KR20090004015U - Cable protect hose for high voltage jumper line of wave-pipe type - Google Patents

Abstract

The present invention relates to a corrugated pipe type high voltage jumper wire protection tube, which has a hole that is opened along a longitudinal direction and has an opening into which an electric wire is inserted, and a tubular tube in which a spiral wave is formed, and both ends of the opening in parallel to the outside of the tube. It includes a pair of protruding outer wing and the inner wing at one end of the opening is protruded a predetermined length into the inside of the tube and bent toward the other end of the opening and extended at a predetermined distance from the inner wall surface of the tube. As a result, protection measures can be taken for curved portions of the high-voltage overhead distribution line, so that electric shock disasters and blackout accidents can be prevented in advance with protective measures for the overhead distribution line.

Distribution line, jumper wire, protective tube, corrugated tube type, inner wing, outer wing, support section, opening

Description

Cable protect hose for high voltage jumper line of wave-pipe type}

The present invention relates to a corrugated pipe type high voltage jumper wire protection tube, and more particularly, to form a spiral wave form to give flexibility, and to form a wing in each of the inside and the outside of the pipe to secure the flashover distance, The invention relates to a corrugated tube type high voltage jumper wire protective tube that allows insulation protection measures to be taken for processing distribution facilities of the jumper wire portion.

In general, the power line of the overhead distribution line of 30kV or less for supplying power to the building consists of bare wires and insulated wires, and is arranged close to various workpieces. It occurred a lot. In addition, it may cause an electrostatic accident due to foreign body contact with the electric workpiece by rain, wind, or algae.

In order to prevent such electric shocks and blackout accidents, a linear insulated protective tube was manufactured to protect the linear part of the distribution line at the construction site, thereby contributing to securing the safety of the work worker when working near the power line.

However, in the case of curved portions such as jumper wires of overhead distribution lines, pulling up and down wires of transformers, and pulling-in and out wires of switchgear, it is difficult to use existing linear protective tubes. Accordingly, since the protection tube is not installed in the curved portion of the power line, an electric shock disaster occurs through the curved portion of the power line.

In addition, it is composed of 22.9kV-y system with high distribution voltage, and has high voltage resistance of 35,000V in the performance protection regulation for insulation protective equipment prescribed by the Ministry of Labor, and the heat-resistance temperature characteristic is no softening or welding at 120 ℃. In addition, the curved line power line protection tube that satisfies the characteristics of flexibility and high withstand voltage was not easy to develop. In particular, to maintain insulation performance due to creepage flashover, the size of the protection tube is increased, and when it is installed on the power line due to the increase in size, it is difficult to work in the live state such as wind pressure load and bind construction of the support point of the protection pipe. There was a problem such that the curved portion of the naturally separated from the protective tube.

Accordingly, the object of the present invention is to develop a corrugated pipe type high voltage jumper wire protection tube that can protect the curved portion of a high voltage overhead distribution line and satisfy the law of the performance protection provision for insulation. The present invention provides a corrugated pipe-type high voltage jumper wire protection tube that can prevent electric shock and power failure in advance as a protective measure for distribution lines.

Corrugated pipe type high-voltage jumper wire protective tube according to the present invention for achieving the above object, the tubular tubular body having an opening that is opened along the longitudinal direction and the wire is inserted, the helical waveform; A pair of outer wings protruding in parallel to the outside of the tube at both ends of the opening; And an inner blade protruding a predetermined length into one end of the opening to be bent toward the other end of the opening, and extending at a predetermined distance from the inner wall surface of the opening.

The other end of the opening may protrude a predetermined length toward the inside of the tubular body to support a support for supporting the inner blade.

It is preferable that the pipe body is formed to have a relatively small pipe thickness between a region where the opening is formed and a region facing the opening.

It is preferable to be made of polyethylene material having high heat resistance heat resistance.

Corrugated pipe type high voltage jumper wire protection tube according to the present invention is formed by the spiral wave form and the inner wing and the outer wing is formed, the flexibility is increased and the flashover distance is sufficiently secured to completely insulate the curved line of the distribution line You can take action. Accordingly, it is possible to prevent electric shock and power failure in advance, and to prevent loss of life due to electric shock, as well as to reduce direct or indirect loss costs caused by a disaster.

In addition, the high-voltage jumper wire protective tube of the corrugated tube type according to the present invention, the inner blade is formed to a length having a sufficient flashing distance in the interior of the tube can reduce the volume of the jumper wire protective tube. This reduction in volume not only prevents natural detachment of power lines housed in the jumper wire guard tube, but also facilitates work in live conditions such as wind pressure load and bind construction of the guard tube support points.

Hereinafter, with reference to the accompanying drawings a preferred embodiment and a detailed structure of the present invention will be described.

1 is a perspective view of a corrugated pipe type high voltage jumper wire protective tube according to the present invention, and FIG. 2 is a cross-sectional view of the corrugated pipe type high voltage jumper wire protective tube of FIG. 1.

The corrugated tube type high voltage jumper wire protective tube 1 according to the present invention has a tubular body 11 of which the corrugated tube type is formed and spiral waves are formed on the outer and inner circumferential surfaces thereof. The spiral wave formed in the tube body 11 provides flexibility to the tube body 11 so that the tube body 11 can form a curve.

One side of the tube body 11 is formed with an opening 15 which is long cut along the longitudinal direction, and the electric wire 50 is inserted into the tube body 11 through the opening 15.

A pair of outer wings 20 protruding outward from the outer circumferential surface of the tube body 11 are formed along the longitudinal direction of the tube body 11 at both ends of the tube body 11 around the opening 15. The pair of outer blades 20 are in contact with each other to block the opening 15 in a state in which they are parallel to each other. Since the outer blades 20 are overlapped in two layers, when the wires 50 are inserted into the tubular body 11, the outer blades 20 are opened to both sides to secure a space, and then the wires 50 may be pushed in. Similarly, when withdrawing the electric wire 50 from the inside of the tubular body 11, just spread out each outer blade 20 to both sides.

One end of the tube body 11 around the opening 15 protrudes a predetermined length inward from the inner circumferential surface of the tube body 11, and then an inner blade 25 extending a predetermined length to be parallel to the inner circumferential surface of the tube body 11 is formed. have. The inner blade 25 is formed long along the longitudinal direction of the tubular body 11, and the inner side surface and the inner blade 25 of the tubular body 11 are spaced apart at a predetermined distance d. That is, the inner blade 25 does not contact the inner surface of the tubular body 11. The reason for forming the inner blade 25 so as to be spaced apart from the inner surface of the tubular body 11 is that the inner blade 25 is easily opened from the tubular body 11 when the wire 50 is inserted into the tubular body 11. The wire 50 can be easily inserted into the tube body 11.

In addition, since the inner blade 25 is formed to have a predetermined length or more, even if the opening 15 is opened by a force from the outside such as a wind pressure load, the opening 15 is blocked by the inner blade 25 to jumper the wire. The electric wire 50 can be prevented from being separated from the inside of the tubular body 11 of the protective pipe 1.

The sum of the lengths of the outer blades 20 and the inner blades 25 is determined to be a length capable of preventing creepage flash. Accordingly, as the inner blade 25 is formed to extend over a predetermined length inside the tubular body 11, even if the volume of the jumper wire protective tube 1 is not large, securing a separation distance to prevent creepage flashover. can do. When the volume of the jumper wire protection tube 1 is reduced in this way, the wind pressure load is reduced when the jumper wire protection tube 1 is installed on the power line, and there is no fear that the power line is separated from the jumper wire protection tube 1.

On the other hand, at the other end of the opening 15, a supporting section 30 is formed to protrude a predetermined length toward the inside of the tube body 11 to support the inner blade 25. The support section 30 supports the inner blade 25 so that the inner blade 25 is kept spaced apart from the inner circumferential surface of the tubular body 11 by a predetermined distance.

The tubular body 11 and the outer wing 20 and the inner wing 25 are made of polyethylene having heat resistance to withstand high temperatures of 120 ° C. or higher, and its deformation degree is free to completely insulate the curved portion of the overhead distribution line. Protective measures can be taken.

On the other hand, as shown in FIG. 2, the tube body 11 is formed with the comparatively small pipe | tube thickness of the area | region in which the opening 15 was formed, and the area | region which opposes the opening 15. As shown in FIG. Accordingly, both regions around the opening 15 exert a force toward the opening 15 so that the opening 15 can be kept closed. In addition to such a difference in tube thickness, the spiral wave formed in the tube body 11 also exhibits a contracting force so that the tube body 11 maintains a tubular shape, so that the opening 15 is not opened.

The types of performance tests performed on the corrugated pipe type high voltage jumper wire protective tube 1 according to the present invention manufactured as described above, and the test results are as follows.

1. Withstand voltage test: There is no phenomenon such as flashover or heat generation in the withstand voltage test divided into drying and drinking water.

2. Tensile strength test: Tensile strength 1.63kgf / mm ² (1.0kgf / mm ² or more), elongation 720.2% (350% or more).

3. Heat aging test: Tensile strength change rate 89.1% (base value 80% or more), Elongation rate change rate 83.8% (base value 65% or more).

4. Heat deflection test: Decrease rate of gross poultry 6.02% (standard value 10% or less).

5. Cold test: No defects such as balance, crack.

6. Heat test: No change due to soft welding on the inner surface.

7. Absorption test: Absorption rate 0.0039% (baseline 0.01% or less).

As described above, the corrugated pipe type high voltage jumper wire protection tube 1 according to the present invention had no abnormality in the breakdown voltage, cold resistance, and heat resistance test, and the reference value was excellent in tensile strength, heat aging, heat deformation, and absorption test. Outperformed performance results.

In particular, it can be seen that the performance is excellent in the tensile strength test or absorption test.

3 is a plan view of a wave tube type high voltage jumper wire protection tube according to the present invention mounted on a jumper wire support insulator.

Since the power line is inserted into the corrugated tube type high voltage jumper wire protective tube 1, and the corrugated tube type jumper wire protective tube 1 freely curves, as shown in FIG. 4, the bind line is connected to the jumper wire protective tube 1. After winding along the waveform formed on the outer circumferential surface of the), the bind line 45 may be fixed to the groove of the support insulator 40. Accordingly, the curved portion of the power line can be easily fixed to the support insulator 40 by using the corrugated tube type high voltage jumper wire protective tube 1. In other words, work in the live state such as bind construction of the support point of the protection pipe becomes easy. On the other hand, even when the radius of curvature of the jumper wire protection tube 1 is severe, the opening 15 is blocked by the inner blade 25 so that there is no fear that the power line is separated.

1 is a perspective view of a corrugated pipe type high voltage jumper wire protective tube according to the present invention,

2 is a cross-sectional view of the corrugated tube type high voltage jumper wire protective tube of FIG.

3 is a plan view of a wave tube type high voltage jumper wire protection tube according to the present invention mounted on a jumper wire support insulator.

※ Explanation of code about main part of drawing ※

1: jumper wire protection tube 11: pipe

15: opening 20: outer wing

25: inner blade 30: support interval

50: wires

Claims (4)

A tubular tube having an opening along the longitudinal direction and having an opening into which an electric wire is inserted, wherein the tubular tube has a spiral shape; A pair of outer wings protruding in parallel to the outside of the tube at both ends of the opening; And, A corrugated tube type comprising: an inner wing protruding a predetermined length into the inner end of the opening to be bent toward the other end of the opening, and extending at a predetermined distance from the inner wall surface of the opening on one end of the opening; High voltage jumper wire protection tube. The method of claim 1, The other end of the opening is a corrugated pipe type high voltage jumper wire protective tube, characterized in that a support interval for protruding a predetermined length toward the inside of the tube body to support the inner blade. The method of claim 1, The tube body is a corrugated tube type high voltage jumper wire protective tube, characterized in that the tube thickness of the region where the opening is formed and the region facing the opening is relatively small. The method of claim 1, Corrugated pipe type high voltage jumper wire protective tube, characterized by being made of polyethylene material with high heat resistance.

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