JP2004364442A - Jumper device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To effectively prevent transverse oscillation of a jumper line. <P>SOLUTION: This is the jumper device for connecting a transmission line formed by a bundle conductor provided in tensioned state on both the left and right sides respectively at the center of a transmission line steel tower. In this jumper device, the jumper line of the jumper device is constituted by the bundle conductor, the respective jumper lines are retained with a spacer to keep a prescribed interval, and a support device supported on the transmission line side of an insulator set of which the upper end side supports the transmission line at the transmission line steel tower is provided. This jumper device also has a fixing fixture of which the upper end side is supported at the lower end of the support device, a clamp for supporting the jumper line corresponding to the upper line of the transmission line is connected, and the lower end side is connected with the clump for supporting the jumper line corresponding to the lower line of the transmission line and a reinforcement line disposed between the fixing fixture and the spacer. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a jumper device, and more particularly, to a jumper device having a multi-conductor structure capable of effectively preventing lateral swing of the jumper device.
[0002]
[Prior art]
Conventionally, jumper devices have been provided with jumper supporting devices on tension insulators provided on the right and left sides of the arm of the transmission line tower, and with a rigid horizontal member provided at the lower end of the jumper supporting device, and a jumper on the horizontal member. It is configured with a line attached (see Patent Document 1). In addition, the jumper device using this horizontal member is large in size, so to avoid this, in order to avoid this, only the jumper line located on the upper line among the jumper lines at the lower part of both jumper support devices is gripped and located on the underline. A jumper device for lifting a jumper wire by a spacer has also been proposed (see Patent Document 2).
[0003]
[Patent Document 1]
Japanese Utility Model Publication No. 60-51725 [Patent Document 2]
JP 2001-231139 A
[Problems to be solved by the invention]
However, in the above-mentioned conventional jumper device, when the jumper device is reduced in weight, a lateral swing, in a direction orthogonal to the extension direction of a so-called jumper wire of the jumper device, and a swing caused by a wind blowing in a horizontal direction become large. In order to keep the insulation distance between the jumper device and the transmission line tower at a predetermined distance, it is necessary to lengthen the arm, so that there is a disadvantage that the transmission line tower becomes large.
[0005]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described drawbacks, and an object of the present invention is to provide a jumper device which is less likely to sway.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the jumper device according to the present invention connects a transmission line composed of multiple conductors that are respectively stretched on both left and right sides centering on a transmission line tower. A jumper device, wherein jumper wires of the jumper device are formed of multiple conductors, each jumper wire is held by a spacer for keeping a predetermined interval, and an upper end side supports the transmission line to the transmission line tower. In a jumper device having a supporting device supported on the transmission line side of the insulator device, an upper end is supported by a lower end of the supporting device, and a clamp supporting a jumper wire corresponding to an upper line of the transmission line is connected, A lower end has a fixture connected to a clamp that supports a jumper line corresponding to the underline of the transmission line, and a reinforcing wire disposed between the fixture and the spacer. It is characterized by a door.
[0007]
In order to achieve the above object, the jumper device according to the present invention, according to the second aspect of the present invention, connects a transmission line composed of multiple conductors stretched on both right and left sides of a transmission line tower. A jumper device, wherein jumper wires of the jumper device are formed of multiple conductors, each jumper wire is held by a spacer for keeping a predetermined interval, and an upper end side supports the transmission line to the transmission line tower. In a jumper device having a supporting device supported on the transmission line side of the insulator device, an upper end is supported by a lower end of the supporting device, and a clamp supporting a jumper wire corresponding to an upper line of the transmission line is connected, The lower end side has a fixing bracket connected to a clamp that supports a jumper wire corresponding to the underline of the transmission line, and a weight provided on the fixing bracket, That.
A jumper device according to a third aspect of the present invention is characterized in that a reinforcing wire is disposed between the fixing bracket and the spacer.
A jumper device according to a fourth aspect of the present invention is characterized in that the reinforcing wire is provided rotatably with respect to the fixing bracket around a direction orthogonal to the direction in which the jumper wire extends.
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1A and 1B show a jumper device according to an embodiment. FIG. 1A is a front view of a left half centered on a transmission line tower (not shown), and FIG. (A) is an enlarged sectional view taken along line X1-X1, and (c) is a right side view of (b) of FIG. In addition, the right half centering on the transmission line tower is configured symmetrically with FIG.
[0009]
In the figure, L1 to L4 are transmission lines composed of four conductors, and the transmission lines L1 to L4 are arranged so as to be located at the vertices of a square when viewed from the direction of extension of the transmission line. . Among these transmission lines, the transmission lines L1 and L2 are upper lines located on the upper side, and the transmission lines L3 and L4 are lower lines located on the lower side.
[0010]
These power transmission lines L1 to L4 include clamps C1 to C4, connecting fittings K1 to K4, a fixed yoke Y for four-conductor double-strength tension, a connecting fitting K0, two insulator trains B1, B2, and connecting fittings K5, They are connected to arms A of a transmission line tower (not shown) via K6.
[0011]
In the figure, J1 to J4 are jumper lines, and among these jumper lines J1 to J4, jumper lines J1 and J2 correspond to the upper transmission lines L1 and L2, respectively, and the remaining jumper lines J3 and J3. J4 corresponds to the underlined transmission lines L3 and L4, respectively. These jumper wires J1 to J4 are also arranged so as to be located at the vertices of a square, similarly to the transmission lines L1 to L4 (see FIG. 1B). That is, these jumper lines J1 to J4 are positioned at the apex positions of the above-mentioned squares by four hanging-type clamps 20a to 20d described later and a plurality of spacers S provided at predetermined intervals. I have. The spacer S will be described later in detail.
[0012]
The support device 1 has one end (upper end) connected to the fixed yoke Y and the other end (lower end) connected to the fixing bracket 10. The support device 1 includes a plurality of connecting fittings 2, 2... Provided on the fixed yoke Y side, and a ladder fitting 3 whose upper end is connected to the lowermost connecting fittings 2 of the connecting fittings 2, 2,. , A plurality of connecting fittings 4, 4... Connected to the lower end of the ladder fitting 3. The lowermost I-shaped connection fittings 4 of the connection fittings 4, 4,... Are rotatably connected to the clevis portion 11 of the fixing fitting 10 via a support shaft composed of a cotter pin (cotter bolt) or the like. I have.
[0013]
As shown in FIGS. 1B and 1C, the fixing bracket 10 has an upper piece 10a for supporting upper jumper lines J1 and J2, and a lower piece for supporting lower jumper lines J3 and J4. It has a piece 10b and a connecting piece 10c for connecting the upper piece 10a and the lower piece 10b.
[0014]
The upper piece 10a has a clevis portion 11 for supporting the I-shaped connection fittings 4 at the lower portion of the support device 1 at the center upper portion. It has clamp receiving parts 12a and 12b, respectively. A lower clevis portion 11 'is provided on the lower side of the upper piece 10a opposite to the clevis portion 11 so that the I-shaped connecting piece 10c can be rotatably connected via a support shaft. It is configured. On both left and right sides of the connecting piece 10c, reinforcing wire support portions 40 for rotatably supporting reinforcing wires made of steel strands are provided, which will be described in detail after a description of the entire jumper device. I do.
[0015]
The lower piece 10b has a clevis portion 10b 'for rotatably connecting the lower portion of the connection piece 10c via a support shaft at the upper center, and keeps a predetermined equidistant left and right sides on the clevis portion 10b'. And has concave receiving portions 12c and 12d, respectively. The size of the upper piece 10a, the lower piece 10b, and the connection piece 10c is such that the positions of the jumper wires J1 to J4 fixed by the suspension type clamps 20a to 20d provided in the respective clamp receiving portions 12a to 12d are a predetermined square. Is determined to be the vertex position.
[0016]
Since the suspension clamps 20a to 20d have the same shape, the clamp 20a will be described below with reference to FIGS. 2 (a) and 2 (b). In FIG. 1B, the clamps 20b and 20d are provided on the clamp receiving portions 12b and 12d, respectively, while maintaining a symmetrical relationship with the clamps 20a and 20c.
[0017]
FIG. 2A is a front view of the clamp 20a as viewed from the direction in which the jumper wire J1 extends, and FIG. 2B is a right side view of FIG. 2A. The clamp 20a has a receiving portion 30 having a concave groove 30a on the upper surface for mounting the jumper wire J1, and a concave groove 31a for receiving the upper portion of the jumper wire J1 mounted on the receiving portion 30. The receiving portion 30 and the cover portion 31 are fixed by fasteners 32a and 32b composed of a pair of bolts and nuts provided across the jumper line J1. Is configured.
[0018]
On both left and right sides of the receiving portion 30, holes 33a and 33b are provided in the direction perpendicular to the direction of extension of the jumper wire J1 and in the horizontal direction, respectively. The holes 33a and 33b are provided with support shafts 34a and 34b, respectively. 34b can be inserted. The clamp receiving portion 12a for receiving the clamp 20a (see FIG. 1B) is provided with holes 35a and 35b at positions facing the holes 33a and 33b, respectively, and supports the holes 35a and 35b. The shafts 34a and 34b are inserted, and the clamp 20a is rotatably provided with respect to the clamp receiving portion 12a. That is, the clamp 20a is rotatably provided on the fixture 10 in a direction perpendicular to the direction in which the jumper wire J1 extends and in a horizontal direction. Thereby, it is possible to effectively cope with the movement of the jumper line J1 in the extension direction.
[0019]
In the jumper device having the above structure, the lower jumper lines J1 to J4 of the support device 1 are supported by the upper line (J1, J2) and the lower line via the fixing bracket 10 which can position each jumper line at a predetermined position. Since (J3, J4) is supported, the jumper molding is excellent, and the jumper wires J1 to J4 are rotatably supported, so that even if the jumper device swings, the wire distortion is reduced. Can be prevented.
[0020]
In FIG. 1, reference numeral 40 denotes a reinforcing wire supporting portion provided on the fixing bracket 10, and reference numerals 50a and 50b denote reinforcing wires formed of a pair of steel strands supported by the reinforcing wire supporting portion 40. . One end of these reinforcing wires 50a, 50b is fixed to K3, K4, respectively, to connecting metal fittings for the underlined transmission lines L3, L4, and the other end is more connected to the transmission line than the fixing bracket 10. It is located on the first spacer S located on the tower side (see FIG. 1A).
[0021]
The reinforcing wire support portion 40 (the same applies to a later-described reinforcing wire support portion 40 ') is provided with jumper wires on L-shaped grip portions 41a and 41b which are rotatably provided on the left and right sides of the center of the connection piece 10c. Reinforcing wires 50a and 50b extending in the same direction as J1 to J4 are fixed to each other. As shown in FIG. 3, these grip portions 41a and 41b are provided rotatably with respect to the connection piece 10c via a support shaft 40a formed of a cotter pin (cotter bolt). As described above, the grip portions 41a and 41b are rotatable with respect to the connecting piece 10c about the extending direction of the reinforcing wires 50a and 50b, that is, the direction orthogonal to the extending direction of each of the jumper lines J1 to J4. Since they are provided respectively, even if the reinforcing wires 50a, 50b swing in the direction in which the reinforcing wires 50a, 50b extend, it is possible to prevent a large force from acting on the connecting portion between the reinforcing wires 50a, 50b and the fixture 10. Can be.
[0022]
FIG. 4 is an enlarged cross-sectional view taken along line X2-X2 of FIG. 1A, and is a front view of one spacer S as viewed from the direction in which the reinforcing wires 50a and 50b (jumper lines J1 to J4) extend. The spacer S is formed of a single integrated metal fitting having an X-shape when viewed from the direction of extension of the jumper wires J1 to J4. To J4 are respectively provided. In the center of the spacer S, a reinforcing wire support 40 'similar to that provided on the fixing bracket 10 is provided.
[0023]
That is, the reinforcing wire support portion 40 'has grip portions 41a' and 41b 'provided on the left and right sides of the center of the X-shaped spacer S, respectively, and has the same direction as the jumper wires J1 to J4. It is configured such that the reinforcing wires 50a and 50b that are stretched on the base can be fixed respectively. The grippers 41a 'and 41b' are respectively rotatable with respect to the spacer S about the direction of extension of the reinforcing wires 50a and 50b, that is, the direction orthogonal to the direction of extension of each of the jumper lines J1 to J4. Is provided. Therefore, even if the reinforcing wires 50a, 50b swing in the direction in which the reinforcing wires 50a, 50b extend, it is possible to prevent a large force from acting on the connection portion between the reinforcing wires 50a, 50b and the spacer S. As shown in FIG. 1A, the spacer S having such a reinforcing wire support portion 40 'is connected to the transmission line tower from the spacer S closest to the clamps C1 to C4 of the transmission lines L1 to L4. Up to the first spacer S on the side.
[0024]
As described above, in this jumper device, the reinforcing wires 50a and 50b are provided between the clamps C1 to C4 of the power transmission lines L1 to L4 and the fixing bracket 10, so that even if the jumper device is reduced in weight, the lateral sway is performed. Can be effectively prevented.
[0025]
5A and 5B show a jumper device according to another embodiment of the present invention. FIG. 5A is a front view of the jumper wires J1 to J4 as viewed from the direction of extension, and FIG. It is a right view of (a).
[0026]
In FIG. 5, W1 to W3 are block-shaped weights (weights) made of a steel material. Of these weights W1 to W3, the weight W1 is fixed to the upper piece 10a of the fixing bracket 10 via bolts and nuts. The weight W2 is fixed to the connecting piece 10c via bolts and nuts, and the weight W3 is fixed to the lower piece 10b via bolts and nuts.
[0027]
When the weights W1 to W3 are attached to the fixing bracket 10, the weight increases by that amount, and the lateral swing of the jumper device can be prevented. The weights of these weights W1 to W3 are appropriately determined according to the strength of the cross wind received by the jumper device. The shapes of the weights W1 to W3 are designed so that the area receiving the crosswind is reduced to reduce the influence of the crosswind (see FIG. 5B). In this example, the weights (W1 to W3) are provided on all of the upper piece 10a, the lower piece 10b, and the connection piece 10c, but may be provided at any one or two places. In the example of FIG. 5 described later, weights (W2, W3) are provided at two places, that is, the lower piece 10b and the connection piece 10c.
[0028]
6A and 6B show a jumper device according to still another embodiment of the present invention. FIG. 6A is a front view of the jumper wires J1 to J4 as viewed from the direction of extension, and FIG. It is a right view of figure (a). The jumper device shown in FIG. 5 includes the weights (W1 to W3) shown in FIGS. 5A and 5B in addition to the weights (W1 to W3) shown in FIGS. It has a structure in which the shown reinforcing wires 50a and 50b are provided. In FIGS. 6A and 6B, a weight (see w1 in FIGS. 5A and 5B) for the upper piece 10a is not provided. Further, the reinforcing wire support portion 40 is attached using a bolt / nut portion of a weight W2 provided on the connection piece 10c. The configuration of the reinforcing wire support portion 40 is the same as that of FIGS. 1 to 5 described above, and further description will be omitted.
[0029]
As described above, when both the weights (W1 to W3) and the reinforcing wires 50a and 50b are provided in the jumper device, the effect of preventing the lateral vibration can be further enhanced. Even when the reinforcing wires 50a and 50b are provided, the weights (W1 to W3) are provided at all or any one or two of the upper piece 10a, the lower piece 10b and the connecting piece 10c. You may.
[0030]
In the above-described example, the reinforcing wires 50a and 50b are rotatably mounted on the spacer S, but may be fixedly mounted. Further, although an example of four conductors is shown as a multi-conductor jumper line, a multi-conductor such as an inverted triangular three conductor, a vertical two conductor, or a six conductor may be used. Further, the number of insulators may be one, three or four.
[0031]
【The invention's effect】
In the jumper device according to claim 1 of the present invention, an upper end is supported by a lower end of the support device, and a clamp supporting a jumper wire corresponding to an upper line of the transmission line is connected, and a lower end of the transmission line is connected to the clamp. Since it is composed of a fixing bracket to which a clamp supporting a jumper line corresponding to the underline is connected, and a reinforcing wire disposed between the fixing bracket and the spacer, it is possible to effectively prevent the lateral swing of the jumper device. .
[0032]
In the jumper device according to claim 2 of the present invention, the upper end is supported by the lower end of the support device, and a clamp that supports a jumper wire corresponding to the upper line of the transmission line is connected, and the lower end of the transmission line is connected to the clamp. Since the fixing bracket is connected to a clamp supporting a jumper wire corresponding to the underline and the weight provided on the fixing bracket, the lateral swing of the jumper device can be effectively prevented.
In the jumper device according to the third aspect of the present invention, since the reinforcing wire is provided between the fixing bracket and the spacer, the lateral swing of the jumper device can be more effectively prevented.
In the jumper device according to the fourth aspect of the present invention, the reinforcing wire is provided rotatably about the direction perpendicular to the direction in which the jumper wire extends with respect to the fixing metal. The force applied to the joint with the metal can be efficiently dispersed.
[Brief description of the drawings]
FIGS. 1A and 1B show a jumper device according to an embodiment of the present invention, wherein FIG. 1A is a front view of a left half centered on a power transmission tower (not shown), and FIG. (a) is an enlarged cross-sectional view taken along line X1-X1, and (c) is a right side view of (b) of FIG.
FIG. 2A is a front view of a clamp viewed from a direction in which a jumper wire extends, and FIG. 2B is a right side view of FIG.
FIG. 3 is a detailed view of a reinforcing wire support portion.
FIG. 4 is an enlarged sectional view taken along line X2-X2 of FIG.
FIGS. 5A and 5B show a jumper device according to another embodiment of the present invention, wherein FIG. 5A is a front view as viewed from a direction in which a jumper wire extends, and FIG. 5B is a right side view of FIG. FIG.
FIGS. 6A and 6B show a jumper device according to still another embodiment of the present invention, wherein FIG. 6A is a front view as viewed from a direction in which a jumper wire extends, and FIG. 6B is a right side of FIG. FIG.
[Explanation of symbols]
L1 to L4 Transmission line A Arms J1 to J4 Jumper wire S Spacer 1 Supporting device 2, 4 Connection fittings 3 Ladder fitting 10 Fixing fitting 10a Upper piece 10b Lower piece 10c Connection piece 20a to 20d Clamp 30 Receiving part 31 Cover part 33a, 33b Holes 34a, 34b Support shafts 35a, 35b Holes 40, 40 'Reinforcement line support portions 41a, 41b, 41'a, 41'b Grip portions 50a, 50b Reinforcement lines W1 to W3 Weight

Claims (4)

A jumper device for connecting a transmission line composed of multiple conductors respectively stretched on both left and right sides of a transmission line tower, wherein a jumper wire of the jumper device is configured with multiple conductors, and each jumper wire is a predetermined conductor. In a jumper device having a supporting device supported on the transmission line side of an insulator device that is held by a spacer for maintaining an interval and an upper end side of the insulator device supporting the transmission line on the transmission line tower,
The upper end is supported by the lower end of the support device, and a clamp that supports a jumper line corresponding to the upper line of the transmission line is connected, and the lower end is connected to a clamp that supports a jumper line corresponding to the lower line of the transmission line. Fixing brackets,
A reinforcing wire disposed between the fixing bracket and the spacer,
A jumper device comprising: A jumper device for connecting a transmission line composed of multiple conductors respectively stretched on both left and right sides of a transmission line tower, wherein a jumper wire of the jumper device is configured with multiple conductors, and each jumper wire is a predetermined conductor. In a jumper device having a supporting device supported on the transmission line side of an insulator device that is held by a spacer for maintaining an interval and an upper end side of the insulator device supporting the transmission line on the transmission line tower,
The upper end is supported by the lower end of the support device, and a clamp that supports a jumper line corresponding to the upper line of the transmission line is connected, and the lower end is connected to a clamp that supports a jumper line corresponding to the lower line of the transmission line. Fixing brackets,
A weight provided on the fixing bracket,
A jumper device comprising: 3. The jumper device according to claim 2, wherein a reinforcing wire is provided between the fixture and the spacer. 4. The jumper device according to claim 1, wherein the reinforcing wire is provided so as to be rotatable about a direction perpendicular to the direction in which the jumper wire extends with respect to the fixing bracket. 5.

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