CN113443511A

CN113443511A - Power line winding device

Info

Publication number: CN113443511A
Application number: CN202110761872.XA
Authority: CN
Inventors: 孙学良; 吴英; 张丽君; 石伟伟; 徐飞; 要权
Original assignee: Jiangsu Glens Sciences And Technology Co ltd
Current assignee: Jiangsu Glens Sciences And Technology Co ltd
Priority date: 2021-07-06
Filing date: 2021-07-06
Publication date: 2021-09-28

Abstract

The invention discloses a power line winding device, which comprises a bracket, wherein a driving and speed changing device is fixed on one side of the bracket, a rotatable main shaft is arranged between a first output end and a first bearing seat, an end cover is fixed at one end of the main shaft, a plurality of winding tiles are distributed on the circumference of a supporting component sleeved on the main shaft, a rotatable lead screw is arranged between a second output end and the second bearing seat, a fixed shaft parallel to the lead screw is fixed in the bracket at the side edge of the lead screw, a sliding table penetrating the lead screw and the fixed shaft and slidably connecting the lead screw and the fixed shaft is arranged in the lead screw and the fixed shaft, the sliding table is in threaded connection with the lead screw through a lead screw nut, a cylindrical guide component is arranged on the sliding table, and a power line penetrates through the guide component and then is wound on the periphery of the winding tiles. Compared with the prior art, the diameter of the cylinder formed by each winding tile can be changed, the abrasion among cables is small, and the cleaning brush can be attached to the surface of the cable to clean the cable.

Description

Power line winding device

Technical Field

The invention relates to the technical field of electric power engineering construction equipment, in particular to a power line winding device.

Background

In the construction process of electric power engineering, the work of laying, arranging, collecting and releasing the electric power line is generally involved. The power line is usually wound in the winding device, and the cable drum is a carrier for winding and fixing the power line, so that the power line is convenient to transport and install. The use of the cable drum can fully utilize the space and improve the environment of a working place by considering the limitations of ground arrangement and personnel configuration. At present, to the power line in the electric power engineering work progress, need the manual work to twine it on the cable drum through some appurtenance, the coiling process is loaded down with trivial details hard, inefficiency.

Among the prior art, carry out the rolling to the power line through motor drive cable reel, can save the manual work for the rolling of power line can add convenient and fast, but, because the minimum rolling radian that the power cable of different diameters is fit for is different, need use the cable reel of different diameters to the cable of different thicknesses, to motor drive cable reel, then need prepare the equipment of different specifications and carry out the rolling to the cable, greatly increased use cost.

In addition, when the cable winds into the cable drum, the cable needs to incline at a certain angle due to the fact that the cable continuously winds towards the axial direction of the cable drum, and the cable to be wound into the cable drum is generally parallel to the radial direction of the cable drum, so that the cable wound into the cable drum and the cable to be wound into the cable drum have a certain angle, extrusion and friction are easy to occur, abrasion of the surface of the cable is increased, furthermore, due to the fact that the environment of the power engineering construction process is uncertain, the surface of the cable can be attached with sundries, and the abrasion of the cable when the cable winds into the cable drum is further increased due to the existence of the sundries.

Therefore, it is necessary to provide a power line winding apparatus to solve the above problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a power line winding device comprises a support, wherein a driving and speed changing device is fixed on one side of the support, a first bearing seat is fixed on the other side of the support, a power output end with the driving and speed changing device is a first output end, a rotatable main shaft is arranged between the first output end and the first bearing seat, an end cover is fixed at one end of the main shaft, a plurality of winding tiles are distributed in the main shaft through the circumference of a supporting assembly sleeved on the main shaft, the winding tiles are long plates with arc-shaped cross sections and length extending along the axial direction of the main shaft, and each winding tile can jointly enclose into a complete cylinder;

still another power take off end two among drive and the speed change gear, bearing frame one side is fixed with bearing frame two, output two is equipped with rotatable lead screw rod with the bearing frame is two, be fixed with the fixed axle parallel with the lead screw rod in the support of lead screw rod side, be equipped with in lead screw rod and the fixed axle its two run through and rather than the slip table of slidable ground connection, through screw-nut and lead screw rod threaded connection in the slip table, be equipped with the direction subassembly of cylinder on the slip table, the electric power line passes back winding in the direction subassembly and is peripheral at the winding tile.

Further, preferably, the support assembly comprises a fixing sleeve and a support rod, the fixing sleeve is fixedly arranged at one end, close to the end cover, of the main shaft and is fixedly connected with the end cover, a plurality of shaft sleeve hinges are distributed on the circumference of the outer wall of the fixing sleeve, the length of each shaft sleeve hinge is fixed along the axial direction of the fixing sleeve, a support rod is hinged to the side face of each shaft sleeve hinge, and the other end of each support rod is hinged to the winding tile through a connecting seat fixed to the back face of the winding tile;

the end, far away from the end cover, of the main shaft is slidably sleeved with a sliding sleeve, and the outer wall of the sliding sleeve and the fixed sleeve are hinged with the other connecting seat at the bottom of the winding tile through a plurality of shaft sleeve hinges and supporting rods in the same mode symmetrically.

Further, as preferred, the spline groove that multichannel circumference distributes is seted up to the position that the main shaft outer wall corresponds sliding sleeve sliding range, the sliding sleeve inner wall has the spline to be connected with the spline groove cooperation to make can transmit the moment of torsion and can slide each other between sliding sleeve and main shaft.

Further, as preferred, the outer wall of one end of the sliding sleeve, which is far away from the fixed sleeve, is rotatably sleeved with a shifting ring through a bearing, the shifting ring is connected with the support through a servo hydraulic rod, a cylinder body of the servo hydraulic rod is fixed in the support, and the tail end of a piston rod of the servo hydraulic rod is fixed in the end face of the shifting ring.

Further, as a preferred option, the guide assembly comprises a base, a fixing ring and a guide cylinder, wherein the fixing ring which is vertically placed is fixed on the base, the guide cylinder which is concentric with the fixing ring is fixed in one surface of the fixing ring, and the inner diameters of the fixing ring and the guide cylinder are the same;

the wall of the guide cylinder, which is far away from one end of the fixing ring, is provided with a plurality of circumferentially distributed through grooves, a guide roller is rotatably arranged in each through groove, the rotating shaft of the guide roller is tangent to the wall of the guide cylinder, and the radius of the guide roller is greater than the distance from the rotating shaft to the end face, which is far away from one end of the fixing ring, of the guide cylinder.

Further, as preferred, the bottom of base is passed through the revolving stage and is connected with the slip table, the revolving stage can rotate each other with the slip table, and can also be through the angle of its rotation of holding screw fixation, can make the axial of guide cylinder and the radial of main shaft be certain angle.

Further, as the preferred, the circumference distributes in the direction in the solid fixed ring has a plurality of cleaning brushes, the cleaning brush is the arc brush towards solid fixed ring internal diameter, and every cleaning brush encloses into the annular that the brush hair is towards solid fixed ring hole.

Furthermore, as an optimization, an aperture adjusting assembly capable of adjusting the inner diameter of a ring surrounded by the cleaning brush is arranged in the cleaning brush, the aperture adjusting assembly comprises a guide rail and a slide bar, the guide rails are circumferentially distributed in a fixed ring, the length of each guide rail extends along the radial direction of the fixed ring, the slide bar is connected in the guide rail, the slide bar is of a T-shaped structure, a vertical rod of the slide bar is slidably connected with the guide rail, a cross rod of the slide bar faces the inner hole of the fixed ring, and the cleaning brush is fixed in the cross rod;

be equipped with the commentaries on classics piece in the clearance of guide rail, the commentaries on classics piece is the triangle-shaped board, and its first angle rotationally is connected with solid fixed ring, it has the spout that extends along first angle to open in the second angle of commentaries on classics piece, fixed pin swing joint on spout and the slide bar.

Preferably, a linkage connecting rod is hinged to a third corner of the rotating block, and the other end of the linkage connecting rod is hinged to a third corner of another adjacent rotating block.

Furthermore, as preferred, one of the rotating blocks distributed circumferentially extends along the direction from the first corner to the third corner, a fastening sliding pin is arranged at the tail end of the extending section, an arc-shaped adjusting sliding groove is formed in the corresponding position of the fixing ring, the arc center of the arc-shaped adjusting sliding groove is the first corner of the rotating block, the fastening sliding pin is connected to the arc-shaped adjusting sliding groove in a sliding manner, and the fastening sliding pin and the arc-shaped adjusting sliding groove can be locked with each other.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the servo hydraulic rod can drive the shifting ring to drive the sliding sleeve to slide along the main shaft so as to change the distance between the sliding sleeve and the fixed sleeve, so that the included angle between the support rod and the main shaft is changed to change the distance between the winding shoes and the main shaft, and the diameter of a cylinder formed by each winding shoe is changed so as to adapt to winding of different types of power cables.

According to the invention, because the power cable forms a certain angle with the radial direction of the cylinder body formed by the winding tiles when continuously winding in the cylinder body formed by the winding tiles, the power cable wound into the cylinder body formed by the winding tiles is guided by the guide cylinder to incline for a certain angle, so that the cable to be wound and the wound cable are parallel, and the abrasion among the cables can be reduced

In the invention, because the guide roller can convert the friction force between the guide cylinder and the power cable passing through the guide cylinder into rolling friction, the abrasion of the power cable can be reduced especially when the power cable and the guide cylinder have a certain angle.

According to the invention, the position of the fastening sliding pin in the arc-shaped adjusting sliding groove is adjusted, the rotating angle of the rotating block is adjusted, the linkage connecting rod drives another adjacent rotating block to rotate, so that each rotating block is driven to rotate synchronously, the position of the pin on the sliding rod in the sliding groove of the rotating block is changed, the length of the sliding rod extending out of the inner hole of the fixing ring is changed, the cleaned annular aperture is adjusted, the annular aperture can be attached to the surface of a cable, and the cable cleaning effect is achieved.

Drawings

FIG. 1 is a schematic structural diagram of a power line winding device;

FIG. 2 is a schematic view of a support assembly of the power line winder;

FIG. 3 is a schematic view of a guiding assembly of the power line winding device;

FIG. 4 is a schematic view of an aperture adjustment assembly of a power line winding device;

in the figure: 1. a support; 2. drive and transmission means; 21. an output end I; 22. an output end II; 3. a main shaft; 41. a first bearing seat; 42. a second bearing seat; 5. a winding tile; 6. a support assembly; 7. a guide assembly; 8. a sliding table; 81. a turntable; 9. a screw rod and a screw rod; 10. a fixed shaft; 11. an end cap; 61. fixing a sleeve; 62. a shaft sleeve hinge; 63. a support bar; 64. a connecting seat; 65. a sliding sleeve; 66. ring shifting; 67. a spline groove; 68. a servo hydraulic rod; 71. a base; 72. a fixing ring; 721. an arc-shaped adjusting chute; 73. a guide cylinder; 74. a guide roller; 75. cleaning a brush; 76. an aperture adjustment assembly; 761. a guide rail; 762. a slide bar; 763. rotating the block; 764. a linkage connecting rod; 765. the sliding pin is tightened.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, an electric power line winding device includes a support 1, a driving and speed changing device 2 is fixed on one side of the support 1, a bearing seat first 41 is fixed on the other side of the support 1, a power output end of the driving and speed changing device 2 is an output end first 21, a rotatable spindle 3 is disposed between the output end first 21 and the bearing seat first 41, an end cover 11 is fixed on one end of the spindle 3, a plurality of winding shoes 5 are circumferentially distributed in the spindle 3 through a support assembly 6 sleeved thereon, the winding shoes 5 are long plates having arc-shaped cross sections and extending along an axial direction of the spindle 3, and each winding shoe 5 can jointly form a complete cylinder;

still have another power take off end two 22 among drive and the speed change gear 2, a 41 side of bearing frame is fixed with bearing frame two 42, be equipped with rotatable lead screw 9 between output end two 22 and bearing frame two 42, be fixed with the fixed axle 10 parallel with lead screw 9 in the support 1 of lead screw 9 side, be equipped with in lead screw 9 and the fixed axle 10 its two run through and rather than the slip table 8 of slidable ground connection, through screw-nut and lead screw 9 threaded connection in the slip table 8, be equipped with the direction subassembly 7 of cylinder on the slip table 8, the electric power line passes the back winding in direction subassembly 7 and is peripheral at winding tile 5.

Referring to fig. 2 (for easy viewing, a part of the winding shoe 5 is removed), in this embodiment, the supporting assembly 6 includes a fixing sleeve 61 and a supporting rod 63, the fixing sleeve 61 is fixedly sleeved on one end of the main shaft 3 close to the end cover 11 and is fixedly connected to the end cover 11, a plurality of shaft sleeve hinges 62 are distributed on the circumference of the outer wall of the fixing sleeve 61, the length of the shaft sleeve hinges 62 is fixed axially along the fixing sleeve 61, a supporting rod 63 is hinged to a side surface of each shaft sleeve hinge 62, and the other end of the supporting rod 63 is hinged to the winding shoe 5 through a connecting seat 64 fixed to the back surface of the winding shoe 5;

the end of the main shaft 3 far away from the end cover 11 is slidably sleeved with a sliding sleeve 65, and the outer wall of the sliding sleeve 65 is hinged with the fixed sleeve 61 in the same way and symmetrically with the fixed sleeve through a plurality of shaft sleeve hinges 62 and a support rod 63 with another connecting seat 64 at the bottom of the winding tile 5.

In this embodiment, the outer wall of the main shaft 3 is provided with a plurality of spline grooves 67 distributed circumferentially at positions corresponding to the sliding range of the sliding sleeve 65, and the inner wall of the sliding sleeve 65 is provided with splines connected with the spline grooves 67 in a matching manner, so that torque can be transmitted between the sliding sleeve 65 and the main shaft 3 and the sliding sleeve can slide relative to the main shaft.

In this embodiment, a shifting ring 66 is rotatably sleeved on the outer wall of one end of the sliding sleeve 65 away from the fixed sleeve 61 through a bearing, the shifting ring 66 is connected with the support 1 through a servo hydraulic rod 68, a cylinder body of the servo hydraulic rod 68 is fixed in the support 1, and the tail end of a piston rod of the servo hydraulic rod 68 is fixed in the end face of the shifting ring 66;

that is to say, the servo hydraulic rod 68 can drive the dial ring 66 to drive the sliding sleeve 65 to slide along the main shaft 3, so as to change the distance between the sliding sleeve 65 and the fixed sleeve 61, and the support rod 63 changes the included angle with the main shaft 3 to change the distance between the winding shoes 5 and the main shaft 3, thereby changing the diameter of the cylinder formed by each winding shoe 5 to adapt to winding different types of power cables.

Referring to fig. 3, in the present embodiment, the guide assembly 7 includes a base 71, a fixing ring 72, and a guide cylinder 73, the fixing ring 72 is fixed on the base 71, the guide cylinder 73 is fixed in one surface of the fixing ring 72, and the inner diameters of the fixing ring 72 and the guide cylinder 73 are the same;

the wall of the guide cylinder 73 at one end far away from the fixed ring 72 is provided with a plurality of through grooves distributed circumferentially, a guide roller 74 is rotatably arranged in each through groove, the rotating shaft of the guide roller 74 is tangent to the wall of the guide cylinder 73, and the radius of the guide roller 74 is greater than the distance from the rotating shaft to the end face of the guide cylinder 73 at one end far away from the fixed ring 72;

since the guide roller 74 can convert the friction force between the guide drum 73 and the power cable passing therethrough into rolling friction, especially when the power cable is at an angle to the guide drum 73, the wear of the power cable can be reduced.

In this embodiment, the bottom of the base 71 is connected to the sliding table 8 through a rotary table 81, the rotary table 81 can rotate with the sliding table 8, and the rotation angle of the rotary table 81 can be fixed through a set screw, so that the axial direction of the guide cylinder 73 and the radial direction of the main shaft 3 form a certain angle;

because the power cable is in certain angle with its radial when being twined in the barrel that the hank tile 5 is constituteed in succession, the power cable who winds into the barrel that the hank tile 5 is constituteed inclines certain angle through the guide cylinder 73 guide for be about to wind into the cable and the cable that has wound into between parallel, can reduce the wearing and tearing between the cable.

In this embodiment, a plurality of cleaning brushes 75 are circumferentially distributed in the fixing ring 72 in the direction, the cleaning brushes 75 are arc-shaped brushes facing the inner diameter of the fixing ring 72, and each cleaning brush 75 is surrounded into a ring shape with bristles facing the inner hole of the fixing ring 72.

Referring to fig. 4, in the present embodiment, an aperture adjustment assembly 76 capable of adjusting an inner diameter of a ring surrounded by the cleaning brush 75 is disposed in the cleaning brush 75, the aperture adjustment assembly 76 includes a guide rail 761 and a slide rod 762, the plurality of guide rails 761 are circumferentially distributed in the fixing ring 72, a length of each guide rail extends in a radial direction of the fixing ring 72, the guide rail 761 is connected with the slide rod 762, the slide rod 762 is a "T" shaped structure, a vertical rod of the slide rod is slidably connected with the guide rail 761, a cross rod of the slide rod faces an inner hole of the fixing ring 72, and the cross rod is fixed with the cleaning brush 75;

a rotating block 763 is arranged in a gap of the guide rail 761, the rotating block 763 is a triangular plate, a first corner of the rotating block 763 is rotatably connected with the fixed ring 72, a sliding groove extending along the first corner is formed in a second corner of the rotating block 763, and the sliding groove is movably connected with a pin fixed on the sliding rod 762;

that is, the position of the pin on the slider 762 in the sliding slot of the rotating block 763 can be changed by rotating the rotating block 763 around the first angle, thereby changing the length of the slider 762 protruding out of the inner hole of the fixed ring 72.

In this embodiment, a linkage link 764 is hinged in the third corner of the rotating block 763, and the other end of the linkage link 764 is hinged with the third corner of another adjacent rotating block 763;

when one rotating block 763 rotates, the linkage connecting rod 764 hinged with the rotating block 763 can drive the other rotating block 763 to rotate, so as to drive each rotating block 763 to rotate synchronously, thereby adjusting the inner diameter of the ring surrounded by the cleaning brush 75.

In this embodiment, one of the plurality of circumferentially distributed rotating blocks 763 is extended along a direction from the first angle to the third angle, a fastening sliding pin 765 is arranged at the end of the extended section, an arc-shaped adjusting sliding slot 721 is formed in a corresponding position of the fixing ring 72, the arc center of the arc-shaped adjusting sliding slot 721 is the first angle of the rotating block 763, the fastening sliding pin 765 is slidably connected to the arc-shaped adjusting sliding slot 721, and the fastening sliding pin 765 and the arc-shaped adjusting sliding slot 721 can be locked with each other;

that is, the rotation angle of the rotating block 763 can be adjusted by adjusting the position of the tightening slide pin 765 in the arc-shaped adjustment slide 721.

In specific implementation, when the electric power cable is wound from the direction of the end cover 11 as a starting point, the sliding table 8 is adjusted to be close to one end of the end cover 11, and the inclination angle of the guide assembly 7 is adjusted through the rotating table 81, so that the electric power cable has a certain winding angle;

adjust the annular aperture of cleaning brush 75 according to the diameter of cable, specifically be: through the position of adjusting tight setting sliding pin 765 in arc adjustment spout 721, adjust the rotation angle of commentaries on classics piece 763, linkage connecting rod 764 drives another adjacent commentaries on classics piece 763 and rotates, thereby drive every commentaries on classics piece 763 synchronous rotation one by one, change the position of the pin on the slide bar 762 in the spout of commentaries on classics piece 763, thereby change the length that the slide bar 762 stretches out solid fixed ring 72 hole, adjust the annular aperture of clearance brush 75, make it can laminate the cable surface, play the effect of clearance cable.

The diameter of a cylinder surrounded by the winding tiles 5 is adjusted according to the diameter of the cable, and the method specifically comprises the following steps: the servo hydraulic rod 68 can drive the shifting ring 66 to drive the sliding sleeve 65 to slide along the main shaft 3, so that the distance between the sliding sleeve 65 and the fixed sleeve 61 is changed, the included angle between the support rod 63 and the main shaft 3 is changed, the distance between the winding tiles 5 and the main shaft 3 is changed, the diameter of a cylinder formed by each winding tile 5 is changed, and the servo hydraulic rod is suitable for winding different types of power cables;

pre-winding the power cable in the winding tile 5 for 2-4 circles after the power cable passes through the guide cylinder 73;

starting the driving and speed changing device 2, enabling the main shaft 3 to drive the winding tile 5 to rotate so as to wind a cable, and simultaneously enabling the sliding table 8 to synchronously move towards a direction far away from the end cover 11 under the driving of the screw rod and the screw rod 9;

when the next layer of cable is wound, the rotating direction of the screw rod 9 is changed through the driving and speed changing device 2, so that the sliding table 8 moves back, and the process is circulated until the winding of the cable is finished;

in addition, in the winding process, the servo hydraulic rod 68 applies slight thrust to enable the winding shoe 5 to generate expansion force, so that the cable can be ensured to be always tightly attached to the surface of the winding shoe 5, and the cable is prevented from loosening in the winding process.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. A power line coiling device comprises a support (1) and is characterized in that a driving and speed changing device (2) is fixed on one side of the support (1), a first bearing seat (41) is fixed on the other side of the support, a power output end of the driving and speed changing device (2) is a first output end (21), a rotatable main shaft (3) is arranged between the first output end (21) and the first bearing seat (41), an end cover (11) is fixed at one end of the main shaft (3), a plurality of coiling tiles (5) are distributed in the main shaft (3) through the circumference of a support assembly (6) sleeved on the main shaft, the coiling tiles (5) are long plates with arc-shaped cross sections and length extending along the axial direction of the main shaft (3), and each coiling tile (5) can jointly form a complete cylinder body;

still another power take off end two (22) in drive and speed change gear (2), bearing frame one (41) side is fixed with bearing frame two (42), be equipped with rotatable lead screw (9) between output two (22) and bearing frame two (42), be fixed with in support (1) of lead screw (9) side fixed axle (10) parallel with lead screw (9), be equipped with in lead screw (9) and fixed axle (10) and run through its two and rather than sliding table (8) of slidable ground connection, through screw-nut and lead screw (9) threaded connection in sliding table (8), be equipped with guide assembly (7) of cylinder on sliding table (8), the power line passes the back winding in guide assembly (7) and is peripheral at spiral tile (5).

2. The power line winding device as claimed in claim 1, wherein the support assembly (6) comprises a fixed sleeve (61) and a support rod (63), the fixed sleeve (61) is fixedly sleeved at one end of the main shaft (3) close to the end cover (11) and fixedly connected with the end cover (11), a plurality of sleeve hinges (62) are distributed on the circumference of the outer wall of the fixed sleeve (61), the length of each sleeve hinge (62) is fixed along the axial direction of the fixed sleeve (61), a support rod (63) is hinged to the side surface of each sleeve hinge (62), and the other end of each support rod (63) is hinged to the winding tile (5) through a connecting seat (64) fixed to the back surface of the winding tile (5);

the end, far away from the end cover (11), of the main shaft (3) is slidably sleeved with a sliding sleeve (65), and the outer wall of the sliding sleeve (65) is hinged with the fixed sleeve (61) in the same mode and symmetrically with the fixed sleeve through a plurality of shaft sleeve hinges (62) and a support rod (63) and another connecting seat (64) at the bottom of the wire winding tile (5).

3. The power line winding device as claimed in claim 2, wherein a plurality of circumferentially distributed spline grooves (67) are formed in the outer wall of the main shaft (3) at positions corresponding to the sliding range of the sliding sleeve (65), and the inner wall of the sliding sleeve (65) is provided with splines to be in fit connection with the spline grooves (67), so that the sliding sleeve (65) and the main shaft (3) can transmit torque and can slide with each other.

4. The power line winding device as claimed in claim 2, wherein a dial ring (66) is rotatably sleeved on an outer wall of an end of the sliding sleeve (65) far away from the fixed sleeve (61) through a bearing, the dial ring (66) is connected with the bracket (1) through a servo hydraulic rod (68), a cylinder body of the servo hydraulic rod (68) is fixed in the bracket (1), and a piston rod end of the servo hydraulic rod (68) is fixed in an end face of the dial ring (66).

5. An electric power line reeling device according to claim 1, wherein the guide assembly (7) includes a base (71), a fixing ring (72), a guide cylinder (73), the fixing ring (72) is vertically fixed on the base (71), the guide cylinder (73) is concentrically fixed in one surface of the fixing ring (72), and the inner diameter of the fixing ring (72) is the same as that of the guide cylinder (73);

the wall of the guide cylinder (73) far away from one end of the fixing ring (72) is provided with a plurality of through grooves distributed circumferentially, a guide roller (74) is rotatably arranged in each through groove, a rotating shaft of the guide roller (74) is tangent to the wall of the guide cylinder (73), and the radius of the guide roller (74) is larger than the distance from the rotating shaft to the end face of the guide cylinder (73) far away from one end of the fixing ring (72).

6. The power line winding device as claimed in claim 5, wherein the bottom of the base (71) is connected to the sliding table (8) through a rotary table (81), the rotary table (81) and the sliding table (8) can rotate relative to each other, and the rotation angle of the rotary table can be fixed through a set screw, so that the axial direction of the guide cylinder (73) and the radial direction of the main shaft (3) form a certain angle.

7. A power line reeling device according to claim 5, wherein a plurality of cleaning brushes (75) are circumferentially distributed in the fixed ring (72), the cleaning brushes (75) are arc-shaped brushes facing the inner diameter of the fixed ring (72), and each cleaning brush (75) is formed into a ring shape with bristles facing the inner hole of the fixed ring (72).

8. A power line reeling device according to claim 7, wherein the cleaning brush (75) is provided with an aperture adjusting assembly (76) capable of adjusting the inner diameter of the ring surrounded by the cleaning brush, the aperture adjusting assembly (76) comprises a guide rail (761) and a slide rod (762), a plurality of the guide rails (761) are circumferentially distributed in the fixing ring (72), the length of the guide rails extends in the radial direction of the fixing ring (72), the slide rod (762) is connected in the guide rail (761), the slide rod (762) is of a T-shaped structure, the vertical rod of the T-shaped structure is slidably connected with the guide rail (761), the cross rod of the T-shaped structure faces the inner hole of the fixing ring (72), and the cleaning brush (75) is fixed in the cross rod;

be equipped with in the clearance of guide rail (761) and change piece (763), change piece (763) and be triangle-shaped board, its first angle and solid fixed ring (72) rotationally are connected, it has the spout that extends along first angle to open in the second angle of change piece (763), fixed pin swing joint on spout and slide bar (762).

9. The power line winding device according to claim 8, wherein a link (764) is hinged in a third corner of the turn piece (763), and the other end of the link (764) is hinged to a third corner of another turn piece (763) adjacent thereto.

10. An electric power line winding device as claimed in claim 9, wherein one of said plurality of circumferentially distributed rotary blocks (763) is extended from a first corner to a third corner, a fastening sliding pin (765) is provided at the end of the extended section, an arc adjusting sliding slot (721) is provided in a corresponding position of the fixing ring (72), the arc center of said arc adjusting sliding slot (721) is the first corner of the rotary block (763), said fastening sliding pin (765) is slidably connected to the arc adjusting sliding slot (721), and the two are capable of locking with each other.