KR101480336B1 - Insulator for insulation joint box of ultra high voltage power cable - Google Patents

Abstract

More particularly, the present invention relates to an insulation barrel of an ultra-high voltage power cable insulation connection box, and more particularly, to an insulation barrel of an ultra high voltage power cable insulation connection box which can reduce the size of the insulation barrel of the synthetic resin material, And an insulation case of a cable insulation connection box.
The insulation tube of the insulation connection box of the ultra-high voltage power cable according to the present invention comprises a first rectilinear section formed by injection molding with a synthetic resin material and formed with a predetermined first outer diameter and a second rectilinear section extending from the first rectilinear section, And a second rectilinear portion extending from the inclined portion and having a second outer diameter larger than the first outer diameter.

Description

{INSULATOR FOR INSULATION JOINT BOX OF ULTRA HIGH VOLTAGE POWER CABLE}

More particularly, the present invention relates to an insulation barrel of an ultra-high voltage power cable insulation connection box, and more particularly, to an insulation barrel of an ultra high voltage power cable insulation connection box which can reduce the size of the insulation barrel of the synthetic resin material, And an insulation case of a cable insulation connection box.

Underground ultra-high voltage power cables are installed between power stations and substations. Depending on the total length of installation, it is necessary to connect the power cables between sections.

Among the connection boxes, an intermediate connection box connecting the middle portion is provided with an ordinary connection box which connects only the ultra-high voltage cable and an insulation connection which is used to insulate the right and left cisterns of the cable and reduce loss due to the sheath current, Respectively.

In the case of the insulated connection box, the insulation pipes for insulating the right and left protective pipes from each other are assembled.

In the past, the insulation box was molded by using an epoxy material. However, in view of the weight and cost reduction, the molded article of the synthetic resin material is mainly used.

The thickness of the insulation tube made of synthetic resin is thin, and the thickness of the protection tube is also becoming thinner due to the rise of the raw material.

1 schematically shows an example of an insulated connection box to which an insulated-pass protection pipe is fastened.

The first protection tube 12a is inserted into the left power cable 11a and the second protection tube 12b is inserted into the right power cable 11a. The protection tube 12a, . The protective pipes 12a and 12b are made of the same material.

Between the protective pipes 12a and 12b, an insulating tube 13 for the purpose of insulated sheath is mediated and fastened.

The insulating tube 13 is made of a synthetic resin material rather than an epoxy molded product. Holes for fastening the screws 14 are formed in the protective tubes 12a and 12b. Screw tabs are formed in the insulating tube 13, The coupling of the protection tubes 12a and 12b and the insulation tube 13 is realized.

However, since the protective tubes 12a and 12b are in the form of circular tubes as shown in FIG. 1, the insulating tube 13 to be coupled therewith is also formed in a cylindrical structure having an inner and outer diameters. In the conventional insulating tube 13, And has an inner diameter.

That is, since the connection points 15 of the power cables 11a and 11b are formed at the middle portion of the insulated junction box 10, the insulator 13 also includes the protective tubes 12a and 12b for receiving the insulators for connection therein. The inner diameter of the inner diameter of the outer diameter of the inner diameter of the inner diameter of the outer diameter portion.

Therefore, the inside and outside diameters of the first protection tube 12a, the insulation tube 13, and the second protection tube 12b should have approximately the same size.

The problem here is that the inner and outer diameters of the protective pipes 12a and 12b must be determined according to the insulating outer diameter of the junction box 10. The higher the rated voltage is, the larger the insulation outer diameter of the power cable becomes, The outer diameters of the protective pipes 12a and 12b can not be increased.

Since the protective pipes 12a and 12b are made of the same material, the larger the outer diameter of the protective pipes 12a and 12b is, the higher the unit cost of the raw material is.

Since the insulating tube 13 is formed in the shape of an isosceles and an inside diameter, the protective pipes 12a and 12b connected to both sides require a copper tube having an outer diameter similar to that of the copper tube. Therefore, There arises a problem that the protective pipes having outer diameters have to be individually designed and produced.

Since the outer diameters of the protective pipes 12a and 12b are the same on both sides and the outer diameters of the protective pipes 12a and 12b are relatively larger than those of the power cable, the end portions of the protective pipes 12a and 12b, (16), which also causes a problem of an increase in the process cost due to the axial pipe process.

SUMMARY OF THE INVENTION An object of the present invention is to provide an insulated tube which can improve the structure of the insulated tube and change the standard of the protective tube on one side in various ways.

In addition, by improving the structure of the insulating tube to reduce the outer diameter of one protective pipe, the cost of the raw material can be reduced and the manufacturing cost can be reduced, thereby realizing the development of a low-cost connection box.

Also, by improving the structure of the insulation tube, it is possible to manufacture the outer diameter of one protective pipe as a circular tube of an outer diameter shape that does not require an axial pipe, thereby reducing the cost of the axial pipe processing.

In order to solve the above-described problems, an insulation barrel of an insulation connection box of an ultra-high voltage power cable according to the present invention is formed by injection molding a synthetic resin material, and has a first rectilinear section formed at a predetermined first outer diameter, A tapered inclined portion having a predetermined inclination angle and a second straight portion extending from the inclined portion and having a second outer diameter larger than the first outer diameter.

The first straight portion and the second straight portion may be formed with one or more embeddable nuts which can be fastened with a protective tube of an insulated connection box and a bolt.

The insulation tube of the insulation connection box of the ultra-high voltage power cable according to the present invention is formed by injection molding a synthetic resin material and has a first rectilinear portion formed at a predetermined first outer diameter and a second rectilinear portion extending from the first rectilinear portion at a predetermined inclination angle A second straight portion extending from the first tapered portion and having a second outer diameter larger than the first outer diameter; a second straight portion extending from the second straight portion and having a predetermined taper angle and tapered And a third straight line portion extending from the second slope portion and having a third outer diameter larger than the second outer diameter.

The first linear portion and the third linear portion may be formed with one or more embeddable nuts which can be fastened with a protective tube of an insulating connection box and a bolt.

Preferably, the outer diameter of the first straight portion is set so that the outer diameter of the protective pipe fastened to the first straight portion of the insulating barrel has an outer diameter that does not require a metal sheath of the power cable and an axial pipe for the through hole.

According to the structure of the present invention described above, it is possible to improve the structure of the insulating tube to variously change the standard of the protective pipe on one side, reduce the outer diameter of the protective pipe on one side, It is possible to manufacture a low-cost connection box that can be manufactured as a circular pipe having an outer diameter shape that does not require an axial pipe, thereby reducing the cost of the pipe-tube process.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional structural view of a conventional insulating pipe for insulation connection of an ultra-high voltage cable; FIG.
2 is a cross-sectional structural view of an insulated-pass protection tube of an ultra-high voltage cable insulated connection box according to an embodiment of the present invention.
3 is a perspective view of the insulating cylinder shown in Fig.
4 is a cross-sectional structural view of an insulated-pass protection tube of an ultra-high voltage cable insulated junction box according to another embodiment of the present invention.
5 is a perspective view of the insulating cylinder shown in Fig.

Hereinafter, an insulation tube structure and an operation effect of an insulation connection box of an ultra-high voltage power cable according to the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a cross-sectional structural view of an insulation-passing protection tube of an ultra-high voltage cable insulation-connection box according to an embodiment of the present invention, and FIG. 3 is a perspective view of the insulation tube shown in FIG.

The insulation connection box 20 for ultra-high voltage cables has a pair of protective pipes 22a and 22b connected to the power cables 21a and 21b on both sides thereof, Is fastened through the insulating tube (23).

The protective tubes 22a and 22b and the insulating tube 23 have a cylindrical structure having an inner and outer diameters.

The protective pipes 22a and 22b are made of a metal material in consideration of mechanical strength, and are made of a copper pipe made of copper having excellent conductivity and a copper pipe formed by rolling a copper plate.

The insulating cylinder 23 is made of an insulating material. Recently, a light and cheap synthetic resin material is injection-molded into a tube shape.

The protective tubes 22a and 22b and the insulating tube 23 are fastened by the bolts 24.

The protective tubes 22a and 22b have different inner and outer diameters of the first protective tube 22a and the second protective tube 22b, as opposed to a conventional protective tube having an outer diameter.

The structure of the insulating tube 23 is changed in order to form different inner and outer diameters of the first and second protective pipes 22a and 22b.

The insulating tube 23 is formed by providing an inclined portion T ₁₁ so as to have different outer diameters (Ø ₁₁ , Ø ₁₂ ) unlike the conventional one. By this structure, the first and second The inner and outer diameters of the protective pipes 22a and 22b may be different from each other.

The condition for changing the structure of the insulating tube 23 is to make the connection positions of the power cables 21a and 21b and the center line of the connection box 20 different from each other, ) Of the first protection pipe 22a is set to be the outer diameter of the second protection pipe 22b and the insulation pipe 23 is connected to the portion where the insulation reinforcement is not connected, It becomes possible to use a copper tube having an outer diameter enough to insert the power cable 21a.

Although the second protection pipe 22b has the same outer diameter and a longer length than the conventional protection pipe, the outer diameter of the first protection pipe 22a is significantly reduced, This results in significant material cost savings.

Since the tip end portion of the first protective pipe 22a has the shape of the outer diameter light pipe which does not require the same axial pipe process as the axial pipe portion 26 of the second protective pipe 22b, the cost for the axial pipe process along the axial pipe is omitted, This is an important factor for lowering the unit price. On the other hand, since the inclined portion of the insulating tube 23 is formed by injection molding, a separate inclined portion forming operation like the conventional insulated passage is not required.

Since the outer diameter of the first protection pipe 22a corresponds to the outer diameter of the insulation tube 23, if the outer diameter of the first protection pipe 22a is larger than the outer diameter of the metal sheath of the power cable 21a, the same protection pipe can be used irrespective of the power cable standard It becomes possible to actively cope with various sizes of power cables.

3, the insulation barrel 23 was has a constant inclination angle is associated with a first linear portion (L ₁₁₎ and the first linear portion (L ₁₁₎ having a predetermined outer diameter (Ø _11), a tapered inclined portion It connected to (T ₁₁₎ and the inclined portion (T ₁₁₎ is made of a second linear portion (L ₁₂₎ having a predetermined outer diameter (Ø _12). The outer diameter? ₁₁ is formed to be smaller than the outer diameter? ₁₂ .

The first linear portion L ₁₁ is a portion where the tip of the first protective pipe 22a engages inward or outward and is fastened by the bolt 24 and at least one embeddable nut 31 for fastening is formed.

The second linear portions are formed (L ₁₂₎ has a second front end of the protection tube (22b) in engagement with the inner or outer part are fastened by a bolt 24, one or more of the embedded nut 32 for fastening.

FIG. 4 is a cross-sectional structural view of an insulation-passing protection tube of an ultra-high voltage cable insulation connection box according to another embodiment of the present invention, and FIG. 5 is a perspective view of the insulation tube shown in FIG.

The embodiment shown in Figs. 4 and 5 is an example in which the shapes of the insulating cylinders 23 and 43 are modified in comparison with the embodiment shown in Figs. 2 and 3, and the other structures are the same.

As shown in Figs. 4 and 5, the insulating cylinder 43 has a shape in which the inclined portion is doubly formed.

The insulating tube of the present invention may have one inclined portion T ₁₁ as shown in FIG. 3, and may have two inclined portions T ₂₁ and T ₂₂ , as shown in FIG. 5, if necessary.

In this case, also the second outer diameter of the protective tube (22b) of the second (Ø ₁₎ than the second outer diameter of the protective tube (42b) of Fig. 4 (Ø ₃₎ is relatively large, the first protective tube of Fig. 2 and 4 ( 22a) the outer diameter (Ø ₂₎ to be formed when the same or similar, the inclined parts of two portions each other in the structure for reinforcing the weakened strength by a sudden inclination angle.

Gene 5, the insulating tube 43 is connected to the first linear portion (L _21), a first linear portion (L ₂₁₎ having a predetermined outer diameter (Ø ₂₁₎ has had a taper with a constant inclination angle of the connected to the first inclined portion (T _21), a first inclined portion (T ₂₁₎ is connected to the second linear portion (L _22), a second linear portion (L ₂₂₎ having a predetermined outer diameter (Ø ₂₂₎ had have a constant inclination angle with the tapered connecting the second inclined portion (T ₂₂₎ and a second inclined portion (T ₂₂₎ is composed of a third linear portion (L ₂₃₎ having a predetermined outer diameter (Ø _23).

The formed first linear portion (L ₂₁₎ has a portion that is fastened by a bolt 44, the front end is in engagement with the inner or outer side of the first protective tube (42a), one or more of the embedded nut 51 for fastening, the The third linear portion L ₂₃ is a portion where the tip end of the second protective pipe 42b is engaged inward or outward and fastened by the bolt 44 and at least one embeddable nut 52 for fastening is formed.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

20, 40: insulated connection compartments 21a, 21b, 41a, 41b: power cables
22a, 22b, 42a, 42b: protective tube 23, 43:
24, 44: bolts 25, 45: connection reference point
31, 32, 51, 52: Embedded nut

Claims (5)

Molded into a synthetic resin material and interposed between a protective pipe and a protective pipe of the ultra-high voltage power cable insulation connection box to cut off power to the metal sheath,
A tapered inclined portion extending from the first straight portion and having a predetermined inclination angle and a second outer diameter portion extending from the inclined portion and having a second outer diameter larger than the first outer diameter, And a second straight line portion having the second straight line portion,
Wherein the first straight portion and the second straight portion are formed with one or more embeded nuts capable of bolt fastening to a protective pipe of an insulated connection case. delete Molded into a synthetic resin material and interposed between a protective pipe and a protective pipe of the ultra-high voltage power cable insulation connection box to cut off power to the metal sheath,
A first linear portion formed at a predetermined first outer diameter, a first inclined portion extending from the first linear portion and tapered at a predetermined inclination angle, and a second inclined portion extending from the first inclined portion, A second straight section having a second outer diameter, a second tilted section extending from the second straight section and having a predetermined tilt angle, and a third outer diameter section extending from the second tilt section and having a third outer diameter And a third rectilinear portion having an upper surface and a lower surface. The method of claim 3,
Wherein at least one of a protection tube of an insulated connection box and an embeddable nut which can be bolted is formed in the first rectilinear section and the third rectilinear section. The method according to claim 1 or 3,
Wherein the outer diameter of the protective pipe fastened to the first straight portion of the insulation tube is set such that the outer diameter of the first straight portion is set so that the metallic sheath of the power cable and the shaft pipe for the pilot hole are not required, barrel.

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