laterally on the right side surface and a rear side through hole 113 formed to open rearward on the inside front surface A plurality of forward rotating ball holes 114 provided along the left and right sides and a plurality of rear rotating ball grooves 115 formed to face forward and opening toward the forward rotating ball groove 114, A receiving mechanism 110 installed at the lower end of the swivel portion 720 of the support 700; A plurality of forward rotating balls 120 rotatably installed in the forward rotating ball groove 114 of the receiving mechanism 110; A plurality of rear rotating balls 130 rotatably installed in the rear rotating ball groove 115 of the receiving mechanism 110; A moving member 141 having a front fastening groove 141a formed to open frontward on the front side and a rear fastening groove 141b opened rearward on the rear side; And a stretchable and contractible portion 142b which is provided at a lower portion of the fastening portion 142a and has a lower surface that is rounded and abuts against a lower surface of the receiving space 111, A rigid coupling part 143a detachably installed in the rear coupling groove 141b of the moving body 141 and a coupling part 143b provided at an upper part of the coupling part 143a, And a rear friction member 143 having a stretchable and contractible portion 143b which is in contact with the upper surface of the accommodating space 111. The rear friction member 143 is movable in the receiving space 111 of the accommodating mechanism 110 in the left- A mechanism 140; A moving body 151 having a front fastening groove 151a formed to open frontward in the front side and a rear fastening groove 151b opened rearward in the rear side; A rigid fastening portion 152a provided at the lower portion of the fastening portion 152a and having a lower surface and a stretchable portion 152b of a stretchable material which abuts the lower surface of the receiving space 111, A rigid fastening part 153a detachably mounted on the rear fastening groove 151b of the moving body 151 and provided on the upper part of the fastening part 153a, And a rear friction member 153 provided with a stretchable and contractible portion 153b of a stretchable material abutting against the upper surface of the accommodating space 111. The rear friction member 153 is provided so as to be movable laterally in the accommodating space 111 of the accommodating mechanism 110, A right side moving mechanism 150 installed on the right side of the moving mechanism 140; A left spring 160 fixed to the left side of the receiving space 111 at one end and disposed at the left side of the left side moving mechanism 140 to elastically support the left side moving mechanism 140 to the right side; A right spring 170 fixed to the right side of the receiving space 111 at one end and disposed at the right side of the right side moving mechanism 150 at the other end to elastically support the right moving mechanism 150 to the left side; And a center spring (180) disposed between the left moving mechanism (140) and the right moving mechanism (150).

A connecting portion 210 provided at one end of the left moving mechanism 140 and having the other end passing through the left through hole 112 of the receiving mechanism 110 and projecting to the outside; A rotation part 220 having one end rotatably installed at the other end of the connection part 210; A left transmission line fixing mechanism 200 having a through hole 231 through which a transmission line L passes and a fixing portion 230 provided at the other end of the rotation portion 220;

A connecting portion 310 provided at one end of the right moving mechanism 150 and having the other end passing through the right through hole 113 of the receiving mechanism 110 and projecting to the outside; A rotation part 320 having one end rotatably installed at the other end of the connection part 310; A right transmission line fixing mechanism 300 having a through hole 331 through which a transmission line L passes and a fixing portion 330 provided at the other end of the rotation portion 320;

A transmitter 410 installed at the right side of the left-side moving mechanism 140; And a receiving unit 420 installed on the left side of the right moving mechanism 150 and receiving a signal from the transmitting unit 410. The distance measuring unit 420 measures a distance between the left moving mechanism 140 and the right moving mechanism 150 Distance measurer (400):

When the separation distance between the left movement mechanism 140 and the right movement mechanism 150 is out of the preset reference value range, an abnormal signal is output and a shock absorber receiving mechanism 110: a control unit 500 installed at a lower portion of the control unit 500;

And the electric power transmitted from the power plant is transformed and the transformed electricity is transmitted to another substation.

According to the present invention as described above, the external force applied to the transmission line can be efficiently buffered while maintaining the separation distance between the transmission lines, and the external force applied to the connection portion of the transmission line and the transmission line and the elbow connection material can be alleviated.

Further, according to the present invention, by checking the separation distance between the left moving mechanism and the right moving mechanism of the shock absorber, it is possible to quickly cope with the abnormality of the shock absorber.

Further, the present invention improves the stability by grounding the electricity leaked from the connection portion of the transmission line and the elbow connection material.

FIG. 1 is a side view for describing a transmission and transmission structure having a grounding device with stability according to the present invention,
FIG. 2 is a front view for explaining a transmission and transmission structure equipped with a grounding device with stability according to the present invention,
3 is a side view for explaining a support according to the present invention,
FIG. 4 is a cross-sectional view of a portion of an AA line for explaining a transmission and transmission structure equipped with a grounding device with stability according to the present invention,
Figure 5 is a partial detail view of Figure 4,
Fig. 6 is a sectional view taken along line BB of Fig. 4,
7 is a partial front sectional view for explaining a grounding apparatus according to the present invention,
8 to 11 are diagrams showing an operating state of a transmission and transmission structure equipped with a grounding device with stability according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in detail with reference to the accompanying drawings.

1 to 7, a power transmission and transmission structure equipped with a grounding device with stability according to the present invention will be described as follows.

The transmission and transmission structure equipped with a grounding device having a stable stability according to the present invention is installed in a substation and transforms electricity transmitted from the power plant to another substation. Meanwhile, the present invention is referred to as a transmission / transmission structure because the electricity transmitted from a power plant is transformed to another substation.

The transmission and transmission structure includes a transforming unit 600, a bushing 800, an elbow joint 900, a grounding apparatus 1000, a support 700, a shock absorber 100, a left transmission line fixing mechanism 200, a right transmission line fixing mechanism 300, a distance measuring instrument 400, and a control unit 500.

The transforming unit 600 receives electricity from the generator, and transfers electricity from the generator to the transforming unit of another substation. At this time, a transformer 610 is incorporated in the transforming unit 600.

The bushing 800 is mounted on the outer side of the transforming unit 600 and is electrically connected to the primary side of the transformer 610. At this time, a fuse for limiting the current is connected between the bushing 800 and the primary side of the transformer 610 although not shown in the drawing.

The elbow connecting member 900 is mechanically connected to the bushing 800 to electrically connect the bushing 800 and the power transmission line L. [ At this time, the elbow joint member 900 has an 'a' shape.

The grounding apparatus 1000 has an insert 1010, a conductor 1020, and a ground line 1030.

The insertion body 1010 includes an insertion hole 1011 penetrating vertically and an opening hole 1012 opened downward and communicating with the insertion hole 1011 so as to connect the elbow connection member 900 and the transmission line L And is fitted in the connection portion. The lower end of the elbow connecting member 900 is inserted into the upper portion of the insertion hole 1011 of the insertion body 1010 and the transmission line L is inserted into the lower portion of the insertion hole 1011 of the insertion body 1010. [

The conductor 1020 is inserted into the interior of the insert 1010 and is disposed around the transmission line L. [ In this embodiment, the conductor 1020 is formed in a pipe shape so as to surround the lower end of the elbow joint 900 and one end of the transmission line L. [

The ground wire 1030 is electrically connected to the conductor 1020 and is grounded through the opening hole 1012 to the ground. At this time, one end of the ground wire 1030 is mechanically connected to the conductor 1020, and the other end is grounded. Here, for the grounding, various positions, devices for separate grounding, etc., can be used as long as the grounding function can be performed instead of the grounding.

The support 700 includes a fixing part 710 provided outside the transforming unit 600 and protruding forward and a turning part 720 which is rotatably installed on the supporting part 710 and protrudes downward, (L) and the transmission line (L).

The receiving mechanism 110 includes a receiving space 111 formed therein, a left through hole 112 formed laterally through the left side surface, a right through hole 113 formed to penetrate laterally on the right side surface, A plurality of forward rotating ball count grooves 114 formed to be opened rearward in the left and right chambers, and a plurality of rear rotating ball counting grooves 114 formed to face forward, And is provided at the lower end of the swivel portion 720 of the support table 700.

A plurality of forward rotating balls 120 are provided and are rotatably installed in the forward rotating ball groove 114 of the receiving mechanism 110.

A plurality of rear rotation balls 130 are provided and are rotatably installed in the rear rotation number of balls 115 of the receiving mechanism 110.

The left side shifting mechanism 140 is provided so as to be movable left and right in the receiving space 111 of the receiving mechanism 110 with the moving body 141, the front friction body 142 and the rear friction body 143.

The moving body 141 is provided with a front fastening groove 141a formed at the front thereof so as to open forward and a rear fastening groove 141b formed at the rear face thereof so as to open rearward.

The front friction member 142 includes a hard coupling portion 142a detachably installed in the front coupling groove 141a of the moving body 141 and a lower coupling portion 142b provided below the coupling portion 142a, And a stretchable and contractible portion 142b of a stretchable material abutting against the lower surface of the mechanism accommodating space 111. Here, since the front friction member 142 is easily damaged due to frequent friction with the front rotating ball 120, the front friction member 142 is detachably attached to the moving member 141 for ease of replacement. The coupling portion 142a of the front friction member 142 and the front coupling groove 141a of the moving member 141 may be coupled through a press fitting method or a thread coupling method.

The rear friction member 143 includes a rigid coupling portion 143a detachably attached to the rear coupling groove 141b of the moving body 141 and a coupling portion 143b provided at an upper portion of the coupling portion 143a, And a stretchable and contractible portion 143b of a stretchable material abutting against the upper surface of the mechanism accommodating space 111. Here, since the rear friction member 143 is easily damaged due to frequent friction with the rear rotating ball 130, the rear friction member 143 is detachably attached to the moving member 141 for ease of replacement. The engagement of the coupling portion 143a of the rear friction member 143 and the rear coupling groove 141b of the moving body 141 may be achieved by a press fitting method or a thread coupling method.

The right side moving mechanism 150 is provided so as to be capable of moving left and right in the receiving space 111 of the receiving mechanism 110 with the moving body 151, the front side friction body 152 and the rear side friction body 153, And is disposed on the right side of the left side moving mechanism 140.

The moving body 151 is provided with a front fastening groove 151a formed to be opened frontward and a rear fastening groove 151b formed to open rearward on the rear face.

The front friction member 152 includes a hard coupling portion 152a detachably installed in the front coupling groove 151a of the moving body 151 and a lower coupling portion 152b provided below the coupling portion 152a, And a stretchable and contractible portion 152b of a stretchable material abutting against the lower surface of the accommodation space 111. [ Here, the front friction member 152 is detachably attached to the moving body 151 for ease of replacement because it is easily damaged due to frequent friction with the front rotating ball 120. The engagement of the fastening portion 152a of the front friction member 152 and the front fastening groove 151a of the moving body 151 may be accomplished through a press fitting method or a thread engagement method.

The rear friction member 153 includes a rigid coupling portion 153a detachably mounted on the rear coupling groove 151b of the moving body 151 and a coupling portion 153b provided on the coupling portion 153a, And a stretchable and contractible portion 153b of a stretchable material abutting on the upper surface of the accommodation space 111. [ Here, the rear friction member 153 is detachably attached to the moving body 151 for easy replacement because it is easily damaged due to frequent friction with the rear rotating ball 130. The coupling portion 153a of the rear friction member 153 and the rear coupling groove 151b of the moving body 151 may be coupled through a press fitting method or a thread coupling method.

One end of the left spring 160 is fixed to the left side of the accommodation space 111 and the other end is disposed on the left side of the left side movement mechanism 140 to elastically support the left side movement mechanism 140 to the right side. Since the left spring 160 elastically supports the left moving mechanism 140 in the right direction without fixing the other end to the left moving mechanism 140, When the left moving mechanism 140 moves to the right side and then returns to the right side, it is possible to buffer effectively.

One end of the right spring 170 is fixed to the right of the accommodation space 111 and the other end is disposed on the right side of the right movement mechanism 150 to support the right movement mechanism 150 in the left direction. Since the right spring 170 elastically supports the right movement mechanism 150 in the leftward direction without the other end being fixed to the right movement mechanism 150, When the right moving mechanism 150 moves to the left side and then returns to the left side, it is possible to buffer effectively.

The center spring 180 is disposed between the left movement mechanism 140 and the right movement mechanism 150 so as to elastically support the left movement mechanism 140 in the left direction and support the right movement mechanism 150 in the right direction, . Since the center spring 180 is not fixed to the left side moving mechanism 140, a tensile force does not act on the right side side of the left side moving mechanism 140 and is not fixed to the right side moving mechanism 150, No tensile force acts on the moving mechanism 150 to the left side room, thereby effectively buffering the left side moving mechanism 140 and the right side moving mechanism 150. Further, the center spring 180 is associated with the left spring 160 and the right spring 170 to further enhance the cushioning effect of the left movement mechanism 140 and the right movement mechanism 150.

The left transmission line fixing mechanism 200 includes a connecting portion 210 having one end disposed in the left moving mechanism 140 and the other end passing through the left through hole 112 of the receiving mechanism 110 and projecting to the outside, A rotation part 220 rotatably installed at the other end of the connection part 210 and a through hole 231 through which the transmission line L passes and a fixing part 230 provided at the other end of the rotation part 220 ). Since the rotation part 220 is rotatably installed in the connection part 210, when the flow occurs in the shock absorber 100 or the left transmission line fixing mechanism 200, the shock absorber 100 or the left transmission line fixing mechanism The buffering device 100 or the left transmission line fixing device 200 operates more stably. In the present embodiment, the rotation unit 220 is rotatably installed in the connection unit 210, but the rotation unit 220 and the connection unit 210 may be fixed to each other. Also, in this embodiment, it is preferable that the power transmission line L is installed to be fixed to the fixing part 230.

The right transmission line fixing mechanism 300 includes a connecting portion 310 having one end provided in the right moving mechanism 150 and the other end passing through the right through hole 113 of the receiving mechanism 110 and projecting to the outside, A fixing part 330 provided at the other end of the rotation part 320 and having a rotation part 320 rotatably installed at the other end of the connection part 310 and a through hole 331 through which the transmission line L passes, . Since the rotation part 320 is rotatably installed on the connection part 310, when the flow occurs in the shock absorber 100 or the right transmission line fixing mechanism 300, the shock absorber 100 or the right transmission line fixing mechanism 300, the shock absorber 100 or the right transmission line fixing mechanism 300 operates more stably. In the present embodiment, the rotation unit 320 is rotatably installed in the connection unit 310, but the rotation unit 320 and the connection unit 310 may be fixed to each other. Also, in this embodiment, it is preferable that the power transmission line L is installed to be fixed to the fixing portion 330.

The distance measuring instrument 400 includes a transmitting section 410 installed on the right side of the left moving mechanism 140 and a receiving section 420 provided on the left side of the right moving mechanism 150 and receiving a signal from the transmitting section 410 The distance between the left moving mechanism 140 and the right moving mechanism 150 is measured. In the present embodiment, infrared or ultrasonic techniques may be applied to the distance measuring device 400.

The control unit 500 receives the separation distance signal from the distance measuring device 400 and outputs the distance signal to the buffer device 100 when the separation distance between the left movement mechanism 140 and the right movement mechanism 150 exceeds a preset reference value And outputs an abnormal signal indicating that an abnormality has occurred. Here, the abnormal signal is transmitted to a separate manager so that the manager can immediately know the abnormality. On the other hand, in this embodiment, the control unit 500 is installed below the shock absorber receiving mechanism 110.

Referring to FIGS. 8 to 11, the operation of the transmission and transmission structure having the grounding device with stability according to the present invention will be described below.

First, as shown in FIGS. 1 and 2, when the transmission and transmission structure having the grounding device with the stabilized state according to the present invention is installed, the respective transmission lines L are spaced apart from each other by a certain distance, When an external force is generated due to a strong wind or the like, each transmission line L does not easily collide.

Furthermore, the present invention can buffer an external force applied to the transmission line L when the transmission line L moves due to wind or the like.

That is, when the transmission line L moves to the right side as shown in FIG. 8, the left moving mechanism 140 and the right moving mechanism 150 of the shock absorber 100 move to the right side. At this time, the front friction member 142 and the rear friction member 143 of the left moving mechanism 140 and the front friction member 152 and the rear friction member 153 of the right moving mechanism 150 are engaged with the front rotation ball 120 And the backward rotating ball 130 while being in contact with the front rotating ball 120 and the rear rotating ball 130, respectively. Since the front rotating ball 120 and the rear rotating ball 130 are rotatably provided, the front friction member 142 and the rear friction member 143 of the left moving mechanism 140 and the right moving mechanism 150, The front friction member 152 and the rear friction member 153 of the front rotating ball 120 and the rear rotating ball 130 are provided with sufficient frictional force and can be easily moved. Further, in the present invention, the left shifting mechanism 140 receives the buffering force from the center spring 180, and the right shifting mechanism 150 receives the buffering force from the right spring 170, so that the buffering force is more efficiently provided.

9, when the transmission line L moves to the left room, the left moving mechanism 140 and the right moving mechanism 150 of the shock absorber 100 move to the left room. At this time, the front friction member 142 and the rear friction member 143 of the left moving mechanism 140 and the front friction member 152 and the rear friction member 153 of the right moving mechanism 150 are engaged with the front rotation ball 120 And the backward rotating ball 130 while being in contact with the front rotating ball 120 and the rear rotating ball 130, respectively. Since the front rotating ball 120 and the rear rotating ball 130 are rotatably provided, the front friction member 142 and the rear friction member 143 of the left moving mechanism 140 and the right moving mechanism 150, The front friction member 152 and the rear friction member 153 of the front rotating ball 120 and the rear rotating ball 130 are provided with sufficient frictional force and can be easily moved. Further, in the present invention, the right shifting mechanism 150 is provided with a buffering force from the center spring 180, and the left shifting mechanism 140 is provided with a buffering force from the left spring 1760, so that the buffering force is more efficiently provided.

Meanwhile, in the present invention, when the left moving mechanism 140 and the right moving mechanism 150 move, when the force moves beyond a predetermined force, the turning unit 720 of the supporting table 700 rotates (not shown) The buffering device 100 smoothly buffers the transmission line L by reducing the twisting force between the mechanism 140 and the right shifting mechanism 150 and the receiving mechanism 110. [

10, the control unit 500 analyzes the distance signal transmitted to the transmitting unit 410 of the distance measuring instrument 400 and received by the receiving unit 420. When the analyzed distance data is equal to or greater than a preset reference value The control unit 500 sends an external signal to the external manager that an abnormality has occurred in the shock absorber 100 according to the present invention. The left moving mechanism 140 and the right moving mechanism 150 can not return to their original positions due to a problem in the left spring 160 or the right spring 170 or the center spring 180, The control unit 500 sends the abnormal signal to the external manager when the separation distance between the right movement mechanism 140 and the right movement mechanism 150 is out of the preset reference value range.

On the other hand, there is a high possibility that the connection between the transmission line L and the elbow connection member 900 is disconnected due to the repeated movement of the transmission line L. In such a case, the covering of the power transmission line L is peeled off, so that a short circuit easily occurs. Furthermore, when the moisture contacts the conductor L1 of the power transmission line L, the occurrence of the short circuit becomes more serious.

However, in the present invention, when the covering of the transmission line L is peeled off and the conductor L1 in the transmission line L is connected to the conductor 1020 of the grounding apparatus 1000 by breaking or breaking, L) is grounded to the ground so as to prevent damage due to a short circuit.

100; Shock absorber 110; Receptacle
120; A front rotating ball 130; Backward rotating ball
140; A left moving mechanism 150; Right movement mechanism
160; A left spring 170; Right spring
180; A central spring 200; Left transmission line fixing device
210; Connection 220; reel
230; A fixing part 300; Right transmission line fixture
310; A connecting portion 320; reel
330; Fixed portion 400; Distance meter
410; A transmitting unit 420; Receiver
500; A control unit 600; The transforming unit
700; A support 800; bushing
900; An elbow joint 1000; Grounding device

Claims (1)

A transformer unit 600 incorporating a transformer 610 and supplied with electricity from a power plant;
A bushing 800 mounted on one external side of the transforming unit 600 and electrically connected to the primary side of the transformer 610:
An elbow connecting member 900 mechanically connected to the bushing 800 to electrically connect the bushing 800 and the transmission line L,
An insertion hole 1011 penetrating vertically and an opening 1012 opened downward and communicating with the insertion hole 1011 so as to be inserted into the connection portion of the elbow connection member 900 and the transmission line L, (1010); A conductor 1020 inserted into the interior of the insert 1010 and disposed around the transmission line L; And a grounding line (1030) connected to the conductor (1020) and passing through the opening hole (1012) and grounded to the ground.
A fixing unit 710 installed outside the transforming unit 600 and projecting forward; And a rotation unit 720 rotatably installed on the support unit 710 and projecting downwardly and having a support 700 disposed between the transmission line L and the transmission line L,
A left side through hole 112 formed to penetrate laterally on the left side surface, a right side through hole 113 formed to penetrate laterally on the right side surface and a rear side through hole 113 formed to open rearward on the inside front surface A plurality of forward rotating ball holes 114 provided along the left and right sides and a plurality of rear rotating ball grooves 115 formed to face forward and opening toward the forward rotating ball groove 114, A receiving mechanism 110 installed at the lower end of the swivel portion 720 of the support 700; A plurality of forward rotating balls 120 rotatably installed in the forward rotating ball groove 114 of the receiving mechanism 110; A plurality of rear rotating balls 130 rotatably installed in the rear rotating ball groove 115 of the receiving mechanism 110; A moving member 141 having a front fastening groove 141a formed to open frontward on the front side and a rear fastening groove 141b opened rearward on the rear side; And a stretchable and contractible portion 142b which is provided at a lower portion of the fastening portion 142a and has a lower surface that is rounded and abuts against a lower surface of the receiving space 111, A rigid coupling part 143a detachably installed in the rear coupling groove 141b of the moving body 141 and a coupling part 143b provided at an upper part of the coupling part 143a, And a rear friction member 143 having a stretchable and contractible portion 143b which is in contact with the upper surface of the accommodating space 111. The rear friction member 143 is movable in the receiving space 111 of the accommodating mechanism 110 in the left- A mechanism 140; A moving body 151 having a front fastening groove 151a formed to open frontward in the front side and a rear fastening groove 151b opened rearward in the rear side; A rigid fastening portion 152a provided at the lower portion of the fastening portion 152a and having a lower surface and a stretchable portion 152b of a stretchable material which abuts the lower surface of the receiving space 111, A rigid fastening part 153a detachably mounted on the rear fastening groove 151b of the moving body 151 and provided on the upper part of the fastening part 153a, And a rear friction member 153 provided with a stretchable and contractible portion 153b of a stretchable material abutting against the upper surface of the accommodating space 111. The rear friction member 153 is provided so as to be movable laterally in the accommodating space 111 of the accommodating mechanism 110, A right side moving mechanism 150 installed on the right side of the moving mechanism 140; A left spring 160 fixed to the left side of the receiving space 111 at one end and disposed at the left side of the left side moving mechanism 140 to elastically support the left side moving mechanism 140 to the right side; A right spring 170 fixed to the right side of the receiving space 111 at one end and disposed at the right side of the right side moving mechanism 150 at the other end to elastically support the right moving mechanism 150 to the left side; And a center spring (180) disposed between the left moving mechanism (140) and the right moving mechanism (150).
A connecting portion 210 provided at one end of the left moving mechanism 140 and having the other end passing through the left through hole 112 of the receiving mechanism 110 and projecting to the outside; A rotation part 220 having one end rotatably installed at the other end of the connection part 210; A left transmission line fixing mechanism 200 having a through hole 231 through which a transmission line L passes and a fixing portion 230 provided at the other end of the rotation portion 220;
A connecting portion 310 provided at one end of the right moving mechanism 150 and having the other end passing through the right through hole 113 of the receiving mechanism 110 and projecting to the outside; A rotation part 320 having one end rotatably installed at the other end of the connection part 310; A right transmission line fixing mechanism 300 having a through hole 331 through which a transmission line L passes and a fixing portion 330 provided at the other end of the rotation portion 320;
A transmitter 410 installed at the right side of the left-side moving mechanism 140; And a receiving unit 420 installed on the left side of the right moving mechanism 150 and receiving a signal from the transmitting unit 410. The distance measuring unit 420 measures a distance between the left moving mechanism 140 and the right moving mechanism 150 Distance measurer (400):
When the separation distance between the left movement mechanism 140 and the right movement mechanism 150 is out of the predetermined reference value range, an abnormal signal is output. 110: a control unit 500 installed at a lower portion of the control unit 500;
Wherein the electricity is transmitted from the power plant to the substation, and the transformed electricity is transmitted to another substation.

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