KR100840348B1 - Insulator fixation apparatus of over head line to distributing of high voltage - Google Patents

Abstract

An insulator fixation apparatus for supporting an over head distribution line of a lead-in pole is provided to prevent a damage of an insulator or connectors by supporting a bracket to rotate horizontally and vertically, and go forward and backward on both end surfaces of a support shaft. An insulator fixation apparatus for supporting an over head distribution line of a lead-in pole includes a crossarm(100), a bracket(200), and a connection rod(300). The bracket is fixed to be rotatable on a fixation shaft(A1) penetrating the crossarm and the bracket. The insulator fixation apparatus further includes a support shaft(400). The support shaft penetrates the crossarm and has a through-hole(410) into which the fixation shaft is inserted. The connection rod includes a first connector(320) and a second connector(330). A through-hole(231) of the bracket is inserted into the other end portion of the second connector. A first support(n1) is fixed to an end positioned in an inside of the bracket. A second support(n2) is fixed and a second elastic member(s2) for elasticizing the second support from an outer surface of the bracket is fixed to one point positioned outside the bracket.

Description

Insulator Fixation Apparatus of Over Head Line to Distributing of High Voltage}

The present invention relates to an inlet structure for supporting the distribution line of the liner to secure the insulator connected to the distribution line to support the distribution line.

In general, the inlet is provided with a finish for fixing the distribution line, as shown in Figure 1, the conventional structure for supporting the distribution line, the completion 100, the bracket is fixed while wrapping the completion 100 ( 200 and the insulator I is fixed at one end thereof and the other end is formed of a connecting rod 300 fitted through the bracket 200 to connect the insulator I to which the distribution line W is connected. It can be fixed to one end of the distribution line (W) can be constructed.

Here, the stub 100 is formed in a square pipe shape and is fixed in the horizontal direction to the upper front and rear surfaces of the entrance column.

In addition, the bracket 200 includes a front plate 210 and a side plate 220 extending rearward to cover the top and bottom surfaces of the finish 100 at upper and lower ends of the front plate 210 so as to surround the finish 100. As a whole, it is fixed so as not to be rotated by fixing members such as bolts b and nuts n while forming a recessed shape as a whole. The front plate 210 is curved when the connecting rod 300 is rotated so that the impact generated by the front plate 210 is dispersed. In addition, a through hole 211 is formed in the front plate 210 so that the connecting rod 300 is rotatably inserted.

In addition, the connecting rod 300, the locking projection 310 is formed at the other end, the locking projection 310 is inserted into the through hole 211 so as to be caught inside the bracket 200, one end The insulator I is connected and fixed. At this time, the connecting rod 300, because the engaging projection 310 of the other end is caught on the inner surface of the bracket 200 can be rotated in the up and down and left and right directions, when the distribution line (W) is swung by wind, etc., The connecting rod 300 and the insulator I are configured to be rotated in the vertical direction following the movement of the distribution line W around the locking protrusion 310.

By the way, such a distribution structure for supporting the distribution line, when the connecting rod 300 is rotated up and down following the swing of the distribution line (W), while pushing or pulling back and forth by the distribution line (W), the connection rod 300 Since the locking protrusion 310 repeatedly collides with the bracket 200, an impact is applied to the connecting rod 300 and the insulator I, which may damage the insulator I and each connection unit.

The present invention has been made to solve the above problems, and the object of the present invention is to provide an inlet structure for supporting the distribution line of the inlet line is prevented from damaging the insulator or each connection by the impact generated by the connection rod hit the bracket. have.

The present invention for solving the above problems, a pull fixed to the inlet, a bracket that is fixed while wrapping the finish, the inlet is fixed to the insulator at one end and the other end is inserted with a connecting rod fitted through the bracket Attention in the complete structure for supporting the distribution line, the bracket is rotatably fixed around the fixed shaft penetrating the bracket and the bracket, the fixed shaft through hole of the bracket through which the fixed shaft penetrates protruded outwardly The fixed shaft is formed larger than the diameter of the fixed shaft so as to be flowable, and is tubular with a through hole into which the fixed shaft is inserted, and the fixed shaft is inserted, and both end surfaces thereof are curved to contact the circumference of the fixed shaft through-hole. A support shaft formed to slide is further included, and the connection rod rotates around the first connecting rod fixed to the insulator, and the first connecting rod and the rotating shaft. It is made of a second connection that is securely fixed, the other end of the second connector is fixed in the through hole of the bracket, but the first support is fixedly placed on the end located inside the bracket and the second support from the inner surface of the bracket At a point where the first elastic member is disposed and positioned outside the bracket, a second support is fixedly arranged while a second elastic member is fixedly arranged to volatilize the second support from the outer surface of the bracket.

The present invention is supported so that the bracket can be rotated up and down, left and right along the end surface of the support shaft to move forward and backward, and even if the distribution line swings, the connecting rod and the insulator are rotated at the same time, including the bracket, so as to insulator or each connecting portion The damage of the effect is reduced.

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

Figure 2 is a side cross-sectional view showing a complete structure for supporting the distribution line of the inlet.

At this time, the stub 100 is composed of a square pipe of a solid material is installed in the horizontal direction on the upper front and rear surfaces of the inlet.

In addition, the bracket 200 according to the present invention includes a front plate 230 and a side plate 240 extending rearward to cover the top and bottom surfaces of the finish 100 at the top and bottom ends of the front plate 230. It is arranged to surround the complete 100 while forming a depressed form as a whole. In addition, a through hole 231 is formed in the front plate 230 so that the connecting rod 300 is rotatably inserted. In addition, the side plate 240 is rotatably fixed around the stationary shaft A1 penetrating the complete 100 and the bracket 200, and the side plate 240 is fixed to the fixed shaft A1. The fixed shaft through hole 241 is formed in a portion through which the through), and the circumferential portion 241a surrounding the circumference of the fixed shaft through hole 241 is curved to protrude outward. On the other hand, the diameter of the fixed shaft through-hole 241 is formed larger than the diameter of the fixed shaft A1 so that the fixed shaft A1 can flow up, down, left and right.

The connecting rod 300 includes a first connecting rod 320 fixed to the insulator I, and a second connecting rod 330 rotatably fixed around the first connecting rod 320 and the rotation shaft A2. ) In this case, the other end of the second connecting rod 330 is inserted into and fixed to the through hole 231 of the bracket 200, and the first support base n1 is fixedly disposed at the end positioned inside the bracket 200. Then, the first elastic member (s1) is arranged to force the second support (n2) from the inner surface of the bracket 200. In addition, the second support member n2 is fixedly disposed at one point positioned outside the bracket 200, and the second elastic member s2 elastically supports the second support member n2 from the outer surface of the bracket 200. It is fixedly placed. On the other hand, the other end of the second connecting rod 330, a screw thread is formed is screwed and fixed to the first and second support (n1, n2). Here, the first and second elastic members s1 and s2 are ordinary springs, are supported by the first and second support members n1 and n2, and are extended or contracted according to the rotation of the connecting rod 300, thereby connecting the connecting rod. Absorbs the shock to the 300. Then, at both ends of the first and second elastic members s1 and s2, the locking plates (not drawn out) are respectively provided so that the first and second elastic members s1 and s2 are elastic and are not fitted into the through holes 231. 2 is fitted to the connecting rod (330).

The support shaft 400 is tubular having a through hole 410 into which the fixed shaft A1 is inserted. In this case, the through hole 410 has a diameter sufficient to allow the fixed shaft A1 to be inserted therethrough. Both end surfaces 420 and 430 of the support shaft 400 are curved to slide while being in contact with the circumferential portion 241a of the fixed shaft through hole 241. Therefore, the bracket 200 is smoothly rotated along both end surfaces 420 and 430 of the support shaft 400 during rotation.

Here, the fixed shaft A1 is formed of a bolt (b) and a nut (n) having a sufficient length to penetrate the support shaft 400 to be exposed to the bracket 200. At this time, the diameter of the bolt (b) head and nut (n) is formed sufficiently wider than the fixed shaft through hole 241, it is natural that the fixed shaft through hole 241 is not caught.

Referring to Figures 2, 3 and 4 the operation of the distribution structure supporting the distribution line supporting the inlet line as described above in detail as follows.

As shown in FIG. 2, the complete structure for supporting the distribution line of the pulling line according to the present invention is installed so that the elastic force of the first and second elastic members s1 and s2 is balanced in front and rear of the front plate 230. The side plate 240 and the finishing 100 of the bracket 200 are installed to be parallel.

However, when a force pushing or pulling upward or downward in the distribution line is generated due to a strong wind or the like, as shown in FIG. 3, the circumferential portions 241a of the bracket 200 are provided at both end surfaces 420 and 430 of the support shaft 400. While contacting, it slides up and down.

In addition, even if the rotational direction of the distribution line is sharply changed, the circumferential portion 241a of the bracket 200 is smoothly rotated while contacting both end surfaces 420 and 430 of the support shaft 400 and at the same time, the direction is easily changed. There is an advantage that the twist of the 200) is prevented.

Then, when the power line is pushed or pulled in the left and right direction, as shown in Figure 4, the circumferential portion (241a) of the bracket 200 is left and right while contacting both end surfaces (420,430) of the support shaft 400 It is slid in the direction and rotated.

In addition, when a force for pulling the distribution line forward is generated, as shown in FIGS. 3 and 4, the first elastic member s1 is contracted and the second elastic member s2 is tensioned to provide the bracket 200. Since the length of the second connecting rod 330 positioned inside of the bracket is adjusted, the shock applied to each connection portion of the bracket 200 and the connecting rod 300 is alleviated.

In addition, when the distribution line vibrates severely up and down, the degree of rotation of the distribution line is relatively small as compared with the bracket 200 being rotated up and down, and thus there is a possibility of bending of the connecting rod 300. Here, the connecting rod 300 is formed of a hard metal such as steel, the insulator (I) is formed of a relatively weak fraud, if the insulator (I) is installed in the bent portion of the connecting rod 300, the connecting rod ( As the 300 is bent, breakage of the relatively weak insulator I is caused. However, the connecting rod 300 of the pulling structure for supporting the distribution line of the liner according to the present invention is separated into the first connecting rod 320 and the second connecting rod 330, and can be rotated about the pivot shaft A2. It is fixed so that the moment is applied to the rotating shaft (A2) has the advantage that the insulator (I) is not damaged.

1 is a side cross-sectional view showing a completed structure for supporting the distribution line of the conventional inlet,

2 and 3 is a side cross-sectional view showing a complete structure for supporting the distribution line of the incoming line in accordance with the present invention,

Figure 4 is another plan view showing the complete structure for supporting the distribution line of the liner according to the present invention.

Explanation of the main parts of the accompanying drawings

100: complete, 200: bracket,

210: front plate, 211: through hole,

220: side plate, 221: fixed shaft through hole,

230: front panel, 231: through-holes,

240: side plate, 241: fixed shaft through hole,

241a: circumference, 300: connecting rod,

310: locking projection, 320: the first connecting rod,

330: second connecting rod, 400: support shaft,

410: through hole, 420,430: both ends,

A1: fixed shaft, A2: rotating shaft,

I: Insulator, b: Bolt, n: Nut,

n1, n2: first and second supports, s1, s2: first and second elastic members.

Claims (1)

Finish 100 is fixed to the inlet, the bracket 200 is fixed while wrapping the complete 100, the insulator (I) is fixed to one end and the other end is inserted through the bracket 200 In the finishing structure for the supporting line of distribution line with 300, The bracket 200 is rotatably fixed around the stationary shaft A1 penetrating the complete 100 and the bracket 200, and the fixed shaft through hole of the bracket 200 through which the fixed shaft A1 penetrates. 241 is formed to be larger than the diameter of the fixed shaft (A1) so that the circumferential portion (241a) is bent outwardly protruding and the fixed shaft (A1) is flowable, A tubular shape having a through hole 410 through which the fixed shaft A1 is inserted and inserted through the finish 100, and both end surfaces 420 and 430 are curved to form a circumferential portion 241 a of the fixed shaft through hole 241. It further includes a support shaft 400 formed to slide while contacting, The connecting rod 300 is a first connecting rod 320 fixed to the insulator I, and a second connecting rod 330 rotatably fixed around the first connecting rod 320 and the rotation shaft A2. The other end of the second connector 330 is inserted and fixed in the through hole 231 of the bracket 200, the first support (n1) is fixedly disposed at the end located inside the bracket 200, The first elastic member (s1) is arranged to elastically the second support (n2) from the inner surface of the bracket 200, the second support (n2) is fixedly arranged at one point located outside the bracket (200) The second structure (2) is a rigid structure for supporting the distribution line of the incoming line, characterized in that the second elastic member (s2) is fixed to the elastic support from the outer surface of the bracket (200).

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