CN112249762A

CN112249762A - Automatic winding device for power cable recovery

Info

Publication number: CN112249762A
Application number: CN202011237256.6A
Authority: CN
Inventors: 张永峰
Original assignee: Individual
Current assignee: Suzhou Leixinyao Automation Technology Co ltd
Priority date: 2020-11-09
Filing date: 2020-11-09
Publication date: 2021-01-22
Anticipated expiration: 2040-11-09
Also published as: CN112249762B

Abstract

The invention discloses an automatic winding device for power cable recovery, which comprises a base and universal wheels with brakes, wherein the universal wheels are arranged at four corners of the lower surface of the base; the invention has the beneficial effects that the rubber soft cylinder and the annular movable baffle plate are loosened and fixed through the expansion of the telescopic locking block, so that the power cable can be quickly disassembled from the winding sleeve after being wound, the use of workers is facilitated, the expansion of the telescopic locking block is adjusted through the adjusting device, the manual operation of the workers can be effectively facilitated, the power cable is straightened through the arrangement of the plurality of straightening sleeves and the straightening balls which are arranged in the straightening sleeves and distributed in a staggered mode, so that the power cable is wound more compactly, and meanwhile, the problem of winding trouble caused by excessive bending of the power cable is avoided.

Description

Automatic winding device for power cable recovery

Technical Field

The invention relates to the technical field of electric power related equipment, in particular to an automatic winding device for power cable recovery.

Background

The power cable is used for transmitting and distributing electric energy, and is commonly used for urban underground power grids, power station leading-out lines, power supply inside industrial and mining enterprises and power transmission lines under river-crossing seawater. In the power lines, the cable is increasing in specific gravity. Power cables are cable products used in the trunk lines of power systems to transmit and distribute high power electrical energy, including various voltage classes, 1-500KV and above, and various insulated power cables.

In the municipal works, people all need to change the cable that has damaged, but the cable that damages can also be retrieved and recycled, then need to roll up the cable that damages and carry, and because power cable is dismantling the back, because the cable can produce various bending during the use, and this type of power cable is comparatively troublesome when the rolling, can't quick rolling.

Disclosure of Invention

The invention aims to solve the problems and designs an automatic winding device for power cable recovery.

The technical scheme of the invention is that the automatic winding device for power cable recovery comprises a base and universal wheels with brakes, wherein the universal wheels are arranged at four corners of the lower surface of the base;

the automatic winding device comprises a winding support seat arranged on one side above a base, a winding bearing arranged on the winding support seat, a winding rotating shaft arranged in the winding bearing, a large winding belt pulley arranged at one end of the winding rotating shaft, a winding sleeve arranged at the other end of the winding rotating shaft, a driving motor arranged above the base and positioned on one side of the winding support seat, a small winding belt pulley arranged at the rotating end of the driving motor, and a winding belt sleeved between the small winding belt pulley and the large winding belt pulley;

the quick dismounting device comprises a winding sleeve, wherein one end of the outer side surface of the winding sleeve is provided with an annular baffle, the outer side surface of the winding sleeve is provided with three locking through grooves, the three locking through grooves are uniformly distributed on the outer side surface of the winding sleeve, a telescopic locking block is movably arranged in each locking through groove, one end of the outer side surface of each telescopic locking block is provided with a locking groove, a soft rubber cylinder is movably sleeved on the winding sleeve, the inner surface of the soft rubber cylinder is movably contacted with the telescopic locking block, the other end of the outer side surface of the winding sleeve is sleeved with an annular movable baffle, the annular movable baffle is movably contacted with the locking grooves, the center in the winding sleeve is provided with a hydraulic sleeve, one end of the hydraulic sleeve is provided with a support rod, one end of the support rod is provided with a plurality of support short, support the quarter butt and the inboard fixed surface of rolling sleeve is connected, the hydraulic sleeve outside installs three little hydraulic stretching cylinders of group on the surface, three little hydraulic stretching cylinder evenly distributed of group are on hydraulic sleeve, the little hydraulic stretching cylinder of every group comprises a plurality of little hydraulic stretching cylinders, a plurality of little hydraulic stretching cylinder evenly distributed are on hydraulic sleeve, the inside movable mounting of little hydraulic stretching cylinder has little sealing piston, install flexible post on the little sealing piston, flexible post and flexible locking piece fixed connection, the inside hydraulic oil that is equipped with of hydraulic sleeve, the inside one end movable mounting of hydraulic sleeve has big sealing piston, the inside one end of rolling sleeve is equipped with adjusting device.

Further, the adjusting device comprises a fixed sleeve arranged at the center of one end inside the rolling sleeve, the fixed sleeve is connected with the rolling sleeve through a connecting rod, an internal thread sleeve is installed at one end of the fixed sleeve, the internal thread sleeve is connected with the hydraulic sleeve through a butt joint sleeve, annular limiting baffles are installed at two ends inside the internal thread sleeve, an adjusting stud is arranged inside the internal thread sleeve, the adjusting stud is in threaded connection with the internal thread sleeve, connecting columns are installed at two ends of the adjusting stud, a telescopic chute is formed in one end of one connecting column, limiting chutes are formed in two sides inside the telescopic chute, the annular limiting baffle is installed at one end of the telescopic chute, a rotating seat is arranged inside the fixed sleeve, a rotating handle is installed at one side of the rotating seat, and a sliding telescopic shaft is installed at the other side of the rotating seat, the sliding telescopic shaft is inserted into the telescopic chute, two limiting slide blocks are installed at one end of the sliding telescopic shaft and are respectively in sliding connection with the limiting chute, and one end of the other connecting column is fixedly connected with the large sealing piston.

Further, the cable straightening device comprises a door-type sliding seat mounted on the other side of the upper surface of the base, a sliding support seat is sleeved on the door-type sliding seat and is connected with the door-type sliding seat in a sliding manner, a straightening bearing is mounted on the sliding support seat, a straightening rotating shaft is mounted in the straightening bearing, straightening seats are mounted at two ends of the straightening rotating shaft, a plurality of straightening rods are mounted on the straightening seats and are uniformly distributed on the straightening seats, straightening sleeves are mounted on the straightening rods, two groups of straightening telescopic cylinders are arranged on two sides of the center of the inner portion of each straightening sleeve and are fixedly connected with the straightening sleeves, the two groups of straightening telescopic cylinders are respectively and uniformly distributed on the straightening sleeves, the two groups of straightening telescopic cylinders are distributed in a staggered manner, one electromagnet is mounted at one end of the inner portion of each straightening telescopic cylinder, electromagnet two is installed to electromagnet one side, compression spring is installed to one side of electromagnet two, one side of compression spring is installed and is smoothed out straight telescopic column, the straight telescopic column of smoothing out with the fingers and a straight telescopic section of thick bamboo sliding connection, the one end of the straight telescopic column of smoothing out with the fingers is installed and is smoothed out straight ball seat, it has the ball recess to open on the straight ball seat to smooth out with the fingers, install in the ball recess and smooth out straight ball, the inside center department of the sleeve of smoothing out with the fingers installs the trapezoidal wear-resisting rubber cushion in the ring.

Furthermore, the pressing line rotating shaft device comprises two pressing line rotating shaft seats which are arranged on the upper surface of the base and located on one side of the door-shaped sliding seat, pressing line rotating shaft bearings are arranged on the pressing line rotating shaft seats, a pressing line rotating shaft is arranged between the two pressing line rotating shaft bearings, and the pressing line rotating shaft and the straightening sleeve at the highest position are located on the same horizontal plane.

Furthermore, the straightening balls in the straightening sleeve are positioned on the same circle, and the radius of the circle where the straightening balls are positioned is gradually increased along with the anticlockwise direction of the straightening sleeve.

Furthermore, certain friction is generated when the trapezoidal wear-resistant rubber soft pad in the ring is in movable contact with the power cable.

Further, when the driving motor does not work, the compression spring is in a relaxed state.

Furthermore, the first electromagnet and the electromagnet generate repulsive force after being electrified.

Furthermore, the connecting column fixedly connected with the large sealing piston is connected with the adjusting stud through a connecting column bearing.

The automatic winding device for power cable recovery manufactured by the technical scheme of the invention has the following beneficial effects:

this coiling mechanism loosens and fixes a soft section of thick bamboo of rubber and ring shape adjustable fender through the flexible of flexible locking piece to make the power cable rolling finish the back can be quick dismantle from the rolling sleeve and get off, make things convenient for staff's use, adjust the flexible of flexible locking piece through adjusting device, can effectually make things convenient for staff's manually operation.

According to the winding device, the plurality of straightening sleeves are arranged, and the power cable is straightened by the straightening balls which are arranged in the straightening sleeves and distributed in a staggered manner, so that the power cable is more compact in winding, and the problem that the winding is troublesome due to too much bending of the power cable is avoided.

According to the winding device, the first electromagnet, the second electromagnet and the compression spring are matched, so that the power cable can simply and quickly pass through the straightening balls, and the use of workers is facilitated.

Drawings

Fig. 1 is a schematic structural view of an automatic winding device for power cable recycling according to the present invention;

FIG. 2 is a schematic view of an automatic winding device according to the present invention;

FIG. 3 is a schematic view of the take-up sleeve of the present invention;

FIG. 4 is a schematic view of the quick release apparatus of the present invention;

FIG. 5 is a schematic view of an adjustment device according to the present invention;

FIG. 6 is a schematic view of a cable straightening device according to the present invention;

FIG. 7 is a schematic view of a straightening sleeve according to the present invention;

in the figure, 1, a base; 2. a universal wheel; 3. winding the supporting seat; 4. rolling a bearing; 5. a winding rotating shaft; 6. a large winding belt pulley; 7. winding a sleeve; 8. a drive motor; 9. a small take-up pulley; 10. winding a belt; 11. a circular baffle plate; 12. a locking groove; 13. a telescopic locking block; 14. a soft rubber cylinder; 15. a circular movable baffle; 16. a hydraulic sleeve; 17. a support bar; 18. supporting the short rod; 19. a small hydraulic telescopic cylinder; 20. a small seal piston; 21. a telescopic column; 22. hydraulic oil; 23. a large seal piston; 24. fixing the sleeve; 25. a connecting rod; 26. an internally threaded sleeve; 27. butting the sleeves; 28. an annular limit baffle; 29. adjusting the stud; 30. connecting columns; 31. a telescopic chute; 32. a limiting chute; 33. an annular limit baffle; 34. a rotating seat; 35. rotating the handle; 36. sliding the telescopic shaft; 37. a limiting slide block; 38. a door type sliding seat; 39. sliding the supporting seat; 40. straightening the bearing; 41. straightening the rotating shaft; 42. straightening seat; 43. straightening the supporting rod; 44. straightening the sleeve; 45. straightening and stretching the cylinder; 46. an electromagnet I; 47. an electromagnet II; 48. a compression spring; 49. straightening the telescopic column; 50. straightening the ball seat; 51. a ball groove; 52. straightening the ball; 53. the inner ring is provided with a trapezoidal wear-resistant rubber cushion; 54. a wire pressing rotating shaft seat; 55. a wire pressing rotating shaft bearing; 56. a wire pressing rotating shaft; 57. connecting a column bearing; 58. and locking the through groove.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings, as shown in FIGS. 1-7:

in the device, a worker can arrange a control switch and an external cable on the base 1, and after the external cable is connected with the control switch, the external cable is connected with the driving motor 8, the first electromagnet 46 and the second electromagnet 47, so that the operation of the device is controlled.

The invention of the scheme is characterized in the structural design of the rapid dismounting device, and with reference to the attached drawing 1, the attached drawing 2, the attached drawing 3, the attached drawing 4 and the attached drawing 5, the rapid dismounting device comprises a winding sleeve 7, wherein one end of the outer side surface of the winding sleeve is provided with a circular ring-shaped baffle 11, the outer side surface of the winding sleeve 7 is provided with three locking through grooves 58, the three locking through grooves 58 are uniformly distributed on the outer side surface of the winding sleeve 7, a telescopic locking block 13 is movably arranged in each locking through groove 58, one end of the outer side surface of each telescopic locking block 13 is provided with a locking groove 12, a rubber soft cylinder 14 is movably sleeved on the winding sleeve 7, the inner surface of each rubber soft cylinder 14 is movably contacted with the telescopic locking block 13, the other end of the outer side surface of the winding sleeve 7 is sleeved with a circular ring-shaped movable baffle 15, the circular, one end of a support rod 17 is provided with a plurality of support short rods 18, the support short rods 18 are uniformly distributed on the support rod 17, the support short rods 18 are fixedly connected with the inner side surface of the winding sleeve 7, the outer side surface of the hydraulic sleeve 16 is provided with three groups of small hydraulic telescopic cylinders 19, the three groups of small hydraulic telescopic cylinders 19 are uniformly distributed on the hydraulic sleeve 16, each group of small hydraulic telescopic cylinders 19 is composed of a plurality of small hydraulic telescopic cylinders 19, the plurality of small hydraulic telescopic cylinders 19 are uniformly distributed on the hydraulic sleeve 16, small sealing pistons 20 are movably arranged in the small hydraulic telescopic cylinders 19, telescopic columns 21 are arranged on the small sealing pistons 20, the telescopic columns 21 are fixedly connected with the telescopic locking blocks 13, hydraulic oil 22 is arranged in the hydraulic sleeve 16, and a large sealing piston 23 is movably arranged at one end in the hydraulic sleeve 16; through set up soft section of thick bamboo 14 of detachable rubber and ring shape adjustable fender 15 on rolling sleeve 7, make power cable can roll on the soft section of thick bamboo 14 of rubber between ring shape adjustable fender 15 and the ring shape adjustable fender 11, and the effect through hydraulic oil 22, make big sealing piston 23 can drive little sealing piston 20 and remove, the flexible locking block 13 of control is flexible, loosen and fix soft section of thick bamboo 14 of rubber and ring shape adjustable fender 15, thereby make the power cable rolling accomplish the back, can carry out quick dismouting, in order to conveniently accomodate the power cable that the rolling was accomplished.

The invention of the scheme is characterized in the structural design of the adjusting device, with reference to fig. 2, fig. 4 and fig. 5, the adjusting device comprises a fixed sleeve 24 arranged at the center of one end inside a rolling sleeve 7, the fixed sleeve 24 is connected with the rolling sleeve 7 through a connecting rod 25, an internal thread sleeve 26 is arranged at one end of the fixed sleeve 24, the internal thread sleeve 26 is connected with a hydraulic sleeve 16 through a butt joint sleeve 27, annular limiting baffles 28 are arranged at two ends inside the internal thread sleeve 26, an adjusting stud 29 is arranged inside the internal thread sleeve 26, the adjusting stud 29 is in threaded connection with the internal thread sleeve 26, connecting posts 30 are arranged at two ends of the adjusting stud 29, a telescopic chute 31 is arranged at one end of one connecting post 30, limiting chutes 32 are arranged at two sides inside the telescopic chute 31, an annular limiting baffle 33 is arranged at one end of the telescopic chute 31, a rotating handle 35 is installed on one side of the rotating seat 34, a sliding telescopic shaft 36 is installed on the other side of the rotating seat 34, the sliding telescopic shaft 36 is inserted into the telescopic chute 31, two limiting slide blocks 37 are installed at one end of the sliding telescopic shaft 36, the two limiting slide blocks 37 are respectively connected with the limiting chute 32 in a sliding mode, and one end of the other connecting column 30 is fixedly connected with the large sealing piston 23; through the sliding fit of slip telescopic shaft 36 and flexible spout 31, can make and rotate seat 34 and rotation handle 35 and can stretch out and draw back to the staff adjusts the rotation, it is spacing through the slip of spacing slider 37 and spacing spout 32, can make and rotate seat 34 and can drive adjusting stud 29 and rotate, through adjusting stud 29 and internal thread sleeve 26's threaded connection, make spliced pole 30 can drive big sealing piston 23 and remove, thereby control the flexible of flexible locking piece 13, make things convenient for staff's use.

The invention is characterized in that the structural design of the cable straightening device is combined with an attached drawing 1, an attached drawing 6 and an attached drawing 7, the cable straightening device comprises a base 1, a door-type sliding seat 38 is arranged on the other side of the upper surface of the base 1, a sliding support seat 39 is sleeved on the door-type sliding seat 38, the sliding support seat 39 is connected with the door-type sliding seat 38 in a sliding manner, a straightening bearing 40 is arranged on the sliding support seat 39, a straightening shaft 41 is arranged in the straightening bearing 40, straightening seats 42 are arranged at two ends of the straightening shaft 41, a plurality of straightening support rods 43 are arranged on the straightening seat 42, the straightening support rods 43 are uniformly distributed on the straightening seat 42, a straightening sleeve 44 is arranged on each straightening support rod 43, two groups of straightening telescopic cylinders 45 are arranged at two sides of the center inside of the straightening sleeve 44, the two groups of straightening telescopic cylinders 45 are fixedly connected with the straightening sleeve 44, the two groups of straightening cylinders 45 are respectively and uniformly distributed on the straightening sleeve 44 in a staggered manner, one end of the inside of the straightening telescopic cylinder 45 is provided with a first electromagnet 46, one side of the first electromagnet 46 is provided with a second electromagnet 47, one side of the second electromagnet 47 is provided with a compression spring 48, one side of the compression spring 48 is provided with a straightening telescopic column 49, the straightening telescopic column 49 is in sliding connection with the straightening telescopic cylinder 45, one end of the straightening telescopic column 49 is provided with a straightening ball seat 50, the straightening ball seat 50 is provided with a ball groove 51, a straightening ball 52 is arranged in the ball groove 51, the center of the inside of the straightening sleeve 44 is provided with an intra-annular trapezoidal wear-resistant rubber cushion 53, the straightening balls 52 in the straightening sleeve 44 are positioned on the same circle, the radius of the circle where the straightening balls 52 are positioned is gradually increased along with the anticlockwise distribution of the straightening sleeve 44, a certain friction is generated when the intra-annular trapezoidal wear-resistant rubber cushion 53 is in movable contact with a power cable, and when the driving motor 8 does not work, the compression spring 48 is in a loose state, the first electromagnet 46 and the second electromagnet 47 generate repulsive force after being electrified; through the two groups of straight smooth balls 52 and the trapezoidal wear-resistant rubber cushions 53 in the rings which are distributed in a staggered mode, when a cable penetrates through the straightening sleeve 44, the power cable can be straightened through extrusion of the straight smooth balls 52 and the trapezoidal wear-resistant rubber cushions 53 in the rings, so that the power cable is convenient to wind, the compression spring 48 is in a loose state when not used, the power cable can be conveniently inserted, operation of workers is convenient, the compression spring 48 is extruded through repulsive force generated after the electromagnet I46 and the electromagnet II are electrified 47, the cable can be extruded by the straight smooth balls 52 when being wound, and accordingly the device can stably straighten; the plurality of straightening sleeves 44 are arranged on the straightening seat 42, and the radiuses of circles where the straightening balls 52 in each straightening sleeve 44 are located are different, so that the application range of the device is enlarged, and the device can be used for winding power cables with different diameters.

In the device, the wire pressing rotating shaft device is provided with the wire pressing rotating shaft 56 which can rotate freely on one side of the door-shaped sliding seat 38, so that the power cable can be kept stable during rolling, meanwhile, the power cable does not generate any friction with the straightening sleeve 44, and the smooth rolling of the power cable is ensured.

The working principle is as follows:

when the device is required to be used, the device is moved to a position where a power cable needs to be wound, the device is connected with an external power supply, a worker selects a corresponding straightening sleeve 44 according to the diameter of the power cable, the straightening sleeve 44 is manually rotated, the straightening sleeve 44 which needs to be used is moved to the topmost end, the worker manually inserts one end of the power cable into the straightening sleeve 44 at the moment, the power cable penetrates through the two straightening sleeves 44, then the power cable penetrates through the lower end of the wire pressing rotating shaft 26, and then the power cable is tied to the rubber soft cylinder 14 above the winding sleeve 7;

at the moment, the working personnel start to work by controlling the switch control device, and the driving motor 8, the first electromagnet 46 and the second electromagnet 47 start to work;

the driving motor 8 starts to drive the small electric rolling belt pulley 9 to rotate, and drives the large rolling belt pulley 6 to rotate under the action of the rolling belt 10, so that the rolling rotating shaft 5 starts to rotate, the rolling rotating shaft 5 drives the rolling sleeve 7 to rotate, and the flexible locking block 13 is in an extending state at the moment, so that the soft rubber cylinder 14 and the annular movable baffle plate 15 are in a fixed state, the soft rubber cylinder 14 starts to synchronously rotate along with the rotation of the rolling sleeve 7, and the power cable starts to roll along with the rotation of the soft rubber cylinder 14, so that the power cable is rolled on the soft rubber cylinder 14 between the annular baffle plate 11 and the annular movable baffle plate 15;

the electromagnet 46 and the electromagnet 47 generate repulsive force after being electrified, so that the electromagnet 7 is pushed to start moving through the repulsive force, the electromagnet 47 pushes the compression spring 48 to move, the compression spring 48 pushes the straightening telescopic column 49 to start moving, the straightening balls 52 on the straightening ball seat 50 are contacted with the outer surface of the power cable, meanwhile, the compression spring 8 is compressed to generate elastic force due to large repulsive force, at the moment, the straightening balls 52 start to extrude the power cable through the elastic force of the compression spring 8, when the power cable moves along with the winding of the power cable, the power cable is extruded through the straightening balls 52, then secondarily extruded through the inner-ring trapezoidal wear-resistant rubber cushion 53, then secondarily extruded through the other group of straightening balls 52 for the third time, then enters the other straightening sleeve 44, and then re-extruded through the two straightening balls 52 in the other straightening sleeve 44 and the inner-ring trapezoidal wear-resistant rubber cushion 53, thereby straightening the power cable;

the straightened power cable is pulled and supported by the pressing line rotating shaft 56 and is in a straightened state by matching with the friction force between the trapezoidal wear-resistant rubber cushion 53 in the ring and the power cable, and the power cable is continuously straightened and then wound on the rubber soft cylinder 14 along with the rotation of the driving motor 8;

in the winding process of the power cable, the contact point of the power cable and the rubber soft cylinder 14 moves along with the winding process, the sliding connection between the door-type sliding seat 38 and the sliding support seat 39 can enable the sliding support seat 39 to slide, so that the straight traffic 44 can be subjected to position adjustment, and the contact point of the power cable and the wire pressing rotating shaft 56 can be freely adjusted due to the rotation of the wire pressing rotating shaft 56, so that the power cable can pull the sliding support seat 39 to perform corresponding position adjustment along with the change of the winding position in the winding process of the power cable, so that the stable operation of winding the power cable is ensured;

when the power cable is completely wound, the rotation is stopped by the control switch control device, a worker manually fixes the other end of the power cable to the wound power cable, at the same time, the worker manually pulls the rotating handle 35 to draw the rotating seat 34 out of the fixed sleeve 24, and along with the drawing out of the rotating seat 34, the rotating seat 34 drives the sliding telescopic shaft 36 to be drawn out from the telescopic chute 31, meanwhile, the limiting slide block 37 also moves from one end of the limiting chute 32 to the other end and is blocked by the annular limiting baffle 33, so that the rotating seat 34 is ensured not to be completely drawn out and separated from the connecting column 30, at the same time, the worker manually rotates the rotating handle 35, the rotating handle 35 drives the rotating seat 34 to start rotating, the rotating seat 34 drives the sliding telescopic shaft 36 to rotate, and the sliding telescopic shaft 36 drives the connecting column 30 to start rotating under the action of the limiting slide block 37, so that the connecting column 30 drives the adjusting stud 29 to rotate, the adjusting stud 29 is connected with the internal thread through the thread of the adjusting stud 26, the adjusting stud 29 can perform position adjustment in the rotating process, so that the adjusting stud 29 transversely moves, the other connecting column 30 is connected with the adjusting stud 2 through the connecting column bearing 57, so that the other connecting column 30 cannot rotate in the rotating process of the adjusting stud 29, the adjusting stud 29 drives the other connecting column 30 to transversely move when rotating, the large sealing piston 23 is driven to move, and the large sealing piston 23 is pulled out from the hydraulic sleeve 16;

when the large seal piston 23 is drawn out from the hydraulic sleeve 16 by the action of the hydraulic oil 22, the small seal piston 20 begins to retract into the small hydraulic telescopic tube 19, so that the small sealing piston 20 drives the telescopic column 21 to contract, thereby enabling the telescopic locking block 13 to begin to contract, after the telescopic locking block 13 is completely retracted into the locking through groove 58 on the winding sleeve 7, the rubber soft cylinder 14 and the annular movable baffle plate 15 are in a loose state, at the moment, a worker firstly pushes the rotating handle 35 and the rotating seat 34 back into the fixed sleeve 24, then manually detaches the annular movable baffle plate 15, then takes the power cable with the rubber soft cylinder 14 from the winding sleeve 7, and after detaching, the worker inserts a rope into the rubber soft cylinder 14 and then pulls out the rubber soft cylinder 14 from the power cable, so that the power cable is bound and transported;

after the power cable is carried, at the moment, the worker puts the soft rubber cylinder 14 on the winding sleeve 7 again and puts the annular movable baffle 15 on the winding sleeve 7, at the moment, the worker withdraws the rotating handle 35 and the rotating seat 34 again and rotates the rotating handle 35 and the rotating seat 34 in reverse direction, so that the large sealing piston 23 starts to move into the hydraulic sleeve 16, the small sealing piston 20 drives the telescopic column 21 to extend out under the action of the hydraulic oil 22, so as to drive the telescopic locking block 13 to extend out, and the telescopic locking block 13 extends out to support the soft rubber cylinder 14, so that the soft rubber cylinder 14 is regulated on the winding sleeve 7, and the annular movable baffle 15 contacts with the locking groove 12 on the telescopic locking block 13 along with the extension of the telescopic locking block 13, and fixes the annular movable baffle 15 on the winding sleeve 7 through the locking groove 12, for the next use of the device.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. An automatic winding device for power cable recovery comprises a base (1) and universal wheels (2) with brakes, wherein the universal wheels (2) are installed at four corners of the lower surface of the base (1), and a wire pressing rotating shaft device is installed at one side of the center of the upper portion of the base (1), and is characterized in that the automatic winding device is installed at one side of the upper portion of the base (1), a quick dismounting device is arranged on the automatic winding device, and a cable straightening device is installed at the other side of the upper portion of the base (1);

the automatic winding device comprises a winding support seat (3) installed on one side above a base (1), a winding bearing (4) is installed on the winding support seat (3), a winding rotating shaft (5) is installed in the winding bearing (4), a large winding belt pulley (6) is installed at one end of the winding rotating shaft (5), a winding sleeve (7) is installed at the other end of the winding rotating shaft (5), a driving motor (8) is installed above the base (1), the driving motor (8) is located on one side of the winding support seat (3), a small winding belt pulley (9) is installed at the rotating end of the driving motor (8), and a winding belt (10) is sleeved between the small winding belt pulley (9) and the large winding belt pulley (6);

the quick dismounting device comprises a winding sleeve (7), wherein a circular baffle (11) is installed at one end of the outer side surface of the winding sleeve (7), three locking through grooves (58) are formed in the outer side surface of the winding sleeve (7), the three locking through grooves (58) are uniformly distributed on the outer side surface of the winding sleeve (7), a telescopic locking block (13) is movably arranged in each locking through groove (58), a locking groove (12) is formed in one end of the outer side surface of each telescopic locking block (13), a rubber soft cylinder (14) is movably sleeved on the winding sleeve (7), the inner surface of each rubber soft cylinder (14) is movably contacted with each telescopic locking block (13), a circular movable baffle (15) is sleeved at the other end of the outer side surface of the winding sleeve (7), each circular movable baffle (15) is movably contacted with each locking groove (12), and a hydraulic sleeve (16) is arranged at the inner center of the winding sleeve, the utility model discloses a hydraulic telescopic support, including hydraulic sleeve (16), bracing piece (17) are installed to the one end of hydraulic sleeve (16), a plurality of support quarter butt (18) are installed to the one end of bracing piece (17), support quarter butt (18) evenly distributed on bracing piece (17), support quarter butt (18) and rolling sleeve (7) inboard fixed surface be connected, hydraulic sleeve (16) outside is installed three little hydraulic telescopic tube of group (19) on the surface, three little hydraulic telescopic tube of group (19) evenly distributed are on hydraulic sleeve (16), every little hydraulic telescopic tube of group (19) comprises a plurality of little hydraulic telescopic tube (19), a plurality of little hydraulic telescopic tube (19) evenly distributed are on hydraulic sleeve (16), little hydraulic telescopic tube (19) inside movable mounting has little sealing piston (20), install flexible post (21) on little sealing piston (20), flexible post (21) and flexible locking block (13) fixed connection, the hydraulic sleeve (16) is internally provided with hydraulic oil (22), one end of the interior of the hydraulic sleeve (16) is movably provided with a large sealing piston (23), and one end of the interior of the winding sleeve (7) is provided with an adjusting device.

2. The automatic winding device for power cable recycling according to claim 1, wherein the adjusting device comprises a fixing sleeve (24) arranged at the center of one end inside the winding sleeve (7), the fixing sleeve (24) is connected with the winding sleeve (7) through a connecting rod (25), an internal thread sleeve (26) is installed at one end of the fixing sleeve (24), the internal thread sleeve (26) is connected with the hydraulic sleeve (16) through a butt joint sleeve (27), annular limiting baffles (28) are installed at two ends inside the internal thread sleeve (26), an adjusting stud (29) is arranged inside the internal thread sleeve (26), the adjusting stud (29) is in threaded connection with the internal thread sleeve (26), connecting posts (30) are installed at two ends of the adjusting stud (29), and a telescopic chute (31) is formed at one end of one connecting post (30), open flexible spout (31) inside both sides has spacing spout (32), annular limit baffle (33) are installed to the one end of flexible spout (31), fixed sleeve (24) inside is equipped with rotates seat (34), rotate one side of seat (34) and install rotation handle (35), slide telescopic shaft (36) are installed to the opposite side of rotating seat (34), slide telescopic shaft (36) insert in flexible spout (31), two limit slide (37) are installed to the one end of slide telescopic shaft (36), two limit slide (37) respectively with spacing spout (32) sliding connection, the one end and big sealing piston (23) fixed connection of another spliced pole (30).

3. The automatic winding device for power cable recycling according to claim 1, wherein the cable straightening device comprises a door-type sliding seat (38) installed on the other side of the upper surface of the base (1), a sliding support seat (39) is sleeved on the door-type sliding seat (38), the sliding support seat (39) is connected with the door-type sliding seat (38) in a sliding manner, a straightening bearing (40) is installed on the sliding support seat (39), a straightening rotating shaft (41) is installed in the straightening bearing (40), straightening seats (42) are installed at two ends of the straightening rotating shaft (41), a plurality of straightening struts (43) are installed on the straightening seat (42), the straightening struts (43) are uniformly distributed on the straightening seat (42), a straightening sleeve (44) is installed on the straightening struts (43), two groups of straightening extension cylinders (45) are arranged on two sides of the center inside the straightening sleeve (44), the two groups of straightening telescopic barrels (45) are fixedly connected with the straightening sleeve (44), the two groups of straightening telescopic barrels (45) are respectively and uniformly distributed on the straightening sleeve (44), the two groups of straightening telescopic barrels (45) are distributed in a staggered way, one end inside the straightening telescopic barrels (45) is provided with a first electromagnet (46), one side of the first electromagnet (46) is provided with a second electromagnet (47), one side of the second electromagnet (47) is provided with a compression spring (48), a straightening telescopic column (49) is arranged on one side of the compression spring (48), the straightening telescopic column (49) is connected with a straightening telescopic cylinder (45) in a sliding way, one end of the straightening telescopic column (49) is provided with a straightening ball seat (50), a ball groove (51) is formed in the straightening ball seat (50), a straightening ball (52) is arranged in the ball groove (51), the inner center of the straightening sleeve (44) is provided with an intra-annular trapezoidal wear-resistant rubber cushion (53).

4. The automatic winding device for power cable recycling according to claim 1, wherein the pressing line rotating shaft device comprises two pressing line rotating shaft seats (54) which are surface-mounted on the base (1), the pressing line rotating shaft seat (54) is located on one side of the door-shaped sliding seat (38), a pressing line rotating shaft bearing (55) is mounted on the pressing line rotating shaft seat (54), a pressing line rotating shaft (56) is mounted between the two pressing line rotating shaft bearings (55), and the pressing line rotating shaft (56) and the highest straightening sleeve (44) are located on the same horizontal plane.

5. The automatic winding device for power cable recycling according to claim 3, characterized in that the straightening balls (52) in the straightening sleeve (44) are on the same circle, and the radius of the circle on which the straightening balls (52) are located gradually increases with the counterclockwise distribution of the straightening sleeve (44).

6. An automatic winding device for electric power cable recycling according to claim 3, characterized in that the trapezoid wear-resistant rubber soft pad (53) inside the ring generates a certain friction when in active contact with the electric power cable.

7. An automatic winding device for electric power cable recovery according to claim 3, characterized in that the compression spring (48) is in a relaxed state when the drive motor (8) is not operating.

8. An automatic winding device for electric power cable recycling according to claim 3, characterized in that said first electromagnet (46) and second electromagnet (47) are energized to generate a repulsive force.

9. An automatic winding device for electric power cable recycling according to claim 2, characterized in that the connection column (30) fixedly connected with the large sealing piston (23) is connected with the adjusting stud (29) through a connection column bearing (57).