KR100880880B1 - A fix apparatus using power electric transmission - Google Patents

Abstract

A jumper wire fixing device is provided to prevent damage due to vibration by moving a movable insulator up and down to be elastically supported by an elastic insulator. A joining protrusion groove(22) is formed in the upper center of a square plate(21) made of the synthetic resin material in the longitudinal direction. The jumper wire groove(23) is formed in both sides of the joining protrusion groove. A ventilation hole(24) passing through the top and bottom of the plate is formed. A bolt part is formed in the bottom of the body(41) and is fixed and coupled to a nut part(33) of a cover plate(30). A center hole(42) is formed in the upper center of the body and a screw thread is formed in an inner diameter of the inlet. The bolt part is protruded to the bottom of a cover insulator(43) in which the penetration hole is formed and is coupled to the center hole of the body. A guide rod(48) coupling a hitching unit(49) is composed of an elastic insulator(40) fixed and inserted into the center hole of the body.

Description

Jumper wire fixing device for transmission overhead line {A fix apparatus using power electric transmission}

The present invention relates to a jumper wire fixing device for a transmission overhead line, and more particularly, to not only firmly fix the jumper wire that electrically connects the transmission overhead line respectively connected to the fault-tolerant device installed on both sides of the transmission tower. The present invention relates to a jumper wire fixing device for a transmission overhead line, which enables to fix and absorbs pressure of up and down vibration so that the jumper wire can be stably supported.

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.

1 and 2 show a conventional structure for fixing a jumper wire, wherein a support 6 is formed at the arm end of the transmission tower 1, and a jumper wire insulator 5 is formed on the support 6. It is fixed, the jumper wire 4 is fixed to the lower end of the jumper wire support insulator 5 by a fixing device.

In this structure, when the jumper wire 4 is fixed, the fixing device, such as the jumper wire insulator 5, becomes too rigid and is easily broken due to the vibration force continuously applied.

The present invention has been made in order to solve the above-described problem, by improving the structure of the insulator and jumper wire fixing device for connecting the jumper wire and the support can not only secure the jumper wire, but also can absorb the vibration applied to the jumper wire The purpose is to increase the lifespan by embedding the configuration.

Then, the jumper wire is pushed into the jumper wire groove of the body plate and the cover plate is slid and closed so that no additional fixing device is required, and the elastic insulator is made of synthetic resin, making it easy to manufacture. The purpose is to be elastically supported to absorb the vibration applied to the fixing device.

The present invention provides a jumper wire fixing device for a transmission overhead line, wherein a support is installed on the arm of the transmission tower, a support insulator is installed on the support, and a jumper wire is fixed to the support insulator. The engaging projection groove is formed in the center of the upper surface of the square plate in the longitudinal direction, the jumper wire grooves are formed on both sides of the engaging projection groove in the same direction as the engaging projection groove, the ventilation hole penetrating the upper and lower sides of the plate body, Body plate is formed at the same time the front and rear ends are narrow and wide inside; A nut part is formed at the center of the upper surface of the square plate, and a coupling protrusion having the same cross-sectional shape as the coupling protrusion groove is formed on the bottom of the plate body in a longitudinal direction, and is slid and engaged in the coupling protrusion groove, and a pressing rubber band is formed on the bottom of the plate body. A cover plate which is fixed while sliding and blocking an upper portion of the jumper wire groove, and has a ventilation hole penetrating the upper and lower plates to communicate with the ventilation hole of the body plate; A plurality of asset portion is formed around the body, the asset portion is formed in the shape of ∠, the bolt portion is formed at the bottom of the body is fastened and fixed to the nut portion of the cover plate, the central hole is formed in the top center of the body A screw thread is formed in the inner diameter, and a bolt part is formed at the bottom of the cover insulator through which a through hole penetrates up and down inside and is engaged with the central hole of the body. A guide rod is formed in the guide rod, and a locking end is fastened to the lower end of the guide rod while a spring is inserted into the guide rod of the moving insulator which has passed through the through hole of the cover insulator. It provides a jumper wire fixing device for a transmission overhead line, characterized in that consisting of;

As described above, the present invention has the effect of absorbing the vibration applied to the jumper wire fixing device so that the moving insulator is elastically supported inside the elastic insulator so as not to be damaged.

And when the jumper wire fixing work, insert the jumper wire into the body plate and then push the cover plate to close the fixing, so the work is easy.

In addition, because the wind passes through the ventilation holes formed integrally in the body plate and the cover plate has the effect of reducing the wind pressure to some extent.

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

The terms or words used in the present specification and claims should not be interpreted as being limited to the ordinary or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain the invention of their own. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

In the present invention, the support 6 is installed on the arm of the transmission tower 1, and the fixing device 10 is fixed to the support 6 to the jumper wire 4, the upper surface of the square plate 21 made of synthetic resin material Coupling projection groove 22 is formed in the center in the longitudinal direction, the jumper wire groove 23 is formed on both sides of the coupling projection groove 22 in the same direction as the coupling projection groove (22).

Ventilation holes 24 penetrating up and down are formed in the plate body 21 of the body plate 20, and the coupling protrusion groove 22 is formed at the same time as the front and rear ends thereof and the upper portion thereof is narrow and wide. Therefore, it does not fall up and is firmly fixed by friction, so it is not separated by wind or other natural external force.

The cover plate 30 has a nut part 33 formed at the center of the upper surface of the rectangular plate body 31, and the coupling protrusion 32 having the same cross-sectional shape as the coupling protrusion groove 22 in the longitudinal direction on the bottom surface of the plate body 31. Is formed is fastened by sliding in the engaging projection groove (22).

A pressing rubber band 34 is formed on the bottom of the plate body 31 to slide and fix the upper portion of the jumper wire groove 23, and a ventilation hole 35 penetrating the plate body 31 above and below is formed so that the body plate 20 is formed. It is communicated with the ventilation hole 24 of the). The pressing rubber 34 presses the jumper wire 4 while the jumper wire 4 enters the jumper wire groove 23 so as not to flow, and at the same time, the pressing force of the cover plate 30 and the body plate 20 is increased. It serves to increase.

The elastic insulator 40 is composed of a body 41, the cover insulator 43, the moving insulator portion 45, the spring 47, the body 41 has a plurality of the asset portion 41-1 is the body 41 ) Is integrally formed around the asset, and the asset portion 41-1 is formed in the shape of 형상. Asset wealth is configured so that rainwater does not penetrate inside, but falls directly below.

The elastic insulator 40 is made of synthetic resin as a whole, the bolt portion 44 is formed at the bottom of the body 41 is fastened and fixed to the nut portion 33 of the cover plate (30).

A central hole 42 is formed in the center of the upper end of the body 41, a screw thread is formed in the inner diameter of the inlet, and a through hole penetrating up and down in the inner center of the cover insulator 43 is formed. (43) The bolt portion protrudes from the bottom. Therefore, the bolt part is coupled to the body central hole 42 and is coupled to the body 41 central hole 42 through the through hole. The cover insulator 43 is also formed in the outer shape of the asset portion 41-1, and a through hole and a bolt portion penetrating up and down are formed.

The central hole 42 of the body 41 is preferably formed to the degree of interruption at the top of the body 41. And the rubber ring 48-1 is fitted to the guide rod 48 of the mobile insulator 45 to absorb the shock when the mobile insulator 45 hits the cover insulator 43 when the mobile insulator 45 moves by vibrating.

The moving insulator part 45 has a connecting part 46 formed at an upper end thereof, and a guide rod 48 is formed at a lower part of the moving insulator part 45 which is fixed to the support 6, and forms a through hole of the cover insulator 43. The locking end 49 is fastened to the lower end of the guide bar 48 in a state in which the spring 47 is inserted into the guide bar 48 of the moving insulator part 45 that has passed. The guide rod 48 to which the locking end 49 is fastened is inserted into and fixed to the central hole 42 of the body 41.

Therefore, since the moving insulator portion 45 elastically flows inside the body 41, the moving insulator 45 absorbs vibration.

1 is a view showing where a conventional jumper wire fixing device for a transmission overhead line is installed.

2 is an enlarged view of a portion A of FIG. 1;

Figure 3 is a perspective view showing the installation state of the jumper wire fixing device for a transmission overhead line of the present invention.

Figure 4 is an exploded perspective view showing a jumper wire fixing device for a transmission overhead line of the present invention.

5 is an exploded perspective view showing a jumper wire fixing device for a transmission overhead line of the present invention from another direction.

6 is a cross-sectional view showing a jumper wire fixing device for a transmission overhead line of the present invention.

7 is a cross-sectional view showing an operating state of a jumper wire fixing device for a transmission overhead line of the present invention.

8 is a cross-sectional view showing a jumper wire fixing device for a transmission overhead line of the present invention.

 <Brief description of symbols for the main parts of the drawings>

1: transmission tower 2: insulator

3: power line 4: jumper wire

5: jumper support insulator 6: support

10: fixing device 20: body plate

21: plate 22: engaging projection groove

23: jumper wire groove 24: ventilation hole

30: cover plate 31: plate body

32: engaging projection 33: nut part

34: pressing rubber 35: ventilation hole

40: elastic insulator 41: body

42: central hole 43: cover insulator

44: bolt portion 45: moving insulator portion

46: connection 47: spring

48: guide rod 48-1: rubber ring

49: Jamming Stage 41-1: Asset Management Division

Claims (1)

In a jumper wire fixing device for a transmission overhead line, a support is installed on an arm of a transmission tower, a support insulator is installed on a support, and a jumper wire is fixed to the support insulator. Coupling projection groove 22 is formed in the center of the upper surface of the square plate 21 of the synthetic resin material in the longitudinal direction, and jumper wire grooves 23 are formed on both sides of the coupling projection groove 22 in the same direction as the coupling projection groove 22. And a ventilation hole 24 penetrating the upper and lower sides of the plate body 21, and the coupling protrusion groove 22 has a front and rear end and a body plate 20 having a narrow upper portion and a wider inner portion thereof; A nut part 33 is formed at the center of the upper surface of the rectangular plate body 31, and a coupling protrusion 32 having the same cross-sectional shape as the coupling protrusion groove 22 in the longitudinal direction is formed at the bottom of the plate body 31. Sliding and fastened to the 22, the pressing rubber stage 34 is formed on the bottom surface of the plate 31 to prevent the jumper wire groove 23, the sliding is fixed, the ventilation hole penetrating the upper and lower plates 31 ( A cover plate 30 is formed to communicate with the ventilation hole 24 of the body plate 20 is formed; A plurality of asset portion 41-1 is formed around the body 41, the asset portion 41-1 is formed in the shape of ∠, the bolt portion 44 is formed at the bottom of the body 41, the cover plate It is fastened and fixed to the nut part 33 of the 30, the central hole 42 is formed in the center of the upper end of the body 41, the thread is formed in the inner diameter of the inlet, the through hole penetrating up and down inside A bolt portion protrudes from the bottom of the cover insulator 43 to be coupled to the body center hole 42, and is coupled to the lower portion of the moving insulator portion 45 that is fixed to the support 6 by forming a connection portion 46. De rod 48 is formed, the end of the guide rod 48 in the state that the spring 47 is inserted into the guide rod 48 of the moving insulator portion 45 passing through the through hole of the cover insulator 43 (49) is fastened, the guide rod 48 is fastened to the engaging end 49 is inserted into the central hole 42 of the body 41, the elastic insulator 40; Jumper wire retainer for the whole machining line.

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