CN107986105B

CN107986105B - Automatic winding cable device

Info

Publication number: CN107986105B
Application number: CN201711392897.7A
Authority: CN
Inventors: 贾俊; 张鹏; 蒋彪
Original assignee: State Grid Corp of China SGCC; Taizhou Power Supply Co of State Grid Jiangsu Electric Power Co Ltd
Current assignee: State Grid Corp of China SGCC; Taizhou Power Supply Co of State Grid Jiangsu Electric Power Co Ltd
Priority date: 2017-12-21
Filing date: 2017-12-21
Publication date: 2024-03-26
Anticipated expiration: 2037-12-21
Also published as: CN107986105A

Abstract

The invention relates to an automatic cable winding device which comprises a spool, a support frame, a driving assembly, a screw rod, a sliding block, a rotating shaft and a guide piece, wherein two ends of the spool are provided with disc baffles which are rotatably connected to the support frame; the screw rod is parallel to the spool, and two ends of the screw rod are rotationally connected to the supporting frame through a connecting rod; the lower end of the sliding block is provided with a screw nut matched with the screw rod; the rotatable upper end of inserting the slider of pivot, the upper end of pivot is articulated with the bottom of guide, and the upper end of guide is equipped with the opening that matches with cable conductor shape. The automatic cable winding device provided by the invention can wind the cable on the spool tightly, regularly and orderly without manual cooperation. The invention has the advantages of exquisite structure, convenience and durability.

Description

Automatic winding cable device

Technical Field

The invention belongs to the field of cable winding devices, and particularly relates to an automatic winding device for a cable.

Background

The existing cable winding device comprises a spool and two end baffles, wherein the spool is wound by a power supply cable, the cable is wound on the spool during winding, and the winding and the paying-off are required to be manually performed during winding and paying-off in such a mode, so that time and labor are wasted. At present, there are also some automatic winding devices, which, although capable of automatic winding, still require manual cooperation to ensure that the cable is tightly, regularly and orderly wound on the spool.

Disclosure of Invention

The invention aims at the problems and provides a full-automatic cable winding device, by which cables can be tightly, regularly and orderly wound on a spool without manual cooperation.

The invention provides an automatic cable winding device which comprises a spool, a support frame and a driving assembly, wherein disc baffles are arranged at two ends of the spool, the disc baffles are rotatably connected to the support frame, the driving assembly is fixed on the support frame, an output part of the driving assembly is connected with the disc baffles, and the automatic cable winding device further comprises a screw rod, a sliding block, a rotating shaft and a guide piece; the screw rod is parallel to the spool, and two ends of the screw rod are rotationally connected to the supporting frame through a connecting rod; the lower end of the sliding block is provided with a screw nut matched with the screw rod; the rotatable upper end of inserting the slider of pivot, the upper end of pivot is articulated with the bottom of guide, and the upper end of guide is equipped with the opening that matches with cable conductor shape.

As a further optimization of the invention, the middle part of the sliding block is provided with a hollow cavity, the upper part of the sliding block is provided with a slotted hole communicated with the hollow cavity, the rotating shaft is arranged in the slotted hole, and the lower end of the rotating shaft is provided with a reversing component for driving the rotating shaft to rotate positively and negatively.

As a further optimization of the invention, a torsion spring is arranged between the rotating shaft and the slotted hole; the reversing assembly comprises a rotating plate, an electromagnet, a bolt and a control button; the upper end of the rotating plate is connected with the lower end of the rotating shaft, and the side end of the rotating plate is provided with a metal material suction plate which forms a certain angle with the rotating plate; a bolt hole penetrating through the side wall of the sliding block is formed in one side wall of the hollow cavity, the bolt is arranged in the bolt hole, an electromagnet is mounted on the other opposite side wall of the hollow cavity, and a control button with an automatic reset function for controlling the electromagnet to be powered on and off is arranged on the outer side surface of the side wall; the rotation of the rotating shaft in one direction enables the suction plate to be attached to the electromagnet, and when the rotating shaft rotates in the opposite direction, the suction plate can push the bolt.

As a further optimization of the invention, both ends of the bolt are spherical, and a blocking part for preventing the bolt from sliding out of the bolt hole is also arranged at the part of the bolt extending into the hollow cavity.

As a further optimization of the invention, the blocking part can randomly adjust the distance on the bolt; the side wall of the electromagnet installed in the hollow cavity is provided with a threaded hole penetrating through the side wall of the sliding block, an adjusting bolt is arranged in the threaded hole, and the electromagnet is installed at the end head of the adjusting bolt.

As a further optimization of the invention, the button cap of the control button is provided with an lengthening structure, and the end head of the button cap is spherical.

As a further optimization of the invention, a screw rod driving piece is arranged on the connecting rod, and the output part of the screw rod driving piece is connected with the end part of the screw rod.

When the automatic cable winding device is used, the driving assembly drives the spool to rotate to automatically wind the cable, the guide piece can be matched with the shape of the cable to properly guide the movement direction of the cable, and the nut at the lower end of the sliding block is matched with the screw rod, so that the guide piece can slowly move along with the cable when the cable is wound from the initial end of the spool to the other end, and the device can ensure that the wound cable can be closely and orderly arranged. The invention has the advantages of exquisite structure, convenience and durability.

Drawings

FIG. 1 is a schematic diagram of the external structure of the device;

FIG. 2 is a schematic view of the structure guiding portion shown in FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 2 with the rotation axis reversed;

FIG. 4 is a schematic cross-sectional view of the structure of FIG. 3;

the spool 1, the disc baffle 11, the support frame 2, the connecting rod 21, the driving component 3, the screw rod 4, the sliding block 5, the screw 51, the hollow cavity 52, the slotted hole 53, the rotating shaft 6, the guide piece 7, the notch 71, the rotating plate 81, the suction plate 811, the electromagnet 82, the bolt 83, the blocking part 831, the control button 84, the adjusting bolt 9 and the torsion spring 10.

Detailed Description

The present invention will be described in detail with reference to specific examples.

As shown in fig. 1, this embodiment includes spool 1, support frame 2 and drive assembly 3, and the both ends of spool 1 are equipped with disc baffle 11, and disc baffle 11 swivelling joint is on support frame 2, and drive assembly 3 is fixed on support frame 2, and drive assembly 3's output is connected with disc baffle 11, and drive assembly 3 can drive disc baffle 11 and rotate around its axis, and disc baffle 11 is rotatory to drive spool 1 and rotate thereby plays the purpose of automatic rolling cable conductor. The driving component 3 can be a motor component with a speed reducer directly or an electric component with a pulley transmission.

As shown in fig. 1-4, the device also comprises a screw rod 4, a sliding block 5, a rotating shaft 6 and a guide piece 7; the screw 4 is parallel to the spool 1, and the distance between the screw 4 and the spool 1 is not too far or too close. Both ends of the screw rod 4 are rotatably connected to the support frame 2 through a connecting rod 21, and the screw rod 4 connected to the connecting rod 21 can rotate around the axis thereof.

The lower end of the sliding block 5 is provided with a screw 51 matched with the screw 4, and the sliding block 5 can slide back and forth along the axis direction of the screw 4 by virtue of the cooperation of the screw 51 and the screw 4. The rotatable upper end of inserting slider 5 of pivot 6, the upper end of pivot 6 is articulated with the bottom of guide 7, and the upper end of guide 7 is equipped with the opening 71 that matches with the cable conductor shape. This arrangement allows the cable pressed against the notch 71 to swing up and down for angle adjustment and also to swing left and right for direction adjustment, thus optimizing the angle of placement of the cable and ensuring smoother back and forth movement of the guide cable along the axis of the spool 1.

When the device is used, a cable is pressed on the notch 71, the driving assembly 3 drives the spool 1 to rotate, the spool 1 rotates to drive the cable to be wound, the cable is wound from the initial end of the spool 1 to the other end, a certain included angle is formed between the cable and the axis of the spool 1 due to the diameter of the cable, the cable can be tightly and orderly wound on the spool 1, the device can rotate the rotating shaft 6 by a certain angle to realize the requirement, and the guide piece 7 of the device can slowly move along the axis direction of the screw rod 4 along with the cable, so that the wound cable can be orderly wound, and the winding effect is ensured. And when the cable is wound from the initial end of the spool 1 to the other end and then wound from the other end to the initial end, the rotating shaft 6 only needs to be reversely rotated for a certain angle, so that the use is very convenient.

Preferably, the middle part of the sliding block 5 is provided with a hollow cavity 52, the upper part of the sliding block 5 is provided with a slotted hole 53 communicated with the hollow cavity 52, the rotating shaft 6 is arranged in the slotted hole 53, and the lower end of the rotating shaft 6 is provided with a reversing component for driving the rotating shaft 6 to rotate positively and negatively. The reversing component can realize automatic reversing of the guide piece 7, so that manual reversing work is avoided, manpower is further saved, and full automation is realized.

Still further, the reversing assembly includes a rotating plate 81, an electromagnet 82, a latch 83, and a control button 84. The upper end of the rotating plate 81 is connected with the lower end of the rotating shaft 6, the rotating plate 81 can rotate around the axis of the rotating shaft 6 in the hollow chamber 52, and the side end of the rotating plate 81 is provided with a metal suction plate 811 forming a certain angle with the rotating plate 81. A bolt hole penetrating through the side wall of the sliding block 5 is formed in one side wall of the hollow cavity 52, a bolt 83 is arranged in the bolt hole, an electromagnet 82 is arranged on the other opposite side wall of the hollow cavity 52, a control button 84 for controlling the on-off of the electromagnet 82 is arranged on the outer side surface of the side wall, and the control button 84 has an automatic reset function. A torsion spring 10 is also arranged between the rotating shaft 6 and the slot 53.

When the rotating shaft 6 rotates to a certain angle, the suction plate 811 can be attached with the electromagnet 82 and is sucked by the electromagnet 82, so that the guide piece 7 moves along the axial direction of the screw rod 4 at a certain angle, when the guide piece 7 moves to a limit position, the control button 84 on the side wall of the sliding block 5 can collide with the connecting rod 21 at the end of the screw rod 4, at the moment, after the control button 84 is pressed, the electromagnet 82 is powered off, and under the action of the torsion spring 10, the rotating shaft 6 can reversely rotate, so that the guide piece 7 rotates to a reverse angle; when the guide member 7 moves to the limit position again, the end of the latch 83 located on the slider 5 will collide with the connecting rod 21 at the other end of the screw rod 4, and under the action of the impact force, the other end of the latch 83 pushes the suction plate 811 to rotate around the axis of the rotating shaft 6 until the suction plate 811 is sucked again by the electromagnet 82, so as to realize the reversing of the guide member 7.

The preferable scheme is less dependent on electric elements and mainly depends on mechanical parts, so that the damage rate of the device can be effectively reduced, the device is more durable, and the cost is low. Of course, the reversing assembly can also be of an all-electric structure, for example, a driving motor is directly selected, and the structure of the driving motor is simpler, but has higher requirements on the forward and reverse rotation conversion frequency and torque of the motor.

Preferably, both ends of the pin 83 are formed in a spherical shape, and since the suction plate 811 rotates around the axis of the rotary shaft 6 to push the pin 83, the pin 83 is formed in a spherical shape to prevent the pin 83 from being jammed during the insertion and removal of the pin hole.

The portion of the plug 83 extending into the hollow chamber 52 is also provided with a stop 831 that prevents the plug 83 from sliding out of the plug aperture. The blocking portion 831 may be a stopper or a retainer ring, and the blocking portion 831 is used to block the latch 83 from being separated from the latch hole.

Further, the blocking portion 831 can be arbitrarily adjusted in distance on the latch 83. The arrangement can be that the bolt 83 is provided with threads, the blocking part 831 is provided with a threaded through hole, and the distance is adjusted by utilizing the connection of the threads; a plurality of ring grooves can be arranged on the bolt 83, the check ring can be clamped on the grooves, and the distance can be adjusted by clamping the check ring on the grooves at different positions. In addition, a threaded hole penetrating the side wall of the slider 5 is formed in the side wall of the hollow chamber 52 where the electromagnet 82 is mounted, an adjusting bolt 9 is disposed in the threaded hole, and the electromagnet 82 is mounted on the end of the adjusting bolt 9. The adjusting bolt 9 and the blocking part 831 with any adjustable position are used for limiting the rotation angle of the rotating plate 81, namely, the swing angle of the limiting guide piece 7 is adjusted, so that the device can be suitable for cables with different thickness diameters, and therefore, the device has more flexible application range due to the preferred structure.

Preferably, the button cap of the control button 84 has an elongated structure, and the end of the button cap is spherical. The lengthened button cap arrangement and the spherical arrangement of the button cap ends are all intended to better trigger the commutation of the guide 7.

Preferably, the connecting rod 21 is provided with a screw driving member, and an output part of the screw driving member is connected with an end part of the screw 4. This preferred scheme can realize the higher automation of precision and rotate the rolling cable conductor, and lead screw driving piece and drive assembly 3 synchronous drive make the speed that guide 7 removed along lead screw 4 axis and the speed that spool 1 coiled coordinate each other, further guarantee the precision of rolling cable conductor steadily.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims

1. The automatic cable winding device comprises a spool, a support frame and a driving assembly, wherein two ends of the spool are provided with disc baffles, the disc baffles are rotatably connected to the support frame, the driving assembly is fixed on the support frame, and an output part of the driving assembly is connected with the disc baffles; the screw rod is parallel to the spool, and two ends of the screw rod are rotationally connected to the supporting frame through a connecting rod; the lower end of the sliding block is provided with a screw nut matched with the screw rod; the rotating shaft is rotatably inserted into the upper end of the sliding block, the upper end of the rotating shaft is hinged with the bottom of the guide piece, and a notch matched with the shape of the cable conductor is formed in the upper end of the guide piece;

the middle part of the sliding block is provided with a hollow cavity, the upper part of the sliding block is provided with a slotted hole communicated with the hollow cavity, the rotating shaft is arranged in the slotted hole, and the lower end of the rotating shaft is provided with a reversing component for driving the rotating shaft to rotate positively and negatively;

a torsion spring is arranged between the rotating shaft and the slot hole; the reversing assembly comprises a rotating plate, an electromagnet, a bolt and a control button; the upper end of the rotating plate is connected with the lower end of the rotating shaft, and the side end of the rotating plate is provided with a metal material suction plate which forms a certain angle with the rotating plate; a bolt hole penetrating through the side wall of the sliding block is formed in one side wall of the hollow cavity, a bolt is arranged in the bolt hole, an electromagnet is mounted on the other opposite side wall of the hollow cavity, and a control button with an automatic reset function for controlling the electromagnet to be powered on or off is arranged on the outer side surface of the other opposite side wall of the hollow cavity; the rotating shaft rotates in one direction to enable the suction plate to be attached to the electromagnet, and when the rotating shaft rotates in the opposite direction, the suction plate can push the bolt;

the two ends of the bolt are spherical, and a blocking part for preventing the bolt from sliding out of the bolt hole is arranged at the part of the bolt extending into the hollow cavity;

the blocking part can randomly adjust the distance on the bolt; the side wall of the electromagnet arranged in the hollow cavity is provided with a threaded hole penetrating through the side wall of the sliding block, an adjusting bolt is arranged in the threaded hole, and the electromagnet is arranged at the end head of the adjusting bolt;

the button cap of the control button is provided with an lengthening structure, and the end head of the button cap is spherical.

2. An automatic cable winding device according to claim 1, wherein the connecting rod is provided with a screw driving member, and an output portion of the screw driving member is connected with an end portion of the screw.