KR100834772B1 - Jumper cable clamp apparatus for overhead transmission line - Google Patents

Abstract

A jumper cable clamp apparatus for an overhead transmission line is provided to maintain a separation state between the jumper cable and a wire regardless of wind and slant change of an insulator by firmly clamping the jumper cable. A jumper cable clamp apparatus for an overhead transmission line includes a clamp bar(10), an interval control fixing bar(20), direction conversion bars(30), transmission line fixing tubes(40,40a), and front and rear jumper cable fixing long bars(50,50a). The clamp bar is coupled to the interval control fixing bar and is extended downward by fixing an upper end to an insulator support. The interval control fixing bar maintains an interval between one direction conversion bar and other adjacent direction conversion bar. The direction conversion bars fixedly support the front and rear jumper cable fixing long bars forward and backward respectively. The transmission line fixing tubes are fixed to a transmission line of front and rear sides of an insulator. The front and rear jumper cable fixing long bars fixedly support a jumper cable by coupling with the transmission line fixing tubes and the direction conversion bars.

Description

Jumper cable clamp apparatus for overhead transmission line

The present invention relates to a jumper wire connection fixing device for a transmission and distribution processing line, and more specifically, the center side is fixed to the insulator support that is connected to both sides of the transmission tower, and both ends are fixed to the end of the transmission line to electrically transmit the transmission line. The present invention relates to a jumper wire connection fixing device for transmission and distribution processing lines that can securely connect jumper wires connected to each other so that the jumper wires can be safely separated from each conductor wire regardless of wind and insulator device tilt change.

In general, most of the power supplied to each customer is provided by transmission lines that are installed in almost all areas, such as cities and suburbs. Such types of transmission lines include underground lines and steel towers that directly bury power lines in the ground. Alternatively, there are two overhead lines for supporting power lines in the air above a predetermined height on the ground using concrete poles and insulators.

Here, the underground line has the advantage that it is simple to install because no additional auxiliary devices are required, while the underground line is buried in the ground and directly contacted with the earth without any additional insulation media, so that the embedded power line itself is used for the surge voltage and the commercial frequency voltage. There is a problem in that expensive cost because it must be manufactured to enable the insulation.

Due to these cost problems, overhead lines are currently becoming mainstream of transmission lines, and the proportion of overhead lines is expected to continue to increase.

In addition, the overhead line is composed of a power line for transporting the power supplied to the actual consumer, a overhead line for reducing the lightning voltage induced by the lightning strike and a neutral line attracting the generated current due to the unbalance. According to the support method of the power line, it can be divided into two types, suspension type and built-in type.

For reference, in the case of the built-in type method, the two ends of the power line are fixedly supported on both sides of the power line to separate the overhead line from the ground by a separate built-in clamp, respectively, and then the jumper wire is used to support the power line. In this case, in order to support the jumper wires crossing the both sides of the steel tower at a predetermined distance from the steel tower, the steel pipe for horizontal members is fixedly installed at a position away from the steel tower, and then the jumper is formed on the outer circumferential surface of the steel pipe. A jumper device is used to support the jumper wire by fixing the wire.

However, after the jumper device is installed, the jumper device vibrates in the windy direction due to wind blowing at right angles to the jumper wire, and in the case of such vibration, the jumper wire and Since the minimum distance to be provided between the charging section around the jumper device and the steel tower itself is increased, it is economical to reduce the amount of vibration as much as possible, and accordingly, the vibration by adding the transverse suppression weight to the horizontal steel pipe The amount is reduced and the transverse characteristics are improved.

In order to mount the transverse restraint heavy material on the horizontal steel pipe, the mount support shaft is welded to one side of the upper outer circumferential surface of the horizontal steel pipe, and connected to the mount support shaft, and the horseshoe-shaped transverse restraint heavy material is required as many as necessary. After installation so as to be in close contact with each other, by welding again fixing the separate mount support shaft to be in contact with the outermost heavy material, and finally, by drilling a hole of a predetermined diameter in the upper portion of the both mount support shaft through the separate rod, When the vibration of the steel pipe was vibrated so that the mounted transverse restraint weight did not fall to the outside.

However, in the case of installing the lateral suppression heavy article by using the method as described above, it is not good in appearance, it is difficult to fix them when the number of installation is large, and as the number of installation wind pressure area becomes larger, the weight for this additional Of course, there is a problem in that the quantity of parts increases because there is a limit in increasing the weight of the unit quantity.

Therefore, in order to improve the conventional art, the steel pipe fixedly mounted to be separated by a predetermined distance from the steel tower to support the jumper wire; And a plurality of transverse restraint heavy materials mounted on the steel pipe to reduce the amount of vibration of the jumper wire (Patent Publication No. 1999-0049129).

Compared to the above-described technique, the transverse characteristics are superior and the beauty of the beauty is excellent.However, like the above-described technique, the heavy load of the transverse restraint-heavy weight is not used. In this case, there is a difficulty in fixing them, and as the wind pressure area is increased by the number of installations, a weight for this is additionally required, and there is a problem in that the quantity of parts increases because there is a limit in increasing the weight of the unit quantity.

Therefore, in order to improve the above-mentioned problem, recently, a body having a predetermined shape for supporting each conductive line constituting a jumper line is spaced apart from each other; A plurality of clamp arms provided at equal intervals along the outer circumferential surface of the body, the clamp arms being detachably attached to the body; And a jumper spacer protruding from the end of each clamp arm and including a clamp to support each of the conductive wires (Patent Publication No. 10-0250634).

It is connected to a jumper wire that electrically connects power lines connected to both sides of the built-in steel tower of the overhead transmission line, so that the jumper wire can be used in case of vibration by wind or vibration by other electric accident through its own weight and supporting force. It is to maintain a constant gap at all times without collision between each conductor.

However, this technique has the advantage of being relatively quick and easy to install compared to the above-mentioned conventional techniques, while being lighter than the above-described inventions, the power transmission during vibration by wind or vibration by other electrical accidents There was an unsafe problem in which the phenomenon of hitting the track or steel tower was caused.

As a result, all of the above-described prior arts have a lot of small and small differences, but the problem of not being able to take the installation quickly and easily on a steel tower, since all of the above-described prior arts are made to minimize the transverse of the jumper wire by using a heavy load that is commonly used. There was a problem that the algae provides a favorable space for nesting.

In addition, it is virtually impossible to effectively prevent traversing through the weight during unexpectedly strong wind vibrations or vibrations caused by other electrical accidents, but rather with the problem of causing partial breakage of the track or steel tower. There was a very unsafe problem that the risk of falling heavy weight.

In addition, there is a problem of causing an adverse effect such as a sagging phenomenon by transferring a load to a transmission line and increasing a minimum distance that must be provided between the steel tower itself and the like.

The present invention is to solve the problems as described above, the center side is fixed to the insulator support is installed connected to both sides of the transmission tower, and both ends are fixed to the end of the transmission line, respectively, the jumper wire for electrically connecting the transmission line The purpose of the present invention is to provide a jumper wire connection fixing device for transmission and distribution processing lines that can securely connect and secure the jumper wires to be separated from each lead wire regardless of the change in the inclination of the wind and insulator devices.

In order to achieve the above object, the present invention is a standing bar-shaped c-shaped cramp portion having a fastening hole is fastened by fastening bolts and nuts to the insulator support on which the insulators of both sides of the steel tower is fixed, A connection fixing bar having a fastening tube having an inner screw portion at a lower end thereof;

A gap adjusting fixing bar having an upper end portion having an outer screw portion which is screwed to an inner screw portion of the connection fixing bar fastening tube, and a lower portion forming a horizontal adjusting tube horizontally formed in left and right directions;

Horizontal tube parts having bolt holes are formed on the center side of the gap control tube extension line of the gap adjusting fixing bar, and both ends of the horizontal pipe parts are bent forward and backward, respectively, and the front and rear bending parts having bolt fastening holes are formed at the center of the tip. A turn bar that is fastened and fixed to the spacing control tube by a fixed length bolt and a nut positioned at the tip of the control tube and penetrating the bolt hole;

A semicircular tube is formed by dividing the transmission line near the insulator support. The semicircular tube is formed at the center of the left and right ends of the semicircular tube and overlaps with each other. A transmission line fixing tube having a screw fastening portion and a semicircular protrusion on the left and right sides fastened by a fastening tube having a screw hole on the other side;

The lower end of the bar shape is inserted into the bolt fastening hole of the turning bar, the fixing bolts are fastened to form a protrusion and extends in front and rear sides, respectively, the upper end having a screw through hole on the end of the fastening pipe screw hole extension line in the U shape The fixing bracket is formed and fastened by the fixing screw, and has a front and rear side jumper wire fixing bar for fixing the jumper wire from the front side to the rear side of the insulator device while fixing the jumper wire at a predetermined interval.

Thus, the present invention is the center side is fixed to the insulator support installed on both sides of the transmission pylon and both ends are fixed to the end of the transmission line, respectively, can be securely connected to the jumper wire to electrically connect the transmission overhead line Irrespective of the change in the tilt of the insulator device, the jumper wire can be safely maintained at a distance from each lead wire.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

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

1 is a perspective view showing the construction of the jumper wire connection fixing device for a transmission and distribution processing line according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a fastening view of the jumper wire connection fixing device for a transmission and distribution processing line according to an embodiment of the present invention, 3 is a front sectional view showing the construction of the jumper wire connection fixing device for a power transmission and processing line according to an embodiment of the present invention, Figure 4 is a perspective view showing the construction of the jumper wire connection fixing device for a power distribution and processing line as an embodiment of the present invention.

For reference, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof is omitted.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator.

Therefore, the definition should be made based on the contents throughout the specification.

Jumper wire connection fixing device for the transmission and distribution processing line of the present invention, the upper end is fixed to the insulator support 81 extends to the bottom connection coupling bar 10 and coupled to the spacing adjustment fixing bar 20, direction switching bar ( 30) and the gap adjustment fixing bar 20 to maintain the gap between the other direction switching bar 30 adjacent to, and the direction switching bar 30 for supporting the front and rear jumper wire fixing bar (50, 50a) to the front and rear, respectively And jumpers fixed to the transmission line fixing pipes 40 and 40a fixed to the transmission line 70 at the front and rear sides of the insulator device 82, the transmission line fixing pipes 40 and 40a, and the direction change bar 30, respectively. It consists of front and back side jumper wire fixing bars 50 and 50a for holding and holding the line 60.

The connection fixing bar 10 is an upright bar shape is fixed to the insulator support 81 extends to the bottom and is coupled to the gap adjusting fixing bar 20, the upper end is insulator device of both sides of the steel tower (80) ( A c-shaped cramp portion 11 having a fastening hole 11a fastened by fastening bolts 12 and a nut 12a is formed on the insulator support 81 to which the front and rear sides 82 are fixed, and an inner side is provided at the lower end thereof. A fastening tube 13 having a threaded portion 13a is formed.

The gap adjustment fixing bar 20 is a standing bar shape to maintain the gap between the direction change bar 30 and the other direction change bar 30 adjacent, the upper end of the connection fixing bar 10 fastening pipe 13 The outer screw portion 21 is screwed to the inner screw portion (13a) of the, the lower end is inverted T-shape is formed horizontally spaced adjustment tube 22 formed in the horizontal direction.

The direction change bar 30 is a bar shape for supporting the front and rear side jumper wire fixing bar (50, 50a) fixed to the front and rear, respectively, on the center side of the gap control tube 22 extension line of the spacing control fixing bar (20) A horizontal pipe portion 31 having a bolt hole 31a is formed, and both ends of the horizontal pipe portion 31 are bent forward and backward upward, respectively, and the front and rear bent portions 33 having the bolt fastening holes 34 and 34a at the leading end thereof. 33a) is formed, but is fixed to the spacing control tube 22 by a fixing bolt (32) and a nut (32a) which is located at the tip of the spacing control tube 22 and penetrates the bolt hole (31a).

The transmission line fixing pipes 40 and 40a are pipes fixed to the transmission line 70 at the front and rear sides of the insulator device 82, and are divided into up and down semi-circular pipes that surround the transmission line 70 near the insulator support 81. (41, 41a) are formed, respectively, semicircular pipes (41, 14a) are formed in the center of the left and right ends of the semicircular protrusions (42, 42a) having a circular shape and having threaded portions (43, 43a) on the outer periphery, respectively. Semi-circular protrusions 42 and 42a on the left and right sides by a fastening pipe 44 having an inner thread fastening portion 44a corresponding to the threaded portions 43 and 43a of the semi-circular protrusions 42 and 42a and a screw hole 44b on the other side. ) Is fastened.

The front and rear side jumper wire fixing bar (50, 50a) is fastened and fastened respectively to the transmission line fixing pipe (40, 40a) and the direction switching bar 30 to the bar shape to support the jumper wire 60, the lower end in the direction Fixing bolts 51 inserted into the bolt fastening holes 34 and 34a of the conversion bar 30 are fastened and protruded to extend forward and backward, respectively. (44b) A fixing clamp 52 having a threaded through hole 52a on an extension line is formed and fastened and fastened by the fixing screw 53, and the jumper wire 60 is fixed to the body by the fixing band 54 at regular intervals. While fixing, the jumper wire 60 is fixedly supported from the front side to the back side of the insulator device 82.

The present invention is connected to the insulator support 81 in the state of being fixed to the transmission line 70 in the vicinity of the insulator device 82 in the front and rear of the insulator support 81 by the transmission line fixing pipe (40, 40a). In the state in which the bar 10 and the spacing control fixing bar 20 are fixed, the fastening bar 30 is fixed to the left and right sides of the spacing control tube 22 by a fixing bolt 32 and a nut 32a.

Next, the lower ends of the front and rear side jumper wire fixing bars 50 and 50a are fixed to the direction change bar 30, and the fixing brackets 52 of the upper ends are fastened to the fastening pipes 44 on the left and right sides of the power transmission lines 40 and 40a. The jumper wire 60 may be fixed to the front and rear side jumper wire fixing bars 50 and 50a by fixed bands 54 at fixed intervals while being fastened to 44b.

1 is a perspective view showing the construction of the jumper wire connection fixing device for a transmission and distribution processing line according to an embodiment of the present invention,

Figure 2 is an exploded perspective view showing a fastening pattern of the jumper wire connection fixing device for the transmission and distribution processing line according to an embodiment of the present invention,

Figure 3 is a front sectional view showing the construction of the jumper wire connection fixing device for a transmission and distribution processing line according to an embodiment of the present invention,

Figure 4 is a perspective view showing the construction of the jumper wire connection fixing device for transmission and distribution processing line according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: connection fixing bar 11: bracket

11a: Fastening Hole 12: Fastening Bolt

12a: nut 13: fastening pipe

13a: inner thread part

20: fixed spacing bar 21: outer thread

22: spacing tube

30: direction change pipe 31: horizontal pipe

31a: Bolt hole 32: Fixing bolt

33,33a: left rear bend 34,34a: bolt fastening

40,40a: Transmission line fixing pipe 41,41a: Semicircular pipe

42,42a: semicircular protrusion 43,43a: screw

44: fastening pipe 44a: inner screw fastening portion

44b: screw hole

50,50a: Front and rear side jumper wire fixing bar

51: fixing bolt 52: fixing bracket

52a: Through hole 53: Fixing screw

54: fixing band

60: jumper wire

70: transmission line

80: pylon 81: insulator support

82: insulator

Claims (1)

The upright bar is formed with a c-shaped cramped part having a fastening hole fastened by fastening bolts and nuts to the insulator support on which the insulators of both sides of the steel tower are fixed, and a fastening tube having an inner screw part is formed at the lower end. A connection fixing bar; A gap adjusting fixing bar having an upper end portion having an outer screw portion which is screwed to an inner screw portion of the connection fixing bar fastening tube, and a lower portion forming a horizontal adjusting tube horizontally formed in left and right directions; Horizontal tube parts having bolt holes are formed on the center side of the gap control tube extension line of the gap adjusting fixing bar, and both ends of the horizontal pipe parts are bent forward and backward, respectively, and the front and rear bending parts having bolt fastening holes are formed at the center of the tip. Positioning bar is located at the tip of the control tube is fastened and fixed to the spacing control tube by a fixed length bolt and nut penetrating the bolt hole; A semicircular tube is formed by dividing the transmission line near the insulator support. The semicircular tube is formed at the center of the left and right ends of the semicircular tube and overlaps with each other. A transmission line fixing tube having a screw fastening portion and a semicircular protrusion on the left and right sides fastened by a fastening tube having a screw hole on the other side; The lower end of the bar shape is inserted into the bolt fastening hole of the turning bar, the fixing bolts are fastened to be formed to extend in front and rear sides, respectively, and the upper end of the screw tube through the screw tube hole extending in the line at the end of the line For the transmission and distribution line having a front and rear jumper wire fixing bar for fixing the jumper wire from the front side to the rear side of the insulator device while fixing the jumper wire by a fixing band at a predetermined interval. Fixed jumper wire connection.

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