RU2338282C1 - Insulator (vesions) - Google Patents

Abstract

FIELD: electric engineering.

SUBSTANCE: insulator contains support part in the form of disc (1) with bushing (2) for fixing inside end (3) of rod (4) from glass-cloth laminate. At the end (7) of rod (4) from glass-cloth laminate head (8) is fixed. Around rod (4) between disc (1) and head (8) insulating body (9) is located, which has radial ribs (10). Insulating body (9) is made from organic-silicon rubber. In one version of invention head is made of polymer material, and in the second one - from metal. Head may be made from polyamide. Support part may be arranged with bushing for fixing inside end of rod from glass-cloth laminate. Head may be arranged with expansion with annular groove. Disc may be made with threaded opening, in which threaded axial rod is screwed in.

EFFECT: reduction of insulator weight.

19 cl, 3 dwg

Description

The invention relates to the field of electrical equipment, and in particular to an insulator (options), intended for fastening wires and fiber optic cables to the traverses of power lines.

Known insulator containing an insulating body of ceramic material with transverse ribs in the form of a spiral, a head and a lower supporting part, as well as a supporting rod. The head is made with a transverse groove for laying the wire. The supporting rod is located inside the insulating body and ends at the bottom with a threaded end, through which the insulator is mounted on the traverse of the power line support (RU No. 2107963 C1, IPC 6 Н01В 17/14, 1998).

This well-known support insulator made using ceramic materials has significant weight, which entails the corresponding costs of transportation and installation. The weight of the traverse with such insulators causes a sequential installation on the racks at the beginning of the traverse, on which the insulators are then mounted, since otherwise the load on the installers increases excessively. When installing a power line using the described known reference insulator, as well as reference insulators of other known structures, wires or fiber optic cables that currently have insulation made of polymer material are stretched using tension rollers due to significant friction of the insulation of the wires on the glazed surface of the insulators . The use of tension rollers leads to additional labor costs for the construction of a power line, which can be avoided if wires or fiber optic cables can be pulled without the use of tension rollers.

The technical problem to which the present invention is directed is to create an insulator for attaching wires and / or fiber optic cables, which will have less significant weight in comparison with currently common ceramic structures.

The solution of the problem in the first embodiment of the invention is provided by the fact that the insulator contains a supporting part with an element for fixing it, a fiberglass rod fixed at one end to the supporting part, a head that is mounted on the second end of the rod and made of a polymeric material, as well as an insulating body made around the fiberglass rod between the support part and the head with radial ribs of silicone rubber.

In a preferred embodiment, the head is made of polyamide, which avoids the use of tension rollers when laying power lines, since the wires in the insulation easily slide along the grooves of the heads of the insulators.

The head, as a rule, is made with the neck, as well as with two radial protrusions located on opposite sides between the neck of the head and the insulating body.

The head can be made with end protrusions, forming at its end an element in the form of a split sleeve, the cut of which lies along the axis of the insulator.

The neck is intended for location in its recess of the wire when the insulator is installed at an angle to the vertical, and the element in the form of a split sleeve is used to arrange the wire in a vertical arrangement of the insulator.

The insulating body on the head side, as a rule, has an outer cylindrical surface with at least one annular groove for forming a sealing element, while the head covers this cylindrical surface of the insulating body.

The cavity of the head, in which the end of the fiberglass rod is located, is usually made with notches on the side surface, which contributes to the reliable fastening of the head on the rod.

In the second embodiment of the invention, the insulator also contains a supporting part with an element for fixing the insulator, a fiberglass rod fixed at one end to the supporting part, a head that is mounted on the second end of the rod and is made of metal in this embodiment. The insulating body, as in the first embodiment of the invention, is made around a fiberglass rod between the support part and the head with radial ribs of silicone rubber.

The head in this embodiment of the invention can also be made with a sleeve, inside which is located the end of the fiberglass rod, while the head is mounted on the fiberglass rod by crimping the sleeve.

As a rule, the head is made of steel and has an extension with an annular groove for the location of the wire in it.

As in the first embodiment of the invention, the insulating body on the head side can be made with an outer cylindrical surface having at least one annular groove for forming a sealing element, while the head covers this cylindrical surface of the insulating body.

In both variants of the invention, the support part may have the same design.

The supporting part can be made with a sleeve for fixing the end of the fiberglass rod inside it.

The supporting part may be in the form of a disk, and the element for fixing the insulator may be made in the form of a protruding threaded axial rod. In this case, the disk may have a threaded hole into which a threaded axial rod is screwed.

The support part and its sleeve are made, as a rule, of metal, mainly of steel, while the core of fiberglass is fixed inside the sleeve of the support part by crimping.

The invention is illustrated by specific examples, illustrated in graphic materials, which show insulator options, a side view with axial cuts. The first embodiment of the invention is illustrated by insulators with heads made of polymer material: in Fig. 1, an insulator with a head having only a neck, and in Fig. 2, an insulator, the head of which has both a neck and end protrusions in the form of a split sleeve. A second embodiment of the invention is illustrated by the example of the insulator shown in FIG.

The insulator shown in figure 1, contains a supporting part in the form of a disk 1 with a sleeve 2 for fixing inside it the end 3 of the rod 4 of fiberglass. The element for fixing the insulator is made in the form of a protruding threaded axial rod 5, which is screwed into the threaded hole 6 of the disk 1. The disk 1 and the sleeve 2 are made of steel and the sleeve 2 is fixed to the disk by welding. The fiberglass rod 4 is fixed inside the sleeve 2 by crimping.

At the end 7 of the rod 4 of fiberglass fixed head 8, which is made of polyamide.

Around the rod 4 between the disk 1 and the head 8 is an insulating body 9 having radial ribs 10. The insulating body 9 is made of silicone rubber.

The head 8 is made with a neck 11, as well as with two radial protrusions 12 located on opposite sides between the neck 11 and the insulating body 9.

In the example of the insulator shown in FIG. 2, the head 13 is made with end protrusions 14 forming an element in the form of a split sleeve at its end, the cut 15 of which lies on the axis of the insulator.

The insulating body 9 (figure 1) from the side of the head 8 is made with the male head 8 covered by an outer cylindrical surface 16 having two annular grooves 17 for the sealing element.

The cavity 18 of the head 8, in which the end 7 of the rod 4 is made of fiberglass, is made with notches (not shown in the drawings) on the side surface 19.

Figure 3 shows an example of an insulator made in accordance with a second embodiment of the invention. Its difference from the previous embodiment of the invention consists only in the execution of the head 20, for the manufacture of which metal is used, and in a particular case, steel.

In this example, the head 20 is made with a sleeve 21, inside of which is located the end 22 of the fiberglass rod 23. The head 20 is mounted on a fiberglass rod 23 by crimping the sleeve 21.

The head 20 is made with an extension 24 with an annular groove 25.

The insulating body 26 in this embodiment of the invention also on the head 20 side is made with the male cylindrical surface 20 covered by the head 20, having two annular grooves 28 for forming a sealing element.

In the manufacture of support insulators in both variants of the invention, first the fiberglass laminate 4 is fixed in the sleeve 2 of the support part with the disk 1, after which this assembly is placed in the mold, where silicone rubber is fed to form the insulating body 9. After the silicone rubber is polymerized, the assembly is removed from the mold a head 8 is installed at the end 7 of the rod 4 made of fiberglass. Preliminary, sealing elements, for example, in the form of rubber rings, are installed in the grooves 17.

The insulators made according to the invention, which, in comparison with insulators of a traditional design with an insulating ceramic body, have a lower weight, are used for mounting on traverses before mounting traverses on racks. Due to the reduced weight, it is possible to mount traverses on racks with pre-installed insulators. Traverses prepared for installation with insulators in the form of monoblocks installed on them are packed together with fasteners in containers of a traditional design - wooden boxes or boxes made of polymer material - and delivered to the place of erection of power line poles.

Claims (19)

1. An insulator containing a support part with an element for fixing the insulator, a fiberglass rod fixed at one end to the support part, a head that is mounted on the second end of the rod and made of polymer material, and an insulating body made around the fiberglass rod between the support part and head, with radial ribs of silicone rubber. 2. The insulator according to claim 1, characterized in that the head is made of polyamide. 3. The insulator according to claim 1, characterized in that the head is made with a neck, as well as two radial protrusions located on opposite sides between the neck of the head and the insulating body. 4. The insulator according to claim 1, characterized in that the head is made with end protrusions forming at its end an element in the form of a split sleeve, the cut of which lies along the axis of the insulator. 5. The insulator according to claim 1, characterized in that the insulating body on the head side is made with an outer cylindrical surface having at least one annular groove for forming a sealing element, while the head covers this cylindrical surface of the insulating body. 6. The insulator according to claim 1, characterized in that the head cavity in which the end of the fiberglass rod is located is made with notches on the side surface. 7. The insulator according to claim 1, characterized in that the supporting part is made with a sleeve for fixing the end of the fiberglass rod inside it. 8. The insulator according to claim 1, characterized in that the supporting part is made in the form of a disk, and the element for fixing the insulator is in the form of a protruding threaded axial rod. 9. The insulator of claim 8, wherein the disk is made with a threaded hole into which a threaded axial rod is screwed. 10. The insulator according to claim 7, characterized in that the supporting part and its sleeve are made of metal, while the core of fiberglass is fixed inside the sleeve of the supporting part by crimping. 11. An insulator containing a support part with an element for fixing the insulator, a fiberglass rod fixed at one end to the support part, a head that is mounted on the second end of the rod and made of metal, and an insulating body made around the fiberglass rod between the support part and head, with radial ribs of silicone rubber. 12. The insulator according to claim 11, characterized in that the head is made with a sleeve, inside which is located the end of the fiberglass rod, the head being fixed to the fiberglass rod by crimping the sleeve. 13. The insulator according to claim 11, characterized in that the head is made with an extension with an annular groove. 14. The insulator according to claim 11, characterized in that the insulating body on the head side is made with an outer cylindrical surface having at least one annular groove for forming a sealing element, while the head covers this cylindrical surface of the insulating body. 15. The insulator according to claim 11, characterized in that the supporting part is made with a sleeve for fixing the end of the fiberglass rod inside it. 16. The insulator according to claim 11, characterized in that the supporting part is made in the form of a disk, and the element for fixing the insulator is in the form of a protruding threaded axial rod. 17. The insulator according to clause 16, wherein the disk is made with a threaded hole into which a threaded axial rod is screwed. 18. The insulator according to clause 16, wherein the supporting part and the sleeve are made of metal, while the fiberglass rod is fixed inside the sleeve by crimping, and the insulating body covers the sleeve. 19. The insulator according to claim 11, characterized in that the head is made of steel.

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