CN115947184A - Electric cable picking device - Google Patents

Abstract

The invention discloses an electric cable picking device which comprises a base, a power mechanism, a winding mechanism and a wire arranging mechanism, wherein the power mechanism is arranged on the base; the power mechanism is arranged on one side above the base, an output shaft of the power mechanism is connected with the winding mechanism, and the power mechanism drives the winding mechanism to rotate in a single direction; the wire winding mechanism comprises a rotating disc and a plurality of detachable rotating arms, the plurality of detachable rotating arms are uniformly arranged along the circumferential direction of the rotating disc, each detachable rotating arm is provided with a cable clamp with an adjustable position in a sliding mode, and an opening at the upper side of the cable clamp is arranged; the wire arranging mechanism is arranged on the base and comprises a wire pressing disc and a wire arranging disc set. The steel strand binding machine can efficiently and stably complete the winding and binding work of the steel strands, reduces potential safety hazards and improves working efficiency.

Description

Electric cable taking device

Technical Field

The invention relates to the field of electric power construction, in particular to an electric cable picking device.

Background

At present, with the increasingly expanded range of power grid erection in China, how to ensure stable power supply becomes the central importance in the work of power supply enterprises. In order to ensure the safety and stability of the power supply line, the rapid first-aid repair and the regular maintenance become the daily work of the maintainers. In the work of rapid repair and periodic maintenance and the work of erecting daily cables, construction cables with different diameters, such as steel stranded wires, steel-cored aluminum stranded wires and other cables with steel cores are consumable materials frequently used by maintainers.

In daily work, the steel strand wires purchased by the electric power material department are mostly formed by winding a large-scale cable tray, and according to the use requirements of maintenance personnel, the steel strand wires need to be taken out of the large-scale cable tray and wound for the second time, are wound to the preset length and then are cut and bound, and finally are taken away by the maintenance personnel for use. Because steel strand wires hardness is great, current steel strand wires winding work is accomplished by 2 to 4 article managers by hand mostly, even if every volume all is pressed by several article managers jointly during the winding, nevertheless still often because of the article managers that steel strand wires bounce caused is by the fish tail, and the potential safety hazard is great. And the steel strand wires which are manually wound have poor winding effect, are very easy to break and have strand scattering deformation, so that the working efficiency is lower.

Disclosure of Invention

The invention aims to provide an electric cable picking device which can efficiently and stably complete the winding and binding work of a steel strand, reduce the potential safety hazard and improve the working efficiency.

The invention adopts the following technical scheme:

an electric cable picking device comprises a base, a power mechanism, a winding mechanism and a wire arranging mechanism; the power mechanism is arranged on one side above the base, an output shaft of the power mechanism is connected with the winding mechanism, and the power mechanism drives the winding mechanism to rotate in a single direction; the wire winding mechanism comprises a rotating disc and a plurality of detachable rotating arms, the plurality of detachable rotating arms are uniformly arranged along the circumferential direction of the rotating disc, each rotating arm is provided with a cable clamp with an adjustable position in a sliding mode, and an opening on the upper side of the cable clamp is arranged; the wire arrangement mechanism is arranged on the base and comprises a wire pressing disc and a wire arrangement disc set.

The power mechanism comprises a motor and a speed reducing mechanism which are arranged in the box body, an output shaft of the motor is connected with an input end of the speed reducing mechanism, and an output end of the speed reducing mechanism is connected with the rotating shaft through a coupler.

The detachable rotating arm comprises a rotating disc connecting part and a cable clamp connecting part; the rotating disc connecting part is connected with the rotating disc through a bolt; the rear side surface of the cable clamp connecting part is provided with a guide strip protruding out of the rear side surface of the detachable rotating arm; the cable clamp is connected with the cable clamp connecting part in a sliding mode through a sliding sleeve, and a position locking mechanism is further arranged on the sliding sleeve.

The position locking mechanism comprises a pawl arranged on the sliding sleeve and a ratchet arranged on the surface of the guide bar; the sliding sleeve is a rectangular sliding sleeve matched with the shape of the detachable rotating arm, a sliding limiting groove is arranged in the middle of the rear side surface of the sliding sleeve, and the width of the sliding limiting groove is matched with that of the guide strip; the surface of one side of the sliding limiting groove is provided with a pawl installation part, the pawl installation part is rotatably connected with a pawl through a rotating shaft, a pawl reset torsion spring is further arranged on the pawl installation part, and the pawl limiting sliding sleeve can only move along the direction of the guide strip far away from the rotating disc connecting part.

A cable clamp mounting groove is formed in the middle of the front side surface of the sliding sleeve, and a limiting device is arranged at an opening of the cable clamp mounting groove; the cable clamp is detachably connected with the sliding sleeve through the cable clamp mounting groove.

The cable clamp is of a U-shaped structure, a cable clamp installation part matched with the cable clamp installation groove is arranged on the rear side surface of the cable clamp, and the cable clamp is detachably connected with the sliding sleeve through the cable clamp installation part and the cable clamp installation groove; the cable clamp comprises a cable clamp body, a turning plate, a torsional spring, a baffle plate and a limiting plate, wherein the turning plate is hinged to one side of the upper portion of the cable clamp body, the torsional spring is arranged at the hinged position, the baffle plate is inserted into the position, corresponding to the other side of the upper portion of the cable clamp body, the movable end of the turning plate is driven by the torsional spring to move upwards, and the front end of the baffle plate limits the movable end of the turning plate.

The two side openings below the cable clamp are provided with detachable self-locking strapping tapes.

The base on be provided with the drum support, the vertical shifting chute that is provided with in drum support upper end, the removal inslot slides from top to bottom and is provided with the movable block, and the drum is articulated with the movable block and is set up, still is provided with the resilient means that drives the movable block downstream in the shifting chute, and the periphery of drum is provided with the cable spacing groove.

The cable arranging disc set comprises an upper cable arranging disc and a lower cable arranging disc, cable limiting grooves are formed in the circumferential surfaces of the upper cable arranging disc and the lower cable arranging disc, the upper cable arranging disc and the lower cable arranging disc are connected with the base through height-adjustable cable arranging disc supports, and cables enter the cable pressing disc at the lower part of the cable pressing disc through the cable limiting grooves at the lower part of the upper cable arranging disc and the cable limiting grooves at the upper part of the upper cable arranging disc.

The wire pressing disc support is adjustable in height and left and right positions on the base.

In the invention, the winding mechanism adopts a plurality of detachable rotating arms which are uniformly arranged along the circumferential direction of the rotating disc, so that the weight of the winding mechanism can be effectively reduced, and the service life of the winding mechanism is prolonged. Distributed multi-point support greatly increases the adjusting range of the diameter of the cable clamp after winding relative to a common winding roller, so that the bending and winding device is suitable for bending and winding large-wire-diameter cables with higher hardness and larger elasticity. The detachable rotating arm can be flexibly replaced according to actual loss, so that the use cost is reduced. Meanwhile, for cables with different wire diameters, different detachable rotating arm combination forms can be selected according to the actual conditions of the cables in use due to different elasticity, so that the practicability of the cable connector is improved.

According to the invention, the cable clamp with the adjustable position is matched with the position locking mechanism, so that the diameter of the wound cable ring can be adjusted, the cable clamp is convenient for a maintainer to carry, and the safety and the stability of the cable clamp during cable winding can be ensured.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a detachable rotating arm according to the present invention;

FIG. 3 is a schematic structural view of the sliding sleeve of the present invention;

fig. 4 is a schematic structural view of the cable clamp of the present invention.

Detailed Description

The invention is described in detail below with reference to the following figures and examples:

as shown in fig. 1 to 4, the electric cable picking device of the present invention includes a base 1, a power mechanism, a winding mechanism and a wire arranging mechanism; the power mechanism is arranged on one side above the base 1, an output shaft 2 of the power mechanism is connected with the winding mechanism, and the power mechanism drives the winding mechanism to rotate in a single direction; the winding mechanism comprises a rotating disc 3 and a plurality of detachable rotating arms 4, the detachable rotating arms 4 are uniformly arranged along the circumferential direction of the rotating disc 3, each detachable rotating arm 4 is provided with a cable clamp 5 with an adjustable position in a sliding mode, and an opening is formed in the upper side of each cable clamp 5; the wire arranging mechanism is arranged on the base 1 and comprises a wire pressing disc 6 and a wire arranging disc set. The cable to be received is sequentially fixed in the cable clamp 5 after passing through the wire arranging disc set and the wire pressing disc 6, the power mechanism drives the winding mechanism to rotate, the cable enters the wire pressing disc 6 after being preliminarily arranged and straightened by the wire arranging disc set, the wire pressing disc 6 applies pressure downwards and is tensioned, and then the cable enters the plurality of cable clamps 5 rotating at a constant speed sequentially to complete winding work.

In the invention, the power mechanism comprises a motor and a speed reducing mechanism which are arranged in a box body, the box body is arranged on a base 1, an output shaft 2 of the motor is connected with an input end of the speed reducing mechanism, and an output end of the speed reducing mechanism is connected with a rotating shaft through a coupling. The motor can adopt a manual control type or pedal type control switch, and the rotation of the motor is controlled by material management personnel.

In the invention, the winding mechanism adopts the plurality of detachable rotating arms 4 uniformly arranged along the circumferential direction of the rotating disc 3, so that the weight of the winding mechanism can be effectively reduced, and the service life of the winding mechanism is prolonged. The cable wound by the invention is a steel strand cable, a steel-cored aluminum strand cable and other cable with steel cores, has certain elasticity, and cannot be affected by gravity to cause local collapse to influence the winding effect. Therefore, the invention adopts distributed multi-point support to replace the common winding roller, and simultaneously greatly increases the adjustment range of the diameter of the cable clamp 5 after winding so as to be suitable for the bending and winding work of large-wire-diameter cables with higher hardness and larger elasticity. The detachable rotating arm 4 can be flexibly replaced according to actual loss, so that the use cost is reduced. Meanwhile, for cables with different wire diameters, due to different elasticity, a combination form of 2, 3, 4, 5 or more detachable rotating arms 4 can be selected according to the actual situation of the cables during use, so that the practicability of the invention is improved.

In this embodiment, the detachable rotating arm 4 includes a rotating disk connecting portion 7 and a cable clamp connecting portion 8; the rotating disc connecting portion 7 is provided with a threaded hole 9, and the detachable rotating arm 4 is connected with the rotating disc 3 through bolts, so that the connection reliability can be guaranteed, and quick assembly and disassembly can be realized. The rear side surface of the cable clamp connecting part 8 is provided with a guide strip 10 protruding out of the rear side surface of the detachable rotating arm 4; the cable clamp 5 is connected with the cable clamp connecting part 8 in a sliding way through a sliding sleeve 11, and a position locking mechanism is further arranged on the sliding sleeve 11. The sliding connection form of the sliding sleeve 11 and the detachable rotating arm 4 can realize the adjustment of the diameter of the wound cable ring, and material managers can move the sliding sleeve 11 to a proper position according to the cut-off length (influencing the number of turns of the wound cable roll) of the cable and the diameter of the cable (influencing the diameter of the cable roll due to different elasticity) of the cable according to the actual use condition, and realize position locking by using a position locking mechanism, so that the diameter of the wound cable roll can be determined, and the safety and the stability of the invention can be ensured when the cable is wound even if the cable is carried by maintainers. In order to facilitate the use of material managers, the surface of the detachable rotating arm 4 can be provided with length scales.

In the present embodiment, in consideration of convenience and stability of use, the position locking mechanism includes a pawl 12 provided on the slide sleeve 11 and a ratchet 13 provided on the surface of the guide bar 10; the sliding sleeve 11 is a rectangular sliding sleeve 11 matched with the shape of the detachable rotating arm 4, a sliding limiting groove is arranged in the middle of the rear side surface of the sliding sleeve 11, and the width of the sliding limiting groove is matched with the width of the guide strip 10; when sliding, the sliding limiting groove is matched with the guide strip 10, and a good limiting effect can be achieved in the sliding process. A pawl mounting part 14 is arranged on the surface of one side of the sliding limiting groove, the pawl mounting part 14 is rotatably connected with the pawl 12 through a hinge shaft, a pawl reset torsion spring 18 (not shown in the figure) is further arranged on the pawl mounting part 14, and the pawl 12 limits the sliding sleeve 11 to move only along the guide strip 10 towards the direction far away from the rotating disc connecting part 7. The setting of above-mentioned structure, the goods and materials managers of both being convenient for slide the position of adjustment sliding sleeve 11, simultaneously because roll up through the cable when the cable twines to sliding sleeve 11 produce the effort towards rolling disc connecting portion 7 all the time, therefore the setting of pawl 12 can realize stable spacing effect all the time at cable winding in-process. Meanwhile, due to the arrangement of the pawl 12, after the cable is wound and formed, the sliding sleeve 11 can be moved downwards only by rotating the pawl 12, the cable clamp 5 is separated from the cable, time and labor are saved, and the working strength of workers is greatly reduced.

In the invention, the cable clamps 5 with different capacities are designed aiming at cables with different wire diameters and different lengths, so that the cable clamps 5 and the sliding sleeve 11 adopt a split type installation mode to adapt to actual use requirements. In this embodiment, a cable clamp installation groove 15 is further formed in the middle of the front side surface of the sliding sleeve 11, and a limiting device 16 is arranged at an opening of the cable clamp installation groove 15; the cable clamp 5 is detachably connected with the sliding sleeve 11 through a cable clamp mounting groove 15. In this embodiment, the limiting device 16 may be a limiting plate, and two sides of the limiting plate are fixed by a positioning pin.

The cable clamp 5 is integrally of a U-shaped structure, and the upper side, the left side and the right side of the cable clamp are both provided with openings so as to facilitate the entry of cables. The cable clamp 5 is provided with a cable clamp mounting part 21 on the rear side surface thereof, the cable clamp mounting part 21 being matched with the cable clamp mounting groove 15, and the cable clamp 5 is detachably connected with the sliding sleeve 11 through the cable clamp mounting part 21 and the cable clamp mounting groove 15. A turning plate 17 is hinged to one side of the upper portion of the cable clamp 5, a torsion spring 18 is arranged at the hinged portion, a baffle plate 19 is inserted into the position, corresponding to the other side of the upper portion of the cable clamp 5, the movable end of the turning plate 17 is driven by the torsion spring 18 to move upwards, and the front end of the baffle plate 19 limits the movable end of the turning plate 17. Due to the arrangement of the turning plate 17 and the baffle plate 19, the cable can only enter the cable clamp 5 from the upper part and cannot be ejected out of the cable clamp 5, the accident that the cable is ejected out to hurt people is effectively prevented, the safety of the cable clamp is further improved, and the potential safety hazard is reduced.

In consideration of the fixation of the cable head at the end part of the cable and the prevention of accidental ejection of the cable head to hurt people in the winding process, the invention is characterized in that the detachable self-locking strapping tapes 20 are respectively arranged at the openings at the two sides below the cable clamp 5. When the cable head is fixed, the cable head sequentially penetrates through the self-locking strapping tapes 20 with openings on two sides below the cable clamp 5, and then the two self-locking strapping tapes 20 are used for fixing the cable head, so that subsequent cable winding is facilitated, and the cable head is effectively prevented from being ejected. After the cable is wound, the two detachable self-locking strapping tapes 20 are taken down, and then the cable head and the cable clamp 5 can be separated.

In order to always apply a certain acting force to the cable so that the cable can be tightly attached to the inner wall of the cable clamp 5, the base 1 is further provided with a wire pressing disc support 22, the upper end of the wire pressing disc support 22 is vertically provided with a moving groove, a moving block 23 is arranged in the moving groove in a vertically sliding mode, the wire pressing disc 6 is rotatably connected with the moving block 23, an elastic device 24 for driving the moving block 23 to move downwards is further arranged in the moving groove, and the circumferential surface of the wire pressing disc 6 is provided with a cable limiting groove. Through the structure, the cable which can pass through the cable limiting groove on the lower side of the wire pressing disc 6 is always applied with downward pressure by the wire pressing disc 6, so that the cable is ensured to move downwards all the time when entering the cable clamp 5 positioned above the wire pressing disc 6, the cable is tightly compacted in the cable groove, and the winding effect is ensured. Because the actual use requirements comprise various cables with different wire diameters, in order to apply different downward pressures to the cables with different hardness, the height of the wire pressing disc bracket 22 is adjustable, and the left and right positions of the wire pressing disc bracket 22 on the base 1 are adjustable, so that the universality of the invention is improved.

In practical application, because the cables are directly taken out from the large-scale cable coil and may have a certain degree of deformation before entering the wire pressing disc 6, in order to ensure the winding effect of the invention, the wire arranging disc set comprises an upper wire arranging disc 25 and a lower wire arranging disc 26, the circumferential surfaces of the upper wire arranging disc 25 and the lower wire arranging disc 26 are both provided with cable limiting grooves, and the cables enter the wire pressing disc 6 at the lower part of the wire pressing disc 6 through the cable limiting grooves at the lower part of the upper wire arranging disc 25 and the cable limiting grooves at the upper part of the upper wire arranging disc 25. The upper wire arranging disc 25 and the lower wire arranging disc 26 can achieve a shaping and straightening effect to a certain degree on the cables, so that the cables can smoothly enter the wire pressing disc 6 and the cable clamp 5, and the winding effect is improved. In order to match the height adjustment function of the wire pressing disc 6, the upper wire arranging disc 25 and the lower wire arranging disc 26 are connected with the base 1 through height-adjustable wire arranging disc supports.

When the invention is used, the method is carried out according to the following steps:

1. determining the position of the cable clamp 5 according to the wire diameter and the length of the cable to be taken, and adjusting and locking the position of the cable clamp 5; meanwhile, a cable clamp 5 with proper capacity is selected to be fixed on the surface of the sliding sleeve 11;

2. taking out a part of the cable from the large cable reel, putting the cable head into the cable clamp 5 at the uppermost part after sequentially passing through the cable limiting grooves of the lower wire arranging disc 26, the upper wire arranging disc 25 and the wire pressing disc 6, and fixing the cable head by using two self-locking strapping tapes 20 in the cable clamp 5;

3. the heights of the lower wire arranging disc 26, the upper wire arranging disc 25 and the wire pressing disc 6 are adjusted, so that the cable at the rear part of the cable head can smoothly enter the next cable clamp 5 and is tightly attached to the inner wall below the cable clamp 5;

4. the manual control or pedal control switch is used for controlling the motor to rotate, so that the cables are wound in the cable clamps 5 at a constant speed;

5. after the cable is wound for a set length, the cable between two adjacent cable clamps 5 is bundled and fixed by using an iron wire or a self-locking bundling belt 20; and the connection between the self-locking strapping tape 20 on the cable head and the cable clamp 5 is released;

6. drawing out the inserting plate on the cable clamp 5, removing the closing of the opening above the cable clamp 5 by the turning plate under the action of the torsion spring 18, then rotating the pawl 12 on the sliding sleeve 11 to remove the position locking of the sliding sleeve 11, adjusting the position of the cable clamp 5 by moving the sliding sleeve 11, and taking out the wound and bundled cable coil from the corresponding cable clamp 5; and then the cable clamps 5 are taken out from each cable clamp 5 in sequence according to the method, and the whole cable picking work is completed.

Claims (10)

1. An electronic cable is drawn and is got device which characterized in that: comprises a base, a power mechanism, a winding mechanism and a wire arranging mechanism; the power mechanism is arranged on one side above the base, an output shaft of the power mechanism is connected with the winding mechanism, and the power mechanism drives the winding mechanism to rotate in a single direction; the wire winding mechanism comprises a rotating disc and a plurality of detachable rotating arms, the plurality of detachable rotating arms are uniformly arranged along the circumferential direction of the rotating disc, each detachable rotating arm is provided with a cable clamp with an adjustable position in a sliding mode, and an opening at the upper side of the cable clamp is arranged; the wire arranging mechanism is arranged on the base and comprises a wire pressing disc and a wire arranging disc set.

2. The electrical cable retrieval device of claim 1, wherein: the power mechanism comprises a motor and a speed reducing mechanism which are arranged in the box body, an output shaft of the motor is connected with an input end of the speed reducing mechanism, and an output end of the speed reducing mechanism is connected with the rotating shaft through a coupler.

3. The electrical cable retrieval device of claim 1, wherein: the detachable rotating arm comprises a rotating disc connecting part and a cable clamp connecting part; the rotating disc connecting part is connected with the rotating disc through a bolt; the rear side surface of the cable clamp connecting part is provided with a guide strip protruding out of the rear side surface of the detachable rotating arm; the cable clamp is connected with the cable clamp connecting part in a sliding mode through a sliding sleeve, and a position locking mechanism is further arranged on the sliding sleeve.

4. The electrical cable retrieval device of claim 3, wherein: the position locking mechanism comprises a pawl arranged on the sliding sleeve and a ratchet arranged on the surface of the guide bar; the sliding sleeve is a rectangular sliding sleeve matched with the shape of the detachable rotating arm, a sliding limiting groove is arranged in the middle of the rear side surface of the sliding sleeve, and the width of the sliding limiting groove is matched with that of the guide strip; the surface of one side of the sliding limiting groove is provided with a pawl installation part, the pawl installation part is rotatably connected with a pawl through an articulated shaft, the pawl installation part is further provided with a pawl reset torsion spring, and the pawl limiting sliding sleeve can only move along the direction of the guide strip far away from the connecting part of the rotating disc.

5. The electrical cable retrieval device of claim 3, wherein: a cable clamp mounting groove is formed in the middle of the front side surface of the sliding sleeve, and a limiting device is arranged at an opening of the cable clamp mounting groove; the cable clamp is detachably connected with the sliding sleeve through the cable clamp mounting groove.

6. The electrical cable retrieval device of claim 5, wherein: the cable clamp is of a U-shaped structure, a cable clamp installation part matched with the cable clamp installation groove is arranged on the rear side surface of the cable clamp, and the cable clamp is detachably connected with the sliding sleeve through the cable clamp installation part and the cable clamp installation groove; the cable clamp is characterized in that a turning plate is hinged to one side of the upper portion of the cable clamp, a torsion spring is arranged at the hinged position, a baffle plate is inserted into the position, corresponding to the other side of the upper portion of the cable clamp, the movable end of the turning plate is driven by the torsion spring to move upwards, and the front end of the baffle plate limits the movable end of the turning plate.

7. The electrical cable retrieval device of claim 6, wherein: the two side openings below the cable clamp are provided with detachable self-locking strapping tapes.

8. The electrical cable retrieval device of claim 1, wherein: the cable pressing plate is characterized in that a wire pressing plate support is arranged on the base, a moving groove is vertically formed in the upper end of the wire pressing plate support, a moving block is arranged in the moving groove in a vertically sliding mode, the wire pressing plate is rotatably connected with the moving block, an elastic device for driving the moving block to move downwards is further arranged in the moving groove, and a cable limiting groove is formed in the circumferential surface of the wire pressing plate.

9. The electrical cable retrieval device of claim 8, wherein: the wire arranging disc set comprises an upper wire arranging disc and a lower wire arranging disc, wherein cable limiting grooves are formed in the circumferential surfaces of the upper wire arranging disc and the lower wire arranging disc, the upper wire arranging disc and the lower wire arranging disc are connected with the base through height-adjustable wire arranging disc supports, and cables enter the wire pressing disc at the lower part of the wire pressing disc through the cable limiting grooves at the lower part of the upper wire arranging disc and the cable limiting grooves at the upper part of the upper wire arranging disc.

10. The electrical cable retrieval device of claim 8, wherein: the wire pressing disc support is adjustable in height and left and right positions on the base.

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