KR101706697B1 - Equipment adjusting the height of the mounting bracket of lightning arrester - Google Patents

Abstract

The present invention relates to an apparatus for adjusting a height of a mounting bracket of a lightning arrester for distribution and transformation, capable of grounding electricity which flows inside a power conduit pipe (T). The apparatus for adjusting a height of a mounting bracket of a lightning arrester for distribution and transformation includes: supporters (C1, C2, C3, C4); the mounting bracket (H) which is combined with any one among the respective supporters (C1, C2, C3, C4); the lightning arrester (I) which is installed in the mounting bracket (H) to move left and right; a ground line (J); and a transmitter which receives an electric leakage sensing signal and wirelessly transmits the electric leakage sensing signal to the outside. Therefore, the present invention can protect an electrical facility by grounding the electricity when the electricity of a high voltage flows in the power conduit pipe (T) through a manhole.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mounting bracket height adjusting device for a lightning arrester,

The present invention relates to a height adjusting device for mounting brackets, and more particularly, to a mounting bracket height adjusting device, which is electrically connected to a power cable, between a power cable and a power cable or between a power cable and a power cable, The present invention relates to a mounting bracket height adjustment device for a power distribution and surge arrester capable of grounding high-voltage electricity when a user enters a power hole through a manhole cover and adjusting the position for convenience in a manhole.

Generally, electricity generated by a power plant is supplied to a substation through a transmission cable. The electricity from the substation is supplied to another substation or distribution facility through an exclusive cable. It is supplied to another distribution facility or customer through a dedicated cable.

In this case, the electric power supplied through the transmission cable and the distribution cable is supplied through the processing line or the underground line. The method of installing the air line (processing line) is based on consideration of the workability, the construction cost, There is an advantage that it is much more economical than the buried method (underground line), but the construction can be simplified. However, in places where buildings are very dense, such as in urban areas, it is not only difficult to install them, but also there is a problem of damaging the surrounding landscape after installation. In recent years, the displacement cable and the distribution cable are disposed through the electric power source.

At this time, the displacement cable or the distribution cable disposed in the electric power section is electrically connected to each other through the connection mechanism at a certain point of the electric power source, or between the transmission cables, The closer to the manhole, the more convenient the maintenance work.

However, when the connection point between the cables is close to the manhole of the power hole, when trees or the like around the manhole are hit by lightning, high-voltage electricity is transmitted to the manhole cover around the tree, To the connection mechanism for connecting the cables, so that the connection mechanism is damaged or the electrical equipment electrically connected to the connection mechanism is damaged.

However, in the past, there has been a need for a technique for stably protecting the electric equipment when electric power of high voltage due to the lightning strike on the ground is transmitted to the inside of the electric power source while performing an electric connection function between the electric wires. to be.

Korean Patent No. 10-0643124

In order to solve the above-mentioned problem, the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a high-voltage electric power generating device, which is embedded in an electric power source and electrically connected between a distribution cable and a distribution cable, And a height adjusting device for a mounting bracket of a power distribution and distribution arrester capable of grounding high-voltage electricity when the power source enters the power hole through the manhole cover and adjusting the position of the power source for convenience during work in a manhole. .

According to an aspect of the present invention,

A mounting bracket height adjusting device for a power distribution and surge arrester for grounding electricity flowing into a power socket (T)

In the mounting bracket height adjusting device of the power distribution and surge arrester,

C2, C3, and C4 installed at the upper portion of the electric power tool T and provided next to the power hole T and next to the manhole M,

A mounting bracket H threadably coupled to any one of the supports C1, C2, C3, and C4,

A lightning arrester (I) movably mounted to the mounting bracket (H) in the left and right directions;

A grounding line J, one end of which is detachably connected to the lightning arrester I and the other end is connected to the ground through the power port T,

And a transmitter (D) installed outside the entrance of the manhole (M) for receiving an electric leakage detection signal from the electric leak detecting sensor (F) and radiating it to the outside,

(11, 11 ') which is opened to the left and a right side which is provided to the right of the first opening (11, 11') and communicates with the first opening (11, 11 ' (12, 12 ') having a width larger than that of the first and second openings (11, 11') and slide portions (13, 13 ') opened to the right and communicating with the second openings (12, 12' , First through holes (14, 14 ') formed to pass through the front ends of the first supports (10, 10') in the vertical direction, and second through holes A first support body made of an insulating material having a first through-hole and a second through-hole formed thereon, and a screw portion and a screw portion formed in the left end of the first support body, 10, 10 ');

(21, 21 ') which is opened to the right and a second opening (21, 21') provided to the left of the first opening (21, 21 ') and communicating with the first opening (23, 23 ') which is opened to the left and whose lower portion is in communication with the second openings (22, 22'). The second opening (22, 22 ' A first penetration part 24 and 24 'formed so as to penetrate in a vertical direction on the front end of the second support body 20 and 20' and a second penetration part 24 and 24 'penetrating in the vertical direction on the rear end of the second support body 20 and 20' (20, 20 ') having an insulating material having a second penetration part (25, 25') formed on the right end of the second support body (20) and a screw part (26, 26 ' ')Wow;

(31a, 31a ') which is opened to the left and into which the first and second left underground cables (L1a, L1b) from the left side of the first support body (10, 10' And a second opening (12, 12 ') of the first support (10, 10') extending from the first connection part (31, 31 ') and having a width larger than that of the first connection part (30, 30 ') having a second connection part (32, 32') inserted into the first connection part (12, 12 ');

(41a, 41a ') which is opened to the right and into which the first and second right underground cables (L2a, L2b) are inserted from the right side of the first support body (20, 20' (41, 41 ') and a second opening (22, 22') of the second support body (20, 20 ') which is larger than the first connection portion , A second connecting member (40, 40 ') made of a conductive material having a second connecting portion (42, 42') inserted into the first connecting member (22, 22 '

51a1 'provided in the sliding members 51 and 51', first openings 51a2 and 51a2 'opened downward at the left ends of the receiving portions 51a1 and 51a1' First mounting portions 51a and 51a 'having second openings 51a3 and 51a3' open downward at right ends of the accommodating portions 51a1 and 51a1 ', and first and second mounting portions 51a and 51b' A first opening 51b2 and a second opening 51b2 'which are opened downward at left ends of the receiving portions 51b1 and 51b1', a second opening 51b2 and 51b2 'provided in the receiving portion 51b1' 51b1 'and second mounting portions 51b, 51b' provided in front of the first mounting portions 51a, 51a 'are provided with second openings 51b3, 51b3' 51c1 and 51c1 'provided in the sliding members 51 and 51' and first openings 51c2 and 51c2 provided at the left ends of the receiving portions 51c1 and 51c1 ' 51c2 ', and the right end of the accommodating portion 51c1, 51c1' 51c 'provided at the rear of the first mounting portions 51a, 51a' and second mounting portions 51c, 51c 'provided at the front ends of the sliding members 51, 51' Or fourth mounting portions 51d and 51d which are formed in the central portion of the rear end in the vertical direction and are formed forward of the second mounting portions 51b and 51b 'or behind the third mounting portions 51c and 51c' And the first and second mounting portions 51b and 51b 'so as to communicate with the fourth mounting portions 51d and 51d', respectively, at the front end or the rear end of the sliding members 51 and 51 ' Or sliding members 51 and 51 'made of an insulating material having sensing element mounting portions 51e and 51e' formed behind the third mounting portions 51c and 51c '; Insertion bars 52a and 52a 'provided in the receiving portions 51a1 and 51a1' of the first installation portions 51a and 51a 'and insertion bars 52a and 52b' provided at the left ends of the insertion bars 52a and 52a ' The first projecting bars 52b and 52b are inserted into the first openings 51a2 and 51a2 'of the first and second connectors 51 and 51a' and contact the second connecting portions 32 and 32 ' And the second connection members 40 and 52a 'provided at the right ends of the insertion bars 52a and 52a' and inserted into the second openings 51a3 and 51a3 'of the first installation portions 51a and 51a' A first barrel 52, 52 'of lead material with a second protruding bar 52c, 52c' in contact with the second connection 42, 42 'of the first barrel 40'; Insertion bars 53a and 53a 'provided in the receiving portions 51b1 and 51b1' of the first and second mounting portions 51b and 51b 'and second insertion portions 53a and 53b' provided on the left ends of the insertion bars 53a and 53a ' First protruding bars 53b and 53b 'inserted into the first openings 51b2 and 51b2' of the first and second openings 51b and 51b 'and first and second protrusions 53b and 53b' provided at the right ends of the insert bars 53a and 53a ' A second tubular member 53, 53 'made of lead material having second projecting bars 53c, 53c' inserted into the second openings 51b3, 51b3 'of the portions 51b, 51b'; Insertion bars 54a and 54a 'provided in the receiving portions 51c1 and 51c1' of the third installation portions 51c and 51c 'and insertion bars 54a and 54b' provided on the left ends of the insertion bars 54a and 54a ' The first projecting bars 54b and 54b 'inserted into the first openings 51c2 and 51c2' of the first and second openings 51c and 51c 'and the first and second projecting bars 54b and 54b' provided at the right ends of the insertion bars 54a and 54a ' And a third tubular body 54 and 54 'made of lead material and having second projecting bars 54c and 54c' inserted into the second openings 51c3 and 51c3 'of the first and second leg portions 51c and 51c' When the members 51 and 51 'are pushed forward or rearward of the sliding members 51 and 51', the first and second communicating tubes 52 and 52 'and the first and second connecting bodies 30 and 30' , So that the second tubular member 53 or 53 'or the third tubular member 54 or 54' is brought into contact with the first or second connecting member 30, 30 ', 40 or 40' A connecting mechanism 50, 50 'in which the first barrel 52, 52' and the second barrel 53, 53 'and the third barrel 54, 54' are spaced apart from each other;

The screw portions 16, 16 ', 26 and 26' of the first and second supports 10 and 10 'and the second supports 20 and 20' have spring receiving portions 61a and 61a ' And a pressing portion 62 which is movably installed in the spring receiving portions 61a and 61a 'and whose one end protrudes in one direction to abut the sliding members 51 and 51' And 63 'that are received in the spring receiving portions 61a and 61a' and push the pressing portions 62 and 62 'toward the sliding members 51 and 51' The pressing members 60 and 60 'provided on the screw portions 16, 16', 26 and 26 'of the first and second supporting members 20 and 20'

The first left underground cable L1a and the first right underground cable L2a are provided in the first connecting mechanism A and the second left underground cable L1b and the first right underground cable L2b are provided in the first connecting mechanism A, And the second right underground cable L2b are connected to the first and second connecting mechanisms A and A 'provided in the second connecting mechanism A'

Are inserted into the sensing element mounting portions 51e and 51e 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ' )Wow:

Are provided on the fourth mounting portions 51d and 51d 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ', respectively, and are electrically connected to the sensing element E, (F) for detecting an electric current flowing through the electric power source (E) and sending a leakage detection signal to the transmitter (D) and the indicator (G)

Is installed below the electric leak detecting sensor F and is provided at the fourth mounting portions 51d and 51d 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ' When a light leakage detection signal is received from the detection sensor (F), a display light (G) for emitting light downward and:

The upper end of the first connecting mechanism A is connected to the first penetrating portion 14 of the first supporting body 10 of the first connecting mechanism A and the second penetrating portion 15 of the first supporting body 10 of the first connecting mechanism A, 1 is positioned below the second penetrating portion 24 of the second supporting member 20 of the connecting mechanism A and the second penetrating portion 25 of the second supporting member 20 of the first connecting mechanism A. [ The lower end of the second connecting mechanism A is provided at the lower portion of the first supporting member 10 of the first connecting mechanism A and the lower portion of the second supporting member 20 of the first connecting mechanism A, The first penetrating portion 14 'of the first supporting body 10' and the second penetrating portion 15 'of the first supporting body 10' of the second connecting mechanism A ' Of the second supporting body 20 'of the second connecting mechanism A' and the second penetrating portion 25 'of the second supporting body 20' of the second connecting mechanism A ' B2a, B3a, B4a (B1a, B2a, B3a, B4a) respectively provided on the upper portion of the first support body 10 'of the second connecting mechanism A' and the upper portion of the second support body 20 ' )and;

And the lower end of the first connecting mechanism A is connected to the first penetrating portion 14 of the first supporting body 10 of the first connecting mechanism A and the first connecting mechanism 14 of the first connecting mechanism A, The first penetrating portion 24 of the second supporting body 20 of the first connecting mechanism A and the first penetrating portion 24 of the first supporting mechanism 10 of the first connecting mechanism A First wires B1b, B2b, B3b, and B4b respectively passing through the second penetration portions 25 of the second support body 20 and inserted into the respective springs B1a, B2a, B3a, and B4a;

B2c, B3c, B4c respectively installed at the lower ends of the respective first wires B1b, B2b, B3b, B4b and inserted into the respective springs B1a, B2a, B3a, B4a;

B2a, B3a, B4a of the second connecting mechanism (A ') and the lower end thereof is inserted into each of the springs (B1a, B2a, B3a, B4a) (15 ') of the first support (10') of the second connecting mechanism (A ') and the second penetrating portion (15') of the second connecting mechanism (A ' 2 passing through the first penetration portion 24 'of the support body 20' and the second penetration portion 25 'of the second support body 20' of the second connecting mechanism A ' , B2d, B3d, B4d);

A supporting member 10 'disposed on the lower end of each of the second wires B1d, B2d, B3d and B4d and disposed below the first supporting body 10' and the second supporting body 20 'of the second connecting mechanism A' (B1e, B2e, B3e, B4e)

B2, B3, and B4, respectively,

And further comprising:

The present invention is advantageous in that when electricity of high pressure flows through the manhole M to the power tool T, the electricity can be grounded to the ground, thereby stably protecting the electrical equipment inside the power tool T .

In addition, the present invention has an advantage in that the operator can change the positions of the mounting bracket H and the arrester I when the operator performs a maintenance operation in the power tool T, thereby allowing the operator to conveniently carry out the work .

When the external force is applied to the power tool T, the first connecting mechanism A and the second connecting mechanism A 'are connected to the springs B1a and B2a of the supporting mechanisms B1, B2, B3 and B4 , B3a, and B4a to prevent the first connecting mechanism (A) and the second connecting mechanism (A ') from being damaged by the external force.

The present invention is also applicable to the first and second connecting mechanisms (A, A ') in which a problem (overcurrent flows) Of the first and second connecting mechanisms A and A 'is longer than the use period of the first and second tubes 52 and 52' of the first and second connecting mechanisms A and A ' It is possible to conveniently locate the second barrel members 53 and 53 'of the connecting mechanisms A and A' or the third barrel members 54 and 54 'of the first and second connecting mechanisms A and A' There is an advantage that the energization of the line can be continuously performed.

1 is a view showing that the present invention is installed in a power port connected to a manhole,
Fig. 2 is a view for explaining a support of the present invention,
3 is a view for explaining that a lightning arrester is installed on a support of the present invention,
4 is a sectional view taken along the line gg in Fig. 3,
Fig. 5 is a view showing a part of Fig. 1,
6 is a plan sectional view for explaining the first connecting mechanism and the second connecting mechanism of the same structure of the present invention,
Fig. 7 is a sectional view taken along the line aa in Fig. 6,
8 is a cross-sectional view taken along line bb and cc in Fig. 6,
9 is a cross-sectional view taken along line dd and ee in Fig. 6,
10 is a sectional view taken along the line ff in Fig. 6,
11 is a view for explaining a support mechanism according to the present invention,
12 is a view for explaining that the first tubular member, the second tubular member and the third tubular member are provided on the sliding member according to the present invention,
13 is a view for explaining a side surface of the first and second connecting mechanisms of the present invention,
Figs. 14 to 23 are diagrams for explaining the operation of the present invention,
24 is a view for explaining another application example of 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.

FIG. 2 is a view for explaining a support of the present invention, FIG. 3 is a view for explaining that a lightning arrester is installed in a support of the present invention, and FIG. FIG. 4 is a sectional view taken along the line gg of FIG. 3, FIG. 5 is a view showing a part of FIG. 1, FIG. 6 is a plan sectional view for explaining a first connecting mechanism and a second connecting mechanism of the same structure of the present invention, 6 is a cross-sectional view taken along the line bb and cc in Fig. 6, Fig. 9 is a cross-sectional view taken along line dd and ee in Fig. 6, FIG. 11 is a view for explaining a supporting mechanism according to the present invention, and FIG. 12 is a view for explaining that a first cylinder, a second cylinder and a third cylinder are installed in a sliding member according to the present invention And Fig. 13 is a view for explaining the operation of the first and second connecting mechanisms of the present invention A diagram illustrating a side, will be described the structural features of the present invention will be described with reference to Figure 13. Figure 1 to the following:

The mounting bracket height adjusting device of the lightning arrester for grounding the electricity flowing into the electric power supply T comprises a supporting bracket C1, C2, C3, C4, a mounting bracket H, a lightning arrester I, The grounding line J and the transmitter D while the first and second connecting mechanisms A and A ', the sensing element E, the electrical leak detecting sensor F, the indicator lamps G, , And support mechanisms (B1, B2, B3, B4).

The supports C1, C2, C3, and C4 are installed in the upper portion of the electric power tool T, respectively, and are provided beside the power tool T and the manhole M that is connected thereto.

The mounting bracket H is threadedly coupled to any one of the support rods C1, C2, C3, and C4 to form a panel shape.

The lightning arrester (I) is mounted on the mounting bracket (H) so as to be movable in the lateral direction.

One end of the ground wire J is detachably connected to the lightning arrester I and the other end is connected to the ground through the power port T. [ In this embodiment, the ground wire J is connected to the ground through the upper portion of the power socket T, but may be connected to the ground through the lower portion of the power socket T.

The transmitter D is installed outside the entrance of the manhole M, receives a leakage detection signal from the leakage detection sensor F, and wirelessly transmits it to the outside.

The first and second connecting mechanisms A and A 'are connected to the first and second supporting bodies 10 and 10', the second supporting bodies 20 and 20 ', the first connecting bodies 30 and 30' And the first left underground cable L1a and the second left underground cable L1a and the second left underground cable L1a and the second left underground cable L1a The first right underground cable L2a is installed in the first connecting mechanism A and the second left underground cable L1b and the second right underground cable L2b are installed in the second connecting mechanism A '.

The first support 10 and 10 'includes first openings 11 and 11' opened to the left and second openings 11 and 11 'provided to the right of the first openings 11 and 11' (12, 12 ') communicating with the first and second openings (11, 11') and larger than the first openings (11, 11 ' , First through holes (14, 14 ') formed to pass through the front ends of the first supports (10, 10') in the vertical direction, 15 'formed so as to penetrate in the vertical direction at the rear end of the first support body 10, 10' and a second penetration portion 15, 15 'formed at the rear end of the first support body 10, 10' 16 '). The first support 10, 10 'is made of an insulating material.

The first and second supporting members 20 and 20 'have first and second openings 21 and 21' opened to the right and first and second openings 21 and 21 ' (22, 22 ') communicating with the first and second openings (21, 21') and larger than the first and second openings (21, 21 ' A first penetration part 24 and 24 'formed so as to penetrate in the vertical direction on the front end of the second support body 20 and 20' and a second penetration part 24 and 24 ' And 25 'formed so as to penetrate in the vertical direction at the rear end of the second support body 20 and screw portions 26 and 26' formed to open at the right end of the second support body 20 in the right direction, . The second supports 20 and 20 'are made of an insulating material.

The first connectors 30 and 30 'are open in the left direction and inserted into the first and second supporting members 10 and 10', respectively, from which the first and second left underground cables L1a and L1b are inserted. (31, 31 ') having a width larger than that of the first connecting portions (31, 31') and extending from the first connecting portions (31, 31 ' (32, 32 ') inserted into the second openings (12, 12') of the support (10, 10 '). The first and second connecting members 30 and 30 'are made of a conductive material.

The second connectors 40 and 40 'are opened in the right direction and are inserted into the first and second support members 20 and 20', respectively, from which the first and second right underground cables L2a and L2b are inserted, (41, 41 ') having a width larger than that of the first connecting portions (41, 41') and extending from the first connecting portions (41, 41 ' And second connecting portions 42 and 42 'inserted into the second openings 22 and 22' of the supports 20 and 20 '. The second connectors 40 and 40 'are made of a conductive material.

The connecting mechanism 50 and 50 'includes sliding members 51 and 51', a first tubular member 52 and 52 ', a second tubular member 53 and 53' 54, 54 ').

The sliding members 51 and 51 'include first and second mounting portions 51a and 51a', second mounting portions 51b and 51b ', third mounting portions 51c and 51c' (51d, 51d '), and sensing element mounting portions (51e, 51e'), and is made of an insulating material.

The first mounting portions 51a and 51a 'include receiving portions 51a1 and 51a1' provided in the sliding members 51 and 51 'and receiving portions 51a1 and 51a1' provided on the left ends of the receiving portions 51a1 and 51a1 ' And second openings 51a3 and 51a3 'which are opened downward at the right ends of the accommodating portions 51a1 and 51a1'. The first openings 51a2 and 51a2 '

The second mounting portions 51b and 51b 'are provided with a receiving portion 51b1 and 51b1' provided inside the sliding members 51 and 51 'and a receiving portion 51b1 and 51b1' provided on the left end of the receiving portions 51b1 and 51b1 ' And second openings 51b3 and 51b3 'which are opened downward at the right ends of the accommodating portions 51b1 and 51b1', respectively, so that the first openings 51b2 and 51b2 ' And is provided in front of the mounting portions 51a and 51a '.

The third mounting portions 51c and 51c 'are formed by the receiving portions 51c1 and 51c' provided in the sliding members 51 and 51 'and the left and right receiving portions 51c1 and 51c1' And second openings 51c3 and 51c3 'which are opened downward at the right ends of the receiving portions 51c1 and 51c1', respectively, so that the first openings 51c2 and 51c2 ' And is provided behind the mounting portions 51a and 51a '.

The fourth mounting portions 51d and 51d 'are formed so as to pass through the center of the front end or the rear end of the sliding members 51 and 51' in the vertical direction and are formed forward of the second mounting portions 51b and 51b ' Are formed behind the third mounting portions 51c and 51c '.

The sensing element mounting portions 51e and 51e 'are formed so as to penetrate laterally at the front end or the rear end of the sliding members 51 and 51' so as to communicate with the fourth mounting portions 51d and 51d ' 51b, 51b 'or behind the third mounting portions 51c, 51c'.

The first barrel 52 and 52 'includes insertion bars 52a and 52a' installed in the receiving portions 51a1 and 51a1 'of the first mounting portions 51a and 51a' And 52a 'and inserted into the first openings 51a2 and 51a2' of the first mounting portions 51a and 51a ', and the second connecting portions 32 and 32' of the first connecting members 30 and 30 ' 52b 'which are provided at the right end of the insertion bar 52a, 52a' and in which the second openings 51a3, 51a 'of the first installation portions 51a, 51a' And second projecting bars 52c and 52c 'inserted into the first and second connecting members 40 and 40' and contacting the second connecting portions 42 and 42 'of the second connecting members 40 and 40'. In addition, the first barrel 52, 52 'is made of a conductive material, and is preferably made of lead or tin in this embodiment.

The second barrel members 53 and 53 'have insertion bars 53a and 53a' provided in the receiving portions 51b1 and 51b1 'of the second mounting portions 51b and 51b' First protruding bars 53b and 53b 'provided at the left ends of the first and second mounting portions 51b and 51b' and inserted into the first openings 51b2 and 51b2 'of the second mounting portions 51b and 51b' And second projecting bars 53c and 53c 'provided at the right ends of the second mounting portions 51b and 51b' and inserted into the second openings 51b3 and 51b3 'of the second mounting portions 51b and 51b'. The second tubular members 53 and 53 'are made of a conductive material and are preferably made of lead or tin in this embodiment.

The third barrel 54 and 54 'includes insertion bars 54a and 54a' installed in the receiving portions 51c1 and 51c1 'of the third installation portions 51c and 51c' 54b 'inserted into the first openings 51c2, 51c2' of the third installation portions 51c, 51c 'and the first projecting bars 54b, 54b' provided at the left ends of the insertion holes 54a, 54a ' 54c 'inserted into the second openings 51c3, 51c3' of the third mounting portions 51c, 51c ', respectively. The third cylinder 54, 54 'is made of a conductive material and is preferably made of lead or tin in this embodiment.

The connecting mechanisms 50 and 50 'may be formed by sliding the sliding members 51 and 51' forward or rearward of the sliding members 51 and 51 ' The second tubular member 53 or 53 'or the third tubular member 54 or 54' is connected to the first or second connecting member (or third connecting member) before the first and second connecting members 30, 30 ', 40 and 40' The first tubular member 52 and 52 'and the second tubular member 53 and 53' and the third tubular member 54 and 54 'are disposed apart from each other so as to be in contact with the first and second tubular members 30, 30', 40 and 40 ' .

The pressing members 60 and 60 'are provided with spring receiving portions 61a and 61a' which are opened in one direction so that the first and second supporting members 10 and 10 ' (61, 61 ') threadably engaged with the spring receiving portions (61, 61'), one end of which is protruded in one direction, And a spring 62 which is received in the spring receiving portions 61a and 61a 'and pushes the pressing portions 62 and 62' toward the sliding members 51 and 51 ' 16 ', 26, 26' of the first support 10, 10 'and the second support 20, 20'.

The sensing element E is inserted into the sensing element mounting portions 51e and 51e 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ' do. The sensing element E is made of a conductive material.

The electric leak detecting sensor F is installed on the fourth mounting portions 51d and 51d 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ' To sense the electric current flowing through the sensing element E and to transmit a leakage detection signal to the transmitter D and the indicator light G. [

The indicator light G is provided to the fourth mounting portions 51d and 51d 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ' , And when the leakage detection signal is received from the leakage detection sensor F, the light is emitted downward. In this embodiment, the indicator lamp G has its own battery.

The support mechanisms B1, B2, B3 and B4 are connected to the first wires B1b, B2b, B3b and B4b and the emergency supports B1c, B2c, B3c and B4c, B2d, B3d, and B4d, and supports B1e, B2e, B3e, and B4e.

The upper ends of the springs B1a, B2a, B3a and B4a of the supporting mechanisms B1, B2, B3 and B4 are connected to the first penetrating portion 14 of the first supporting body 10 of the first connecting mechanism A, And the first penetrating portion 24 of the second support body 20 of the first connecting mechanism A and the second penetrating portion 24 of the first supporting body 10 of the first connecting mechanism A, The lower portion of the first supporting member 10 of the first connecting mechanism A and the lower portion of the first connecting mechanism A of the first connecting mechanism A are positioned so as to be positioned below the second penetrating portion 25 of the second support body 20 of the mechanism A, And the lower end of the second connecting mechanism A 'is provided at the lower portion of the second supporting body 20 and the lower end of the first connecting portion 14' of the first supporting body 10 ' Of the second support body 20 'of the second connecting mechanism A' and the first through-hole 24 'of the second support body 20' and the second connecting mechanism A 'of the first support body 10' The upper portion of the first supporting body 10 'of the second connecting mechanism A' and the upper portion of the second connecting mechanism A 'are positioned so as to be positioned above the second penetrating portion 25' of the second supporting body 20 ' ') Of the second support body 20'.

The upper ends of the first wires B1b, B2b, B3b and B4b are respectively provided on the upper portions of the supports C1, C2, C3 and C4 and the lower ends of the first wires B1b, B2b, B3b and B4b are connected to the first supports 10 of the first connecting mechanism A and the second penetrating portion 15 of the first supporting body 10 of the first connecting mechanism A and the second penetrating portion 15 of the second supporting body 20 of the first connecting mechanism A B2a, B3a, and B4a of the second supporting body 20 of the first connecting mechanism A through the first through-hole 24 and the second through-hole 25 of the second supporting body 20 of the first connecting mechanism A, do. In this embodiment, the first wires B1b, B2b, B3b, and B4b may be of a steel wire type or a wire type.

The emergency supporters B1c, B2c, B3c and B4c are respectively installed at the lower ends of the first wires B1b, B2b, B3b and B4b and are inserted into the respective springs B1a, B2a, B3a and B4a, do.

The upper ends of the second wires B1d, B2d, B3d and B4d are respectively installed on the emergency supports B1c, B2c, B3c and B4c, and the lower ends thereof are connected to the respective springs B1a, B2a, B3a and B4a, Of the first supporting body 10 'of the second connecting mechanism A' and the second through-hole 14 'of the second supporting body 10' of the second connecting mechanism A ' Of the second supporting body 20 'of the second connecting mechanism A' and the first penetrating portion 24 'of the second supporting body 20' of the second connecting mechanism A ' Through portion 25 ', respectively. In this embodiment, the second wires B1d, B2d, B3d, and B4d may be of a wire type or a wire type.

The supports B1e, B2e, B3e and B4e are provided at the lower ends of the respective second wires B1d, B2d, B3d and B4d and are connected to the first supporting body 10 ' 2 support body 20 ', respectively.

Figs. 14 to 23 are diagrams for explaining the operation of the present invention, and the operation of the present invention will be described with reference to Figs. 14 to 23. Fig.

The mounting bracket height adjusting device according to the present invention is characterized in that the height adjusting device of the lightning arrester has a structure in which the electric equipment is protected during a lightning stroke by being electrically connected between a distribution cable and a distribution cable, And the position where the leakage occurs when an electrical leak occurs at the electrical connection between the cables.

First, the mounting bracket height adjustment device of the present embodiment, which is disposed in the power port T, includes first and second left underground cables L1a and L1b on the left side of the first and second connecting mechanisms A and A ' And the first and second right underground cables L2a and L2b are connected to the right side of the first and second connecting mechanisms A and A '.

The present invention, which is installed as shown in FIG. 1, has a tree around a manhole M as shown in FIG. 14, and when a tree is hit by a lightning strike or a manhole (M) Electricity may flow directly into the ground, but high-voltage electricity may flow into the power source T through the manhole M.

At this time, according to the present invention, the high-voltage electricity flowing into the electric power supply T is grounded to the ground by the lightning arrester I and the grounding line J so that the first and second connection mechanisms A and A ' 2 Electrical equipment connected to the left underground cables (L1a, L1b) and the first and second right underground cables (L2a, L2b) is not damaged.

15, when the operator operates the inside of the power tool T to repair the first and second connection mechanisms A and A 'or other electrical equipment, The position of the mounting bracket H and the arrester I can be shifted as shown in FIG. 16, thereby facilitating the operation. At this time, if the operator disconnects the ground wire J from the lightning arrester I and then moves the mounting bracket H in the vertical direction, the ground wire J is not twisted to the support C1. Then, the operator moves the mounting bracket (H) and connects the lightning arrester (I) with the ground wire (J).

1, a problem arises in the insulating function of the first and second connection mechanisms A and A ', or water flows into the first and second connection mechanisms A and A' When electric current flows to the surfaces of the sliding members 51 and 51 'of the first and second connection mechanisms A and A' due to a short circuit, electricity of the sliding members 51 and 51 ' Flows.

At this time, when the electric leak detecting sensor F senses electricity flowing in the sensing body E, it sends a leakage detection signal to the transmitter D and the indicator light G as shown in Figs.

Then, the indicator G emits light downward as shown in Figs. 17 and 18, and displays the positions of the first and second connecting mechanisms A and A 'where the electrical leak occurs.

Further, the transmitter D informs the external management center of the fact that a short circuit is occurring in the first and second connecting mechanisms (A, A ').

At this time, when the manager of the management center enters the power tool T through the manhole M, the manager confirms the positions of the first and second connecting mechanisms A and A ' Thereby allowing quick access to the first and second connecting mechanisms A and A 'where a short circuit has occurred.

The present invention is also applicable to the first and second connecting mechanisms (A, A ') in which a problem (overcurrent flows) The first left underground cable L1a and the first right underground cable L1a through the first barrel 52 of the first connecting mechanism A exceed the service life of the first barrel 52 and 52 ' The electrical connection between the cables L2a is unstable or the electrical connection between the second left underground cable L1b and the second right underground cable L2b through the first barrel 52 'of the second connecting mechanism A' The position of the sliding member 51 of the first and second connecting mechanisms A and A 'is changed so that the electrical connection between the first left underground cable L1a and the first right underground cable L2a, The second left underground cable L1b and the second right underground cable L2b can be electrically connected stably.

For example, as shown in Fig. 19, when the sliding member 51 of the first connecting mechanism A is pushed rearward and the sliding member 51 of the first connecting mechanism A is moved as shown in Fig. 20, The first tubular main body 52 of the first connecting mechanism A moves in the same position as the first tubular body 52 of the first connecting mechanism A and the first left underground cable L1a and the first right sub- The electrical connection between the underground cables L2a is continuously performed.

19, when the sliding member 51 of the first connecting mechanism A is pushed to the rear of the sliding member 51, the first connecting member A of the first connecting mechanism A Before the first and second connecting members 30 and 40 of the first connecting mechanism A are separated from the first connecting mechanism A, The sliding contact of the sliding member 51 of the first connecting mechanism A with the first connecting member A is prevented because the first connecting member A is in contact with the connecting member 30, The second tubular member 53 of the first connecting mechanism A is moved in the first connecting state A in a state where the electrical connection between the first left underground cable L1a and the first right underground cable L2a is continued, It can be brought into contact with the first and second connecting members 30 and 40 of the mechanism A.

In this embodiment, before the first barrel 52 of the first connecting mechanism A and the first and second connecting bodies 30 and 40 of the first connecting mechanism A are separated from each other, The first tubular member 52 of the first connecting mechanism A is moved so that the second tubular member 53 of the first connecting mechanism A contacts the first and second connecting members 30 and 40 of the first connecting mechanism A. [ Of the first connecting mechanism A and the second tubular member 53 of the first connecting mechanism A are spaced apart from each other, The second barrel 53 of the first connecting mechanism A is brought into contact with the first and second connecting bodies 30 and 40 of the first connecting mechanism A after the connecting bodies 30 and 40 are separated from each other, The first tubular member 52 of the first connecting mechanism A and the second tubular member 53 of the first connecting mechanism A may be spaced apart from each other.

21, when the sliding member 51 of the first connecting mechanism A is pushed backward, the fastening portion 61 of the pressing body 60 of the first connecting mechanism A is moved laterally The pushing portion 62 of the pressing body 60 of the first connecting mechanism A can be moved in the first direction by the first connecting mechanism A by pushing the sliding member 51 of the first connecting mechanism A backward, The sliding member 51 of the first connecting mechanism A is pressed against the pressing member 60 of the first connecting mechanism A by the spring 63 of the pressing member 60 of the connecting mechanism A. Therefore, The sliding member 51 of the first connecting mechanism A moves backward even if it is pushed rearward without moving the fastening portion 61 of the first connecting mechanism A. [

When the first connecting mechanism (A) and the second connecting mechanism (A ') are swung up and down as shown in Fig. 22 due to an earthquake or an external impact applied to the electric power source T, The first connecting mechanism A and the second connecting mechanism A 'are buffered to each other by the springs B1a, B2a, B3a and B4a of the first connecting mechanism A, B1, B2, B3 and B4, And the second connecting mechanism (A '). The first wires B1b, B2b, B3b, and B4b are connected to the first and second connecting mechanisms A and A 'in order to stably fix the first connecting mechanism A and the second connecting mechanism A' And the second wires B1d, B2d, B3d, and B4d are formed of a steel wire type coated with an insulating material and the buffering effect is improved even when the first connecting mechanism A and the second connecting mechanism A ' The first wires B1b, B2b, B3b, and B4b and the second wires B1d, B2d, B3d, and B4d may be of a flexible string type.

The present invention is also applicable to a case where the spring B1a, B2a, B3a, B4a of the support mechanisms B1, B2, B3, B4 has a problem in the resilient force and the first connecting mechanism A contacts the springs B1a, B2a B3a and B4a and moves downward as shown in FIG. 23, the first connecting mechanism A is engaged with the emergency supports B1c, B2c, B3c and B4c, 2 connecting mechanism A 'does not collide.

In the meantime, although two underground cable lines are connected in this embodiment, the present invention can be modified as in FIG. 24 to connect underground cable lines even if the number of underground cable lines is increased. In addition, this embodiment is applicable to a submerged underground cable or a submerged underground cable when connecting an underground cable.

As described above, according to the present invention, when high-voltage electricity flows through the manhole M to the power tool T, the electricity can be grounded to the ground, and the electric equipment inside the power tool T can be stably protected There is an advantage to be able to do.

In addition, the present invention has an advantage in that the operator can change the positions of the mounting bracket H and the arrester I when the operator performs a maintenance operation in the power tool T, thereby allowing the operator to conveniently carry out the work .

The present invention also provides a method for quickly informing an external manager of a short circuit at a point of connection between electric cables buried in the ground through a power port T, So that it is possible to speed up the action according to the short circuit.

When the external force is applied to the power tool T, the first connecting mechanism A and the second connecting mechanism A 'are connected to the springs B1a and B2a of the supporting mechanisms B1, B2, B3 and B4 , B3a, and B4a to prevent the first connecting mechanism (A) and the second connecting mechanism (A ') from being damaged by the external force.

The present invention is also applicable to the first wires B1b, B2b, B3b, B3b of the support mechanisms B1, B2, B3, B4 on the springs B1a, B2a, B3a, B4a of the support mechanisms B1, B2, B2b, B3, and B4 of the support mechanisms B1, B2, B3, and B4 are inserted into the first wires B1b, B2d, B3d, B4d of the support mechanisms B1, B2, B2b, B3b and B4b of the support mechanisms B1, B2, B3 and B4 and the second wires B1d, B2d, B3d and B4d of the support mechanisms B1, B2a, B3a, and B4a of the support mechanisms B1, B2, B3, and B4 can be stably compressed and restored when the first, second, and third support mechanisms B3a, B4a are compressed and restored.

The present invention is also applicable to the first and second connecting mechanisms (A, A ') in which a problem (overcurrent flows) Of the first and second connecting mechanisms A and A 'is longer than the use period of the first and second tubes 52 and 52' of the first and second connecting mechanisms A and A ' It is possible to conveniently locate the second barrel members 53 and 53 'of the connecting mechanisms A and A' or the third barrel members 54 and 54 'of the first and second connecting mechanisms A and A' There is an advantage that the energization of the line can be continuously performed.

In the meantime, in the present invention, the electrical equipment connected to the distribution cable or the cable for exclusive use is protected through the lightning arresters and the height of the lightning arresters is adjusted. The mounting bracket height adjustment device of the present invention is characterized in that the electrical connection structure between the power distribution cable and the power distribution cable (or between the power transmission cable and the power transmission cable) and the cushioning structure .

M; Manhole T; Electric power
C1, C2, C3, C4; Support D; transmitter
E; Sensing element F; Leakage detection sensor
G; Indicator lights H; Mounting bracket
I; Arrester J; Ground wire
A, A '; First and second connecting mechanisms 10 and 10 '; The first support
20,20 '; Second support 30, 30 '; The first connector
40, 40 '; A second connector 50, 50 '; Connection mechanism
60,60 '; Pressure bodies B1, B2, B3, B4; Support mechanism

Claims (1)

A mounting bracket height adjusting device for a power distribution and surge arrester for grounding electricity flowing into a power socket (T)
In the mounting bracket height adjusting device of the power distribution and surge arrester,
C2, C3, and C4 installed at the upper portion of the electric power tool T and provided next to the power hole T and next to the manhole M,
A mounting bracket H threadably coupled to any one of the supports C1, C2, C3, and C4,
A lightning arrester (I) movably mounted to the mounting bracket (H) in the left and right directions;
A grounding line J, one end of which is detachably connected to the lightning arrester I and the other end is connected to the ground through the power port T,
And a transmitter (D) installed outside the entrance of the manhole (M) for receiving an electric leakage detection signal from the electric leak detecting sensor (F) and radiating it to the outside,
(11, 11 ') which is opened to the left and a right side which is provided to the right of the first opening (11, 11') and communicates with the first opening (11, 11 ' (12, 12 ') having a width larger than that of the first and second openings (11, 11') and slide portions (13, 13 ') opened to the right and communicating with the second openings (12, 12' , First through holes (14, 14 ') formed to pass through the front ends of the first supports (10, 10') in the vertical direction, and second through holes A first support body made of an insulating material having a first through-hole and a second through-hole formed thereon, and a screw portion and a screw portion formed in the left end of the first support body, 10, 10 ');
(21, 21 ') which is opened to the right and a second opening (21, 21') provided to the left of the first opening (21, 21 ') and communicating with the first opening (23, 23 ') which is opened to the left and whose lower portion is in communication with the second openings (22, 22'). The second opening (22, 22 ' A first penetration part 24 and 24 'formed so as to penetrate in a vertical direction on the front end of the second support body 20 and 20' and a second penetration part 24 and 24 'penetrating in the vertical direction on the rear end of the second support body 20 and 20' (20, 20 ') having an insulating material having a second penetration part (25, 25') formed on the right end of the second support body (20) and a screw part (26, 26 '')Wow;
(31a, 31a ') which is opened to the left and into which the first and second left underground cables (L1a, L1b) from the left side of the first support body (10, 10' And a second opening (12, 12 ') of the first support (10, 10') extending from the first connection part (31, 31 ') and having a width larger than that of the first connection part (30, 30 ') having a second connection part (32, 32') inserted into the first connection part (12, 12 ');
(41a, 41a ') which is opened to the right and into which the first and second right underground cables (L2a, L2b) are inserted from the right side of the first support body (20, 20' (41, 41 ') and a second opening (22, 22') of the second support body (20, 20 ') which is larger than the first connection portion , A second connecting member (40, 40 ') made of a conductive material having a second connecting portion (42, 42') inserted into the first connecting member (22, 22 '
51a1 'provided in the sliding members 51 and 51', first openings 51a2 and 51a2 'opened downward at the left ends of the receiving portions 51a1 and 51a1' First mounting portions 51a and 51a 'having second openings 51a3 and 51a3' open downward at right ends of the accommodating portions 51a1 and 51a1 ', and first and second mounting portions 51a and 51b' A first opening 51b2 and a second opening 51b2 'which are opened downward at left ends of the receiving portions 51b1 and 51b1', a second opening 51b2 and 51b2 'provided in the receiving portion 51b1' 51b1 'and second mounting portions 51b, 51b' provided in front of the first mounting portions 51a, 51a 'are provided with second openings 51b3, 51b3' 51c1 and 51c1 'provided in the sliding members 51 and 51' and first openings 51c2 and 51c2 provided at the left ends of the receiving portions 51c1 and 51c1 ' 51c2 ', and the right end of the accommodating portion 51c1, 51c1' 51c 'provided at the rear of the first mounting portions 51a, 51a' and second mounting portions 51c, 51c 'provided at the front ends of the sliding members 51, 51' Or fourth mounting portions 51d and 51d which are formed in the central portion of the rear end in the vertical direction and are formed forward of the second mounting portions 51b and 51b 'or behind the third mounting portions 51c and 51c' And the first and second mounting portions 51b and 51b 'so as to communicate with the fourth mounting portions 51d and 51d', respectively, at the front end or the rear end of the sliding members 51 and 51 ' Or sliding members 51 and 51 'made of an insulating material having sensing element mounting portions 51e and 51e' formed behind the third mounting portions 51c and 51c '; Insertion bars 52a and 52a 'provided in the receiving portions 51a1 and 51a1' of the first installation portions 51a and 51a 'and insertion bars 52a and 52b' provided at the left ends of the insertion bars 52a and 52a ' The first projecting bars 52b and 52b are inserted into the first openings 51a2 and 51a2 'of the first and second connectors 51 and 51a' and contact the second connecting portions 32 and 32 ' And the second connection members 40 and 52a 'provided at the right ends of the insertion bars 52a and 52a' and inserted into the second openings 51a3 and 51a3 'of the first installation portions 51a and 51a' A first barrel 52, 52 'of lead material with a second protruding bar 52c, 52c' in contact with the second connection 42, 42 'of the first barrel 40'; Insertion bars 53a and 53a 'provided in the receiving portions 51b1 and 51b1' of the first and second mounting portions 51b and 51b 'and second insertion portions 53a and 53b' provided on the left ends of the insertion bars 53a and 53a ' First protruding bars 53b and 53b 'inserted into the first openings 51b2 and 51b2' of the first and second openings 51b and 51b 'and first and second protrusions 53b and 53b' provided at the right ends of the insert bars 53a and 53a ' A second tubular member 53, 53 'made of lead material having second projecting bars 53c, 53c' inserted into the second openings 51b3, 51b3 'of the portions 51b, 51b'; Insertion bars 54a and 54a 'provided in the receiving portions 51c1 and 51c1' of the third installation portions 51c and 51c 'and insertion bars 54a and 54b' provided on the left ends of the insertion bars 54a and 54a ' The first projecting bars 54b and 54b 'inserted into the first openings 51c2 and 51c2' of the first and second openings 51c and 51c 'and the first and second projecting bars 54b and 54b' provided at the right ends of the insertion bars 54a and 54a ' And a third tubular body 54 and 54 'made of lead material and having second projecting bars 54c and 54c' inserted into the second openings 51c3 and 51c3 'of the first and second leg portions 51c and 51c' When the members 51 and 51 'are pushed forward or rearward of the sliding members 51 and 51', the first and second communicating tubes 52 and 52 'and the first and second connecting bodies 30 and 30' , So that the second tubular member 53 or 53 'or the third tubular member 54 or 54' is brought into contact with the first or second connecting member 30, 30 ', 40 or 40' A connecting mechanism 50, 50 'in which the first barrel 52, 52' and the second barrel 53, 53 'and the third barrel 54, 54' are spaced apart from each other;
The screw portions 16, 16 ', 26 and 26' of the first and second supports 10 and 10 'and the second supports 20 and 20' have spring receiving portions 61a and 61a ' And a pressing portion 62 which is movably installed in the spring receiving portions 61a and 61a 'and whose one end protrudes in one direction to abut the sliding members 51 and 51' And 63 'that are received in the spring receiving portions 61a and 61a' and push the pressing portions 62 and 62 'toward the sliding members 51 and 51' The pressing members 60 and 60 'provided on the screw portions 16, 16', 26 and 26 'of the first and second supporting members 20 and 20'
The first left underground cable L1a and the first right underground cable L2a are provided in the first connecting mechanism A and the second left underground cable L1b and the first right underground cable L2b are provided in the first connecting mechanism A, And the second right underground cable L2b are connected to the first and second connecting mechanisms A and A 'provided in the second connecting mechanism A'
Are inserted into the sensing element mounting portions 51e and 51e 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ' )Wow:
Are provided on the fourth mounting portions 51d and 51d 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ', respectively, and are electrically connected to the sensing element E, (F) for detecting an electric current flowing through the electric power source (E) and sending a leakage detection signal to the transmitter (D) and the indicator (G)
Is installed below the electric leak detecting sensor F and is provided at the fourth mounting portions 51d and 51d 'of the sliding members 51 and 51' of the first and second connecting mechanisms A and A ' When a light leakage detection signal is received from the detection sensor (F), a display light (G) for emitting light downward and:
The upper end of the first connecting mechanism A is connected to the first penetrating portion 14 of the first supporting body 10 of the first connecting mechanism A and the second penetrating portion 15 of the first supporting body 10 of the first connecting mechanism A, 1 is positioned below the second penetrating portion 24 of the second supporting member 20 of the connecting mechanism A and the second penetrating portion 25 of the second supporting member 20 of the first connecting mechanism A. [ The lower end of the second connecting mechanism A is provided at the lower portion of the first supporting member 10 of the first connecting mechanism A and the lower portion of the second supporting member 20 of the first connecting mechanism A, The first penetrating portion 14 'of the first supporting body 10' and the second penetrating portion 15 'of the first supporting body 10' of the second connecting mechanism A ' Of the second supporting body 20 'of the second connecting mechanism A' and the second penetrating portion 25 'of the second supporting body 20' of the second connecting mechanism A ' B2a, B3a, B4a (B1a, B2a, B3a, B4a) respectively provided on the upper portion of the first support body 10 'of the second connecting mechanism A' and the upper portion of the second support body 20 ')and;
And the lower end of the first connecting mechanism A is connected to the first penetrating portion 14 of the first supporting body 10 of the first connecting mechanism A and the first connecting mechanism 14 of the first connecting mechanism A, The first penetrating portion 24 of the second supporting body 20 of the first connecting mechanism A and the first penetrating portion 24 of the first supporting mechanism 10 of the first connecting mechanism A First wires B1b, B2b, B3b, and B4b respectively passing through the second penetration portions 25 of the second support body 20 and inserted into the respective springs B1a, B2a, B3a, and B4a;
B2c, B3c, B4c respectively installed at the lower ends of the respective first wires B1b, B2b, B3b, B4b and inserted into the respective springs B1a, B2a, B3a, B4a;
B2a, B3a, B4a of the second connecting mechanism (A ') and the lower end thereof is inserted into each of the springs (B1a, B2a, B3a, B4a) (15 ') of the first support (10') of the second connecting mechanism (A ') and the second penetrating portion (15') of the second connecting mechanism (A ' 2 passing through the first penetration portion 24 'of the support body 20' and the second penetration portion 25 'of the second support body 20' of the second connecting mechanism A ' , B2d, B3d, B4d);
A supporting member 10 'disposed on the lower end of each of the second wires B1d, B2d, B3d and B4d and disposed below the first supporting body 10' and the second supporting body 20 'of the second connecting mechanism A' (B1e, B2e, B3e, B4e)
B2, B3, and B4, respectively,
Further comprising a mounting bracket height adjusting device for the power distribution and surge arrester.

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