CN220551439U - Traction special tool capable of eliminating torsion force applied by steel cable - Google Patents

Abstract

The utility model provides a can eliminate cable wire and release torsional force and pull specialized tool, including a bottom plate, a riser and five wire rope swivel rings, the bottom plate overall profile is triangle-shaped, the bottom plate is equipped with connecting hole I that runs through the bottom plate in the position department adjacent three angles respectively, connecting hole II, connecting hole III centre still is equipped with can with connecting hole II, connecting hole III on same straight line connect Kong, connecting hole IV's position is just to connecting hole I's position, the riser is rectangle, the riser vertical welding is at the bottom plate upper surface and be located between connecting hole I and the connection Kong, be provided with the connection Kong that runs through the riser on the riser, connecting hole II, connecting hole IV, connecting hole III installs the wire rope swivel rings that is connected with the cable wire rope respectively, connecting hole I installs the wire rope swivel rings that is connected with the haulage rope with connection Kong respectively. The utility model can eliminate the torsion stress generated when the steel cable is released from the disc, and solve the problem of winding between the steel cables in the cable releasing process.

Description

Traction special tool capable of eliminating torsion force applied by steel cable

Technical Field

The utility model relates to a special tool used in the field of photovoltaic construction, in particular to a special tool capable of eliminating torsion force applied by a steel cable.

Background

The clean energy source gradually becomes an important energy source worldwide, under the promotion of policies of reaching peaks and reaching standards of carbon in China, solar photovoltaic power generation becomes the main force of the clean energy source, and a battery assembly support frame for a solar photovoltaic power station is a fixed steel structure support for many years. However, when facing various mountain land projects with complicated topography, fishing light complementation, agriculture light complementation and other projects, and other terrains, the fixed support is difficult to lay, and the flexible photovoltaic support has the advantages of small pile consumption, large span, high clearance height and more economy and practicability, and enters the photovoltaic power generation industry.

At present, the length of a single-row of the flexible photovoltaic bracket in the east-west direction can reach more than 600 meters, the length is quite large, 3 steel cables are simultaneously released in a winch traction mode, the release efficiency is improved, and the following problems still exist in the release process: because the torsion of the steel cable can not be eliminated when the steel cable is coiled before the steel cable is released, 3 steel cables and the return hauling rope can be mutually wound in the releasing process, the hauling efficiency is reduced due to overlong winding, and the traction can be continued after the rope clip is required to be removed by descending to finish the steel cable and the return hauling rope. The problem increases the construction cost intangibly, reduces the construction efficiency and increases the labor intensity of workers.

Disclosure of Invention

The utility model aims at overcoming the defects of the prior art, and provides a special traction tool capable of eliminating torsion force applied by a steel cable, eliminating torsion stress generated when the steel cable is released from a disc, and solving the problem of winding between the steel cables in the cable releasing process.

The technical scheme adopted by the utility model for achieving the purpose is as follows: the utility model provides a can eliminate cable wire and release torsional force and pull specialized tool, includes a bottom plate, riser and five wire rope swivel rings, and the bottom plate overall profile is triangle-shaped, the bottom plate is equipped with connecting hole I, connecting hole II, the connecting hole III of running through the bottom plate respectively in adjacent three angular position department, wherein still be equipped with in the middle of connecting hole II, the connecting hole III can with connecting hole II, connecting hole III on same straight line connect Kong, connecting hole IV's position just to connecting hole I's position, the riser is the rectangle, the riser vertical welding is at the bottom plate upper surface and be located between connecting hole I and the connection Kong, is provided with the connection Kong that runs through the riser on the riser, connecting hole II, connecting hole IV, connecting hole III are installed the wire rope swivel rings of being connected with the cable wire rope respectively, connecting hole I and connection Kong are installed the wire rope swivel rings of being connected with the haulage rope respectively.

The utility model further adopts the technical scheme that: one end of the steel wire rope rotating ring is provided with a connecting device, the other end of the steel wire rope rotating ring is provided with a guide hole, one ends of three steel wire rope rotating rings connected with a steel cable are respectively connected with a connecting hole II, a connecting hole IV and a connecting hole III through the connecting device, one end of the steel wire rope rotating ring connected with an advancing traction rope is connected with the connecting hole I through the connecting device, and one end of the steel wire rope rotating ring connected with a returning traction rope is connected with the connecting hole V through the connecting device.

The utility model further adopts the technical scheme that: the bottom plate is isosceles triangle shape, and every angle of bottom plate is the chamfer structure.

The utility model further adopts the technical scheme that: the circle centers of the connecting hole II, the connecting hole III and the connecting hole IV are on the same straight line, the connecting hole I is adjacent to the vertex of the isosceles triangle, and the vertical plate is positioned on the connecting line between the circle center of the connecting hole I and the circle center of the connecting hole IV.

The utility model further adopts the technical scheme that: the two sides of the upper end of the vertical plate are respectively provided with a rounding structure.

The special traction tool capable of eliminating torsion force applied by the steel cable has the following beneficial effects: the three steel wire rope rotating rings can be simultaneously pulled by three steel wires, and the three steel wire rope rotating rings accept uniform steel wires and are not easy to wind; the connecting hole I and the connecting hole Kong are respectively provided with the steel wire rope rotating rings connected with the reciprocating traction ropes, and the steel wire rope rotating rings are respectively connected towards different steel wire rope rotating rings in the advancing and returning directions, so that a traction tool does not need to be turned, the working efficiency is high, the flexibility is high, the applicability is high, the problem that winding occurs between steel ropes in the rope releasing process is solved, the construction efficiency is greatly improved, and the labor intensity of workers is reduced.

The utility model is further described with reference to the drawings and examples below as a special traction tool for eliminating torsion applied to a wire rope.

Drawings

FIG. 1 is a schematic diagram of a combination of a base plate and a riser of a tool for pulling a cable assembly without applying torsional forces;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a schematic view of a special pulling tool for eliminating torsion applied by a wire rope according to the present utility model;

reference numerals illustrate: 1-bottom plate, 2-connecting hole II, 3-riser, 4-connection Kong, 5-connecting hole I, 6-connecting hole III, 7-connection Kong, 8-wire rope swivel and 9-guiding hole.

Detailed Description

As shown in fig. 1 to 4, a special traction tool (referred to as a traction tool) capable of eliminating torsion force applied by a steel cable according to the present utility model comprises a base plate 1, a vertical plate 3 and five steel cable rotating rings 8.

Wherein the overall outline of the base plate 1 is triangular, in this embodiment, the base plate 1 is isosceles triangle, and each corner of the base plate 1 is provided with a rounded corner structure. The base plate 1 is respectively provided with a connecting hole I5, a connecting hole II 2 and a connecting hole III 6 which penetrate through the base plate 1 at the positions adjacent to the three corners, the connecting hole I5 is adjacent to the vertex of an isosceles triangle, the connecting hole II 2 and the connecting hole III 6 are respectively adjacent to the two corners of the bottom edge of the isosceles triangle, and the connecting Kong 7 which can be in the same straight line with the connecting hole II 2 and the connecting hole III 6 is also arranged between the connecting hole II 2 and the connecting hole III 6, namely the centers of the connecting hole II 2, the connecting hole III 6 and the connecting hole IV 7 are in the same straight line. Meanwhile, the position of the connecting hole IV 7 is opposite to the position of the connecting hole I5.

The vertical plate 3 is rectangular as a whole, the two sides of the upper end of the vertical plate 3 are respectively provided with a rounding structure, and the vertical plate 3 is provided with a connecting hole V4 penetrating through the vertical plate 3. The vertical plate 3 is vertically welded on the upper surface of the bottom plate 1 and is positioned between the connecting hole I5 and the connecting hole IV 7, and when the vertical plate is implemented, the welding position of the vertical plate 3 is positioned on a connecting line between the circle center of the connecting hole I and the circle center of the connecting Kong.

As shown in fig. 4, the connection holes ii 2, kong, iii 6 are respectively provided with a wire rope rotating ring 8 connected to a wire rope, and the connection holes i 5 and Kong are respectively provided with a wire rope rotating ring 8 connected to a reciprocating traction rope. One end of the steel wire rope rotating ring 8 is provided with a connecting device, the other end of the steel wire rope rotating ring 8 is provided with a guide hole 9, one ends of three steel wire rope rotating rings 8 connected with a steel cable are respectively connected with a connecting hole II 2, a connecting Kong 7 and a connecting hole III 6 through the connecting device, the other ends of the steel wire rope rotating rings 8 connected with the connecting hole II 2, the connecting Kong 7 and the connecting hole III 6 extend outwards, and the guide hole 9 at the other ends is used for guiding the steel cable (not shown in the figure). One end of the steel wire rope rotating ring 8 connected with the advancing traction rope is connected with the connecting hole I5 through a connecting device, and the other end of the steel wire rope rotating ring 8 connected with the advancing traction rope is used for being connected with the advancing traction rope when advancing. One end of the steel wire rope rotating ring 8 connected with the return traction rope is connected with the connecting hole V4 through a connecting device, the other end of the steel wire rope rotating ring 8 connected with the return traction rope is used for being connected with the return traction rope when returning, the steel wire rope rotating ring 8 which faces different steel wire rope rotating rings 8 are respectively connected in the forward direction and the return direction, a traction tool does not need to be turned, and the working efficiency is high. The steel wire rope rotating ring 8 used in the utility model is a conventional product which can be purchased directly, and the materials and specifications are selected to meet the design requirements, so that the structure of the steel wire rope rotating ring is not described in detail.

The implementation process comprises the following steps: firstly, one end of a steel wire rope rotating ring 8 is respectively arranged on a connecting hole I5, a connecting hole II 2, a connecting hole III 6, a connecting Kong 7 and a connecting hole V4. The other end of the steel wire rope rotating ring 8 of the connecting hole I5 is connected with a traction rope in the traction stress direction (the advancing end) through a rope clamp, the other end of the steel wire rope rotating ring 8 of the connecting hole V4 is connected with a return traction rope (a return traction rope) through a rope clamp, and the other ends of the steel wire rope rotating rings 8 of the connecting hole II 2, the connecting hole III 6 and the connecting hole IV 7 are respectively connected with three east steel ropes through rope clamps. After all parts are connected, formal traction work can be carried out, taking east-to-west traction as an example, the east-to-west steel rope is cut after the steel rope is drawn in place, then the steel rope on the steel rope rotating ring 8 of the connecting hole II 2, the connecting hole III 6 and the connecting hole IV 7 is loosened, the three steel ropes on the west are installed on the steel rope rotating ring 8 of the connecting hole II 2, the connecting hole III 6 and the connecting hole IV 7 again, and then the traction rope in the traction force direction of the connecting hole I5 and the return traction rope of the connecting hole V4 are installed at the interchange position, so that the traction can be carried out from west to east.

The above embodiments are merely preferred embodiments of the present utility model, the structure of the present utility model is not limited to the forms of the above embodiments, and any modifications, equivalents, etc. within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. Can eliminate cable wire and apply torsional force and pull specialized tool, a serial communication port, including a bottom plate (1), riser (3) and five wire rope swivel ring (8), bottom plate (1) overall profile is triangle-shaped, bottom plate (1) is equipped with connecting hole I (5), connecting hole II (2), connecting hole III (6) that run through bottom plate (1) respectively in adjacent three angular position department, wherein connecting hole II (2), connecting hole III (6) are middle still to be equipped with can with connecting hole II (2), connecting hole III (6) on same straight line connect Kong (7), the position of connection Kong (7) just to connecting hole I (5) position, riser (3) are rectangle, riser (3) vertical welding is at bottom plate (1) upper surface and be located between connecting hole I (5) and connecting Kong (7), be provided with connecting Kong (4) that run through riser (3) on riser (3), connecting hole II (2), connecting Kong (7), connecting hole III (6) are installed respectively with wire rope swivel ring (8) and wire rope swivel ring (23) are connected respectively.

2. A special traction tool capable of eliminating torsion force applied by a steel rope according to claim 1, wherein one end of the steel rope rotating ring (8) is provided with a connecting device, the other end of the steel rope rotating ring (8) is provided with a guide hole (9), one ends of three steel rope rotating rings (8) connected with the steel rope are respectively connected with a connecting hole II (2), a connecting Kong (7) and a connecting hole III (6) through the connecting device, one end of the steel rope rotating ring (8) connected with the advancing traction rope is connected with the connecting hole I (5) through the connecting device, and one end of the steel rope rotating ring (8) connected with the returning traction rope is connected with a connecting Kong (4) through the connecting device.

3. A special traction tool capable of eliminating torsion force applied by steel ropes according to claim 1, wherein the bottom plate (1) is isosceles triangle-shaped, and each angle of the bottom plate (1) is a rounded corner structure.

4. A special traction tool capable of eliminating torsion force applied by a steel cable according to claim 3, wherein the circle centers of the connecting hole II (2), the connecting hole III (6) and the connecting hole Kong (7) are on the same straight line, the connecting hole I (5) is adjacent to the vertex of an isosceles triangle, and the vertical plate (3) is positioned on a connecting line between the circle center of the connecting hole I and the circle center of the connecting hole Kong (7).

5. A special traction tool capable of eliminating torsion force applied by steel ropes according to claim 1, wherein the two sides of the upper end of the vertical plate (3) are respectively provided with a round angle structure.