CN117699569B

CN117699569B - Cable winding device for power construction

Info

Publication number: CN117699569B
Application number: CN202410150126.0A
Authority: CN
Inventors: 万紫阳; 刘文亮; 林宇锋; 梅超; 杨屹洲; 洪汛; 廖华东; 严安; 黄丽榕; 陈香; 龙娓莉; 李迎
Original assignee: State Grid Fujian Electric Power Co Ltd; Xiamen Power Supply Co of State Grid Fujian Electric Power Co Ltd; Great Power Science and Technology Co of State Grid Information and Telecommunication Co Ltd
Current assignee: State Grid Fujian Electric Power Co Ltd; Xiamen Power Supply Co of State Grid Fujian Electric Power Co Ltd; Great Power Science and Technology Co of State Grid Information and Telecommunication Co Ltd
Priority date: 2024-02-02
Filing date: 2024-02-02
Publication date: 2024-05-07
Anticipated expiration: 2044-02-02
Also published as: CN117699569A

Abstract

The invention relates to the technical field of electric power, in particular to a cable winding device for electric power construction. Including removing frame, pivot, gear motor, driving medium I, slider, spacing section of thick bamboo, prevent the touch panel, gear motor connects on removing the frame, and driving medium I connects between gear motor's output shaft and pivot, makes gear motor can drive the pivot and rotate, and slider sliding connection is on removing the frame, and two spacing section of thick bamboo all rotate and connect on the slider, when the cable passes the slider, makes spacing collet chuck cable, prevents that the touch panel is connected on removing the frame. According to the invention, the head end of the cable passes through the space between the two limiting cylinders, then the cable is wound by the cable drum, and the limiting cylinders clamp the cable to swing back and forth through the cooperation of the sliding blocks and the transmission mechanism, so that the cable drum can orderly deliver and wind the cable, further knotting and winding caused by winding of the cable are prevented, and extrusion damage caused by stacking of the cable is avoided.

Description

Cable winding device for power construction

Technical Field

The invention relates to the technical field of electric power, in particular to a cable winding device for electric power construction.

Background

In power engineering, the laying and winding of the cable are important tasks, however, since the cable core of the cable is mostly made of metal materials, the cable has a heavy weight, and therefore, a winding device is generally used for winding the cable.

The patent publication No. CN214879076U discloses a cable winding device for electric power engineering construction, which comprises a support frame and a winding reel, wherein the winding reel is rotationally connected to the support frame through a bearing, and an abutting mechanism is arranged on the support frame; the abutting mechanism comprises a thread sleeve, a threaded rod and a limiting seat, the support frame is rotationally connected with the thread sleeve through a bearing, the threaded rod is in threaded connection with the thread sleeve, the limiting seat is fixedly connected with the threaded rod, the limiting seat is abutted with the winding reel, and the limiting seat is provided with a limiting mechanism. The above patent can be used for winding the cable, but in the process of winding the cable, the cable cannot be orderly delivered and wound during winding, so that the cable is wound in a knotted manner, and the cable is easily stacked to cause extrusion damage.

Disclosure of Invention

In view of the above, the invention provides a cable winding device for power construction, which can solve the defects that when the existing cable winding device for power engineering construction is used, the cable cannot be orderly put and wound during winding, so that the cable is easy to cause knotting and winding after winding, and the cable is easy to cause extrusion damage due to stacking.

The technical scheme of the invention is as follows: the utility model provides a cable coiling mechanism for electric power construction, including removing the frame, pivot and cable drum, still including gear motor, driving medium I, the slider, spacing section of thick bamboo, prevent touch panel, stop gear and drive mechanism, gear motor connects on removing the frame, driving medium I connects between gear motor's output shaft and pivot, make gear motor can drive the pivot and rotate, slider sliding connection is on removing the frame, two spacing section of thick bamboo all rotate and connect on the slider, when the cable passes the slider, make spacing collet chuck cable, prevent that the touch panel is connected on removing the frame, prevent that the touch panel is in the slider side, prevent that the touch panel keeps apart cable and ground, stop gear is used for spacing epaxial cable drum, make cable drum stable in the pivot, drive mechanism is used for driving the slider and carries out reciprocating motion, make the slider drive cable reciprocating motion, thereby make the cable drum carry the cable of carrying on the slider carry out orderly delivery rolling.

Further, the limiting mechanism comprises a rotating frame and a servo motor, the rotating frame is rotationally connected to the moving frame, the servo motor is connected to the moving frame, and an output shaft of the servo motor is connected with the rotating frame, so that the servo motor can drive the rotating frame to rotate, and the rotating frame is enabled to rotate to limit a cable drum on the rotating shaft.

Further, the limiting mechanism further comprises a limiting frame and an internal thread pipe, the limiting frame is slidably connected to the rotating frame and used for limiting the vibration of the rotating shaft, the internal thread pipe is rotatably connected to the rotating frame, and the limiting frame is in threaded connection with the internal thread pipe.

Further, the limiting mechanism further comprises a movable rod, a spring IV and a roller, wherein the movable rod is slidably connected to the rotating frame, two ends of the spring IV are respectively connected to the rotating frame and the movable rod, and the roller is rotatably connected to the movable rod, so that the spring IV drives the movable rod and the roller to push against and limit the cable drum by utilizing elasticity, and the cable drum is stabilized.

Further, the transmission mechanism comprises a turntable, a transmission part II, a swinging plate, a connecting rod, a connecting rope and a spring II, wherein the turntable is rotationally connected in the moving frame, the transmission part II enables a gear motor to drive the turntable to rotate, the swinging plate is rotationally connected in the moving frame, the connecting rod is connected to the turntable, the connecting rod is enabled to follow the turntable to rotate, the connecting rod moves in the swinging plate, the swinging plate is pushed to intermittently rotate positively and negatively when the connecting rod rotates, so that the swinging plate can reciprocate, two ends of the connecting rope are respectively connected to the swinging plate and the sliding block, two ends of the spring II are respectively connected to the sliding block and the moving frame, the sliding block can be intermittently pulled to move through the connecting rope when the swinging plate swings, and the sliding block can reset through the spring II after moving, so reciprocation can enable the sliding block to reciprocate.

Further, the electric cable dust removing device comprises a dust removing mechanism, wherein the dust removing mechanism comprises a connecting frame and a brush frame, the connecting frame is connected to the sliding block, the brush frame is slidably connected to the connecting frame, and the brush frame can remove dust from the electric cable through reciprocating movement.

Further, the ash handling mechanism further comprises a toothed plate, a rotating rod, a spur gear, a touch frame and a spring III, wherein the toothed plate is connected in the movable frame, the rotating rod is rotationally connected to the connecting frame, the spur gear is connected to the rotating rod, the spur gear is meshed with the toothed plate, the touch frame is connected to the brush frame, two ends of the spring III are respectively connected to the touch frame and the connecting frame, when the rotating rod touches the touch frame, the rotating rod extrudes the touch frame and the brush frame to move, and the touch frame and the brush frame can reset through the spring III after moving, so the rotating rod reciprocates, and the touch frame and the brush frame can reciprocate.

Further, the rotating rod is provided with a diamond-shaped structure body, and the rotating rod can intermittently touch the touch frame through rotation of the diamond-shaped structure body.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the head end of the cable passes through the space between the two limiting cylinders, then the cable is wound by the cable drum, and the limiting cylinders clamp the cable to swing back and forth through the cooperation of the sliding blocks and the transmission mechanism, so that the cable drum can orderly deliver and wind the cable, further knotting and winding caused by winding of the cable are prevented, and extrusion damage caused by stacking of the cable is avoided.

2. According to the invention, through the cooperation of the rotating frame, the movable rod, the roller and the spring IV, the roller can be pressed against the cable drum, so that the cable drum is limited, and further, the cable drum is prevented from being deviated and shaking violently.

3. According to the invention, through the cooperation of the brush frame, the toothed plate, the rotary rod, the spur gear, the touch frame and the spring III, the brush frame can intermittently reciprocate back and forth, so that dust on the surface of the cable is brushed down by the brush frame, and further, the dust on the surface of the cable is conveniently cleaned by people.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the driving member i, the slider and the limiting cylinder of the present invention.

Fig. 3 is a schematic perspective view of a limiting mechanism according to the present invention.

Fig. 4 is a cross-sectional view of the spacing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the movable rod, the spring iv and the roller.

Fig. 6 is a cross-sectional view of an internally threaded tube of the present invention.

Fig. 7 is a schematic perspective view of a transmission mechanism of the present invention.

Fig. 8 is a cross-sectional view of the moving frame of the present invention.

Fig. 9 is a schematic perspective view of the removal turret of fig. 8 according to the present invention.

Fig. 10 is a schematic perspective view of the turntable, swing plate and connecting rod of the present invention.

FIG. 11 is a schematic perspective view of the ash handling mechanism of the present invention.

Fig. 12 is a schematic perspective view of a brush frame, a rotary rod and a touch frame according to the present invention.

Fig. 13 is an exploded view of fig. 12 in accordance with the present invention.

Reference numerals: 1. the movable frame, 2, a rotating shaft, 3, a cable drum, 4, a gear motor, 5, a transmission part I, 6, a sliding block, 7, a limiting cylinder, 8, a touch-proof plate, 9, a rotating frame, 10, a servo motor, 11, a limiting frame, 12, an internally threaded tube, 13, a movable rod, 14, a spring IV, 15, a roller, 16, a rotating disc, 17, a transmission part II, 18, a swinging plate, 19, a connecting rod, 20, a connecting rope, 21, a spring II, 22, a connecting frame, 23, a brush frame, 24, a toothed plate, 25, a rotating rod, 26, a spur gear, 27, a touch frame, 28 and a spring III.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical features of the different embodiments of the present invention described below may be combined with each other as long as they do not collide with each other.

Examples: the cable winding device for power construction, referring to fig. 1-10, comprises a movable frame 1, a rotating shaft 2 and a cable drum 3; the rotating shaft 2 is rotatably connected to the movable frame 1; the cable drum 3 is fixed on the rotating shaft 2 by a bolt in the prior art, so that the cable drum 3 rotates along with the rotating shaft 2 and winds up the cable; the device also comprises a gear motor 4, a transmission part I5, a sliding block 6, a limiting cylinder 7, an anti-touch plate 8, a cling mechanism and a transmission mechanism; the gear motor 4 is connected to the rear side of the movable frame 1; the transmission part I5 comprises a belt pulley and a flat belt, the two belt pulleys are respectively connected to the output shaft of the gear motor 4 and the rotating shaft 2, and the flat belt is wound between the two belt pulleys, so that the gear motor 4 can drive the rotating shaft 2 to rotate through the transmission part I5; the sliding block 6 is connected to the left side of the movable frame 1 in a sliding way; the two limiting cylinders 7 are both rotationally connected to the sliding block 6, so that the two limiting cylinders 7 can clamp the cable when the cable passes through the sliding block 6; the touch-proof plate 8 is connected to the left side of the movable frame 1, and the touch-proof plate 8 isolates the cable from the ground; the limiting mechanism is used for limiting the cable reel 3 on the rotating shaft 2, so that the cable reel 3 is stabilized on the rotating shaft 2; the transmission mechanism is used for driving the sliding block 6 to reciprocate back and forth, so that the sliding block 6 drives the cable to reciprocate back and forth, and the cable drum 3 can sequentially deliver and roll the cable conveyed on the sliding block 6.

Referring to fig. 1,3, 4, 5 and 6, the limiting mechanism comprises a rotating frame 9, a servo motor 10, a limiting frame 11, an internal threaded pipe 12, a movable rod 13, a spring iv 14 and a roller 15; the rotating frame 9 is rotatably connected to the front side of the moving frame 1; the servo motor 10 is connected to the front part of the right side of the movable frame 1, and an output shaft of the servo motor 10 is connected with the rotary frame 9, so that the servo motor 10 can drive the rotary frame 9 to rotate, and the rotary frame 9 rotates to limit the cable reel 3 on the rotating shaft 2; the limiting frame 11 is slidably connected to the upper side of the rotating frame 9, and the limiting frame 11 is used for limiting the vibration of the rotating shaft 2, so that the vibration amplitude of the rotating shaft 2 is reduced; the internal thread pipe 12 is rotationally connected in the rotating frame 9, and the left lower end of the limiting frame 11 is in threaded connection with the internal thread pipe 12; the movable rod 13 is connected to the rotating frame 9 in a sliding manner; two ends of the spring IV 14 are respectively connected to the rotating frame 9 and the movable rod 13; the roller 15 is rotatably connected to the rear side of the movable rod 13, so that the spring IV 14 can drive the movable rod 13 and the roller 15 to push the cable drum 3 to limit by elasticity, and the cable drum 3 is stabilized.

Referring to fig. 7 to 10, the transmission mechanism comprises a turntable 16, a transmission part ii 17, a swinging plate 18, a connecting rod 19, a connecting rope 20 and a spring ii 21; the turntable 16 is rotatably connected to the inside of the movable frame 1; the transmission part II 17 comprises a transmission rod, bevel gears, belt pulleys and a flat belt, the transmission rod is rotationally connected to the movable frame 1, the two bevel gears are respectively connected to the upper side of the transmission rod and the output shaft of the gear motor 4, and the two bevel gears are meshed with each other, so that the gear motor 4 can drive the transmission rod to rotate through the bevel gears, the two belt pulleys are respectively connected to the lower side of the transmission rod and the upper side of the turntable 16, and the flat belt is wound between the two belt pulleys, so that the transmission rod can rotate through the belt pulleys and the flat belt to drive the turntable 16, and the gear motor 4 can drive the turntable 16 to rotate through the transmission part II 17; the swinging plate 18 is rotatably connected to the inside of the movable frame 1, and a movable groove is formed in the top of the swinging plate 18; the connecting rod 19 is connected to the bottom of the turntable 16, the lower end of the connecting rod 19 moves in a movable groove of the swinging plate 18, and the connecting rod 19 can rotate along with the turntable 16, so that the connecting rod 19 drives the swinging plate 18 to intermittently rotate positively and negatively, and the swinging plate 18 can swing reciprocally; one end of the connecting rope 20 is connected to the swinging plate 18, and the other end of the connecting rope 20 passes through the inside of the movable frame 1 in a contact manner and then is connected to the front end of the sliding block 6; the two ends of the spring II 21 are respectively connected to the sliding block 6 and the movable frame 1, when the swinging plate 18 swings, the swinging plate 18 can pull the sliding block 6 to move forwards through the connecting rope 20, and the sliding block 6 can move backwards through the elasticity of the spring II 21 to reset after moving forwards, so that the sliding block 6 can reciprocate forwards and backwards.

In the initial state, the swing plate 18 pulls the sliding block 6 through the connecting rope 20, so that the spring II 21 is in a stretching state, and the front end of the cable drum 3 props against the roller 15 and the movable rod 13, so that the spring IV 14 is in a stretching state; when the cable winding device is used, the movable frame 1 is pushed to move to a designated position, then the head end of a cable passes through between the two limiting cylinders 7, the two limiting cylinders 7 slightly clamp the cable, the head end of the cable is fixed on the cable drum 3, then the rotating shaft 2 is driven to rotate through the gear motor 4 and the transmission piece I5, the rotating shaft 2 drives the cable drum 3 to rotate, so that the cable drum 3 winds the cable, meanwhile, the gear motor 4 and the transmission piece II 17 can drive the rotating disc 16 to rotate, the rotating disc 16 drives the connecting rod 19 to rotate, so that the connecting rod 19 drives the swinging plate 18 to reciprocate back and forth, when the swinging plate 18 swings forwards, the connecting rope 20 is loosened, the spring II 21 drives the sliding block 6 and the limiting cylinders 7 to move backwards, and when the swinging plate 18 swings backwards, the sliding block 6 and the limiting cylinders 7 are pulled forwards through the connecting rope 20, so that the limiting cylinders 7 reciprocate forwards and backwards, the limiting cylinders 7 clamp the cable to swing forwards and backwards, and further, when the cable drum 3 is conveyed to drop down, the cable drum 8 is prevented from contacting the ground, and the cable is prevented from falling down when the cable winding device is contacted with the ground, and the ground is prevented from falling down on the ground when the cable winding device is contacted with the ground 8; when the cable drum 3 needs to be replaced, the internal thread pipe 12 is twisted to rotate, the limiting frame 11 moves upwards, so that the limiting frame 11 releases the limitation on the rotating shaft 2, then the rotating frame 9 is driven to rotate through the servo motor 10, the rotating frame 9 drives the movable rod 13 and the roller 15 to rotate, when the roller 15 is separated from the cable drum 3, the spring IV 14 returns to the original state, the spring IV 14 drives the movable rod 13 and the roller 15 to move backwards, then a worker can pull out a bolt fixed between the cable drum 3 and the rotating shaft 2, then the cable drum 3 is pushed out of the rotating shaft 2 by using a machine, the cable drum 3 which needs to be replaced is separated from the rotating shaft 2, then the cable drum 3 is pushed back onto the rotating shaft 2 by using the machine, the bolt is fixed between the cable drum 3 and the rotating shaft 2, the rotating frame 9 is driven to reversely reset through the servo motor 10, the rotating frame 9 drives the movable rod 13 and the roller 15 to reversely reset, when the roller 15 is contacted with the cable drum 3, the roller 15 and the movable rod 13 are extruded forwards, the spring IV 14 stretches under the elastic force of the spring IV 14, the spring IV 14 enables the movable rod 13 and the cable drum 13 to be slightly reset, and the cable drum 3 is prevented from being violently reset, and the cable drum 11 is prevented from being moved to be in a violent contact with the rotating frame 2, and the rotating frame 11 is greatly, and the rotating frame is prevented from being greatly reset, and the rotating frame 11 is greatly, and the rotating frame 11 is prevented from being greatly moving towards the rotating and the rotating frame 2, and the rotating frame 2 is greatly, and the rotating frame 11 is greatly, and the rotating frame 11 is prevented from being greatly, and limited, and the rotating frame is subjected to be greatly, and the rotating frame.

Referring to fig. 11-13, the dust removing device further comprises a dust removing mechanism, wherein the dust removing mechanism comprises a connecting frame 22, a brush frame 23, a toothed plate 24, a rotating rod 25, a spur gear 26, a touch frame 27 and a spring iii 28; the connecting frame 22 is connected to the left side of the sliding block 6; the brush frame 23 is slidably connected to the inner side of the connection frame 22, and the brush frame 23 can remove dust from the cable by reciprocating back and forth; the toothed plate 24 is connected inside the mobile frame 1; the rotating rod 25 is rotatably connected to the rear side of the connecting frame 22, and a diamond-shaped structure body is arranged on the rotating rod 25, and the rotating rod 25 can intermittently touch the touch frame 27 through the rotation of the diamond-shaped structure body; the spur gear 26 is connected to the lower side of the rotating rod 25, the spur gear 26 is meshed with the toothed plate 24, and the toothed plate 24 can drive the spur gear 26 and the rotating rod 25 to rotate through the movement of the sliding block 6; the touch frame 27 is connected to the bottom of the brush frame 23, and the diamond-shaped structural body on the rotary rod 25 is contacted with the touch frame 27 when rotating, so that the touch frame 27 and the brush frame 23 are driven to move backwards, two ends of the spring III are respectively connected to the touch frame 27 and the connecting frame 22, so that the touch frame 27 and the brush frame 23 can move forwards through the spring III to reset after moving backwards, and the touch frame 27 and the brush frame 23 can move forwards and backwards to reciprocate.

When the head end of the cable is required to pass through the space between the two limiting cylinders 7, the head end of the cable passes through the middle of the hairbrush frame 23, and then the head end of the cable passes through the space between the two limiting cylinders 7; when the sliding block 6 reciprocates back and forth, the sliding block 6 drives the rotating rod 25 and the spur gear 26 to reciprocate back and forth, so that the spur gear 26 reciprocates back and forth on the toothed plate 24, the toothed plate 24 drives the spur gear 26 and the rotating rod 25 to intermittently reciprocate back and forth, when the diamond-shaped structure on the rotating rod 25 rotates to contact with the touch frame 27, the diamond-shaped structure on the rotating rod 25 can squeeze the touch frame 27 and the brush frame 23 to move backwards, the spring III 28 compresses, when the diamond-shaped structure on the rotating rod 25 rotates to separate from the touch frame 27, the spring III 28 returns to the original state, the spring III 28 drives the touch frame 27 and the brush frame 23 to move forwards for resetting, so that the reciprocating motion can be performed on the brush frame 23 intermittently, and the brush frame 23 brushes dust on the surface of a cable.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the claims of the present invention shall be included in the scope of the claims of the present invention.

Claims

1. The utility model provides a cable coiling mechanism for electric power construction, including moving frame (1), pivot (2) and cable drum (3), characterized by, still include gear motor (4), driving medium I (5), slider (6), spacing section of thick bamboo (7), prevent touch panel (8), stop gear and drive mechanism, gear motor (4) are connected on moving frame (1), driving medium I (5) are connected between the output shaft and pivot (2) of gear motor (4), make gear motor (4) can drive pivot (2) and rotate, slider (6) sliding connection is on moving frame (1), two spacing section of thick bamboo (7) all rotate and connect on slider (6), when the cable passes slider (6), make spacing section of thick bamboo (7) clip the cable, prevent touch panel (8) are connected on moving frame (1), prevent touch panel (8) are in slider (6) side, when the cable passes slider (6), make prevent touch panel (8) and ground keep apart, stop gear is used for carrying out reciprocating motion to cable drum (3) on pivot (2), make cable drum (3) carry out reciprocating motion on slider (6) for making cable drum (6) drive reciprocating motion stable, so that the cable drum (3) sequentially delivers and winds the cables conveyed on the sliding blocks (6); the limiting mechanism comprises a rotating frame (9) and a servo motor (10), the rotating frame (9) is rotationally connected to the movable frame (1), the servo motor (10) is connected to the movable frame (1), and an output shaft of the servo motor (10) is connected with the rotating frame (9), so that the servo motor (10) can drive the rotating frame (9) to rotate, and the rotating frame (9) rotates to limit the cable reel (3) on the rotating shaft (2); the limiting mechanism further comprises a limiting frame (11) and an internal thread pipe (12), the limiting frame (11) is connected to the rotating frame (9) in a sliding mode, the limiting frame (11) is used for limiting the vibration of the rotating shaft (2), the internal thread pipe (12) is connected in the rotating frame (9) in a rotating mode, and the limiting frame (11) is connected with the internal thread pipe (12) in a threaded mode; the limiting mechanism further comprises a movable rod (13), a spring IV (14) and a roller (15), wherein the movable rod (13) is connected to the rotating frame (9) in a sliding mode, two ends of the spring IV (14) are respectively connected to the rotating frame (9) and the movable rod (13), the roller (15) is connected to the movable rod (13) in a rotating mode, the spring IV (14) drives the movable rod (13) and the roller (15) to push against and limit the cable drum (3) through elasticity, and therefore the cable drum (3) is stabilized; the transmission mechanism comprises a rotary table (16), a transmission part II (17), a swinging plate (18), a connecting rod (19), a connecting rope (20) and a spring II (21), wherein the rotary table (16) is rotationally connected in the movable frame (1), the transmission part II (17) enables a gear motor (4) to drive the rotary table (16) to rotate, the swinging plate (18) is rotationally connected in the movable frame (1), the connecting rod (19) is connected to the rotary table (16), the connecting rod (19) is enabled to rotate along with the rotary table (16), the connecting rod (19) moves in the swinging plate (18), the connecting rod (19) is enabled to push the swinging plate (18) to intermittently and positively rotate when rotating, so that the swinging plate (18) can reciprocate, two ends of the connecting rope (20) are respectively connected to the swinging plate (18) and the sliding block (6), two ends of the spring II (21) are respectively connected to the sliding block (6) and the movable frame (1), the sliding block (6) can be pulled to move through the connecting rope (20) in an intermittent mode when the swinging plate (18) swings, and the sliding block (6) can reciprocate through the spring II (21).

2. The cable winding device for electric power construction of claim 1, further comprising an ash removing mechanism, wherein the ash removing mechanism comprises a connecting frame (22) and a brush frame (23), the connecting frame (22) is connected to the sliding block (6), the brush frame (23) is slidably connected to the connecting frame (22), and the brush frame (23) can remove ash from the cable through reciprocating movement.

3. The cable winding device for electric power construction according to claim 2, wherein the dust removing mechanism further comprises a toothed plate (24), a rotating rod (25), a spur gear (26), a touch frame (27) and a spring III (28), wherein the toothed plate (24) is connected in the movable frame (1), the rotating rod (25) is rotationally connected to the connecting frame (22), the spur gear (26) is connected to the rotating rod (25), the spur gear (26) is meshed with the toothed plate (24), the touch frame (27) is connected to the brush frame (23), two ends of the spring III (28) are respectively connected to the touch frame (27) and the connecting frame (22), when the rotating rod (25) is touched with the touch frame (27), the rotating rod (25) extrudes the touch frame (27) and the brush frame (23), and the touch frame (27) and the brush frame (23) can reset through the spring III (28) after moving, so that the touch frame (27) and the brush frame (23) can reciprocate.

4. A cable take-up device for electric power construction according to claim 3, characterized in that the rotary rod (25) is provided with a diamond-shaped structure body, and the rotary rod (25) can intermittently touch the touch frame (27) by rotating the diamond-shaped structure body.