WO1997044875A1

WO1997044875A1 - Field spacer for bunched conductors

Info

Publication number: WO1997044875A1
Application number: PCT/EP1997/002478
Authority: WO
Inventors: Wolfgang Manicke
Original assignee: Vew Energie Aktiengesellschaft
Priority date: 1996-05-17
Filing date: 1997-05-15
Publication date: 1997-11-27
Also published as: DE19619875A1; DE19619875C2

Abstract

A field spacer for bunched conductors with two conductor clamping heads connected together by a spacer (3) and each consisting of a fixed clamping jaw (1) and a movable clamping jaw (2) pivotable thereon and a locking pin (12) which can be inserted after the jaws have been closed around a conductor.

Description

"Spacers for bundle ladders"

Technical field

The invention relates to a field spacer for bundle conductors.

State of the art

Field spacers are used to keep sub-conductors of a bundle conductor at a distance in high-voltage lines. The distance between the sub-conductors affects the electrical boundary field strength. Under everyday conditions, the field spacers are intended to prevent the partial conductors from being knocked together and tangled due to the influence of wind. In addition, the field spacers should avoid an impermissible approach of the partial conductors as a result of the attraction forces caused by the operating current.

In the event of a short circuit, the partial conductors of one phase attract each other strongly. Depending on the level and duration of the short-circuit current, the sub-conductors can collapse and also zip together. pull. The partial conductors are bent considerably at the field spacers, so that the clamps of the spacers are to be designed in such a way that the partial conductors are protected against excessive stress. Due to the short circuit current, the field spacers are subjected to high compressive forces, however permanent deformations of the field spacers must not occur.

Due to the constant vibration stress, the field spacers are subject to high wear. Furthermore, assembly errors cannot be ruled out with the known field spacers, since the individual parts must be assembled on site at great heights above ground and the necessary clamping forces must be ensured using defined screw tightening torques.

Presentation of the invention

The invention has for its object to provide an improved field spacer that can be assembled without errors, ensures constant clamping forces in the long run and is durable.

Based on this task, a field spacer for bundle conductors is proposed with two conductor clamping heads connected by a spacer, which according to the invention each consist of a fixed clamping shell and a pivotable clamping shell arranged thereon and a locking bolt which can be pushed through a conductor after the clamping shell has been closed . By means of a simple tensioning device, the necessary contact pressure for the complete closing of the conductor clamping head is generated for the movable clamping shell folded around the partial conductor, and the locking bolt can now be inserted in the now completely closed state in a precisely fitting locking hole.

With the exception of the locking bolt, the mechanic working above the ground only needs to take one single, connected assembly unit in hand. The individual components are captively connected to one another, and only simple work sequences are to be carried out, namely placing the field spacer with the conductor clamp heads open on two adjacent partial conductors and closing the movable clamping disks, clamping with the clamping device and inserting the locking bolts, and relaxing and removing the clamping device.

In order to generate a constant clamping force that is independent of the diameter tolerances of the partial conductors, a clamping block made of plastic, advantageously made of neoprene, can be provided, preferably captively connected to the fixed and / or the movable clamping shell.

The clamping block can be glued captively into an adapted recess of the fixed clamping shell and protrudes two to four millimeters over an inner surface of the opening formed between the clamping shells for clamping a partial conductor. In this way, settling processes in the conductor can be compensated, and the reduction in the clamping force is limited to a permissible level by the rubber-elastic material.

The movable clamping shell can preferably be insertable on the fixed clamping shell around a joint facing away from the spacer between the fixed clamping shells, can have a fork end encompassing a web on the fixed clamping shell, and the locking bolt can be pivotable through bores in the fork end and in the web. To prevent the locking bolt from falling out, the diameter of the locking bolt in the region of the bore in the web or in the region of the bore in the fork end can have a reduced diameter. The movable clamping shell can spring back around this shoulder on the locking bolt after the locking bolt has been inserted, so that the shoulder lies against the bore end in the web or in the fork end and is held captively.

A stalum rope can preferably serve as a spacer, which has a damping effect.

To reduce wind noise and to prevent corona discharges, all outer surfaces of the conductor clamping heads can be rounded. Brief description of the drawing

The invention is explained below with reference to an embodiment shown in the drawing. The drawing shows:

1 is a side view of a field spacer with an open movable clamping shell,

Fig. 2 is a plan view of the field spacer shown in FIG. 1 and

Fig. 3 is a view of a locking bolt.

Ways of carrying out the invention

A field spacer consists of a pair of conductor clamp heads that are attached to a stalum rope as a spacer.

In detail, each conductor clamping head consists of a fixed clamping shell 1 fastened to the stalum rope 3 and a clamping shell 2 which can be pivoted about a joint 7 on the fixed clamping shell 1.

The joint 7 is arranged at the end of the fixed clamping shell 1 that is distant from the stalum rope 3. On the area of the fixed clamping shell adjacent to the stalum rope 3 there is a web 5 with a bore 6, which is joined together with a fork end 10 at the free end of the pivotable clamping shell 2 m in the manner shown on the right side of the drawing. works. In this position, a locking bolt 12 can be inserted through the bores 6, 11, which has a sectionally reduced diameter 13 in the region of the bore 6 in the web 5 (FIG. 3).

A partial conductor (not shown) is clamped into an opening 8 formed between the fixed clamping shell 1 and the movable clamping shell 2 by the pivotable clamping shell 2 from the position shown on the upper clamping element of the drawing via the partial conductor m to the position shown on the lower clamping element folded and tensioned by means of a clamping device so that the bores 6, 11 are aligned and the locking bolt 12 can be inserted into these bores 6, 11. If the tensioning device is then relaxed, the pivotable clamping shell springs back by the amount of the diameter reduction of the locking bolt 13, so that the shoulders on the larger diameter of the locking bolt 12 lie laterally on the side faces of the web and are thereby secured against falling out.

The clamping force of the movable clamping shell 2 is determined by a neoprene clamping block 9 glued into a corresponding recess in the fixed clamping shell 1. In the position shown on the left side of the drawing, this neoprene clamping block 9 protrudes through the opening 8 by two to four millimeters and springs back by a defined amount when the conductor clamping head is tensioned, as a result of which a constant, largely independent of diameter tolerances and settling phenomena of the partial conductor Clamping force is generated. The clamping block 9 can also be used in the pivotable clamping shell 2. Because of the necessary equipotential bonding, the clamping block 9 is only to be used in one clamping shell of a clamping point.

Industrial applicability

All outer surfaces of the conductor clamp heads are rounded, which contributes to the reduction of wind noise and is necessary to prevent corona discharges.

Claims

Claims:

1. Field spacer for bundle ladder with

two conductor clamp heads connected to each other via a spacer (3)

j e a fixed clamp (1) and

a swiveling clamping shell (2) and

- A locking pin (12).

2. field spacer according to claim 1, characterized by a with the fixed or the movable clamping shell (1,2) captively connected clamping block (9) made of permanently elastic material.

3. Field spacer according to claim 2, characterized gekenn¬ characterized in that the clamping block (9) made of permanently elastic material, for example neoprene.

4. field spacer according to claim 2 or 3, characterized in that the clamping block (9) m an adapted recess (4) of the fixed clamping shell (1) is glued.

5. Field spacer according to claim 2, 3 or 4, characterized in that the clamping block (9) protrudes two to four millimeters over an inner surface of a clamping channel (8) formed between the clamping shells (1, 2) for clamping a conductor.

6. field spacer according to one or more of claims 1 to 5, characterized in that the movable clamping shell (2) about a spacer (3) between the fixed clamping shells (1) facing away joint (7) on the fixed clamping shell (1) pivotable a fork end (10) encompassing a web on the fixed clamping shell (1) and the locking bolt (12) can be inserted through bores (6, 11) in the fork end (10) and in the web (5).

7. field spacer according to claim 6, characterized in that the locking bolt (12) as

Securing (12) against falling out in the area of the bore (6) in the web (5) or in the area of the bore (11) in the fork end (10) has a reduced diameter (13).

8. field spacer according to one or more of claims 1 to 7, characterized by a Sta¬ lumseil (3) as a spacer.

9. field spacer according to one or more of claims 1 to 8, characterized in that the conductor clamping heads are rounded to reduce wind noise and avoid corona discharges.

6 gr