KR102457764B1 - Underground Line Supporting Equipment - Google Patents

Abstract

The present invention relates to a functionally improved underground distribution cable support device which is convenient to be installed in a power facility, the device comprising a support shaft (10), a fitting member (20), a first supporting mechanism (30), a second supporting mechanism (40), a fixing mechanism (50), and an earth leakage detection sensor (60). The device can quickly check whether an earth leakage has occurred in the underground distribution cable inside a corrugated pipe; can safely fix and support a first pedestal (34) and a second pedestal (44) for supporting the underground distribution cable in a manhole of a power outlet; and can safely support between the underground distribution cables inside the corrugated pipe according to the installation height of the underground distribution cable. In addition, the device is conveniently installed such that the underground distribution cable disposed inside the corrugated pipe is spaced apart from an inner wall of the corrugated pipe to protect the underground distribution cable from moisture condensed on an inner surface of the corrugated pipe.

Description

Functional improved underground distribution line support device for convenient installation in power premises {Underground Line Supporting Equipment}

The present invention relates to a device for supporting an underground distribution line with improved functionality, which is convenient to install in a power premises.

In general, ground equipment (eg, ground switch, ground transformer) of a distribution line is supplied with power by an underground distribution line. At this time, the underground distribution line is placed and protected in a corrugated pipe buried underground.

On the other hand, at the point where the underground distribution line is branched or connected, the manhole 1 of the electric power sphere is installed as shown in FIG. 1 , and the corrugated pipe 2 buried underground is introduced into the manhole 1 of the electric power sphere, and is disposed in the corrugated pipe 2 The underground distribution line (3) is led into the manhole (2) of the electric power station.

However, in the prior art, when an earth leakage occurs in an underground distribution line disposed in a corrugated pipe, it is not immediately known from the outside, so it is difficult to quickly respond to the occurrence of an earth leakage.

In addition, in the prior art, when the underground distribution line is drawn out from the corrugated pipe to the manhole of the electric power sphere, the underground distribution line cannot be supported, so there is a difficulty in stably disposing the underground distribution line.

And, in the prior art, there is no means for arranging the underground distribution lines to match the installation height of the underground distribution lines inside the corrugated pipe, so it was difficult to arrange the underground distribution lines at a desired position inside the corrugated pipe.

On the other hand, in the prior art, since the underground distribution line was seated and placed on the bottom surface of the corrugated pipe, the underground distribution line was easily damaged by contact with the dew formed on the corrugated pipe, thereby increasing the risk of leakage.

Republic of Korea Patent Publication No. 10-0565972

The present invention was invented to solve the above problems, and it is possible to quickly check whether an electric leakage has occurred in the underground distribution line inside the corrugated pipe, and the first and second pedestals (30, 40) for supporting the underground distribution line are installed in the manhole of the electric power outlet. It can be safely fixedly supported on the inside of the corrugated pipe, and the underground distribution lines can be safely supported inside the corrugated pipe according to the installation height of the underground distribution line. It is a task to be solved to provide an underground distribution line support device that protects against condensed moisture.

The present invention for solving the above problems,

An underground distribution line including a support shaft 10 , a fitting member 20 , a first support mechanism 30 , a second support mechanism 40 , a fixing mechanism 50 , and an earth leakage sensor 60 . In the support device,

The support shaft 10 forms a circular pipe shape,

The fitting member 20 is inserted and installed in the support shaft 10, and the insertion rod (B) for movement for the movement of the support shaft 10 is press-fitted to be detachably inserted, and made of a pipe-shaped elastic material,

The first supporting mechanism 30 is rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction, and rotates only to a horizontal position when rotating in a counterclockwise direction, and is located in front of the support shaft 10 . a first seating member 31; It is made in a round gin shape and is inserted into the circular inner groove P1 of the corrugated pipe P, and is movable in a clockwise or counterclockwise direction along the circular inner groove P1 of the corrugated pipe P, and a first seating member ( 31) a first adhesion member (32) having a first adhesion portion (32a) that is detachably threadedly fastened to the first adhesion portion (32a) and a first roller (32b) rotatably installed on the first adhesion portion (32a); A first support member 33a formed to open in the left and right direction and having a plurality of first fixing holes 33a1 arranged in the vertical direction, and a first which is formed to be opened in the left and right direction and communicated with the first fixing hole 33a1 A first movable body 33b having an insertion hole 33b1 and being movably inserted and installed in the first support 33a in the vertical direction, the first fixing hole 33a1 and the first insertion hole 33b1 are screwed together. a first pedestal mounting member 33 having a first fixing bolt 33c; It is installed on the first movable body (33b) of the first support installation member (33) and consists of a first support (34) on which the underground distribution line (L) is seated,

The second supporting mechanism 40 is rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction, rotates only to a horizontal position when rotated in a clockwise direction, and is located to the left of the first seating member 31 The 'L'-shaped left connection part 41a and the left connection part 41a are opposed to the right side of the first seating member 31 and are rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction. When rotating clockwise, it is connected to the 'L'-shaped right connecting part 41b, which is rotated only to a horizontal position, and the left connecting part 41a and the right connecting part 41b, but on the same line with the first seating member 31 in the front-rear direction. a second seating member 41 positioned at the rear of the support shaft 10 and having a seating portion 41c disposed in the ; It is made in a round gin shape and is inserted into the circular inner groove P1 of the corrugated pipe P, and is movable in a clockwise or counterclockwise direction along the circular inner groove P1 of the corrugated pipe P, and a second seating member ( 41) a second adhesion member (42) having a second adhesion portion (42a) that is detachably threadedly fastened to the second adhesion portion (42a) and a second roller (42b) rotatably installed in the second adhesion portion (42a); A second support (43a) formed to open in the left and right direction and having a plurality of second fixing holes (43a1) arranged in the vertical direction, and a second support (43a) formed to open in the left and right direction and communicateable with the second fixing holes (43a1) A second movable body 43b having an insertion hole 43b1 and being movably inserted and installed in the second support 43a in the vertical direction, the second fixing hole 43a1 and the second insertion hole 43b1 are threaded together a second support installation member 43 having a second fixing bolt 43c; It is installed on the second movable body (43b) of the second support installation member (43) and consists of a second support (44) on which the underground distribution line (L) is seated,

The fixing mechanism 50 includes a fastening body 51 that is detachably threadedly fastened to the left side of the second seating member 41 , and a connecting rod installed to the fastening body 51 so as to be idling in a clockwise or counterclockwise direction. (52) and a fixing base (53) installed on the connecting rod (52) and detachably installed on the inner wall of the manhole (1) of the electric power tool,

The earth leakage sensor 60 is installed in the first supporting mechanism 30, and when detecting electricity flowing through the first supporting mechanism 30, outputs an earth leakage detection signal,

It is composed of a plurality of circular inner grooves (P1) and a plurality of circular inner protrusions (P2) provided between the circular inner grooves (P1). P) installed inside, in a state in which the first and second seating members 31 and 41 are folded in a sector shape, it is possible to move left and right inside the corrugated pipe P, and the first and second seating members 31 and 41 are horizontal. In a state in which the first and second adhesion portions 32a and 42a of the first and second adhesion members 32 and 42 are respectively inserted in the circular inner groove portion P1 of the corrugated tube P, the left and right movement is restricted while the corrugated tube is spread in the direction It is characterized in that it is supported by (P).

The present invention according to means for solving the above problems, the support shaft 10, the fitting member 20, the first support mechanism 30, the second support mechanism 40, and the fixing mechanism (50) And, including the earth leakage sensor 60, it is possible to quickly check whether an earth leakage has occurred in the underground distribution line inside the corrugated pipe, and the first and second pedestals 30 and 40 for supporting the underground distribution line are safely fixed to the manhole of the electric power outlet. In accordance with the installation height of the underground distribution line, the underground distribution line can be safely supported inside the corrugated pipe, and the underground distribution line placed inside the corrugated pipe is conveniently installed to be spaced apart from the inner wall of the corrugated pipe to protect the underground distribution line from moisture accumulated on the inside of the corrugated pipe. has a protective effect.

1 is a view for explaining the prior art,
Figure 2 is a perspective view for explaining that the present invention is installed in the manhole of the power tool through the fixing mechanism,
3 is a perspective view for explaining the present invention,
4 is a perspective view for explaining the first and second movable bodies in the present invention;
5 is a partial side cross-sectional view for explaining the present invention,
Figure 6 is a view showing a part of Figure 5,
7 is a view taken along line X-X' of FIG. 5,
8 to 11 are views for explaining the operation of the present invention.

Hereinafter, the present invention will be described so that those skilled in the art can easily practice it.

Figure 2 is a perspective view for explaining that the present invention is installed in the manhole of the electric power tool through the fixing mechanism, Figure 3 is a perspective view for explaining the present invention, Figure 4 is the present invention to explain the first and second mobile body is a perspective view for, FIG. 5 is a partial side cross-sectional view for explaining the present invention, FIG. 6 is a view showing a part of FIG. 5, and FIG. 7 is a view taken along line X-X' of FIG. The configuration of the present invention will be described with reference to 7 as follows. On the other hand, in the present invention, the directionality of the configuration of the present invention will be described by taking the X-axis direction as the left-right direction in FIG. 3 , the Y-axis direction as the front-back direction in FIG. 3 , and the Z-axis direction as the vertical direction in FIG. 3 .

The underground distribution line support device according to the present invention includes a support shaft 10 , a fitting member 20 , a first support mechanism 30 , a second support mechanism 40 , a fixing mechanism 50 , and an electric leakage detection. Including the sensor 60, the underground distribution line (L) is installed inside the corrugated pipe.

As shown in FIGS. 2, 3, 5, and 6, the support shaft 10 has a circular pipe shape.

As shown in FIGS. 2, 3, 5, and 6, the fitting member 20 is inserted and installed on the support shaft 10, and the insertion rod (B) for movement for the movement of the support shaft 10 is provided. Removably press-fitted. In the present invention, the fitting member 20 is made of a pipe shape and made of an elastic material. On the other hand, in the present invention, the fitting member 20 is not provided and the insertion rod 50 for movement may be directly inserted and detached from the support shaft 10 .

As shown in FIGS. 2 to 7 , the first support mechanism 30 includes a first seating member 31 , a first adhesion member 32 , a first support installation member 33 , and a first A pedestal 34 is provided.

The first seating member 31 is rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction, and rotates only to a horizontal position when rotating in a counterclockwise direction, and is located in front of the support shaft 10 . . In the present invention, the first seating member 31 forms a bar shape.

The first attachment member 32 has a first attachment portion 32a and a first roller 32b, and is detachably installed on the first seating member 31 .

The first adhesion portion 32a is formed in a round gin shape and is inserted into the circular inner groove portion P1 of the corrugated pipe P below, and is clockwise or counterclockwise along the circular inner groove portion P1 of the corrugated tube P. and is detachably screwed to the first seating member 31 . In the present invention, the first attachment part 32a is detachably screwed to the first seating member 31 , but may be fixedly installed to the first seating member 31 .

The first roller 32b is rotatably installed on the first adhesion part 32a. In the present invention, it is preferable that a plurality of first rollers 32b are provided.

The first support mounting member 33 includes a first support 33a, a first movable body 33b, and a first fixing bolt 33c.

The first support 33a is formed to be opened in the left and right directions, and has a plurality of first fixing holes 33a1 arranged in the vertical direction. In the present invention, the first support (33a) forms a bar shape.

The first movable body 33b is formed to be opened in the left and right directions, has a first insertion hole 33b1 that can communicate with the first fixing hole 33a1, and is movable in the vertical direction on the first supporter 33a. inserted and installed.

The first fixing bolt 33c is screwed with the first fixing hole 33a1 and the first insertion hole 33b1 to fix the position of the first movable body 33b.

The first pedestal 34 is installed on the first movable body 33b of the first pedestal installation member 33 and the underground distribution line L is seated therein.

As shown in FIGS. 2 to 7 , the second support mechanism 40 includes a second seating member 41 , a second adhesion member 42 , a second support installation member 43 , and a second A pedestal 44 is provided.

The second seating member 41 has a left connection part 41a, a right connection part 41b, and a seating part 41c, and is positioned at the rear of the support shaft 10 .

The left connection part 41a is rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction, rotates only to a horizontal position when rotated in a clockwise direction, and is located to the left of the first seating member 31 . In the present invention, the left connecting portion (41a) forms a 'L' shape.

The right connection part 41b is opposite to the left connection part 41a, is located on the right side of the first seating member 31, and is rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction. When rotating, it rotates only to the horizontal position. In the present invention, the right connecting portion (41b) forms a 'L' shape.

The seating part 41c is connected to the left connection part 41a and the right connection part 41b, and is disposed on the same line as the first seating member 31 in the front-rear direction. In the present invention, the seating portion 41c forms a bar shape.

The second adhesion member 42 includes a second adhesion portion 42a and a second roller 42b.

The second adhesion portion 42a is formed in a round gin shape and is inserted into the circular inner groove portion P1 of the corrugated pipe P below, and is clockwise or counterclockwise along the circular inner groove portion P1 of the corrugated tube P. It is movable with a screw thread and is detachably fastened to the second seating member 41 . In the present invention, the second attachment portion 42a is detachably screwed to the second seating member 41 , but may be fixedly installed to the second seating member 41 .

The second roller 42b is rotatably installed on the second adhesion portion 42a. In the present invention, it is preferable that a plurality of second rollers 42b are provided.

The second support mounting member 43 includes a second support 43a, a second movable body 43b, and a second fixing bolt 43c.

The second support (43a) has a plurality of second fixing holes (43a1) formed to be opened in the left and right directions are arranged in the vertical direction. In the present invention, the second support (43a) forms a bar shape.

The second movable body 43b is formed to be opened in the left and right directions, has a second insertion hole 43b1 that can communicate with the second fixing hole 43a1, and is movable in the vertical direction on the second supporter 43a. inserted and installed.

The second fixing bolt 43c is screwed with the second fixing hole 43a1 and the second insertion hole 43b1 to fix the position of the second movable body 43b.

The second support 44 is installed on the second movable body 43b of the second support installation member 43, and the underground distribution line L is seated therein.

As shown in FIGS. 2, 3, and 7, the fixing mechanism 50 includes a fastening body 51 that is detachably threadedly fastened to the left side of the second mounting member 41, and a fastening body 51. and a connecting rod 52 which is installed to be idling in a clockwise or counterclockwise direction, and a fixing unit 53 that is installed on the connecting rod 52 and is detachably installed on the inner wall of the manhole 1 of the electric power tool. In the present invention, the connecting rod 52 and the fixing rod 53 form a bar shape, and the fixing rod 53 is rotatably installed in the connecting rod 52 in the horizontal direction. In addition, in the present invention, the fixing rod 53 is detachably bolted to the inner wall of the manhole 1 of the electric power tool. And in the present invention, the fixing rod 53 is rotatably installed on the connecting rod 52, but the fixing rod 53 and the connecting rod 52 may be fixedly connected to each other to form an 'L' shape. Meanwhile, in the present invention, the fixing mechanism 50 is installed on the second seating member 41 , but the fixing mechanism 50 is installed on the first seating member 31 or on both the first and second seating members 31 and 41 . They may be installed separately.

The earth leakage sensor 60, as shown in FIGS. 2 and 3, is installed on the first supporting mechanism 30, and when detecting electricity flowing through the first supporting mechanism 30, outputs an earth leakage detection signal. do. In the present invention, the earth leakage sensor 60 is installed on the first seating member 31 . In addition, in the present invention, the earth leakage detection signal from the earth leakage sensor 60 is transmitted to the external management center through a separate repeater installed in the manhole (1). Meanwhile, in the present invention, the earth leakage sensor 60 can be installed in various positions of the present invention.

The present invention including the above configuration is composed of a plurality of circular inner grooves (P1) and a plurality of circular inner protrusions (P2) provided between the circular inner grooves (P1), and a circular inner groove (P1) and The circular inner protrusion (P2) is installed inside the corrugated pipe (P) connected to each other, and in the state in which the first and second seating members (31, 41) are folded in a sector shape, it is possible to move left and right inside the corrugated pipe (P), the first , 2 The seating members 31 and 41 are spread out in the horizontal direction so that the first and second attachment portions 32a and 42a of the first and second attachment members 32 and 42 are in the circular inner groove portion P1 of the corrugated pipe P. In each inserted state, the left and right movement is limited and supported by the corrugated tube (P).

Meanwhile, in the present invention, although it has been described that one first support installation member 33 and one first support 34 are provided, a plurality of first support installation members 33 and first support 34 may be provided. And, although it has been described that one second support installation member 43 and one second support 44 are provided, a plurality of second support installation members 43 and second support 44 may be provided.

8 to 11 are diagrams for explaining the operation of the present invention, and with reference to Figs. 8 to 11, when the present invention is installed, the occurrence of an earth leakage check and the installation process of the present invention will be described as follows.

First, in a state in which the present invention is installed, when electricity flows through the first seating member 31 , the earth leakage sensor 50 detects it, and outputs an earth leakage detection signal as shown in FIG. 8 .

At this time, the separate management center receives the earth leakage detection signal, and the manager who confirms this excavates the point where the corrugated pipe (P) is buried and checks whether the underground distribution is stably performed inside the corrugated pipe (P). have.

On the other hand, the process of installing the present invention to the corrugated pipe (P) will be described as follows.

First, in the state in which the corrugated pipe (P) is disposed, the operator adjusts the upper and lower positions of the first and second supports (34, 44), and then press-inserts the insertion rod (B) for movement into the fitting member (20).

And, when the operator lifts the insertion rod (B) for movement and moves the support shaft 10 into the corrugated pipe (P) as shown in FIG. 9, the support shaft 10 and the underground distribution line (L) move into the corrugated pipe (P). While the support shaft 10 is located inside the left end of the corrugated pipe (P) as shown in FIG. At this time, the fixing unit 53 of the fixing mechanism 50 is located on the left side of the corrugated pipe (P).

Then, when the operator moves the insertion bar (B) for movement downward (refer to the direction of the arrow in FIG. 10), the first seating member 32 and the second seating member 42 are the circular shape of the corrugated pipe (P) as shown in FIG. The second roller 32b of the first seating member 32 and the second roller 42b of the second seating member 42 are in contact with the inner surface of the circular inner groove P1 while being inserted into the inner groove P1.

Subsequently, when the operator moves the insertion bar (B) for movement downward, the first seating member 32 rotates counterclockwise, and the second seating member 42 rotates clockwise while the first and second The seating members 32 and 42 are spaced apart (refer to the direction of the arrow in FIG. 11). At this time, the first and second seating members 32 and 42 are spread apart until they are arranged in the horizontal direction as shown in FIG. 5 , and the first and second supporting mechanisms 30 and 40 are supported by the corrugated pipe P.

In this state, the operator arranges the fixing rod 53 in the horizontal direction, and then bolts the fixing rod 53 to the inner wall of the manhole 1 of the electric power tool. Then, the present invention is fixed to the manhole (1) and the vertical movement is limited.

Thereafter, the underground distribution line (L) is drawn into the corrugated pipe (P) and then pulled out so that the underground distribution line (L) is seated on the first and second pedestals (34, 44), respectively. Then, the underground distribution line (L) is arranged to be spaced apart from the inner surface of the corrugated pipe (P).

In the present invention as described above, when an electric leakage occurs in the underground distribution line (L), an external manager can quickly check it, thereby facilitating a response to the occurrence of an electric leakage.

In addition, the present invention can be fixed to the manhole (1) of the electric power bulb, there is an effect that can be fixed more stably inside the corrugated pipe (P).

In addition, the present invention can adjust the height of the underground distribution line (L) by using the first and second support installation members (33, 43), the arrangement of the underground distribution line (L) in response to the underground distribution line (L) arrangement environment It has the effect of being able to adjust the height.

In addition, in the present invention, the underground distribution line (L) can be arranged to be spaced apart from the inner bottom surface of the corrugated pipe (P), and the underground distribution line (L) can be safely protected from moisture (water drops) formed on the inner surface of the corrugated pipe (P). there is an effect

In addition, the present invention, the first and second support mechanism (30,40) is folded and unfolded, the first and second support mechanism (30,40) is spread only to the extent that it is arranged in the horizontal direction, the present invention to the corrugated pipe (P) There is an effect that it can be easily installed on the corrugated pipe (P) while being easily inserted and removed. At this time, in the present invention, the first and second seating members 31 and 41 easily move the circular inner groove P1 of the corrugated pipe P by the first and second rollers 32a and 42a.

In addition, in the present invention, the first and second adhesive members 32 and 42 can be easily separated from the first and second seating members 31 and 41, so that the first and second rollers 32a and 42a are easily damaged. It has the effect of facilitating replacement.

In addition, the present invention, the present invention can be inserted into and removed from the corrugated pipe (P) by a simple method of inserting the insertion rod (B) for movement into the fitting member 20, there is a very convenient installation operation. At this time, in the present invention, when the first and second supporting mechanisms 30 and 40 are arranged in the horizontal direction, the first and second adhesion members 32 and 42 are inserted into the circular inner groove P1 of the corrugated pipe P, and the operator When the moving insertion bar (B) is moved to the left, the first and second adhesion members (32, 42) are caught on the circular inner protrusion (P2) of the corrugated pipe (P) and the moving insertion bar (B) is removed from the fitting member (20). easily separated

In addition, in the present invention, since the insertion rod for movement (B) is press-fitted into the fitting member 20, when the operator lifts and moves the insertion rod for movement (B), even if the insertion rod for movement (B) is slightly inclined, the insertion for movement Since the rod (B) is not easily separated from the fitting member 20, there is an effect that the present invention can be easily inserted and removed from the inside of the corrugated tube (P) through the insertion rod (B) for movement. And since the present invention is installed in the corrugated pipe (P), after installing the present invention in the corrugated pipe (P), when the movable insertion bar (B) is pulled to the left, the first and second adhesion members 32 and 42 are corrugated pipe (P) The insertion bar (B) for movement can be easily separated from the fitting member (20). Therefore, the fitting member 20 itself may have a general configuration, but has very effective functional characteristics when the fitting member 20 is applied to the present invention.

On the other hand, in the present invention, in that it further includes various configurations for underground distribution, such as a configuration for installing in the manhole 1 of an electric power outlet, in the structure for supporting the underground distribution line, the subject matter of the present invention is an underground distribution line supporting device. Define and define the name of the present invention as a functionally improved underground distribution line support device that is convenient to install in a power premises.

10: support shaft 20: fitting member
30: first support mechanism 31: first seating member
32: first adhesion member 33: first support installation member
34: first support 40: second support mechanism
41: second mounting member 42: second adhesion member
43: second support installation member 44: second support
50: fixing mechanism 51: fastener
52: connecting rod 53: fixing rod
60: earth leakage sensor P: corrugated tube
P1: Circular inner groove P2: Circular inner protrusion
B: Insert bar for moving

Claims (1)

An underground distribution line including a support shaft 10 , a fitting member 20 , a first support mechanism 30 , a second support mechanism 40 , a fixing mechanism 50 , and an earth leakage sensor 60 . In the support device,
The support shaft 10 forms a circular pipe shape,
The fitting member 20 is inserted and installed in the support shaft 10, and the insertion rod (B) for movement for the movement of the support shaft 10 is press-fitted to be detachably inserted, and made of a pipe-shaped elastic material,
The first supporting mechanism 30 is rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction, and rotates only to a horizontal position when rotating in a counterclockwise direction, and is located in front of the support shaft 10 . a first seating member 31; It is made in a round gin shape and is inserted into the circular inner groove P1 of the corrugated pipe P, and is movable in a clockwise or counterclockwise direction along the circular inner groove P1 of the corrugated pipe P, and a first seating member ( 31) a first adhesion member (32) having a first adhesion portion (32a) that is detachably threadedly fastened to the first adhesion portion (32a) and a first roller (32b) rotatably installed on the first adhesion portion (32a); A first support member 33a formed to open in the left and right direction and having a plurality of first fixing holes 33a1 arranged in the vertical direction, and a first which is formed to be opened in the left and right direction and communicated with the first fixing hole 33a1 A first movable body 33b having an insertion hole 33b1 and being movably inserted and installed in the first support 33a in the vertical direction, the first fixing hole 33a1 and the first insertion hole 33b1 are screwed together. a first pedestal mounting member 33 having a first fixing bolt 33c; It is installed on the first movable body (33b) of the first support installation member (33) and consists of a first support (34) on which the underground distribution line (L) is seated,
The second supporting mechanism 40 is rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction, rotates only to a horizontal position when rotated in a clockwise direction, and is located to the left of the first seating member 31 The 'L'-shaped left connection part 41a and the left connection part 41a are opposed to the right side of the first seating member 31 and are rotatably installed on the support shaft 10 in a clockwise or counterclockwise direction. When rotating clockwise, it is connected to the 'L'-shaped right connecting part 41b, which is rotated only to a horizontal position, and the left connecting part 41a and the right connecting part 41b, but on the same line with the first seating member 31 in the front-rear direction. a second seating member 41 positioned at the rear of the support shaft 10 and having a seating portion 41c disposed in the ; It is made in a round gin shape and is inserted into the circular inner groove P1 of the corrugated pipe P, and is movable in a clockwise or counterclockwise direction along the circular inner groove P1 of the corrugated pipe P, and a second seating member ( 41) a second adhesion member (42) having a second adhesion portion (42a) that is detachably threadedly fastened to the second adhesion portion (42a) and a second roller (42b) rotatably installed in the second adhesion portion (42a); A second support (43a) formed to open in the left and right direction and having a plurality of second fixing holes (43a1) arranged in the vertical direction, and a second support (43a) formed to open in the left and right direction and communicateable with the second fixing holes (43a1) A second movable body 43b having an insertion hole 43b1 and being movably inserted and installed in the second support 43a in the vertical direction, the second fixing hole 43a1 and the second insertion hole 43b1 are threaded together a second support installation member 43 having a second fixing bolt 43c; It is installed on the second movable body (43b) of the second support installation member (43) and consists of a second support (44) on which the underground distribution line (L) is seated,
The fixing mechanism 50 includes a fastening body 51 that is detachably threadedly fastened to the left side of the second seating member 41 , and a connecting rod that is installed to the fastening body 51 clockwise or counterclockwise idling. (52) and a fixing base (53) that is installed on the connecting rod (52) and is detachably installed on the inner wall of the manhole (1) of the electric power tool,
The earth leakage sensor 60 is installed in the first supporting mechanism 30, and when detecting electricity flowing through the first supporting mechanism 30, outputs an earth leakage detection signal,
It is composed of a plurality of circular inner grooves (P1) and a plurality of circular inner protrusions (P2) provided between the circular inner grooves (P1). P) installed inside, in a state in which the first and second seating members 31 and 41 are folded in a sector shape, it is possible to move left and right inside the corrugated pipe P, and the first and second seating members 31 and 41 are horizontal. In a state in which the first and second adhesion portions 32a and 42a of the first and second adhesion members 32 and 42 are respectively inserted in the circular inner groove portion P1 of the corrugated tube P, the left and right movement is restricted while the corrugated tube is spread in the direction (P) Underground distribution line support device, characterized in that supported by.

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