CN110844689A - Be used for cable winding equipment - Google Patents

Abstract

The invention relates to a cable winding device, in particular to a cable winding device, which is provided with a mounting support plate, a reciprocating device, a wire passing device, a winding power device, a winding device and a tensioning device, wherein the wire passing device is driven to move in a reciprocating manner by a mixed reciprocating device so as to drive a cable to move in a reciprocating manner, the wire passing device can adapt to the passing of different cables, the winding power device provides power during wire winding and adapts to the distance of a wire winding shaft, the winding device adapts to wire winding barrels with different sizes, and the tensioning device has the functions of tensioning the gradient of transmission and the like, and is characterized in that: the reciprocating device is fixedly arranged on the mounting support plate, the wire passing device is fixedly arranged on the reciprocating device, the winding power device is fixedly arranged on the mounting support plate, the winding device is fixedly arranged on the mounting support plate, and the tensioning device is fixedly arranged on the winding device.

Description

Be used for cable winding equipment

Technical Field

The invention relates to a cable winding device, in particular to a cable winding device.

Background

In the process of modern development, the use of points is everywhere, every industry of clothes and food residents is associated with the points, if no electricity exists, the current society can be paralyzed, a large number of cables are required to be connected along with the development of the electricity, and a large number of cables are produced and prepared to precisely place and transport the cables, so that the cable winding equipment is invented.

Disclosure of Invention

The invention relates to a cable winding device, in particular to a cable winding device, which drives a wire passing device to move in a reciprocating manner through a mixed reciprocating movement device so as to drive a cable to move in a reciprocating manner, wherein the wire passing device can adapt to different cables to pass through, a winding power device provides power during wire winding and adapts to the distance of a wire winding shaft, the winding device adapts to wire winding barrels with different sizes, and a tensioning device has the functions of tensioning the gradient of transmission and the like.

In order to solve the technical problems, the invention relates to a cable winding device, in particular to a cable winding device, which comprises an installation support plate, a reciprocating device, a wire passing device, a winding power device, a winding device and a tensioning device, wherein the wire passing device is driven by the reciprocating device to move in a reciprocating way so as to drive the cable to move in a reciprocating way, the wire passing device can adapt to different cables, the winding power device provides power during winding and adapts to the distance of a winding shaft, the winding device adapts to winding barrels with different sizes, and the tensioning device has the functions of tensioning the gradient of transmission and the like, and is characterized in that: the reciprocating device is fixedly arranged on the mounting support plate, the wire passing device is fixedly arranged on the reciprocating device, the winding power device is fixedly arranged on the mounting support plate, the winding device is fixedly arranged on the mounting support plate, and the tensioning device is fixedly arranged on the winding device.

As a further optimization of the technical scheme, the reciprocating device for the cable winding equipment comprises a mounting plate, a motor, an output belt wheel, a support rod, a rotating shaft, a receiving belt wheel, a transmission gear, a transmission belt, a driven shaft I, a receiving gear I, a transmission half gear I, a driven shaft II, a receiving gear II, a transmission half gear II, a fixed annular mounting frame, a reciprocating sliding frame and a support rod, wherein the mounting plate is fixedly arranged on a mounting support plate, the motor is fixedly arranged on the mounting plate, the output belt wheel is fixedly arranged on the motor, the support rod is fixedly arranged on the mounting plate, the rotating shaft is rotatably arranged on the support rod, the receiving belt wheel is fixedly arranged on the rotating shaft, the transmission gear is fixedly arranged on the rotating shaft, the transmission belt is arranged on the output belt wheel, the transmission, the receiving gear I is installed and fixed on the driven shaft I, the transmission half gear I is installed and fixed on the driven shaft I, the driven shaft II is installed and installed on the supporting rod in a rotating mode, the receiving gear II is installed and fixed on the driven shaft II, the transmission half gear II is installed and fixed on the driven shaft II, the fixed annular installing frame is installed and fixed on the installing plate, the reciprocating sliding frame is installed on the fixed annular installing frame in a sliding mode, and the supporting rod is installed and fixed on the reciprocating sliding frame.

As a further optimization of the technical scheme, the wire passing device for the cable winding equipment comprises a fixed cylinder, an adjusting rotary cylinder, a limit bolt, a spring, an inclined plane moving cylinder, a first spring, a sliding plate, a connecting rod, a matching ball mounting seat, a matching ball, a spring baffle plate and a second spring, wherein the fixed cylinder is fixedly arranged on a supporting rod, the adjusting rotary cylinder is arranged in the fixed cylinder, the adjusting rotary cylinder is in threaded matching with the fixed cylinder, the limit bolt is movably arranged on the adjusting rotary cylinder, the spring is movably arranged in the inclined plane moving cylinder, the inclined plane moving cylinder is slidably arranged in the fixed cylinder, the first spring is movably arranged in the inclined plane moving cylinder, the sliding plate is slidably arranged in the inclined plane moving cylinder, the connecting rod is fixedly arranged on the sliding plate, the matching ball mounting seat is fixedly arranged on the connecting rod, the matching ball is movably arranged on the matching ball mounting seat, and the spring baffle plate is fixedly arranged on, the second spring is movably arranged inside the fixed cylinder.

As a further optimization of the technical scheme, the winding power device for the cable winding equipment comprises a motor four, an output belt wheel four, a transmission belt four, a support rod four, a rotating rod four, a receiving belt wheel four, a cross shaft and a cross hole belt wheel, wherein the motor four is fixedly installed on an installation support plate, the output belt wheel four is fixedly installed on the motor four, the transmission belt four is installed on the output belt wheel four, the transmission belt four is installed on the receiving belt wheel four, the support rod four is fixedly installed on the installation support plate, the rotating rod four is rotatably installed on the support rod four, the receiving belt wheel four is fixedly installed on the rotating rod four, the cross shaft is fixedly installed on the rotating rod four, and the cross hole belt wheel sliding device is arranged on the cross shaft.

As a further optimization of the technical scheme, the winding device for the cable winding equipment comprises a fixed groove type block, an opposite rotating lead screw, a rotating disc, a moving thread block, a fixed moving column, a rotating shaft five, a rotating disc five, an output bevel gear, a limit bolt five, a spring five, a rotating lead screw five, a receiving bevel gear, a moving inner threaded rod, a connecting pipe, a rotating inner clamping column, a rotating threaded rod, a tail end rotating disc, an inner stepped column, an arc-shaped plate, a telescopic anti-pipe, a spring four, a sliding plate five, a sliding block five, a transmission belt wheel five and a transmission belt five, wherein the fixed groove type block is fixedly arranged on a mounting support plate, the opposite rotating lead screw is rotatably arranged on the fixed groove type block, the rotating disc is fixedly arranged on the opposite rotating lead screw, the moving thread block is slidably arranged inside the fixed groove type block, and the moving thread block is in, a fixed movable column is installed and fixed on a movable threaded block, a rotating shaft five is rotatably installed on the fixed movable column, a rotating disc five is installed and fixed on a rotating shaft five, an output bevel gear is installed and fixed on the rotating shaft five, a limiting bolt five is movably installed on the rotating disc five, a spring five is sleeved on the limiting bolt five, a rotating screw rod five is rotatably installed inside the fixed movable column, a receiving bevel gear is installed and fixed on the rotating screw rod five, a movable internal threaded rod is slidably installed inside the fixed movable column, a movable internal threaded rod is in threaded fit with the rotating screw rod five, a connecting pipe is rotatably installed on the movable internal threaded rod, a rotating internal clamping column is installed and fixed on the connecting pipe, the rotating threaded rod is installed inside the connecting pipe, the rotating threaded rod is in threaded fit with the connecting pipe, a tail end rotating disc is installed and fixed on the rotating threaded rod, the telescopic anti-pipe is slidably mounted on the rotating inner clamping column, the spring four is fixedly mounted inside the telescopic anti-pipe, the sliding plate five is movably mounted on the telescopic anti-pipe, the sliding block five is fixedly mounted on the sliding plate five, the transmission belt wheel five is fixedly mounted on the connecting pipe, the transmission belt five is mounted on the transmission belt wheel five, and the transmission belt five is mounted on the cross-hole belt wheel.

As a further optimization of the technical scheme, the tensioning device for the cable winding equipment comprises a fixed square cylinder, a movable plate six, a connecting column, a spring six, a matching belt wheel, a cross-hole belt wheel pushing frame and a connecting fixing rod six, wherein the fixed square cylinder is fixedly arranged on an installation supporting plate, the movable plate six is slidably arranged in the fixed square cylinder, the connecting column is fixedly arranged on the movable plate six, the spring six is sleeved on the connecting column, the matching belt wheel is rotatably arranged on the connecting column, a transmission belt five is arranged on the matching belt wheel, the cross-hole belt wheel pushing frame is fixedly arranged on the fixed square cylinder, the cross-hole belt wheel pushing frame is sleeved on a cross shaft, and the connecting fixing rod six is fixedly arranged on the fixed movable column.

As a further optimization of the technical scheme, the number of the movable threaded blocks, the fixed movable columns, the rotating shaft five, the rotating disc five, the output bevel gear, the limiting bolt five, the spring five, the rotating screw rod five, the receiving bevel gear, the movable inner threaded rod, the connecting pipe, the rotating inner clamping column, the rotating threaded rod, the tail end rotating disc and the inner stepped column of the winding device for the cable winding equipment is two, the number of the arc-shaped plates and the number of the telescopic pipes are eight, the number of the springs four is sixteen, the number of the sliding plates five and the number of the sliding blocks five are eight, and the number of the transmission belt wheels five and the number of the transmission belt five are two.

The cable winding equipment has the beneficial effects that:

the invention relates to a cable winding device, in particular to a cable winding device, which realizes the reciprocating movement of a cable by driving a wire passing device to reciprocate through a mixed reciprocating movement device, the wire passing device can adapt to the passing of different cables, a winding power device provides power during wire winding and adapts to the distance of a wire winding shaft, the winding device adapts to wire winding barrels with different sizes, and a tensioning device tensions the gradient of transmission and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural schematic diagram of the reciprocating device of the present invention.

Fig. 5 is a second schematic structural diagram of the reciprocating device of the present invention.

Fig. 6 is a first schematic structural diagram of the wire passing device of the present invention.

Fig. 7 is a schematic structural diagram of a wire passing device of the present invention.

Fig. 8 is a third schematic structural view of the wire passing device of the present invention.

Fig. 9 is a fourth schematic structural view of the wire passing device of the present invention.

Fig. 10 is a fifth schematic structural view of the wire passing device of the present invention.

Fig. 11 is a schematic structural diagram of a winding power device of the invention.

Fig. 12 is a first schematic structural diagram of a winding device according to the present invention.

Fig. 13 is a second schematic structural diagram of the winding device of the present invention.

Fig. 14 is a third schematic structural diagram of the winding device of the present invention.

Fig. 15 is a first structural schematic diagram of the tensioner of the present invention.

Fig. 16 is a schematic structural diagram of the tensioning device of the invention.

In the figure: installing a support plate 1; a reciprocating device 2; mounting plate 2-1; a motor 2-2; an output belt wheel 2-3; 2-4 of a support rod; 2-5 of a rotating shaft; receiving belt wheels 2-6; transmission gears 2-7; 2-8 parts of a transmission belt; a driven shaft I2-9; receiving a first gear 2-10; a first transmission half gear 2-11; 2-12 parts of a driven shaft II; receiving a second gear 2-13; a wire passing device 3; a fixed cylinder 3-1; adjusting the rotary cylinder 3-2; 3-3 of a limit bolt; 3-4 parts of a spring; a bevel moving cylinder 3-5; 3-6 parts of a first spring; a sliding plate 3-7; 3-8 parts of a connecting rod; matching with the ball mounting base 3-9; 3-10 parts of matched beads; 3-11 parts of a spring baffle plate; 3-12 parts of a second spring; a winding power device 4; 4-1 of a motor; an output belt wheel IV 4-2; 4-3 of a transmission belt; 4-4 parts of a support rod; rotating the rod four 4-5; receiving belt wheels four 4-6; 4-7 of a cross shaft; 4-8 parts of a cross hole belt wheel; a winding device 5; a fixed groove type block 5-1; oppositely rotating the screw rod 5-2; 5-3 of a rotating disc; moving the thread block 5-4; 5-5 of a fixed moving column; 5-6 parts of a rotating shaft; 5-7 of a rotating disc; 5-8 parts of an output bevel gear; 5-9 parts of a limit bolt; 5-10 parts of a spring; 5-11 of a rotating screw rod; receiving bevel gears 5-12; moving the inner threaded rod 5-13; connecting pipes 5-14; rotating 5-15 parts of the inner clamping column; rotating the threaded rod 5-16; 5-17 of a tail end rotating disc; internal ladder columns 5-18; 5-19 of arc-shaped plates; 5-20 parts of a telescopic anti-pipe; 5-21 parts of spring; a sliding plate five 5-22; 5-23 of a sliding square block; 5-24 parts of a driving belt wheel; 5-25 parts of a transmission belt; a tension device 6; 6-1 of a fixed square cylinder; a movable plate six 6-2; 6-3 of a connecting column; 6-4 parts of a spring; 6-5 of a matching belt wheel; a cross hole belt wheel pushing frame 6-6; connecting the fixing rods six 6-7.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, the present invention relates to a cable winding apparatus, and more particularly to a cable winding apparatus, which includes a mounting support plate 1, a reciprocating device 2, a threading device 3, a winding power device 4, a winding device 5, and a tensioning device 6, wherein the threading device is driven by a hybrid reciprocating device to reciprocate so as to drive a cable to reciprocate, the threading device is adaptable to different cables, the winding power device provides power for winding and is adapted to the distance of a winding shaft, the winding device is adapted to winding barrels of different sizes, and the tensioning device tensions the gradient of transmission, and is characterized in that: the reciprocating device 2 is fixedly installed on the installation supporting plate 1, the thread passing device 3 is fixedly installed on the reciprocating device 2, the winding power device 4 is fixedly installed on the installation supporting plate 1, the winding device 5 is fixedly installed on the installation supporting plate 1, and the tensioning device 6 is fixedly installed on the winding device 5.

The second embodiment is as follows:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 for describing the present embodiment, the present embodiment further describes the present embodiment, in which the reciprocating device 2 includes a mounting plate 2-1, a motor 2-2, an output pulley 2-3, a support rod 2-4, a rotating shaft 2-5, a receiving pulley 2-6, a transmission gear 2-7, a transmission belt 2-8, a driven shaft one 2-9, a receiving gear one 2-10, a transmission half gear one 2-11, a driven shaft two 2-12, a receiving gear two 2-13, a transmission half gear two 2-14, a fixed ring-shaped mounting frame 2-15, a reciprocating carriage 2-16, and a support rod 2-17, the motor 2-2 of the reciprocating device 2 drives the output pulley 2-3 to rotate, the output belt wheel 2-3 drives the receiving belt wheel 2-6 to rotate through the transmission belt 2-8, the receiving belt wheel 2-6 drives the rotating shaft 2-5 to rotate, the rotating shaft 2-5 drives the transmission gear 2-7 to rotate, the transmission gear 2-7 drives the receiving gear I2-10 and the receiving gear II 2-13 to rotate in different directions, the receiving gear I2-10 and the receiving gear II 2-13 respectively drive the driven shaft I2-9 and the driven shaft II 2-12 to rotate, the driven shaft I2-9 and the driven shaft II 2-12 respectively drive the transmission half gear I2-11 and the transmission half gear II 2-14 to rotate, when the transmission half gear I2-11 and the reciprocating sliding frame 2-16 are meshed, the reciprocating sliding frame 2-16 is enabled to move forwards, when the transmission half gear II 2-14 is meshed with the reciprocating sliding rack 2-16, the reciprocating sliding rack 2-16 reversely moves to achieve the aim of enabling the reciprocating sliding rack 2-16 to reciprocate, the reciprocating sliding rack 2-16 drives the supporting rod 2-17 to reciprocate, the supporting rod 2-17 drives the wire passing device 3 to reciprocate, the wire passing device 3 which reciprocates enables a cable to reciprocate and prevent knotting when in winding, the mounting plate 2-1 is fixedly arranged on the mounting support plate 1, the motor 2-2 is fixedly arranged on the mounting plate 2-1, the output belt wheel 2-3 is fixedly arranged on the motor 2-2, the supporting rod 2-4 is fixedly arranged on the mounting plate 2-1, the rotating shaft 2-5 is rotatably arranged on the supporting rod 2-4, a receiving belt wheel 2-6 is fixedly arranged on a rotating shaft 2-5, a transmission gear 2-7 is fixedly arranged on the rotating shaft 2-5, a transmission belt 2-8 is arranged on an output belt wheel 2-3, the transmission belt 2-8 is arranged on the receiving belt wheel 2-6, a driven shaft I2-9 is rotatably arranged on a support rod 2-4, a receiving gear I2-10 is fixedly arranged on a driven shaft I2-9, a transmission half gear I2-11 is fixedly arranged on the driven shaft I2-9, a driven shaft II 2-12 is rotatably arranged on the support rod 2-4, a receiving gear II 2-13 is fixedly arranged on a driven shaft II 2-12, a transmission half gear II 2-14 is fixedly arranged on the driven shaft II 2-12, a fixed annular mounting rack 2-15 is fixedly arranged on a mounting plate 2-1, the reciprocating sliding frames 2-16 are arranged on the fixed annular mounting frames 2-15 in a sliding mode, and the supporting rods 2-17 are arranged and fixed on the reciprocating sliding frames 2-16.

The third concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, the present embodiment further describes an embodiment, wherein the wire passing device 3 comprises a fixed cylinder 3-1, an adjusting rotary cylinder 3-2, a limit bolt 3-3, a spring 3-4, an inclined plane moving cylinder 3-5, a spring I3-6, a sliding plate 3-7, a connecting rod 3-8, a fitting bead mounting seat 3-9, a fitting bead 3-10, a spring baffle 3-11, a spring II 3-12, a cable is passed through the wire passing device 3, the limit bolt 3-3 is separated from the fixed cylinder 3-1 by pulling the limit bolt 3-3 outwards, the adjusting rotary cylinder 3-2 is rotated, adjusting the screw thread of a rotating cylinder 3-2 and a fixed cylinder 3-1 to match, then changing the position of the adjusting rotating cylinder 3-2 and then changing the position of an inclined plane moving cylinder 3-5 to adapt to the thickness of a cable, then a spring I3-6 pushes a connecting rod 3-8 outwards through a sliding plate 3-7, the connecting rod 3-8 enables a matching bead mounting seat 3-9 to be tightly attached to the surface of the cable, then a matching bead 3-10 reduces the resistance force when the cable moves, a spring II 3-12 can restore the position of the inclined plane moving cylinder 3-5 through a spring baffle plate 3-11, the fixed cylinder 3-1 is mounted and fixed on a supporting rod 2-17, the adjusting rotating cylinder 3-2 is mounted inside the fixed cylinder 3-1, the adjusting rotating cylinder 3-2 is in screw thread matching with the fixed cylinder 3-1, the limiting bolt 3-3 is movably installed on the adjusting rotating cylinder 3-2, the spring 3-4 is movably installed inside the inclined plane moving cylinder 3-5, the inclined plane moving cylinder 3-5 is slidably installed inside the fixed cylinder 3-1, the spring I3-6 is movably installed inside the inclined plane moving cylinder 3-5, the sliding plate 3-7 is slidably installed inside the inclined plane moving cylinder 3-5, the connecting rod 3-8 is installed and fixed on the sliding plate 3-7, the matching bead installing seat 3-9 is installed and fixed on the connecting rod 3-8, the matching bead 3-10 is movably installed on the matching bead installing seat 3-9, the spring baffle 3-11 is installed and fixed on the inclined plane moving cylinder 3-5, and the spring II 3-12 is movably installed inside the fixed cylinder 3-1.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the embodiment further describes the embodiment, where the winding power device 4 includes a motor four 4-1, an output pulley four 4-2, a transmission belt four 4-3, a support rod four 4-4, a rotation rod four 4-5, a receiving pulley four 4-6, a cross shaft 4-7, and a cross hole pulley 4-8, then the motor four 4-1 of the winding power device 4 drives the output pulley four 4-2 to rotate, the output pulley four 4-2 drives the receiving pulley four 4-6 to rotate through the transmission belt four 4-3, the receiving pulley four 4-6 drives the rotation rod four 4-5 to rotate, the four 4-5 drives the cross shaft 4-7 to rotate, a cross shaft 4-7 drives a cross hole belt wheel 4-8 to rotate, a motor four 4-1 is fixedly installed on an installation supporting plate 1, an output belt wheel four 4-2 is fixedly installed on a motor four 4-1, a transmission belt four 4-3 is installed on an output belt wheel four 4-2, a transmission belt four 4-3 is installed on a receiving belt wheel four 4-6, a supporting rod four 4-4 is fixedly installed on the installation supporting plate 1, a rotating rod four 4-5 is rotatably installed on the supporting rod four 4-4, a receiving belt wheel four 4-6 is fixedly installed on a rotating rod four 4-5, the cross shaft 4-7 is fixedly installed on the rotating rod four 4-5, and the cross hole belt wheel 4-8 is arranged on a cross shaft 4-7 of a sliding device.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16. the embodiment further describes the first embodiment, the winding device 5 includes a fixed groove block 5-1, an opposite rotating lead screw 5-2, a rotating disc 5-3, a moving thread block 5-4, a fixed moving column 5-5, a rotating shaft five 5-6, a rotating disc five 5-7, an output bevel gear 5-8, a limit bolt five 5-9, a spring five 5-10, a rotating lead screw five 5-11, a receiving bevel gear 5-12, a moving internal threaded rod 5-13, a connecting pipe 5-14, a rotating internal clamping column 5-15, a rotating threaded rod 5-16, a tail end rotating disc 5-17, an internal stepped column 5-18, 5-19 parts of arc-shaped plate, 5-20 parts of telescopic anti-tube, 5-21 parts of spring, 5-22 parts of sliding plate, 5-23 parts of sliding square block, 5-24 parts of driving belt wheel and 5-25 parts of driving belt, wherein the rotating disc 5-3 is driven to rotate by rotating the rotating disc 5-3 of the winding device 5, the rotating disc 5-3 drives the moving screw block 5-4 to move oppositely in the fixed groove block 5-1 so as to drive the fixed moving column 5-5 to move oppositely, then the limiting bolt five 5-9 is pulled outwards, the limiting bolt five 5-9 and the fixed moving column 5-5 are separated, then the limiting bolt five 5-9 is rotated, the limiting bolt five 5-9 drives the rotating disc five 5-7 to rotate, the rotating disc five 5-7 drives the rotating shaft five 5-6 to rotate, the rotating shaft five 5-6 drives the output bevel gear 5-8 to rotate, the output bevel gear 5-8 drives the receiving bevel gear 5-12 to rotate, the receiving bevel gear 5-12 drives the rotating screw rod five 5-11 to rotate, the rotating screw rod five 5-11 drives the movable internal threaded rod 5-13 to change the position of the movable internal threaded rod 5-13, so that the position of a connecting pipe 5-14 arranged on the movable internal threaded rod 5-13 is changed, the connecting pipe 5-14 changes the position of a driving belt wheel five 5-24, in order to ensure the tightness of a driving belt five 5-25, then the tail end rotating disc 5-17 drives the rotating threaded rod 5-16 to rotate by rotating the tail end rotating disc 5-17, the rotating threaded rod 5-16 is in threaded fit with the connecting pipe 5-14, so that the position is changed, thereby changing the position of the tail end rotating disc 5-17 in the rotating inner clamping column 5-15, adjusting the position of the arc plate 5-19, the arc plate 5-19 driving the telescopic anti-tube 5-20, the spring four 5-21 making the sliding square five 5-23 better fit the inner wall of the spool through the sliding plate five 5-22, the cross hole belt wheel 4-8 driving the driving belt wheel five 5-24 to rotate through the driving belt five 5-25, the driving belt wheel five 5-24 driving the connecting tube 5-14 to rotate, the connecting tube 5-14 driving the rotating inner clamping column 5-15 to rotate, the rotating inner clamping column 5-15 driving the spool to rotate through the sliding square five 5-23 to achieve the threading effect, the block 5-1 is fixed on the mounting support plate 1, an opposite rotating lead screw 5-2 is rotatably arranged on a fixed groove shaped block 5-1, a rotating disc 5-3 is fixedly arranged on the opposite rotating lead screw 5-2, a moving thread block 5-4 is slidably arranged inside the fixed groove shaped block 5-1, the moving thread block 5-4 is in thread fit with the opposite rotating lead screw 5-2, a fixed moving column 5-5 is fixedly arranged on the moving thread block 5-4, a rotating shaft five 5-6 is rotatably arranged on the fixed moving column 5-5, a rotating disc five 5-7 is fixedly arranged on a rotating shaft five 5-6, an output bevel gear 5-8 is fixedly arranged on the rotating shaft five 5-6, a limit bolt five 5-9 is movably arranged on the rotating disc five 5-7, a spring five 5-10 is sleeved on the limit bolt five 5-9, a rotating screw rod five 5-11 is rotatably arranged inside a fixed moving column 5-5, a receiving bevel gear 5-12 is fixedly arranged on the rotating screw rod five 5-11, a moving inner threaded rod 5-13 is slidably arranged inside the fixed moving column 5-5, the moving inner threaded rod 5-13 is in threaded fit with the rotating screw rod five 5-11, a connecting pipe 5-14 is rotatably arranged on the moving inner threaded rod 5-13, a rotating inner clamping column 5-15 is fixedly arranged on the connecting pipe 5-14, a rotating threaded rod 5-16 is arranged inside the connecting pipe 5-14, the rotating threaded rod 5-16 is in threaded fit with the connecting pipe 5-14, a tail end rotating disc 5-17 is fixedly arranged on the rotating threaded rod 5-16, an inner stepped column 5-18 is movably arranged inside the rotating inner clamping column 5-15, the arc-shaped plates 5-19 are fixedly installed on the telescopic anti-tube 5-20, the telescopic anti-tube 5-20 is slidably installed on the rotating inner clamping column 5-15, the spring four 5-21 is fixedly installed inside the telescopic anti-tube 5-20, the sliding plate five 5-22 is movably installed on the telescopic anti-tube 5-20, the sliding block five 5-23 is fixedly installed on the sliding plate five 5-22, the transmission belt wheel five 5-24 is fixedly installed on the connecting tube 5-14, the transmission belt five 5-25 is installed on the transmission belt wheel five 5-24, and the transmission belt five 5-25 is installed on the cross-hole belt wheel 4-8.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the embodiment is further described as a first embodiment, where the tensioning device 6 includes a fixed square cylinder 6-1, a movable plate six 6-2, a connection column 6-3, a spring six 6-4, a matching pulley 6-5, a cross-hole pulley pushing frame 6-6, and a connection fixing rod six 6-7, the spring six 6-4 inside the tensioning device 6 changes the position of the movable plate six 6-2, the movable plate six 6-2 changes the position of the connection column 6-3, the connection column 6-3 ensures the tension of the transmission belt five 5-25 through the matching pulley 6-5, and when the fixed moving column 5-5 moves, the fixed moving column 5-5 drives the fixed square cylinder 6-1 to move through the connection fixing rod six 6-7 The fixed square cylinder 6-1 drives the cross-hole belt wheel pushing frame 6-6 to move, the cross-hole belt wheel pushing frame 6-6 drives the cross-hole belt wheel 4-8 to change position on the cross shaft 4-7 so that the cross-hole belt wheel 4-8, the transmission belt wheel five 5-24 and the matching belt wheel 6-5 are on the same plane, the fixed square cylinder 6-1 is installed and fixed on the installation support plate 1, the movable plate six 6-2 is installed inside the fixed square cylinder 6-1 in a sliding mode, the connecting column 6-3 is installed and fixed on the movable plate six 6-2, the spring six 6-4 is sleeved on the connecting column 6-3, the matching belt wheel 6-5 is installed on the connecting column 6-3 in a rotating mode, the transmission belt five 5-25 is installed on the matching belt wheel 6-5, the cross-hole belt wheel pushing frame 6-6 is installed and fixed on the fixed square, the cross hole belt wheel pushing frame 6-6 is sleeved on the cross shaft 4-7, and the connecting fixing rod six 6-7 is fixedly arranged on the fixed moving column 5-5.

The seventh embodiment:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and further described with reference to embodiment five, in which the winding device 5 includes two moving screw blocks 5-4, two fixed moving columns 5-5, two rotating shafts five 5-6, two rotating discs five 5-7, two output bevel gears 5-8, two limit bolts five 5-9, two springs five 5-10, two rotating lead screws five 5-11, two receiving bevel gears 5-12, two moving inner threaded rods 5-13, two connecting pipes 5-14, two rotating inner clamping columns 5-15, two rotating threaded rods 5-16, two tail end rotating discs 5-17, and two inner stepped columns 5-18, eight arc plates 5-19 and eight telescopic anti-tubes 5-20, sixteen springs 5-21, eight sliding plates five 5-22 and eight sliding blocks five 5-23, and two driving belt wheels five 5-24 and two driving belts five 5-25.

The working principle of the invention is as follows:

a working principle for a cable winding device is that whether the connection condition between devices meets requirements is checked before the cable winding device is used, a rotating disc 5-3 of a winding device 5 is rotated to drive the rotating disc 5-3 to rotate, a movable threaded block 5-4 is enabled to move oppositely in a fixed groove type block 5-1 by rotating the rotating disc 5-3, so that a fixed moving column 5-5 is driven to move oppositely, then a limiting bolt five 5-9 is pulled outwards to separate the limiting bolt five 5-9 from the fixed moving column 5-5, then the limiting bolt five 5-9 is rotated to drive the rotating disc five 5-7 to rotate, the rotating disc five 5-7 drives a rotating shaft five 5-6 to rotate, the rotating shaft five 5-6 drives an output bevel gear 5-8 to rotate, the output bevel gears 5-8 drive the receiving bevel gears 5-12 to rotate, the receiving bevel gears 5-12 drive the rotating screw rods 5-11 to rotate, the rotating screw rods 5-11 drive the moving inner threaded rods 5-13 to change the positions of the moving inner threaded rods 5-13, so that the positions of connecting pipes 5-14 arranged on the moving inner threaded rods 5-13 are changed, the connecting pipes 5-14 change the positions of driving belt pulleys 5-24, in order to ensure the tightness of the driving belt pulleys 5-25, a spring six 6-4 in the tensioning device 6 changes the position of a movable plate six 6-2, the movable plate six 6-2 changes the position of a connecting column 6-3, the connecting column 6-3 ensures the tightness of the driving belt pulleys 5-25 by matching with the belt pulleys 6-5, when the fixed moving column 5-5 moves, the fixed moving column 5-5 drives the fixed square cylinder 6-1 to move by connecting the fixed rod six 6-7, the fixed square cylinder 6-1 drives the cross hole belt wheel pushing frame 6-6 to move, the cross hole belt wheel pushing frame 6-6 drives the cross hole belt wheel 4-8 to change the position on the cross shaft 4-7, so that the cross hole belt wheel 4-8, the transmission belt wheel five 5-24 and the matching belt wheel 6-5 are in the same plane, then the tail end rotating disc 5-17 drives the rotating threaded rod 5-16 to rotate by rotating the tail end rotating disc 5-17, the rotating threaded rod 5-16 is in threaded matching with the connecting pipe 5-14, so that the position of the tail end rotating disc 5-17 in the rotating inner clamping column 5-15 is changed, thereby adjusting the positions of the arc-shaped plates 5-19, the arc-shaped plates 5-19 drive the telescopic anti-tube 5-20, the spring four 5-21 enables the sliding square block five 5-23 to better fit the inner wall of the spool through the sliding plate five 5-22, then the motor four 4-1 of the winding power device 4 drives the output belt wheel four 4-2 to rotate, the output belt wheel four 4-2 drives the receiving belt wheel four 4-6 to rotate through the transmission belt four 4-3, the receiving belt wheel four 4-6 drives the rotating rod four 4-5 to rotate, the rotating rod four 4-5 drives the cross shaft 4-7 to rotate, the cross shaft 4-7 drives the cross hole belt wheel 4-8 to rotate, the cross hole belt wheel 4-8 drives the transmission belt wheel five 5-24 to rotate through the transmission belt five 5-25, the five driving belt wheels 5-24 drive the connecting pipes 5-14 to rotate, the connecting pipes 5-14 drive the rotating inner clamping columns 5-15 to rotate, the rotating inner clamping columns 5-15 drive the spools to rotate through the five sliding blocks 5-23 so as to achieve the threading effect, then cables pass through the threading device 3, then the limiting bolts 3-3 are separated from the fixed cylinder 3-1 by pulling out the limiting bolts 3-3, then the rotating adjusting rotating cylinder 3-2 is rotated, the rotating cylinder 3-2 is adjusted to be in threaded fit with the fixed cylinder 3-1, then the position of the adjusting rotating cylinder 3-2 is changed, then the position of the inclined plane moving cylinder 3-5 is changed to adapt to the thickness of the cables, then the first springs 3-6 push the connecting rods 3-8 outwards through the sliding plates 3-7, and the connecting rods 3-8 enable the fitting bead mounting seats 3-9 to tightly close to the surfaces of the cables, then, the resistance of the cable during movement is reduced by matching with the beads 3-10, the springs 3-12 can restore the position of the inclined plane moving cylinder 3-5 through the spring baffle plates 3-11, the motor 2-2 of the reciprocating device 2 drives the output belt wheel 2-3 to rotate, the output belt wheel 2-3 drives the receiving belt wheel 2-6 to rotate through the transmission belt 2-8, the receiving belt wheel 2-6 drives the rotating shaft 2-5 to rotate, the rotating shaft 2-5 drives the transmission gear 2-7 to rotate, the transmission gear 2-7 drives the receiving gear I2-10 and the receiving gear II 2-13 to rotate in different directions, the receiving gear I2-10 and the receiving gear II 2-13 respectively drive the driven shaft I2-9 and the driven shaft II 2-12 to rotate, and the driven shaft I2-9 and the driven shaft II 2-12 respectively drive the transmission half gear I2-12 11 and a transmission half gear 2-14 rotate, when the transmission half gear 2-11 is meshed with a reciprocating sliding frame 2-16, the reciprocating sliding frame 2-16 moves forwards, when the transmission half gear 2-14 is meshed with the reciprocating sliding frame 2-16, the reciprocating sliding frame 2-16 moves reversely, so that the reciprocating sliding frame 2-16 moves in a reciprocating way, the reciprocating sliding frame 2-16 drives a supporting rod 2-17 to move in a reciprocating way, the supporting rod 2-17 drives a wire passing device 3 to move in a reciprocating way, and the wire passing device 3 moving in a reciprocating way prevents cables from knotting when winding.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (7)

1. The utility model provides a be used for cable winding equipment, includes erection bracing board (1), reciprocating motion device (2), wire passing device (3), winding power device (4), wind device (5), overspeed device tensioner (6), its characterized in that: the reciprocating device (2) is fixedly installed on the installation supporting plate (1), the wire passing device (3) is fixedly installed on the reciprocating device (2), the winding power device (4) is fixedly installed on the installation supporting plate (1), the winding device (5) is fixedly installed on the installation supporting plate (1), and the tensioning device (6) is fixedly installed on the winding device (5).

2. A device for cable winding according to claim 1, characterized in that: the reciprocating device (2) comprises a mounting plate (2-1), a motor (2-2), an output belt wheel (2-3), a support rod (2-4), a rotating shaft (2-5), a receiving belt wheel (2-6), a transmission gear (2-7), a transmission belt (2-8), a driven shaft I (2-9), a receiving gear I (2-10), a transmission half gear I (2-11), a driven shaft II (2-12), a receiving gear II (2-13), a transmission half gear II (2-14), a fixed annular mounting frame (2-15), a reciprocating sliding frame (2-16) and a support rod (2-17), wherein the mounting plate (2-1) is fixedly arranged on the mounting plate (1), and the motor (2-2) is fixedly arranged on the mounting plate (2-1), an output belt wheel (2-3) is fixedly arranged on a motor (2-2), a support rod (2-4) is fixedly arranged on a mounting plate (2-1), a rotating shaft (2-5) is rotatably arranged on the support rod (2-4), a receiving belt wheel (2-6) is fixedly arranged on the rotating shaft (2-5), a transmission gear (2-7) is fixedly arranged on the rotating shaft (2-5), a transmission belt (2-8) is arranged on the output belt wheel (2-3), the transmission belt (2-8) is arranged on the receiving belt wheel (2-6), a driven shaft I (2-9) is rotatably arranged on the support rod (2-4), a receiving gear I (2-10) is fixedly arranged on a driven shaft I (2-9), a transmission half gear I (2-11) is fixedly arranged on the driven shaft I (2-9), the driven shaft II (2-12) is rotatably arranged on the supporting rod (2-4), the receiving gear II (2-13) is fixedly arranged on the driven shaft II (2-12), the transmission half gear II (2-14) is fixedly arranged on the driven shaft II (2-12), the fixed annular mounting frame (2-15) is fixedly arranged on the mounting plate (2-1), the reciprocating sliding frame (2-16) is slidably arranged on the fixed annular mounting frame (2-15), and the supporting rod (2-17) is fixedly arranged on the reciprocating sliding frame (2-16).

3. A device for cable winding according to claim 1, characterized in that: the thread passing device (3) comprises a fixed cylinder (3-1), an adjusting rotary cylinder (3-2), a limit bolt (3-3), a spring (3-4), an inclined plane moving cylinder (3-5), a spring I (3-6), a sliding plate (3-7), a connecting rod (3-8), a matching bead mounting seat (3-9), a matching bead (3-10), a spring baffle plate (3-11) and a spring II (3-12), wherein the fixed cylinder (3-1) is fixedly arranged on a supporting rod (2-17), the adjusting rotary cylinder (3-2) is arranged inside the fixed cylinder (3-1), the adjusting rotary cylinder (3-2) is in threaded fit with the fixed cylinder (3-1), and the limit bolt (3-3) is movably arranged on the adjusting rotary cylinder (3-2), the spring (3-4) is movably arranged inside the inclined plane moving cylinder (3-5), the inclined plane moving cylinder (3-5) is slidably arranged inside the fixed cylinder (3-1), the spring I (3-6) is movably arranged inside the inclined plane moving cylinder (3-5), the sliding plate (3-7) is slidably arranged inside the inclined plane moving cylinder (3-5), the connecting rod (3-8) is fixedly arranged on the sliding plate (3-7), the matching bead mounting seat (3-9) is fixedly arranged on the connecting rod (3-8), the matching bead (3-10) is movably arranged on the matching bead mounting seat (3-9), the spring baffle plate (3-11) is fixedly arranged on the inclined plane moving cylinder (3-5), and the spring II (3-12) is movably arranged inside the fixed cylinder (3-1).

4. A device for cable winding according to claim 1, characterized in that: the winding power device (4) comprises a motor four (4-1), an output belt wheel four (4-2), a transmission belt four (4-3), a support rod four (4-4), a rotating rod four (4-5), a receiving belt wheel four (4-6), a cross shaft (4-7) and a cross hole belt wheel (4-8), wherein the motor four (4-1) is fixedly arranged on the mounting support plate (1), the output belt wheel four (4-2) is fixedly arranged on the motor four (4-1), the transmission belt four (4-3) is arranged on the output belt wheel four (4-2), the transmission belt four (4-3) is arranged on the receiving belt wheel four (4-6), the support rod four (4-4) is fixedly arranged on the mounting support plate (1), the rotating rod four (4-5) is rotatably arranged on the support rod four (4-4), the receiving belt wheel IV (4-6) is fixedly arranged on the rotating rod IV (4-5), the cross shaft (4-7) is fixedly arranged on the rotating rod IV (4-5), and the cross hole belt wheel (4-8) is arranged on the cross shaft (4-7) in a sliding device.

5. A device for cable winding according to claim 1, characterized in that: the winding device (5) comprises a fixed groove type block (5-1), an opposite rotating lead screw (5-2), a rotating disc (5-3), a moving thread block (5-4), a fixed moving column (5-5), a rotating shaft five (5-6), a rotating disc five (5-7), an output bevel gear (5-8), a limiting bolt five (5-9), a spring five (5-10), a rotating lead screw five (5-11), a receiving bevel gear (5-12), a moving inner threaded rod (5-13), a connecting pipe (5-14), a rotating inner clamping column (5-15), a rotating threaded rod (5-16), a tail end rotating disc (5-17), an inner stepped column (5-18), an arc-shaped plate (5-19), a telescopic anti-telescoping pipe (5-20), A spring IV (5-21), a sliding plate V (5-22), a sliding block V (5-23), a driving belt wheel V (5-24) and a driving belt V (5-25), wherein the fixed groove shaped block (5-1) is fixedly arranged on the mounting support plate (1), the opposite rotating lead screw (5-2) is rotatably arranged on the fixed groove shaped block (5-1), the rotating disc (5-3) is fixedly arranged on the opposite rotating lead screw (5-2), the moving thread block (5-4) is slidably arranged in the fixed groove shaped block (5-1), the moving thread block (5-4) is in threaded fit with the opposite rotating lead screw (5-2), the fixed moving column (5-5) is fixedly arranged on the moving thread block (5-4), and the rotating shaft V (5-6) is rotatably arranged on the fixed moving column (5-5), a fifth rotating disk (5-7) is fixedly arranged on a fifth rotating shaft (5-6), an output bevel gear (5-8) is fixedly arranged on the fifth rotating shaft (5-6), a fifth limiting bolt (5-9) is movably arranged on the fifth rotating disk (5-7), a fifth spring (5-10) is sleeved on the fifth limiting bolt (5-9), a fifth rotating lead screw (5-11) is rotatably arranged in a fixed moving column (5-5), a fifth receiving bevel gear (5-12) is fixedly arranged on the fifth rotating lead screw (5-11), a movable inner threaded rod (5-13) is slidably arranged in the fixed moving column (5-5), a movable inner threaded rod (5-13) is in threaded fit with the fifth rotating lead screw (5-11), and a connecting pipe (5-14) is rotatably arranged on the movable inner threaded rod (5-13), the rotary inner clamping columns (5-15) are fixedly arranged on the connecting pipes (5-14), the rotary threaded rods (5-16) are arranged inside the connecting pipes (5-14), the rotary threaded rods (5-16) are in threaded fit with the connecting pipes (5-14), the tail end rotary discs (5-17) are fixedly arranged on the rotary threaded rods (5-16), the inner stepped columns (5-18) are movably arranged inside the rotary inner clamping columns (5-15), the arc-shaped plates (5-19) are fixedly arranged on the telescopic protection pipes (5-20), the telescopic protection pipes (5-20) are slidably arranged on the rotary inner clamping columns (5-15), the springs (four) (5-21) are fixedly arranged inside the telescopic protection pipes (5-20), and the sliding plates (five) (5-22) are movably arranged on the telescopic protection pipes (5-20), the sliding block five (5-23) is fixedly arranged on the sliding plate five (5-22), the transmission belt wheel five (5-24) is fixedly arranged on the connecting pipe (5-14), the transmission belt five (5-25) is arranged on the transmission belt wheel five (5-24), and the transmission belt five (5-25) is arranged on the cross hole belt wheel (4-8).

6. A device for cable winding according to claim 1, characterized in that: the tensioning device (6) comprises a fixed square barrel (6-1), a movable plate six (6-2), a connecting column (6-3), a spring six (6-4), a matching belt wheel (6-5), a cross-hole belt wheel pushing frame (6-6) and a connecting fixing rod six (6-7), the fixed square barrel (6-1) is fixedly arranged on the mounting support plate (1), the movable plate six (6-2) is slidably arranged inside the fixed square barrel (6-1), the connecting column (6-3) is fixedly arranged on the movable plate six (6-2), the spring six (6-4) is sleeved on the connecting column (6-3), the matching belt wheel (6-5) is rotatably arranged on the connecting column (6-3), and a transmission belt five (5-25) is arranged on the matching belt wheel (6-5), the cross hole belt wheel pushing frame (6-6) is fixedly arranged on the fixed square barrel (6-1), the cross hole belt wheel pushing frame (6-6) is sleeved on the cross shaft (4-7), and the connecting fixing rod six (6-7) is fixedly arranged on the fixed moving column (5-5).

7. A device for cable winding according to claim 5, characterized in that: the number of the movable thread blocks (5-4), the fixed movable columns (5-5), the rotating shaft five (5-6), the rotating disc five (5-7), the output bevel gears (5-8), the limiting bolts five (5-9), the spring five (5-10), the rotating screw rod five (5-11), the receiving bevel gears (5-12), the movable inner threaded rods (5-13), the connecting pipes (5-14), the rotating inner clamping columns (5-15), the rotating threaded rods (5-16), the tail end rotating disc (5-17) and the inner stepped columns (5-18) of the winding device (5) is two, the number of the arc-shaped plates (5-19) and the telescopic protection pipes (5-20) is eight, the number of the springs four (5-21) is sixteen, the number of the sliding plates five (5-22) and the number of the sliding blocks five (5-23) are eight, the number of the transmission belt wheels five (5-24) and the number of the transmission belts five (5-25) are two.

Images