CN111232752A - Special cable winding equipment for communication - Google Patents

Abstract

The utility model provides a special cable winding equipment of communication, including the installation bed plate, power transmission device, transmission controlling means, bear weight adjusting device, kinking bucket installation device, reciprocal pendulous device, provide required power when twining and rotating through power transmission device, transmission controlling means control kinetic energy's output is passed into, bear weight adjusting device and change kinking bucket installation device's position then control transmission controlling means and bear the linkage whether between weight adjusting device according to kinking bucket installation device, kinking bucket installation device installs the line bucket of winding cable, reciprocal pendulous device drives cable reciprocating motion and prevents to concentrate functions such as knoing, its characterized in that: the power transmission device is fixedly installed on the installation base plate, the transmission control device is fixedly installed on the installation base plate, the bearing weight adjusting device is fixedly installed on the installation base plate, the winding barrel installation device is fixedly installed on the installation base plate, and the reciprocating swing device is fixedly installed on the installation base plate.

Description

Special cable winding equipment for communication

Technical Field

The invention relates to cable winding equipment, in particular to special cable winding equipment for communication.

Background

The communication can not be separated in any aspect at present, as if any industry is closely related to the communication, more related equipment and some requirements of the industry can be met along with the wide coverage of the industry, wherein the communication special cable is also the same, and therefore the invention provides the special cable winding equipment for the communication.

Disclosure of Invention

The invention relates to a cable winding device, in particular to a special cable winding device for communication, which provides power required by winding rotation through a power transmission device, a transmission control device controls the output and input of kinetic energy, a bearing weight adjusting device changes the position of a winding barrel installation device according to the quantity of wound cables on the winding barrel installation device and then controls whether the transmission control device and the bearing weight adjusting device are linked or not, the winding barrel installation device is provided with a cable winding barrel, and a reciprocating swing device drives the cables to reciprocate to prevent centralized knotting and the like.

In order to solve the technical problems, the invention relates to a cable winding device, in particular to a special cable winding device for communication, which comprises an installation base plate, a power transmission device, a transmission control device, a weight bearing adjusting device, a winding barrel installation device and a reciprocating swing device, wherein the power transmission device provides power required by winding rotation, the transmission control device controls the output and the input of kinetic energy, the weight bearing adjusting device changes the position of the winding barrel installation device according to the quantity of wound cables on the winding barrel installation device and then controls whether the transmission control device and the weight bearing adjusting device are linked or not, the winding barrel installation device is used for installing the winding barrel of the wound cables, and the reciprocating swing device drives the cables to reciprocate to prevent centralized knotting and the like, and is characterized in that: the power transmission device is fixedly installed on the installation base plate, the transmission control device is fixedly installed on the installation base plate, the bearing weight adjusting device is fixedly installed on the installation base plate, the winding barrel installation device is fixedly installed on the installation base plate, and the reciprocating swing device is fixedly installed on the installation base plate.

As a further optimization of the technical scheme, the power transmission device of the special communication cable winding equipment comprises a motor, an output gear, a support frame, a transmission middle gear shaft, an output belt wheel, a tensioning cylinder mounting rod, a tensioning cylinder, a sliding square plate, a spring, a connecting rod, a tensioning wheel mounting seat, a tensioning wheel and a transmission belt, wherein the motor is fixedly mounted on a mounting base plate, the output gear is fixedly mounted on the motor, the support frame is fixedly mounted on the mounting base plate, the transmission middle gear shaft is rotatably mounted on the support frame, the transmission middle gear shaft is meshed with the output gear, the output belt wheel is fixedly mounted on the transmission middle gear shaft, the tensioning cylinder mounting rod is fixedly mounted on the mounting base plate, the tensioning cylinder is fixedly mounted on the tensioning cylinder mounting rod, the sliding square plate is slidably mounted inside the tensioning cylinder, the spring is sleeved on the connecting rod, the connecting rod is fixedly mounted on the sliding square plate, the take-up pulley mount pad is installed and is fixed on the connecting rod, and the take-up pulley rotates to be installed on the take-up pulley mount pad, and driving belt installs on take-up pulley and output band pulley.

As a further optimization of the technical scheme, the transmission control device of the special communication cable winding equipment comprises a support fixing frame, an inclined plane fork plate, a fixed square cylinder, a movable square column, a mounting seat, a rotating shaft, a receiving belt wheel, a transmission gear, a transmission rotating shaft, a receiving gear, a pushing fixing ring, a cross-shaped plate and a spring I, wherein the support fixing frame is fixedly arranged on a mounting base plate, the inclined plane fork plate is fixedly arranged on the support fixing frame, the fixed square cylinder is fixedly arranged on the mounting base plate, the movable square column is slidably arranged on the fixed square cylinder, the mounting seat is fixedly arranged on the movable square column, the rotating shaft is rotatably arranged on the mounting seat, the receiving belt wheel is fixedly arranged on the rotating shaft, the transmission gear is fixedly arranged on the rotating shaft, the transmission rotating shaft is movably arranged on the mounting seat, the receiving gear is fixedly arranged on the transmission rotating shaft, the cross-shaped pattern plate is installed and fixed on the transmission rotating shaft, and the spring is sleeved on the transmission rotating shaft.

As a further optimization of the present technical solution, the present invention provides a dedicated communication cable winding apparatus according to claim 1, wherein: the bearing weight adjusting device comprises a fixed box, a sliding groove, a limiting hole, a transmission shaft, a bevel gear, a shifting limiting plate, a limiting bolt mounting barrel, a limiting bolt, a spring II, a fixed shaft, double-sided bevel gears, a receiving bevel gear, a rotating lead screw, a moving sliding plate, a moving shell, a rotating threaded rod, a rotating disc, a pushing disc, a spring III, a moving inner sliding plate, a connecting square rod, a friction plate, a transmission inner bottom cross-shaped groove barrel, a moving threaded sliding plate and an adjusting spring, wherein the fixed box is fixedly mounted on a mounting base plate, the sliding groove is arranged in the fixed box, the limiting hole and the transmission shaft are rotatably mounted on the fixed box, the bevel gear is fixedly mounted on the transmission shaft, the shifting limiting plate is fixedly mounted on the transmission shaft, the limiting bolt mounting barrel is fixedly mounted on the shifting plate, the limiting bolt is slidably mounted in the limiting bolt, the fixed shaft is fixedly arranged in the fixed box, the double-sided bevel gear is rotatably arranged on the fixed shaft, the double-sided bevel gear is respectively meshed with the bevel gear and the receiving bevel gear, the receiving bevel gear is fixedly arranged on the rotating lead screw, the rotating lead screw is rotatably arranged on the fixed box, the movable threaded plate is in sliding fit with the rotating lead screw, the movable sliding plate is slidably arranged in the sliding groove, the movable shell is fixedly arranged on the movable sliding plate, the rotating threaded rod is threadedly arranged on the movable shell, the rotating disc is fixedly arranged on the rotating threaded rod, the pushing disc is fixedly arranged on the rotating threaded rod, the spring III is arranged between the pushing disc and the movable inner sliding plate, the movable inner sliding plate is slidably arranged in the movable shell, the connecting square rod is fixedly arranged on the movable inner sliding plate, the connecting square rod is slidably arranged in the movable shell, the friction plate is fixedly arranged on the connecting square rod, the transmission inner bottom cross-shaped grooved drum is rotatably installed on the movable shell, the movable thread sliding plate is slidably installed inside the sliding groove, the movable thread sliding plate is in thread fit with the rotary lead screw, and the adjusting spring is sleeved on the rotary lead screw.

As a further optimization of the technical scheme, the winding drum installation device of the special cable winding equipment for communication comprises a sliding chuck drum, a conical cross groove shaft, a sliding groove, a spring five, a sliding drum, a spring six, a sliding square plate, a connecting square rod, a clamping jaw, a limiting sliding plate, a connecting top bolt and a spring seven, wherein the conical cross groove shaft is slidably installed inside the sliding chuck drum, the conical cross groove shaft is fixedly installed on the cross groove drum at the bottom in transmission, the sliding groove is arranged on the conical cross groove shaft, the spring five is fixedly installed inside the sliding chuck drum, the sliding drum is slidably installed on the sliding chuck drum, the spring six is slidably installed inside the sliding drum, the sliding square plate is slidably installed inside the sliding drum, the connecting square rod is fixedly installed on the sliding square plate, the clamping jaw is fixedly installed on the connecting square rod, the limiting sliding plate is fixedly installed on the sliding drum, the connecting top bolt is fixedly arranged on the limiting sliding plate, and the spring seven is arranged inside the sliding chuck barrel.

As a further optimization of the technical scheme, the reciprocating swinging device of the special communication cable winding equipment comprises an upper tooth surface fixing plate, a sliding groove six, a sliding mounting frame, a limiting sliding plate six, a friction reducing ball, a motor two, a bevel gear two, a transmission shaft six, a receiving bevel gear six, a rotating disc, a pushing column, sector teeth, a fixed shaft five, a fixed shaft six, a transmission gear sleeve and a wire passing ring, wherein the upper tooth surface fixing plate is fixedly arranged on a mounting base plate, the sliding groove six is arranged on the upper tooth surface fixing plate, the sliding mounting frame is fixedly arranged on the limiting sliding plate six, the limiting sliding plate six is slidably arranged in the sliding groove six, the friction reducing ball is rotatably arranged on the limiting sliding plate six, the motor two is fixedly arranged on the sliding mounting frame, the bevel gear two is fixedly arranged on the motor two, the bevel gear two is meshed with the receiving bevel gear six, the transmission shaft six, six receiving bevel gears are fixedly arranged on a sixth transmission shaft, a rotating disc is fixedly arranged on the sixth transmission shaft, a pushing column is fixedly arranged on the rotating disc, a fan-shaped tooth is rotatably arranged on a fifth fixed shaft, the fifth fixed shaft is fixedly arranged on a sliding mounting frame, the sixth fixed shaft is fixedly arranged on the sliding mounting frame, a transmission gear sleeve is rotatably arranged on the sixth fixed shaft, and a wire passing ring is fixedly arranged on the sliding mounting frame.

As a further optimization of the technical scheme, the winding drum installation device of the special cable winding equipment for communication comprises four sliding chutes, five springs, four sliding cylinders, six springs, four sliding square plates, four connecting square rods and eight clamping jaws, and eight sliding plates, eight connecting top bolts and eight springs.

The special cable winding equipment for communication has the beneficial effects that:

the invention relates to a cable winding device, in particular to a special cable winding device for communication, which realizes the functions of providing power required by winding rotation through a power transmission device, controlling the output and the input of kinetic energy by a transmission control device, changing the position of a winding barrel installation device by a bearing weight adjusting device according to the quantity of a wound cable on the winding barrel installation device, controlling whether the transmission control device is linked with the bearing weight adjusting device or not, installing a cable winding barrel on the winding barrel installation device, driving the cable to reciprocate by a reciprocating swing device to prevent concentrated knotting 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 power transmission device of the present invention.

Fig. 5 is a schematic structural view of a power transmission device according to the present invention.

Fig. 6 is a first structural schematic diagram of the transmission control device of the present invention.

Fig. 7 is a schematic structural diagram of a transmission control device according to the present invention.

Fig. 8 is a first structural schematic diagram of the bearing weight adjusting device of the present invention.

Fig. 9 is a structural schematic diagram of a bearing weight adjusting device of the invention.

Fig. 10 is a third structural schematic view of the bearing weight adjusting device of the present invention.

Fig. 11 is a fourth structural schematic view of the bearing weight adjusting device of the present invention.

Fig. 12 is a first structural schematic diagram of a winding drum installation device of the present invention.

Fig. 13 is a second structural schematic view of the winding drum installation device of the present invention.

Fig. 14 is a third schematic structural view of a winding drum installation device of the present invention.

Fig. 15 is a fourth schematic structural view of the winding drum installation device of the present invention.

Fig. 16 is a fifth structural schematic view of the winding drum installation device of the present invention.

Fig. 17 is a first structural schematic diagram of the reciprocal swinging apparatus of the present invention.

Fig. 18 is a second structural schematic diagram of the reciprocal swinging apparatus of the present invention.

Fig. 19 is a third structural schematic diagram of the reciprocal swinging device of the present invention.

In the figure: comprises a mounting base plate 1; a power transmission device 2; a motor 2-1; an output gear 2-2; 2-3 of a support frame; a transmission middle gear shaft 2-4; an output belt wheel 2-5; 2-6 parts of a tensioning cylinder mounting rod; 2-7 parts of a tensioning cylinder; 2-8 of a sliding square plate; 2-9 parts of a spring; 2-10 of a connecting rod; 2-11 of a tensioning wheel mounting seat; 2-12 of a tension wheel; 2-13 of a transmission belt; a transmission control device; 3 supporting a fixed frame 3-1; 3-2 of an inclined fork plate; 3-3 of a fixed square barrel; 3-4 parts of a movable square column; 3-5 of a mounting seat; 3-6 parts of a rotating shaft; receiving belt wheels 3-7; transmission gears 3-8; a transmission rotating shaft 3-9; receiving gears 3-10; pushing the fixing ring 3-11; 3-12 parts of a cross-shaped pattern plate; 3-13 parts of a first spring; supporting the fixed frame 3-1; 3-2 of an inclined fork plate; 3-3 of a fixed square barrel; 3-4 parts of a movable square column; 3-5 of a mounting seat; 3-6 parts of a rotating shaft; receiving belt wheels 3-7; transmission gears 3-8; a transmission rotating shaft 3-9; receiving gears 3-10; pushing the fixing ring 3-11; 3-12 parts of a cross-shaped pattern plate; 3-13 parts of a first spring; a bearing weight adjusting device 4; a stationary box 4-1; a sliding groove 4-2; 4-3 of a limiting hole; 4-4 of a transmission shaft; 4-5 of bevel gears; shifting the limit plates 4-6; the limiting bolt is provided with 4-7 parts of a barrel; 4-8 parts of a limit bolt; 4-9 parts of a second spring; 4-10 parts of a fixed shaft; 4-11 parts of double-sided bevel teeth; receiving bevel gears 4-12; rotating the lead screw 4-13; moving the slide plate 4-14; moving the shell 4-15; rotating the threaded rod 4-16; 4-17 of a rotating disc; pushing the disc 4-18; 4-19 parts of spring III; moving the inner sliding plate 4-20; connecting square rods 4-21; 4-22 of friction plates; 4-23 of a transmission inner bottom cross-shaped grooved drum; moving the threaded sliding plate 2-24; a mounting device 5 for a winding barrel of the adjusting spring 4-25; a sliding chuck cylinder 5-1; a conical cross-shaped groove shaft 5-2; 5-3 of a chute; 5-4 parts of a spring; 5-5 of a sliding cylinder; six springs 5-6; 5-7 parts of a sliding square plate; 5-8 of connecting square rod; 5-9 parts of a claw; 5-10 parts of a limiting sliding plate; connecting 5-11 of a top bolt; 5-12 parts of a spring seven; a reciprocating swing device 6; an upper tooth surface fixing plate 6-1; six sliding grooves 6-2; a sliding mounting frame 6-3; 6-4 parts of a limiting sliding plate; 6-5 parts of friction reducing balls; 6-6 parts of a second motor; 6-7 parts of a second bevel gear; 6-8 parts of a transmission shaft; receiving a bevel gear six 6-9; 6-10 of a rotating disc; 6-11 parts of a pushing column; 6-12 of sector teeth; 6-13 parts of a fixed shaft; 6-14 parts of a fixed shaft; 6-15 parts of a transmission gear sleeve; the through-line rings 6-16.

Detailed Description

The first embodiment is as follows:

in order to solve the technical problems, the invention relates to a cable winding device, more specifically a communication special cable winding device, which comprises a mounting base plate 1, a power transmission device 2, a transmission control device 3, a bearing weight adjusting device 4, a winding barrel mounting device 5 and a reciprocating swing device 6, wherein the power transmission device provides power required by winding rotation, the transmission control device controls the output and the input of kinetic energy, the bearing weight adjusting device changes the position of the winding barrel mounting device according to the quantity of the wound cables on the winding barrel mounting device and then controls whether the transmission control device and the bearing weight adjusting device are linked or not, the winding barrel mounting device mounts the wound cables, the reciprocating swing device drives the cables to reciprocate to prevent centralized knotting and the like, the method is characterized in that: the power transmission device 2 is fixedly installed on the installation base plate 1, the transmission control device 3 is fixedly installed on the installation base plate 1, the bearing weight adjusting device 4 is fixedly installed on the installation base plate 1, the winding barrel installation device 5 is fixedly installed on the installation base plate 1, and the reciprocating swing device 6 is fixedly installed on the installation base plate 1.

The second embodiment is as follows:

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, 17, 18, and 19. for further description of the embodiment, the power transmission device 2 includes a motor 2-1, an output gear 2-2, a support frame 2-3, a transmission middle gear shaft 2-4, an output pulley 2-5, a tensioning tube mounting rod 2-6, a tensioning tube 2-7, a sliding square plate 2-8, a spring 2-9, a connecting rod 2-10, a tensioning wheel mounting seat 2-11, a tensioning wheel 2-12, and a transmission belt 2-13, then the motor 2-1 of the power transmission device 2 drives the output gear 2-2 to rotate, the output gear 2-2 drives the transmission middle gear shaft 2-4 to rotate, the transmission middle gear shaft 2-4 drives the output belt wheel 2-5 to rotate, the transmission rotating shaft 3-9 of the inclined fork plate 3-2 moves outwards to separate the cross-pattern plate 3-12 from the transmission inner bottom cross-pattern groove barrel 4-23, so that the transmission rotating shaft 3-9 can not drive the transmission inner bottom cross-pattern groove barrel 4-23 to rotate, the winding barrel mounting device 5 can not rotate and can not cause the winding barrel mounting device 5 to wind the cable, when the device is changed at the release position, the spring 2-9 in the tensioning barrel 2-7 is used for keeping the transmission belt 2-13 tensioned state to adjust the position of the sliding square plate 2-8 so as to change the position of the tensioning wheel 2-12 on the tensioning wheel mounting seat 2-11 and keep the transmission belt 2-13 tensioned, and the output belt wheel 2-5 drives the receiving belt wheel 3-7 to rotate by driving the transmission belt 2-13 The motor 2-1 is fixedly arranged on the mounting base plate 1, the output gear 2-2 is fixedly arranged on the motor 2-1, the support frame 2-3 is fixedly arranged on the mounting base plate 1, the transmission middle gear shaft 2-4 is rotatably arranged on the support frame 2-3, the transmission middle gear shaft 2-4 is meshed with the output gear 2-2, the output belt wheel 2-5 is fixedly arranged on the transmission middle gear shaft 2-4, the tensioning cylinder mounting rod 2-6 is fixedly arranged on the mounting base plate 1, the tensioning cylinder 2-7 is fixedly arranged on the tensioning cylinder mounting rod 2-6, the sliding square plate 2-8 is slidably arranged in the tensioning cylinder 2-7, the spring 2-9 is sleeved on the connecting rod 2-10, the connecting rod 2-10 is fixedly arranged on the sliding square plate 2-8, the tensioning wheel mounting seat 2-11 is fixedly arranged on the connecting rod 2-10, the tensioning wheel 2-12 is rotatably arranged on the tensioning wheel mounting seat 2-11, and the transmission belt 2-13 is arranged on the tensioning wheel 2-12 and the output belt wheel 2-5.

The third 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, 17, 18, and 19. for further description of the embodiment, the transmission control device 3 includes a supporting and fixing frame 3-1, an inclined fork plate 3-2, a fixed square cylinder 3-3, a moving square column 3-4, a mounting seat 3-5, a rotating shaft 3-6, a receiving belt wheel 3-7, a transmission gear 3-8, a transmission rotating shaft 3-9, a receiving gear 3-10, a pushing and fixing ring 3-11, a cross-shaped flower plate 3-12, and a first spring 3-13, then the receiving belt wheel 3-7 drives the rotating shaft 3-6 to rotate, the rotating shaft 3-6 drives the transmission gear 3-8 to rotate, the transmission gear 3-8 drives the receiving gear 3-10 to rotate, the receiving gear 3-10 drives the transmission rotating shaft 3-9 to rotate, the transmission rotating shaft 3-9 drives the cross-shaped pattern plate 3-12 to rotate, the cross-shaped pattern plate 3-12 drives the transmission inner bottom cross-shaped pattern cylinder 4-23 to rotate, the supporting and fixing frame 3-1 is fixedly arranged on the mounting base plate 1, the inclined plane fork plate 3-2 is fixedly arranged on the supporting and fixing frame 3-1, the fixed square cylinder 3-3 is fixedly arranged on the mounting base plate 1, the movable square cylinder 3-4 is slidably arranged on the fixed square cylinder 3-3, the mounting seat 3-5 is fixedly arranged on the movable square cylinder 3-4, the rotating shaft 3-6 is rotatably arranged on the mounting seat 3-5, and the receiving belt wheel 3-7 is fixedly arranged on the rotating shaft 3-6, the transmission gear 3-8 is fixedly arranged on the rotating shaft 3-6, the transmission rotating shaft 3-9 is movably arranged on the mounting seat 3-5, the receiving gear 3-10 is fixedly arranged on the transmission rotating shaft 3-9, the pushing fixing ring 3-11 is fixedly arranged on the transmission rotating shaft 3-9, the cross-shaped pattern plate 3-12 is fixedly arranged on the transmission rotating shaft 3-9, and the spring I3-13 is sleeved on the transmission rotating shaft 3-9.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and 19, and the present embodiment further describes an embodiment, and the cable winding apparatus for communication according to claim 1 is characterized in that: the bearing weight adjusting device 4 comprises a fixed box 4-1, a sliding groove 4-2, a limiting hole 4-3, a transmission shaft 4-4, a bevel gear 4-5, a toggle limiting plate 4-6, a limiting bolt installation barrel 4-7, a limiting bolt 4-8, a spring II 4-9, a fixed shaft 4-10, double-sided bevel teeth 4-11, a receiving bevel gear 4-12, a rotating screw rod 4-13, a moving sliding plate 4-14, a moving shell 4-15, a rotating threaded rod 4-16, a rotating disc 4-17, a pushing disc 4-18, a spring III 4-19, a moving inner sliding plate 4-20, a connecting square rod 4-21, a friction plate 4-22, a transmission inner bottom cross-shaped grooved cylinder 4-23, a moving threaded sliding plate 4-24, a sliding plate, Adjusting springs 4-25, then rotating a transmission shaft 4-4 of the bearing weight adjusting device 4 according to the size of the required cable winding, wherein the transmission shaft 4-4 drives a bevel gear 4-5 to rotate, the bevel gear 4-5 drives a double-sided bevel gear 4-11 to rotate, the double-sided bevel gear 4-11 drives a receiving bevel gear 4-12 to rotate, the receiving bevel gear 4-12 drives a rotating lead screw 4-13 to rotate, the rotating lead screw 4-13 can adjust the position of a moving threaded sliding plate 4-24 in a fixed box 4-1 so as to change the compression amount of the adjusting spring 4-25 and further change the variable when the moving shell 4-15 moves downwards, then rotating a rotating threaded rod 4-16 of a rotating disc 4-17 to rotate so that the position of the rotating threaded rod 4-16 in the moving shell 4-15 and then change the compression amount of a spring three 4-19, and then the variable when the moving shell 4-15 The friction force of the transmission inner bottom cross-shaped grooved drum 4-23 between the friction plates 4-22 is changed, so that the transmission inner bottom cross-shaped grooved drum 4-23 can achieve an emergency stop effect, the transmission inner bottom cross-shaped grooved drum 4-23 drives the conical cross-shaped grooved shaft 5-2 to rotate, the conical cross-shaped grooved shaft 5-2 drives the winding drum mounting device 5 to rotate and drives the winding drum to rotate to wind cables, the winding drum mounting device 5 drives the movable shell 4-15 of the bearing weight adjusting device 4 and the transmission inner bottom cross-shaped grooved drum 4-23 to move downwards and then compress the adjusting spring 4-25 along with the increase of the cables, meanwhile, the transmission inner bottom cross-shaped grooved drum 4-23 drives the transmission rotating shaft 3-9 to move downwards, the fixed box 4-1 is mounted and fixed on the mounting base plate 1, the sliding groove 4-2 is arranged inside the fixed box 4-1, a limiting hole 4-3 and a transmission shaft 4-4 are rotatably arranged on a fixed box 4-1, a bevel gear 4-5 is fixedly arranged on the transmission shaft 4-4, a toggle limiting plate 4-6 is fixedly arranged on the transmission shaft 4-4, a limiting bolt installation barrel 4-7 is fixedly arranged on the toggle limiting plate 4-6, a limiting bolt 4-8 is slidably arranged inside the limiting bolt installation barrel 4-7, a spring II 4-9 is sleeved on the limiting bolt 4-8, a fixed shaft 4-10 is fixedly arranged inside the fixed box 4-1, a double-sided bevel gear 4-11 is rotatably arranged on the fixed shaft 4-10, the double-sided bevel gear 4-11 is respectively meshed with the bevel gear 4-5 and a receiving bevel gear 4-12, the receiving bevel gear 4-12 is fixedly arranged on a rotating lead screw 4-13, a rotary screw rod 4-13 is rotatably arranged in a fixed box 4-1, a movable thread plate 4-14 is in sliding fit with the rotary screw rod 4-13, a movable sliding plate 4-14 is slidably arranged in a sliding groove 4-2, a movable shell 4-15 is fixedly arranged on the movable sliding plate 4-14, a rotary threaded rod 4-16 is in threaded fit with the movable shell 4-15, a rotary disc 4-17 is fixedly arranged on the rotary threaded rod 4-16, a push disc 4-18 is fixedly arranged on the rotary threaded rod 4-16, a spring III 4-19 is arranged between the push disc 4-18 and a movable inner sliding plate 4-20, the movable inner sliding plate 4-20 is slidably arranged in the movable shell 4-15, and a connecting square rod 4-21 is fixedly arranged on the movable inner sliding plate 4-20, the connecting square rod 4-21 is slidably mounted inside the moving shell 4-15, the friction plate 4-22 is fixedly mounted on the connecting square rod 4-21, the cross flower plate 3-12 and the spring I3-13 are slidably mounted inside the transmission inner bottom cross flower groove cylinder 4-23, the transmission inner bottom cross flower groove cylinder 4-23 is rotatably mounted on the moving shell 4-15, the moving thread sliding plate 4-24 is slidably mounted inside the sliding groove 4-2, the moving thread sliding plate 4-24 is in threaded fit with the rotating lead screw 4-13, and the adjusting spring 4-25 is sleeved on the rotating lead screw 4-13.

The fifth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18 and 19, the third embodiment is further described, wherein the spool mounting device 5 comprises a sliding chuck cylinder 5-1, a tapered cross-shaped groove shaft 5-2, a sliding groove 5-3, a spring five 5-4, a sliding cylinder 5-5, a spring six 5-6, a sliding square plate 5-7, a connecting square rod 5-8, a clamping jaw 5-9, a limiting sliding plate 5-10, a connecting top bolt 5-11 and a spring seven 5-12, the sliding chuck cylinder 5-1 of the spool mounting device 5 is pulled outwards to enable the sliding cylinder 5-5 to be along the track of the cross-shaped groove shaft 5-2, and then the spring seven 5-12 acts downwards on the connecting top bolt 5-11, the vertical position of the sliding cylinder 5-5 is changed according to the shape of the track of the conical cross-shaped groove shaft 5-2 all the time, then the sliding cylinder 5-5 drives the sliding square plate 5-7 to move towards the middle, the sliding square plate 5-7 drives the clamping jaws 5-9 to move through the connecting square rods 5-8, then the wound wire barrel is sleeved on the clamping jaws 5-9, then the clamping jaws 5-9 loose on the clamping jaws 5-9, the clamping jaws 5-9 move towards the original position under the action of the springs five 5-4, then the sliding cylinder 5-5 moves along with the sliding cylinder 5-5 and moves upwards, then the sliding square plate 5-7 pushes the sliding square plate 5-7 outwards under the action of the springs six 5-6, and the sliding square plate 5-7 fixes the wire barrel through the connecting square rods 5-8 pushing the clamping jaws 5-9, a conical cross-shaped groove shaft 5-2 is slidably arranged in a sliding chuck barrel 5-1, the conical cross-shaped groove shaft 5-2 is fixedly arranged on a cross-shaped groove barrel 4-23 at the bottom in the transmission, a chute 5-3 is arranged on the conical cross-shaped groove shaft 5-2, a spring five 5-4 is fixedly arranged in the sliding chuck barrel 5-1, the sliding barrel 5-5 is slidably arranged on the sliding chuck barrel 5-1, a spring six 5-6 is slidably arranged in the sliding barrel 5-5, a sliding square plate 5-7 is slidably arranged in the sliding barrel 5-5, a connecting square rod 5-8 is fixedly arranged on a sliding square plate 5-7, a clamping jaw 5-9 is fixedly arranged on a connecting square rod 5-8, and a limiting sliding plate 5-10 is fixedly arranged on the sliding barrel 5-5, the connecting top bolt 5-11 is fixedly arranged on the limiting sliding plate 5-10, and the spring seven 5-12 is arranged inside the sliding chuck barrel 5-1.

The sixth specific implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, the present embodiment further describes the present embodiment, in which the reciprocating swing device 6 includes an upper tooth surface fixing plate 6-1, a sliding groove six 6-2, a sliding mounting frame 6-3, a limiting sliding plate six 6-4, a friction reducing ball 6-5, a motor two 6-6, a bevel gear two 6-7, a transmission shaft six 6-8, a receiving bevel gear six 6-9, a rotating disc 6-10, a pushing column 6-11, a sector gear 6-12, a fixing shaft five 6-13, a fixing shaft six 6-14, a transmission gear sleeve 6-15, and a through wire ring 6-16, the motor two 6-6 of the reciprocating swing device 6 drives the bevel gear two 6-7 to rotate while winding a cable, the second bevel gear 6-7 drives the sixth receiving bevel gear 6-9 to rotate, the sixth receiving bevel gear 6-9 drives the sixth transmitting shaft 6-8 to rotate, the sixth transmitting shaft 6-8 drives the rotating disc 6-10 to rotate, the rotating disc 6-10 drives the pushing column 6-11 to rotate, the pushing column 6-11 drives the sector teeth 6-12 to rotate in a reciprocating manner, the sector teeth 6-12 drive the transmission gear sleeve 6-15 to rotate in a reciprocating manner, the transmission gear sleeve 6-15 drives the sliding mounting rack 6-3 to move in a reciprocating manner through the upper tooth surface fixing plate 6-1, the sliding mounting rack 6-3 drives the through wire ring 6-16 to move in a reciprocating manner to drive the cable to move in a reciprocating manner to uniformly wind the cable winding barrel, the upper tooth surface fixing plate 6-1 is installed and fixed on the installation base plate 1, and the sliding groove six 6-2 is arranged on the upper tooth surface, a sliding mounting frame 6-3 is fixedly arranged on a limiting sliding plate six 6-4, a limiting sliding plate six 6-4 is slidably arranged inside a sliding groove six 6-2, a friction reducing ball 6-5 is rotatably arranged on the limiting sliding plate six 6-4, a motor two 6-6 is fixedly arranged on the sliding mounting frame 6-3, a bevel gear two 6-7 is fixedly arranged on the motor two 6-6, the bevel gear two 6-7 is meshed with a receiving bevel gear six 6-9, a transmission shaft six 6-8 is rotatably arranged on the sliding mounting frame 6-3, the receiving bevel gear six 6-9 is fixedly arranged on the transmission shaft six 6-8, a rotating disc 6-10 is fixedly arranged on the transmission shaft six 6-8, a pushing column 6-11 is fixedly arranged on the rotating disc 6-10, and a sector tooth 6-12 is rotatably arranged on a fixed shaft five 6-13, the fixed shaft five 6-13 is fixedly arranged on the sliding installation frame 6-3, the fixed shaft six 6-14 is fixedly arranged on the sliding installation frame 6-3, the transmission gear sleeve 6-15 is rotatably arranged on the fixed shaft six 6-14, and the wire passing ring 6-16 is fixedly arranged on the sliding installation frame 6-3.

The seventh embodiment:

the embodiments are described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and 19. the embodiments further describe the embodiments, the number of the sliding grooves 5-3, the springs five 5-4, the sliding cylinders 5-5, the springs six 5-6, the sliding square plates 5-7, the connecting square rods 5-8, and the claws 5-9 of the winding drum installation device 5 is four, and the number of the sliding plates 5-10, the connecting top bolts 5-11, and the springs seven 5-12 is eight.

The working principle of the invention is as follows:

a working principle of special cable winding equipment for communication is that before use, whether the connection condition between the devices meets requirements is checked, a sliding chuck barrel 5-1 of a winding barrel installation device 5 is pulled outwards to enable a sliding barrel 5-5 to follow a track of a conical cross-shaped groove shaft 5-2, then a spring seven 5-12 acts downwards under the action of a connecting top bolt 5-11 to enable the sliding barrel 5-5 to change the vertical position of the sliding barrel according to the shape of the track of the conical cross-shaped groove shaft 5-2 all the time, then the sliding barrel 5-5 drives a sliding square plate 5-7 to move towards the middle, the sliding square plate 5-7 drives a clamping jaw 5-9 to move through a connecting square rod 5-8, then the winding barrel is sleeved on the clamping jaw 5-9, and then the clamping jaw 5-9 is loosened, the jaws 5-9 move to the original position under the action of the five springs 5-4, then the sliding cylinder 5-5 moves along with the sliding cylinder 5-5 and moves upwards, then the sliding square plate 5-7 is pushed outwards under the action of the six springs 5-6, the sliding square plate 5-7 fixes the wire barrel through the square connecting rod 5-8 pushing the jaws 5-9, then the transmission shaft 4-4 of the weight bearing adjusting device 4 is rotated according to the winding size of the required wire, the transmission shaft 4-4 drives the bevel gear 4-5 to rotate, the bevel gear 4-5 drives the double-sided bevel gear 4-11 to rotate, the double-sided bevel gear 4-11 drives the receiving bevel gear 4-12 to rotate, the receiving bevel gear 4-12 drives the rotating lead screw 4-13 to rotate, the rotary screw 4-13 can adjust the position of the movable threaded sliding plate 4-24 in the fixed box 4-1 so as to change the compression amount of the adjusting spring 4-25 and further change the variable when the movable shell 4-15 moves downwards, then the rotary threaded rod 4-16 of the rotary disc 4-17 rotates to enable the rotary threaded rod 4-16 to be in the position in the movable shell 4-15 and then change the compression amount of the spring three 4-19 so as to change the friction force of the transmission inner bottom cross-shaped grooved drum 4-23 between the friction plates 4-22 to enable the transmission inner bottom cross-shaped grooved drum 4-23 to achieve the effect of sudden stop, then the motor 2-1 of the power transmission device 2 drives the output gear 2-2 to rotate, and the output gear 2-2 drives the transmission middle gear shaft 2-4 to rotate, the transmission middle gear shaft 2-4 drives the output belt wheel 2-5 to rotate, the output belt wheel 2-5 drives the receiving belt wheel 3-7 to rotate by driving the transmission belt 2-13, then the receiving belt wheel 3-7 drives the rotating shaft 3-6 to rotate, the rotating shaft 3-6 drives the transmission gear 3-8 to rotate, the transmission gear 3-8 drives the receiving gear 3-10 to rotate, the receiving gear 3-10 drives the transmission rotating shaft 3-9 to rotate, the transmission rotating shaft 3-9 drives the cross pattern plate 3-12 to rotate, the cross pattern plate 3-12 drives the transmission inner bottom cross pattern cylinder 4-23 to rotate, the transmission inner bottom cross pattern cylinder 4-23 drives the conical cross pattern groove shaft 5-2 to rotate, the conical cross pattern shaft 5-2 drives the winding barrel mounting device 5 to rotate and drives the winding barrel to rotate to wind the cable, along with the increase of cables, the winding drum installation device 5 drives the movable shell 4-15 of the weight bearing adjusting device 4 and the transmission inner bottom cross flower groove barrel 4-23 to move downwards and then compress the adjusting spring 4-25, meanwhile, the transmission inner bottom cross flower groove barrel 4-23 drives the transmission rotating shaft 3-9 to move downwards, the transmission rotating shaft 3-9 of the inclined fork plate 3-2 moves outwards to enable the cross flower plate 3-12 and the transmission inner bottom cross flower groove barrel 4-23 to be separated, so that the transmission rotating shaft 3-9 can not drive the transmission inner bottom cross flower groove barrel 4-23 to rotate, the winding drum installation device 5 can not rotate and can not enable the winding drum installation device 5 to wind cables, and the transmission belt 2-13 can keep a tensioning state to tension the spring 2-9 in the tensioning barrel 2-7 to adjust the sliding square plate 2 and the sliding square plate 2 when the release position of the device is changed 8, so that the position of a tension pulley 2-12 on a tension pulley mounting seat 2-11 is changed, the transmission belt 2-13 is kept tensioned, a motor II 6-6 of a reciprocating swinging device 6 drives a bevel gear II 6-7 to rotate while a cable is wound, the bevel gear II 6-7 drives a receiving bevel gear VI 6-9 to rotate, the receiving bevel gear VI 6-9 drives a transmission shaft VI 6-8 to rotate, the transmission shaft VI 6-8 drives a rotating disc 6-10 to rotate, the rotating disc 6-10 drives a pushing column 6-11 to rotate, the pushing column 6-11 pushes sector teeth 6-12 to rotate in a reciprocating manner, the sector teeth 6-12 drive a transmission gear sleeve 6-15 to rotate in a reciprocating manner, the transmission gear sleeve 6-15 drives a sliding mounting frame 6-3 to move in a reciprocating manner through an upper tooth surface fixing plate 6-1, the sliding mounting rack 6-3 drives the through-wire ring 6-16 to move back and forth to drive the cable to move back and forth to be uniformly wound on the winding barrel.

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 special cable winding equipment of communication, includes installation bed plate (1), power transmission device (2), transmission controlling means (3), bears weight adjusting device (4), kinking bucket installation device (5), reciprocal pendulous device (6), its characterized in that: the power transmission device (2) is fixedly installed on the installation base plate (1), the transmission control device (3) is fixedly installed on the installation base plate (1), the bearing weight adjusting device (4) is fixedly installed on the installation base plate (1), the winding barrel installation device (5) is fixedly installed on the installation base plate (1), and the reciprocating swing device (6) is fixedly installed on the installation base plate (1).

2. The special cable winding device for communication according to claim 1, wherein: the power transmission device (2) comprises a motor (2-1), an output gear (2-2), a support frame (2-3), a transmission middle gear shaft (2-4), an output belt wheel (2-5), a tensioning tube mounting rod (2-6), a tensioning tube (2-7), a sliding square plate (2-8), a spring (2-9), a connecting rod (2-10), a tensioning wheel mounting seat (2-11), a tensioning wheel (2-12) and a transmission belt (2-13), wherein the motor (2-1) is fixedly arranged on a mounting base plate (1), the output gear (2-2) is fixedly arranged on the motor (2-1), the support frame (2-3) is fixedly arranged on the mounting base plate (1), the transmission middle gear shaft (2-4) is rotatably arranged on the support frame (2-3), a transmission middle gear shaft (2-4) is meshed with an output gear (2-2), an output belt wheel (2-5) is fixedly installed on the transmission middle gear shaft (2-4), a tensioning cylinder installation rod (2-6) is fixedly installed on an installation base plate (1), a tensioning cylinder (2-7) is fixedly installed on the tensioning cylinder installation rod (2-6), a sliding square plate (2-8) is slidably installed inside the tensioning cylinder (2-7), a spring (2-9) is sleeved on a connecting rod (2-10), the connecting rod (2-10) is fixedly installed on the sliding square plate (2-8), a tensioning wheel installation seat (2-11) is fixedly installed on the connecting rod (2-10), a tensioning wheel (2-12) is rotatably installed on the tensioning wheel installation seat (2-11), and a transmission belt (2-13) is installed on the output belt wheel (2-12) and the output belt wheel (2-2) 5) The above.

3. The special cable winding device for communication according to claim 1, wherein: the transmission control device (3) comprises a supporting and fixing frame (3-1), an inclined plane fork plate (3-2), a fixed square cylinder (3-3), a movable square column (3-4), a mounting seat (3-5), a rotating shaft (3-6), a receiving belt wheel (3-7), a transmission gear (3-8), a transmission rotating shaft (3-9), a receiving gear (3-10), a pushing and fixing ring (3-11), a cross flower plate (3-12) and a spring I (3-13), wherein the supporting and fixing frame (3-1) is fixedly arranged on the mounting base plate (1), the inclined plane fork plate (3-2) is fixedly arranged on the supporting and fixing frame (3-1), the fixed square cylinder (3-3) is fixedly arranged on the mounting base plate (1), the movable square column (3-4) is slidably arranged on the fixed square cylinder (3-3), the mounting seat (3-5) is fixedly arranged on the moving square column (3-4), the rotating shaft (3-6) is rotatably arranged on the mounting seat (3-5), the receiving belt wheel (3-7) is fixedly arranged on the rotating shaft (3-6), the transmission gear (3-8) is fixedly arranged on the rotating shaft (3-6), the transmitting rotating shaft (3-9) is movably arranged on the mounting seat (3-5), the receiving gear (3-10) is fixedly arranged on the transmitting rotating shaft (3-9), the fixing ring (3-11) is pushed to be fixedly arranged on the transmitting rotating shaft (3-9), the cross-shaped pattern plate (3-12) is fixedly arranged on the transmitting rotating shaft (3-9), and the first spring (3-13) is sleeved on the transmitting rotating shaft (3-9).

4. The special cable winding device for communication according to claim 1, wherein: the bearing weight adjusting device (4) comprises a fixed box (4-1), a sliding groove (4-2), a limiting hole (4-3), a transmission shaft (4-4), a bevel gear (4-5), a shifting limiting plate (4-6), a limiting bolt mounting barrel (4-7), a limiting bolt (4-8), a second spring (4-9), a fixed shaft (4-10), double-sided bevel teeth (4-11), a receiving bevel gear (4-12), a rotating lead screw (4-13), a moving sliding plate (4-14), a moving shell (4-15), a rotating threaded rod (4-16), a rotating disc (4-17), a pushing disc (4-18), a third spring (4-19), a moving inner sliding plate (4-20), a connecting square rod (4-21), A friction plate (4-22), a transmission inner bottom cross-shaped grooved drum (4-23), a movable threaded sliding plate (4-24) and an adjusting spring (4-25), wherein a fixed box (4-1) is fixedly installed on an installation base plate (1), a sliding groove (4-2) is arranged inside the fixed box (4-1), a limiting hole (4-3) and a transmission shaft (4-4) are rotatably installed on the fixed box (4-1), a bevel gear (4-5) is fixedly installed on the transmission shaft (4-4), a shifting limiting plate (4-6) is fixedly installed on the transmission shaft (4-4), a limiting bolt installation barrel (4-7) is fixedly installed on the shifting limiting plate (4-6), a limiting bolt (4-8) is slidably installed inside the limiting bolt installation barrel (4-7), a second spring (4-9) is sleeved on the limiting bolt (4-8), a fixed shaft (4-10) is fixedly installed inside a fixed box (4-1), double-sided bevel gears (4-11) are rotatably installed on the fixed shaft (4-10), the double-sided bevel gears (4-11) are respectively meshed with a bevel gear (4-5) and a receiving bevel gear (4-12), the receiving bevel gear (4-12) is fixedly installed on a rotating lead screw (4-13), the rotating lead screw (4-13) is rotatably installed on the fixed box (4-1), a movable thread plate (4-14) is in sliding fit with the rotating lead screw (4-13), a movable sliding plate (4-14) is slidably installed inside a sliding groove (4-2), a movable shell (4-15) is fixedly installed on the movable sliding plate (4-14), the rotary threaded rod (4-16) is installed on the movable shell (4-15) in a threaded manner, the rotary disc (4-17) is installed and fixed on the rotary threaded rod (4-16), the push disc (4-18) is installed and fixed on the rotary threaded rod (4-16), the spring III (4-19) is installed between the push disc (4-18) and the movable inner sliding plate (4-20), the movable inner sliding plate (4-20) is installed inside the movable shell (4-15) in a sliding manner, the connecting square rod (4-21) is installed and fixed on the movable inner sliding plate (4-20), the connecting square rod (4-21) is installed inside the movable shell (4-15) in a sliding manner, the friction plate (4-22) is installed and fixed on the connecting square rod (4-21), the cross pattern plate (3-12) and the spring I (3-13) are installed inside the cross pattern groove barrel (4-23) at the bottom in the transmission in a sliding manner, the transmission inner bottom cross-shaped grooved drum (4-23) is rotatably arranged on the movable shell (4-15), the movable thread sliding plate (4-24) is slidably arranged in the sliding groove (4-2), the movable thread sliding plate (4-24) is in thread fit with the rotary lead screw (4-13), and the adjusting spring (4-25) is sleeved on the rotary lead screw (4-13).

5. The special cable winding device for communication according to claim 1, wherein: the winding barrel installation device (5) comprises a sliding chuck barrel (5-1), a conical cross groove shaft (5-2), a sliding groove (5-3), a spring five (5-4), a sliding barrel (5-5), a spring six (5-6), a sliding square plate (5-7), a connecting square rod (5-8), a clamping jaw (5-9), a limiting sliding plate (5-10), a connecting top bolt (5-11) and a spring seven (5-12), wherein the conical cross groove shaft (5-2) is slidably installed inside the sliding chuck barrel (5-1), the conical cross groove shaft (5-2) is installed and fixed on a transmission inner bottom cross groove barrel (4-23), the sliding groove (5-3) is arranged on the conical cross groove shaft (5-2), the spring five (5-4) is installed and fixed inside the sliding chuck barrel (5-1), the sliding cylinder (5-5) is slidably mounted on the sliding chuck cylinder (5-1), the spring six (5-6) is slidably mounted inside the sliding cylinder (5-5), the sliding square plate (5-7) is slidably mounted inside the sliding cylinder (5-5), the connecting square rod (5-8) is fixedly mounted on the sliding square plate (5-7), the clamping jaw (5-9) is fixedly mounted on the connecting square rod (5-8), the limiting sliding plate (5-10) is fixedly mounted on the sliding cylinder (5-5), the connecting top bolt (5-11) is fixedly mounted on the limiting sliding plate (5-10), and the spring seven (5-12) is mounted inside the sliding chuck cylinder (5-1).

6. The special cable winding device for communication according to claim 1, wherein: the reciprocating swinging device (6) comprises an upper tooth surface fixing plate (6-1), a sliding groove six (6-2), a sliding mounting rack (6-3), a limiting sliding plate six (6-4), a friction reducing ball (6-5), a motor two (6-6), a bevel gear two (6-7), a transmission shaft six (6-8), a receiving bevel gear six (6-9), a rotating disc (6-10), a pushing column (6-11), a sector gear (6-12), a fixing shaft five (6-13), a fixing shaft six (6-14), a transmission gear sleeve (6-15) and a line passing ring (6-16), wherein the upper tooth surface fixing plate (6-1) is fixedly arranged on a mounting base plate (1), and the sliding groove six (6-2) is arranged on the upper tooth surface fixing plate (6-1), a sliding mounting frame (6-3) is fixedly arranged on a limiting sliding plate six (6-4), the limiting sliding plate six (6-4) is slidably arranged inside a sliding groove six (6-2), a friction reducing ball (6-5) is rotatably arranged on the limiting sliding plate six (6-4), a motor two (6-6) is fixedly arranged on the sliding mounting frame (6-3), a bevel gear two (6-7) is fixedly arranged on the motor two (6-6), the bevel gear two (6-7) is meshed with a receiving bevel gear six (6-9), a transmitting shaft six (6-8) is rotatably arranged on the sliding mounting frame (6-3), the receiving bevel gear six (6-9) is fixedly arranged on the transmitting shaft six (6-8), and a rotating disc (6-10) is fixedly arranged on the transmitting shaft six (6-8), the pushing column (6-11) is fixedly arranged on the rotating disc (6-10), the fan-shaped teeth (6-12) are rotatably arranged on the fixed shaft five (6-13), the fixed shaft five (6-13) is fixedly arranged on the sliding mounting frame (6-3), the fixed shaft six (6-14) is fixedly arranged on the sliding mounting frame (6-3), the transmission gear sleeve (6-15) is rotatably arranged on the fixed shaft six (6-14), and the wire passing ring (6-16) is fixedly arranged on the sliding mounting frame (6-3).

7. The special cable winding device for communication according to claim 5, wherein: the number of the winding barrel installation device (5) is four in sliding chutes (5-3), five in springs (5-4), sliding cylinders (5-5), six in springs (5-6), sliding square plates (5-7), connecting square rods (5-8) and clamping jaws (5-9), and the number of the sliding plates (5-10), the connecting top bolts (5-11) and the springs (5-12) is eight.

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