JP3796396B2 - Protective cover for polymer insulator, spacer for electric wire, and air branch structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a protective cover for polymer insulators, a spacer for electric wires, and an air branch structure for electric wires, and more particularly to an protective cover for polymer insulators, a spacer for electric wires and an air branch structure for electric wires that are preferably used for salt resistance.
[0002]
[Prior art]
In recent years, polymer insulators using fiber reinforced plastic (hereinafter abbreviated as FRP) as a core material have been widely used because they have excellent characteristics such as light weight, easy processing, and high strength. . For such a polymer insulator, for example, a spacer for an electric wire to be interposed between a plurality of electric wires parallel to each other is known, and when such an electric wire spacer is used in, for example, a coastal area, In order to prevent contamination due to salt, it is known to attach a cylindrical protective cover that can cover the body of the wire spacer with a predetermined distance from the body surface.
[0003]
That is, for example, Japanese Patent Application Laid-Open No. 9-9472 describes a wire spacer in which a covering material that directly covers a core material and such a cylindrical protective cover are integrally formed, and Japanese Patent Laid-Open No. 9-233661 describes an electric wire spacer in which a cylindrical protective cover is attached to a metal fitting for fitting an end portion of a core material.
[0004]
[Problems to be solved by the invention]
However, in the electric wire spacer described in Japanese Patent Laid-Open No. 9-9472, the protective cover is formed integrally with the covering material that directly covers the core material, so the protective cover is attached to the existing electric wire spacer. In the body portion of the electric wire spacer, and the arrangement of the protective cover cannot be arbitrarily changed in the body portion of the electric wire spacer.
[0005]
Also, in the electric wire spacer described in JP-A-9-233661, the protective cover is formed of synthetic rubber having high tensile strength and high impact strength, and is attached to the metal fitting. The arrangement cannot be arbitrarily changed, and there is a problem that the application is limited.
[0006]
The present invention has been made to solve the above-described problems, and the object of the present invention is to be able to easily attach to the body of the polymer insulator and to arbitrarily select the attachment position. It is intended to provide a protective cover for a polymer insulator, a spacer for an electric wire provided with the protective cover for the polymer insulator, and an air branch structure of the electric wire provided with the spacer for the electric wire.
[0007]
[Means for Solving the Problems]
To achieve the above object, an invention according to claim 1, a polymer insulator for a protective cover for covering the torso table surface of the polymer insulator, the polymer insulator for protective cover, the elongation of 300 to 1000% Formed of a room temperature stretchable rubber, and integrally formed from a large diameter cylindrical portion and a small diameter cylindrical portion continuous to the large diameter cylindrical portion, and the small diameter cylindrical portion is provided at a body portion of the polymer insulator. It can be stretched to a diameter larger than the diameter of the projecting portion extending radially outward of the body portion, and can be crimped and fixed to the body surface if the stretching is released. The large-diameter cylindrical portion is formed so as to be spaced from the trunk surface in a state where the small-diameter cylindrical portion is crimped and fixed to the trunk surface. In the stretched state Te, from one axial end portion of the polymer insulator is inserted into the barrel, after passing through the projection, by releasing the stretching is characterized by being crimped to the barrel .
[0008]
When such a protective cover for a polymer insulator is used, in a state where the small-diameter cylindrical portion of the protective cover for the polymer insulator is stretched, the polymer insulator is inserted into the trunk from the axial direction , and the protrusion is passed through . If the stretching is released, the polymer insulator protective cover can be easily crimped and fixed at an arbitrary position in the trunk. Therefore, for example, without preparing a dedicated polymer insulator for salt resistance, it can be attached to an existing polymer insulator and used for salt resistance. In addition, since only the protective cover for the polymer insulator is molded independently and attached to the existing polymer insulator, for example, compared to the case where it is integrally molded with the coating material of the core material, a dedicated large mold is unnecessary, Cost can be reduced. Furthermore, even after installation, if it is stretched again, it can be attached to another position in the trunk, so that it can always be used in accordance with the actual use, and further, it can be removed again and the polymer insulator is removed. It can also be used in its original state.
[0009]
The invention described in claim 2 is a spacer for electric wires, and is constituted by a polymer insulator, and is provided with the protective cover for polymer insulator described in claim 1.
[0010]
In such an electric wire spacer, the protective position for the polymer insulator can be easily attached to the body portion by arbitrarily selecting the attachment position, so the degree of freedom of the attachment position is large, and therefore it is always suitable for practical use. Thus, the protective cover for the polymer insulator can be used.
[0011]
The invention according to claim 3 is a main line of the electric wire, a branch line branched from the main line in the air, a messenger wire stretched below the main line, and a longitudinal direction of the messenger wire. It is provided with the spacer for electric wires according to claim 2 interposed in the middle, and the branch line is supported by the spacer for electric wires .
[0012]
In the vicinity of road intersections, etc., it is not possible to provide utility poles due to the conditions for permitting private use of roads. Therefore, in the case of horizontally wired electric wires, a T-type branch is performed in the air to branch the branch line from the main line. A so-called airborne T-type branch structure is employed. In other words, this aerial T-type branch structure is one in which a messenger wire is stretched below a plurality of main lines, and a plurality of branch lines are supported on the messenger wire via insulators.
[0013]
In such an aerial T-type branch structure, each branch line branched from each main line is supported by the electric wire spacer by interposing a spacer for the electric wire made of a polymer insulator in the middle of the messenger wire. The wire can be easily supported in an insulated state.
[0014]
However, since such an aerial T-shaped branch structure is installed in various places, if the electric wire spacer according to claim 2 is used as an electric wire spacer to be interposed in the middle of the messenger wire, As always suitable, the protective cover for the polymer insulator can be used by being disposed on the body of the spacer for the electric wire. Therefore, for example, even in a coastal region, an airborne T-type branch structure that does not leak current over a long period of time can be provided.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Figure 1 is a view to side view of one embodiment of a spacer wire has a polymer insulator for protective cover of the present invention.
[0016]
In FIG. 1, this electric wire spacer 1 is attached in the middle of a messenger wire in an air branch structure of an electric wire, which will be described later, and is composed of a polymer insulator 2, and is a polymer insulator protective cover (hereinafter referred to as a protective cover). (Omitted) 3 is provided.
[0017]
The polymer insulator 2 includes an FRP core material 4 formed in a solid cylindrical shape, two support fittings 5 into which both ends of the core material 4 are inserted and fixed, and the core material 4 covered in the length direction. And a plurality of mounting members 7 provided in the middle of the core material 4 in the length direction.
[0018]
Each support metal fitting 5 has a cylindrical portion 8 into which both ends of the core material 4 are inserted, and the cylindrical portion 8 is caulked with a die or the like in a state where both ends of the core material 4 are inserted into the cylindrical portion 8. As a result, both end portions of the core member 4 are fixed to the cylindrical portion 8 of each support fitting 5 by pressure bonding. Although not shown in FIG. 1, the end portion of the covering material 6 is also crimped and fixed at the open end portion of the cylindrical portion 8 of each support fitting 5. Each support fitting 5 has a substantially U-shaped fixing part 9 continuous to the cylindrical part 8, and a fixing bolt 10 whose one end is pinned is inserted into the fixing part 9.
[0019]
The covering material 6 is made of silicone rubber, and is formed so as to directly cover the periphery of the core material 4 in the length direction thereof. A beveled protrusion 14 extending radially outward is provided in the axial direction. A plurality are provided with a distance of.
[0020]
The attachment member 7 is made of a synthetic resin such as an epoxy resin and has a ring shape with a substantially concave cross section. A plurality (three) of the attachment members 7 are provided around the core member 4 at substantially equal intervals in the axial direction.
[0021]
In such a polymer insulator 2 , in the following description, the body portion 11 refers to a portion between the support metal fittings 5.
[0022]
Protective cover 3, 300 to 1000%, more preferably, 500 to 800% of the elongation Vito, tracking resistance (e.g., IEC60587-3.5KV judgment A, B together or pass) and a, for example, silicone rubber, etc. As shown in FIG. 2, the large-diameter cylindrical portion 12 and the small-diameter cylindrical portion 13 continuous with the large-diameter cylindrical portion 12 are integrally formed. The small-diameter cylindrical portion 13 can be extended to an opening diameter larger than the diameter of the member provided in the body portion 11 of the polymer insulator 2 , that is, the protrusion 14 or the mounting member 7, and the extension is released. In this case, the diameter of the body portion 11 is formed on the outer peripheral surface of the covering material 6 so that the small diameter cylindrical portion 13 can be fixed by pressure bonding. Further, the large-diameter cylindrical portion 12 is formed so as to be opposed to the outer peripheral surface of the covering material 6 with a predetermined interval in a state where the small-diameter cylindrical portion 13 is fixed to the surface of the covering material 6 by pressure. Has been.
[0023]
And such a protective cover 3 is inserted in the trunk | drum 11 from the axial direction one end part of the polymer insulator 2, for example in the state which extended the small diameter cylinder part 13 so that the opening part might become wide, Depending on the arrangement, the protrusion 14 and the attachment member 7 are allowed to pass through, and then released from being stretched, so that they are fixed to a predetermined position in the trunk portion 11 by pressure. More specifically, a plurality of the protective covers 3 are provided at predetermined intervals in the trunk portion 11 of the polymer insulator 2. For example, two protective covers 3 are provided at both end portions of the trunk portion 11 in FIG. The protective cover 3 is arranged so that the opening of the large-diameter cylindrical portion 12 faces inward in the axial direction, and the two protective covers 3 are arranged in the axial direction inside of the mounting members 7 on both sides. It arrange | positions so that the opening part of the part 12 may become an axial direction inward.
[0024]
By providing such a protective cover 3 , the surface insulation distance and surface leakage distance of the polymer insulator 2 can be increased, and for example, effective in preventing contamination of the polymer insulator 2 due to salt in a coastal area. Can be effective. Therefore, the electrical insulation performance and antifouling performance of the polymer insulator 2 can be improved.
[0025]
Moreover, the protective cover 3 can be easily crimped and fixed at an arbitrary position in the body 11 of the polymer insulator 2 by overcoming the protrusion 14 and the mounting member 7 if the opening of the small diameter cylindrical portion 13 is extended widely. can do. Therefore, for example, without preparing a dedicated polymer insulator for salt resistance, it can be attached to the polymer insulator 2 that can also be used as such an existing polymer insulator and used for salt resistance. In addition, since only the protective cover 3 is molded and attached to the polymer insulator 2, for example, a dedicated large mold is not required as compared with the case where the protective cover 3 is integrally molded with the covering material 6, and the cost can be reduced. Can be planned. Further, even after the attachment, if it is stretched again, it can be attached to another position in the trunk portion 11, so that it can be used in a changed manner consistent with the actual use. 2 can also be used in its original state.
[0026]
And in such a spacer 1 for electric wires, since the protective cover 3 is attached by arbitrarily selecting the attachment position in the trunk portion 11 of the polymer insulator 2, the degree of freedom of the attachment position is great, and therefore, it is always in practical use. Accordingly, it can be used with the protective cover 3 disposed.
[0027]
The protective cover 3 may be attached to the trunk portion 11 before the core member 4 is attached to the support metal fitting 5, or after being attached to the trunk portion 11 after the core member 4 is attached to the support metal fitting 5. Also good.
[0028]
And, in such a so-called aerial T-type branch structure in which such a wire spacer 1 stretches a messenger wire below a plurality of main lines and supports a plurality of branch lines on each messenger wire, It can use suitably as a spacer for electric wires interposed on the way.
[0029]
Next, an aerial T-type branch structure in which the electric wire spacer 1 is used will be described with reference to FIGS. 3 and 4.
[0030]
As shown in FIG. 3, this aerial T-type branch structure mainly uses a T-type cable in the air that is wired horizontally in a place where a utility pole cannot be provided due to conditions for permitting road occupation, such as near an intersection of a road. Applied to branch.
[0031]
In FIG. 3, this T-type branch structure branches three branch lines 24 corresponding to each main line 23 from three main lines 23 that are horizontally wired between two power poles 21 and 22. The branch line 24 is wired toward the utility pole 20. In this branch structure, first, the branch line 24 is branched from each of the three main lines 23 by a known method, and below the main line 23, in the middle of the length direction between the utility poles 21 and 22, The messenger wire 25 in which the electric wire spacer 1 is interposed is stretched.
[0032]
In order to interpose the electric wire spacer 1 in the messenger wire 25, as shown in FIG. 4, the messenger wire 25 is attached to both ends in the length direction of one electric wire spacer 1 prepared in advance. More specifically, a flexible elongated strap-like retaining grip 26 is used to wind the retaining grip 26 around a fixing bolt 10 inserted through the fixing portion 9 of the electric wire spacer 1. The messenger wire 25 may be wound around. The retaining grip 26 is usually formed from a steel wire.
[0033]
And as shown in FIG. 3, while extending the messenger wire 25 in which such an electric wire spacer 1 is interposed between the electric poles 21 and 22 below the main line 23, the electric wire in the messenger wire 25 is provided. The branch line 24 branched from the main line 23 is supported on the mounting member 7 of the spacer 1 for use. In order to stretch the messenger wire 25 between the utility poles 21 and 22, a known method may be used as appropriate.
[0034]
In order for the attachment member 7 of the electric wire spacer 1 to support the branch line 24 branched from the main line 23, a clamp or a winding grip 27 may be used as shown in FIG. That is, the clamp and winding grip 27 are attached to the support portion 28 that supports the branch line 24 so that the branch line 24 can be inserted, and are substantially U-shaped that are wound around the attachment member 7 of the spacer 1 for electric wires. The branch wire 24 is inserted into the support portion 28, and the branch wire 24 is fixed to the support portion 28 by fastening the inserted branch wire 24 with a fastening member (not shown). The clamp 29 and the winding grip 27 may be attached to the attachment member 7 by hanging the hook 29 around the attachment member 7 of the electric wire spacer 1 and attaching it to the support portion 28 to which the branch line 24 is attached. The support portion 28 and the mounting rod 29 of the clamp and winding grip 27 are formed of a metal material or the like, but the support portion 28 is covered with an insulating cover 30 and the mounting rod 29 is also covered with an insulating material. Has been.
[0035]
In such an aerial T-type branch structure, the branch wire 24 is clamped to the mounting member 7 provided in the wire spacer 1 by a simple configuration in which the wire spacer 1 is interposed in the middle of the messenger wire 25 in the length direction. If supported by the winding grip 27, the messenger wire 25 in which the electric wire spacer 1 is interposed can be easily supported in an insulated state. Therefore, the number of parts and the number of assembling steps are small, the cost can be reduced, and the appearance can be improved by simplifying the configuration.
[0036]
However, such an aerial T-type branch structure is installed in various places. Therefore, if the above-described electric wire spacer 1 is used as the electric wire spacer 1 interposed in the middle of the messenger wire 25, it is always in each installation place. The protective cover 3 can be used by being disposed on the trunk portion 11 of the electric wire spacer 1 as appropriate. Therefore, for example, even in a coastal region, an airborne T-type branch structure that does not leak current over a long period of time can be provided.
[0037]
In the above description, the protective cover 3 has been described as an example of application to the polymer insulator 2 used as the wire spacer 1. However, the polymer insulator protective cover of the present invention is a polymer used as the wire spacer 1. The present invention is not limited to the insulator 2 and can be applied to all other polymer insulators. Thus, the polymer insulators polymer insulator for protective cover of the present invention is applied, for example, may be one such preparative member with 7 is not formed, also including the length of the core 4 does not matter.
[0038]
Moreover, the protective cover 3 may be as shown in FIGS. 5 and 6, for example. That is, the protective cover 3 shown in FIG. 5 is integrally formed with a folded portion 15 projecting radially inward at the opening end of the large-diameter cylindrical portion 12 in the protective cover 3 described above. By providing such a folded portion 15, the contamination of the polymer insulator 2 due to salt can be further effectively prevented. Therefore, the antifouling performance of the polymer insulator 2 can be further improved.
[0039]
Further, the protective cover 3 shown in FIG. 6 is formed in a trumpet shape so that the large diameter cylindrical portion 12 gradually increases in diameter from one end portion of the small diameter cylindrical portion 13.
[0040]
【The invention's effect】
As described above, according to the first aspect of the present invention, for example, without preparing a dedicated polymer insulator for salt resistance, it can be easily attached to an existing polymer insulator and used for salt resistance. Further, since only the protective cover for the polymer insulator is formed alone, the cost can be reduced. In addition, even after installation, it can be mounted again at a different position on the trunk, so that it can always be used in accordance with the actual use, and it can be removed again. It can also be used.
[0041]
According to the second aspect of the present invention, the protection position for the polymer insulator can be easily attached by arbitrarily selecting the attachment position in the body portion of the spacer for the electric wire. It can be used in a state where a protective cover for a polymer insulator is always arranged in accordance with actual use.
[0042]
According to the third aspect of the present invention, it is possible to provide an airborne T-shaped branch structure that does not leak current over a long period even in a coastal region.
[Brief description of the drawings]
FIG. 1 is a side view showing an embodiment of an electric wire spacer provided with a protective cover for polymer insulators of the present invention.
2 is a cross-sectional side view of a main part in FIG. 1. FIG.
FIG. 3 is an overall configuration diagram showing an embodiment of an airborne T-type branch structure.
4 is a perspective view showing a main part of the aerial T-type branching structure in FIG. 3. FIG.
FIG. 5 is a side cross-sectional view showing a main part of another embodiment of the protective cover for a polymer insulator of the present invention.
FIG. 6 is a cross-sectional side view of a main part showing another embodiment of the protective cover for a polymer insulator of the present invention.
[Explanation of symbols]
1 Wire Spacer 2 Polymer Insulator 3 Protective Cover 11 Body 23 Main Line 24 Branch Line 25 Messenger Wire

Claims (3)

A polymer insulator for protective cover for covering the torso table surface of the polymer insulator,
The polymer insulator protective cover is formed of a room temperature stretchable rubber having an elongation of 300 to 1000% ,
It is integrally molded from a large-diameter cylinder and a small-diameter cylinder that continues to the large-diameter cylinder,
The small-diameter cylindrical portion can be stretched to a diameter larger than the diameter of a protrusion provided in the body portion of the polymer insulator and extending outward in the radial direction of the body portion, and if the stretching is released It is formed as a diameter that can be crimped and fixed to the body surface.
The large-diameter cylindrical portion is formed so as to be disposed at a distance from the trunk surface in a state where the small-diameter cylindrical portion is crimped and fixed to the trunk surface.
In the stretched state, the small-diameter cylindrical portion is inserted into the barrel portion from one axial end portion of the polymer insulator, passed through the protrusion, and then released from the stretch, thereby being crimped to the barrel portion. A protective cover for polymer insulators, characterized by being fixed .   A spacer for electric wires, comprising a polymer insulator protective cover according to claim 1, wherein the spacer is composed of a polymer insulator.   The main wire of the wire,
  A branch line branched from the main line in the air;
  A messenger wire stretched below the main line;
  The electric wire spacer according to claim 2, which is interposed in the middle of the longitudinal direction of the messenger wire,
  An aerial branch structure of an electric wire, wherein the branch line is supported by the electric wire spacer.

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