CN111532472A - Winding equipment capable of adjusting winding mode and working method thereof - Google Patents

Abstract

The invention discloses winding equipment capable of adjusting a winding mode and a working method thereof, wherein the winding equipment capable of adjusting the winding mode comprises a base assembly, a winding device and a winding device, wherein the base assembly comprises a base, a vertical support arranged on the base and a horizontal support arranged on the vertical support; the lifting mechanism comprises a trunnion type cylinder arranged at the upper end of the vertical support, a lifting assembly arranged at the output end of the trunnion type cylinder, a connecting part arranged on the lifting assembly and a position adjusting assembly arranged on the connecting part; the clamping mechanism comprises a group of crossed arms symmetrically arranged on the horizontal bracket and clamping components arranged on the crossed arms; the phenomenon that the film is wound together due to the fact that the winding machine is in the winding process is avoided, stress of the winding belt can be adjusted, the winding belt can be unfolded to the maximum degree, and winding accuracy of the device is improved.

Description

Winding equipment capable of adjusting winding mode and working method thereof

Technical Field

The invention relates to winding equipment, belongs to the technical field of automation equipment, and particularly relates to winding equipment capable of adjusting a winding mode.

Background

Along with the wide use of coiler, to great product, not only can play the protection effect to the transportation product, but also avoid the product to drop in the transportation, and then guaranteed the safety of product in the transportation, and to some less commodities, not only can reduce the error when artifical winding, but also can improve work efficiency.

But current coiler still has some problems, and current coiler can be because film axle up-and-down motion is too fast at the winding in-process, and then leads to the film winding together, and then can not accomplish the winding work to the product, and the film that the winding is in the same place simultaneously still can extrude the product, and then causes the damage of product, influences the winding precision of wind device, and current coiler still can make the winding axle take place to squint at the winding in-process simultaneously, and then influences the winding precision of device.

Therefore, how to adjust the winding manner of the device and further improve the winding precision of the device is a problem to be solved at present.

Disclosure of Invention

The purpose of the invention is as follows: a winding apparatus capable of adjusting a winding manner is provided to solve the above-mentioned problems in the prior art.

The technical scheme is as follows: a winding apparatus capable of adjusting a winding manner, comprising:

the base assembly comprises a base, a vertical bracket arranged on the base and a horizontal bracket arranged on the vertical bracket;

the lifting mechanism comprises a trunnion type cylinder arranged at the upper end of the vertical support, a lifting assembly arranged at the output end of the trunnion type cylinder, a connecting part arranged on the lifting assembly and a position adjusting assembly arranged on the connecting part;

the clamping mechanism comprises a group of crossed arms symmetrically arranged on the horizontal bracket and clamping components arranged on the crossed arms;

the damping mechanism comprises a connecting frame arranged on the base, a damping component arranged on the connecting frame, and a group of lower pressing plates connected with the damping component;

the rotating mechanism comprises a disc arranged on the lower pressing plate, a rotating motor fixedly connected with the disc, and a rotating assembly arranged at the output end of the rotating motor

In a further embodiment, the lifting assembly comprises a lever arranged on the output end of the ear shaft type air cylinder, a transmission shaft arranged on the lever, a group of connecting blocks symmetrically arranged on two sides of the transmission shaft, a group of damping springs symmetrically arranged on two sides of the transmission shaft and positioned on the connecting blocks, a group of bearing frames symmetrically arranged on two sides of the transmission shaft, and a bearing positioned on the bearing frames and connected with the transmission shaft, wherein the connecting blocks and the bearing are both arranged on the vertical support.

In a further embodiment, the lifting assembly further comprises a group of shock absorbing pads symmetrically arranged on the vertical support and positioned on two sides of the transmission shaft, a connecting part connected with the other end of the transmission shaft, and an upper clamping plate arranged on the connecting part.

In a further embodiment, the position adjusting assembly includes a transmission plate disposed on the connecting portion, a driving portion fixedly connected to the transmission plate, a gear disposed on an output end of the driving portion, and a fixed rack engaged with the gear, the fixed rack being disposed on the transmission plate.

In a further embodiment, the position adjusting assembly further includes a movable rack engaged with the gear, a connecting member fixedly connected to the movable rack, a lower clamping plate disposed on the connecting member, and a slide rail disposed on the transmission plate, wherein the connecting member is of a hollow structure, and is located on the slide rail and slidably connected to the slide rail.

In a further embodiment, the clamping assembly comprises extrusion plates arranged at the other ends of the cross arms, connecting shafts arranged between the cross arms, hydraulic telescopic rods arranged on the connecting shafts, and first pulleys and second pulleys arranged on the cross arms, wherein the first pulleys are positioned on the horizontal support and are in sliding connection with the horizontal support, the second pulleys are positioned on the extrusion plates and are in sliding connection with the extrusion plates, and the hydraulic telescopic rods are arranged on the extrusion plates.

In a further embodiment, the shock absorption assembly comprises two groups of connecting rods symmetrically arranged on the connecting frame and a shock absorption block which is positioned below the lower pressure plate and fixedly connected to the connecting frame, and the lower pressure plate is connected with the other ends of the connecting rods.

In a further embodiment, the rotating assembly comprises a rotating motor fixedly connected with the disc, a driving gear arranged at the output end of the rotating motor, a transmission gear meshed with the driving gear, and a rotating part arranged on the transmission gear, wherein the driving gear and the transmission gear are positioned on the base.

A working method of a winding device capable of adjusting a winding mode comprises the following steps:

s1: when the device starts to wind the product, an operator firstly places the product on the rotating part, and then preparation work before the device is wound is finished;

s2: when the shovel is flatly placed on the rotating part, the disc can move downwards due to the gravity of the product, so that the lower pressing plate starts to work, the moving lower pressing plate drives the connecting rod to start to work, and meanwhile, the downward moving lower pressing plate is contacted with the damping block, so that the damping effect is achieved;

s3: when a product is located at a designated position on the rotating part, the hydraulic telescopic rod starts to work, the moving hydraulic telescopic rod drives the connecting shaft to start to work, the moving connecting shaft drives the cross arm to start to work, the moving cross arm drives the first pulley and the second pulley to respectively start to move on the horizontal support and the extrusion plate, the extrusion plate starts to move downwards, the extrusion plate is contacted with the product, and clamping work is finished;

s4: when the device finishes clamping work, the driving part starts to work at the moment, and then the moving driving part drives the gear to start to work, so that the moving gear starts to move on the fixed rack and simultaneously drives the movable rack to start to move, so that the moving movable rack drives the connecting piece to start to move, and then the moving connecting piece can adjust the position on the slide rail, so that the position of the lower clamping plate on the connecting piece is adjusted, and further a film shaft can be placed between the upper clamping plate and the lower clamping plate, so that the position adjusting work is finished;

s5: when the film shaft is positioned at the designated position, the rotating motor starts to work, the moving rotating motor drives the driving gear to start to work, the moving driving gear drives the transmission gear to start to move, the moving transmission gear drives the rotating part to start to rotate, the product starts to rotate, and the film can be wound on the product;

s6: when the film starts to be wound on the leveling blade, the trunnion type air cylinder starts to work at the moment, the moving trunnion type air cylinder drives the lever to start to move, the working lever drives the transmission shaft to start to work, the moving transmission shaft drives the connecting part to start to work, the film shaft can be driven to start to work in the vertical direction, and the film shaft is matched with the rotating assembly so as to finish the winding work of the whole device;

s7: after the device accomplished winding work, trunnion formula cylinder and rotating electrical machines stop work, and hydraulic telescoping rod reverse work simultaneously, and then make holding down plate principle product up end, operating personnel transported the good product of winding to established region this moment, and then accomplished the winding work to the product.

Has the advantages that: the invention discloses a winding device capable of adjusting winding mode, which is provided with a lifting component and a position adjusting component in order to improve the fault-tolerant rate of a winding machine during winding, when a driving part starts to work, the moving driving part drives a gear to start to work, the moving gear starts to move on a fixed rack and simultaneously drives a moving rack to start to move, the moving rack drives a connecting piece to start to move, the moving connecting piece can adjust the position on a sliding rail and further adjust the position of a lower clamping plate on the connecting piece, a film shaft can be placed between the upper clamping plate and the lower clamping plate to finish the position adjusting work, when the film shaft is positioned at a designated position, a rotating motor starts to work, the moving rotating motor drives a driving gear to start to work, and the moving driving gear drives a transmission gear to start to move, thereby the drive gear of motion drives the rotating part and begins to rotate, and then makes the product begin to rotate, and then makes the film can twine on the product, and then through mutually supporting of the lift subassembly and the position adjustment subassembly that set up, and then avoided the coiler in winding process, thereby lead to the film phenomenon of twining together, thereby can adjust the atress that the winding was taken, and then make the winding take can the maximum expansion, and then improve the winding precision of device.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the lifting assembly of the present invention.

Fig. 3 is a schematic structural diagram of the position adjustment assembly of the present invention.

Fig. 4 is a schematic view of the structure of the clamping assembly of the present invention.

Figure 5 is a schematic view of the shock assembly of the present invention.

Fig. 6 is a schematic view of the rotational structure of the present invention.

The reference signs are: the device comprises a base 1, a lifting assembly 2, a trunnion cylinder 201, a lever 202, a transmission shaft 203, a connecting block 204, a damping spring 205, a bearing 206, a bearing bracket 207, a damping pad 208, an upper clamping plate 209, a vertical support 210, a connecting part 211, a position adjusting assembly 3, a transmission plate 301, a sliding rail 302, a lower clamping plate 303, a driving part 304, a fixed rack 305, a moving rack 306, a connecting part 307, a gear 308, a clamping assembly 4, a cross arm 401, a first pulley 402, a connecting shaft 403, a hydraulic telescopic rod 404, a squeezing plate 405, a second pulley 406, a damping assembly 5, a connecting rod 501, a lower clamping plate 502, a damping block 503, a connecting frame 504, a rotating assembly 6, a rotating motor 601, a transmission gear 602, a driving gear 603, a rotating part 604, a disc 605 and a horizontal support 7.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (the films are wound together and cannot complete the winding work of the product) is that the film shaft moves up and down too fast in the winding process of the existing winding machine, so that the films are wound together, and the wound films can extrude the product and further damage the product, thereby affecting the winding precision of the winding device, and the winding shaft can deviate in the winding process of the existing winding machine, thereby affecting the winding precision of the device. The position of the connecting piece can be adjusted on the slide rail, the position of the lower clamping plate on the connecting piece can be adjusted, the film shaft can be placed between the upper clamping plate and the lower clamping plate, the position adjustment work is further completed, when the film shaft is positioned at the designated position, the rotating motor starts to work, the moving rotating motor drives the driving gear to start to work, the moving driving gear drives the transmission gear to start to move, the moving transmission gear drives the rotating part to start to rotate, the product starts to rotate, the film can be wound on the product, and the phenomenon that the film is wound together in the winding process is further avoided through the mutual matching of the lifting assembly and the position adjustment assembly, so that the stress of the winding belt can be adjusted, and the winding belt can be unfolded to the maximum extent, thereby improving the winding precision of the device.

A winding apparatus capable of adjusting a winding manner, comprising: the device comprises a base 1, a lifting assembly 2, a trunnion cylinder 201, a lever 202, a transmission shaft 203, a connecting block 204, a damping spring 205, a bearing 206, a bearing bracket 207, a damping pad 208, an upper clamping plate 209, a vertical support 210, a connecting part 211, a position adjusting assembly 3, a transmission plate 301, a sliding rail 302, a lower clamping plate 303, a driving part 304, a fixed rack 305, a moving rack 306, a connecting part 307, a gear 308, a clamping assembly 4, a cross arm 401, a first pulley 402, a connecting shaft 403, a hydraulic telescopic rod 404, a squeezing plate 405, a second pulley 406, a damping assembly 5, a connecting rod 501, a lower clamping plate 502, a damping block 503, a connecting frame 504, a rotating assembly 6, a rotating motor 601, a transmission gear 602, a driving gear 603, a rotating part 604, a disc 605 and a horizontal support 7.

The rotating mechanism comprises a rotating motor 601 arranged on the rotating assembly 6, a disc 605 fixedly connected with the rotating motor 601, and a group of lower pressing plates 502 arranged on the disc 605; a shock absorbing mechanism including a shock absorbing assembly 5 disposed on the lower platen 502, a connecting frame 504 disposed on the shock absorbing assembly 5, and a base 1 mounted on the connecting frame 504; the clamping mechanism comprises a group of cross arms 401 arranged on the clamping assembly 4, and a horizontal bracket 7 arranged on the cross arms 401; the base assembly comprises a base 1, a vertical bracket 210 arranged on the base 1, and a horizontal bracket 7 arranged on the vertical bracket 210; elevating system, including setting up trunnion formula cylinder 201 in vertical support 210 upper end is installed the lifting unit 2 of trunnion formula cylinder 201 output sets up connecting portion 211 on the lifting unit 2, and set up position adjustment subassembly 3 on connecting portion 211, when the device begins to carry out the winding work to the product, operating personnel places the product on rotating part 604 earlier, and then accomplishes the preparation work before the device winding.

The lifting assembly 2 comprises a lever 202 arranged on the output end of the trunnion type cylinder 201, a transmission shaft 203 arranged on the lever 202, a group of connecting blocks 204 symmetrically arranged on two sides of the transmission shaft 203, a group of damping springs 205 symmetrically arranged on two sides of the transmission shaft 203 and positioned on the connecting blocks 204, a group of bearing brackets 207 symmetrically arranged on two sides of the transmission shaft 203, and bearings 206 positioned on the bearing brackets 207 and connected with the transmission shaft 203, wherein the connecting blocks 204 and the bearings 206 are both arranged on a vertical bracket 210, when a film starts to be wound on a leveling blade, the trunnion type cylinder 201 starts to work, the moving trunnion type cylinder 201 drives the lever 202 to start to move, the working lever 202 drives the transmission shaft 203 to start to work, the moving transmission shaft 203 drives the connecting part 211 to start to work, and the film shaft can be driven to start to work in the vertical direction, and then cooperate with the rotating assembly 6, and then can accomplish the winding work of the whole device, and then can adjust the lifting speed of the transmission shaft 203, and avoid the phenomenon that the film is wound together in the winding process of the winding machine, and at the same time, through the damping springs 205 arranged at both sides of the transmission shaft 203, and then make the transmission shaft 203 in the process of rising or descending, the transmission shaft 203 can have a horizontal force to the vertical support 210, and then can cause the damping springs 205 to be extruded, and then the deformed damping springs 205 can recover to the original shape, and then generate elastic force, thereby counteracting the horizontal force, and then the transmission shaft 203 only retains the vertical force, and then completes the lifting work of the transmission shaft 203, and at the same time, avoid the extrusion of the transmission shaft 203 to the vertical support 210, and then the safety of the vertical support 210 is guaranteed, and the service life of the device is prolonged, through setting up the bearing 206 of transmission shaft 203 both sides, and then not only can play the direction work to transmission shaft 203, guarantee that the guiding axle can accomplish lifting work, but also can avoid transmission shaft 203 to vertical support 210's damage, and then reach the guard action to vertical support 210.

Lifting unit 2 still includes the symmetry and installs on vertical support 210, and be located a set of shock pad 208 of transmission shaft 203 both sides, with connecting portion 211 that the transmission shaft 203 other end is connected, and set up last grip block 209 on connecting portion 211, through the shock pad 208 that sets up, and then can make last grip block 209 at the lift in-process, can avoid the collision of last grip block 209 and vertical support 210, and then guarantee that last grip block 209 can not damaged, guaranteed the safety of device.

The position adjusting assembly 3 comprises a transmission plate 301 arranged on the connecting portion 211, a driving portion 304 fixedly connected with the transmission plate 301, a gear 308 arranged on an output end of the driving portion 304, and a fixed rack 305 engaged with the gear 308, wherein the fixed rack 305 is arranged on the transmission plate 301, and when the driving portion 304 starts to work, the gear 308 can start to move on the fixed rack 305 by the arranged gear 308, so that the driving work of the device is completed, and the smooth operation of the device is ensured.

The position adjusting assembly 3 further comprises a moving rack 306 engaged with the gear 308, a connecting member 307 fixedly connected with the moving rack 306, a lower clamping plate 303 disposed on the connecting member 307, and a sliding rail 302 disposed on the transmission plate 301, wherein the connecting member 307 is a hollow structure, the connecting member 307 is disposed on the sliding rail 302 and slidably connected with the sliding rail 302, when the device completes the clamping operation, the driving portion 304 starts to operate, the moving driving portion 304 drives the gear 308 to operate, the moving gear 308 starts to move on the fixed rack 305 and drives the moving rack 306 to move, the moving rack 306 drives the connecting member 307 to move, the moving connecting member 307 can adjust the position on the sliding rail 302, the position of the lower clamping plate 303 on the connecting member 307 can be adjusted, and the film axis can be placed between the upper clamping plate 209 and the lower clamping plate 303, thereby completing the position adjustment work

The clamping assembly 4 comprises a squeezing plate 405 installed at the other end of the cross arm 401, a connecting shaft 403 arranged between the cross arms 401, a hydraulic telescopic rod 404 arranged on the connecting shaft 403, and a first pulley 402 and a second pulley 406 arranged on the cross arm 401, wherein the first pulley 402 is positioned on the horizontal bracket 7 and is in sliding connection with the horizontal bracket 7, the second pulley 406 is positioned on the squeezing plate 405 and is in sliding connection with the squeezing plate 405, the hydraulic telescopic rod 404 is arranged on the squeezing plate 405, when a product is positioned at a designated position on the rotating part 604, the hydraulic telescopic rod 404 starts to work, the moving hydraulic telescopic rod 404 drives the connecting shaft 403 to start to work, the moving connecting shaft 403 drives the cross arm 401 to start to work, and the moving cross arm 401 drives the first pulley 402 and the second pulley 406 to start to move on the horizontal bracket 7 and the squeezing plate 405 respectively, and then make stripper plate 405 begin the downward displacement, and then make stripper plate 405 and product contact, and then accomplish clamping work, and then make the product on the rotating part 604 can be located the assigned position, make the product can not take place great skew at rotatory in-process simultaneously, and then improve the winding precision of device, guarantee going on smoothly of winding work.

Damping component 5 is including the symmetry setting two sets of connecting rods 501 on the link 504, and be located holding down plate 502 below, and fixed connection are in snubber block 503 on the link 504, holding down plate 502 is connected with the connecting rod 501 other end, when putting the shovel flat on rotating part 604, can lead to disc 605 downstream because of product self gravity this moment, and then make holding down plate 502 begin work, and then the holding down plate 502 of motion drives connecting rod 501 and begins work, and the holding down plate 502 that moves down simultaneously contacts with snubber block 503, and then reaches absorbing effect, reduces the damage of shovel flat to base 1, and then has guaranteed the safety and the stability of coiler.

The rotating assembly 6 comprises a rotating motor 601 fixedly connected with the circular disc 605, a driving gear 603 arranged at the output end of the rotating motor 601, a transmission gear 602 meshed with the driving gear 603, and a rotating part 604 arranged on the transmission gear 602, wherein the driving gear 603 and the transmission gear 602 are arranged on the base 1, when the film shaft is positioned at a designated position, the rotating motor 601 starts to work, the moving rotating motor 601 drives the driving gear 603 to start to work, the moving driving gear 603 drives the transmission gear 602 to start to move, so that the moving transmission gear 602 drives the rotating part 604 to start to rotate, the product starts to rotate, the film can be wound on the product, after the device finishes winding work, the trunnion type cylinder 201 and the rotating motor 601 stop working, and the hydraulic telescopic rod 404 works reversely, and then make holding down plate 502 principle product up end, operating personnel transports the good product of winding to established region this moment, and then accomplishes the winding work to the product, through using with lifting unit 2 cooperation, and then can accomplish the winding work of coiler, and then guarantee the smooth operation of device.

Description of the working principle: when the device starts to wind a product, an operator places the product on the rotating part 604 first, and then preparation work before the device is wound is completed; when the shovel is flatly placed on the rotating part 604, the disc 605 moves downwards due to the gravity of the product, so that the lower pressing plate 502 starts to work, the moving lower pressing plate 502 drives the connecting rod 501 to start to work, and meanwhile, the downward moving lower pressing plate 502 is contacted with the damping block 503, so that the damping effect is achieved; after the product is located at the designated position on the rotating portion 604, the hydraulic telescopic rod 404 starts to operate, the moving hydraulic telescopic rod 404 drives the connecting shaft 403 to start to operate, the moving connecting shaft 403 drives the cross arm 401 to start to operate, and the moving cross arm 401 drives the first pulley 402 and the second pulley 406 to start to move on the horizontal support 7 and the lower pressing plate 502 respectively, so that the lower pressing plate 502 starts to move downwards, the lower pressing plate 502 is contacted with the product, and the clamping operation is completed; after the device finishes the clamping work, the driving part 304 starts to work at the moment, and then the moving driving part 304 drives the gear 308 to start to work, so that the moving gear 308 starts to move on the fixed rack 305 and simultaneously drives the moving rack 306 to start to move, and then the moving rack 306 drives the connecting piece 307 to start to move, so that the moving connecting piece 307 can adjust the position on the sliding rail 302, and further adjust the position of the lower clamping plate 303 on the connecting piece 307, so that a film shaft can be placed between the upper clamping plate 209 and the lower clamping plate 303, and further the position adjustment work is finished; after the film shaft is located at the designated position, the rotating motor 601 starts to work, the moving rotating motor 601 drives the driving gear 603 to start to work, and then the moving driving gear 603 drives the transmission gear 602 to start to move, so that the moving transmission gear 602 drives the rotating part 604 to start to rotate, and then the product starts to rotate, and further the film can be wound on the product; when the film starts to be wound on the leveling blade, the trunnion cylinder 201 starts to work at the moment, the moving trunnion cylinder 201 drives the lever 202 to start to move, the working lever 202 drives the transmission shaft 203 to start to work, the moving transmission shaft 203 drives the connecting part 211 to start to work, and the film shaft can be driven to start to work in the vertical direction, so that the film shaft is matched with the rotating assembly 6, and the whole winding work of the device can be finished; after the device finishes winding work, the trunnion type cylinder 201 and the rotating motor 601 stop working, meanwhile, the hydraulic telescopic rod 404 works reversely, and then the upper end face of the product is driven to rotate by the lower pressing plate 502 principle, at the moment, an operator transports the wound product to a set area, and then the winding work of the product is finished.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the embodiments, and various equivalent changes can be made to the technical solution of the present invention within the technical idea of the present invention, and these equivalent changes are within the protection scope of the present invention.

Claims (9)

1. A winding apparatus capable of adjusting a winding manner, comprising:

the base assembly comprises a base, a vertical bracket arranged on the base and a horizontal bracket arranged on the vertical bracket;

the lifting mechanism comprises a trunnion type cylinder arranged at the upper end of the vertical support, a lifting assembly arranged at the output end of the trunnion type cylinder, a connecting part arranged on the lifting assembly and a position adjusting assembly arranged on the connecting part;

the clamping mechanism comprises a group of crossed arms symmetrically arranged on the horizontal bracket and clamping components arranged on the crossed arms;

the damping mechanism comprises a connecting frame arranged on the base, a damping component arranged on the connecting frame, and a group of lower pressing plates connected with the damping component;

and the rotating mechanism comprises a disc arranged on the lower pressing plate, a rotating motor fixedly connected with the disc, and a rotating assembly arranged at the output end of the rotating motor.

2. The winding apparatus capable of adjusting a winding manner according to claim 1, wherein: lifting unit is including setting up lever on the shaft type cylinder output of ear is installed transmission shaft on the lever, the symmetry is installed a set of connecting block of transmission shaft both sides, the symmetry is installed transmission shaft both sides, and be located a set of damping spring on the connecting block, the symmetry is installed a set of bearing bracket of transmission shaft both sides, and be located on the bearing bracket, and with the bearing that the transmission shaft is connected, connecting block and bearing all set up on the vertical stand.

3. The winding apparatus capable of adjusting a winding manner according to claim 2, wherein: the lifting assembly further comprises a group of shock pads, a connecting part and an upper clamping plate, wherein the shock pads are symmetrically arranged on the vertical support and positioned on two sides of the transmission shaft, the connecting part is connected with the other end of the transmission shaft, and the upper clamping plate is arranged on the connecting part.

4. The winding apparatus capable of adjusting a winding manner according to claim 1, wherein: the position adjusting assembly comprises a transmission plate arranged on the connecting portion, a driving portion fixedly connected with the transmission plate, a gear arranged on the output end of the driving portion, and a fixed rack meshed with the gear, wherein the fixed rack is arranged on the transmission plate.

5. The winding apparatus capable of adjusting a winding manner according to claim 4, wherein: the position adjustment assembly further comprises a movable rack engaged with the gear, a connecting piece fixedly connected with the movable rack, a lower clamping plate arranged on the connecting piece, and a sliding rail arranged on the transmission plate, wherein the connecting piece is of a hollow structure, and is positioned on the sliding rail and connected with the sliding rail in a sliding manner.

6. The winding apparatus capable of adjusting a winding manner according to claim 1, wherein: the centre gripping subassembly is including installing the stripper plate of crossing the arm other end sets up connecting axle between the crossing arm sets up connecting epaxial hydraulic telescoping rod, and set up first pulley and second pulley on the crossing arm, first pulley be located the horizontal stand, and with horizontal stand sliding connection, the second pulley is located on the stripper plate, and with stripper plate sliding connection, hydraulic telescoping rod sets up on the stripper plate.

7. The winding apparatus capable of adjusting a winding manner according to claim 1, wherein: the shock absorption assembly comprises two groups of connecting rods symmetrically arranged on the connecting frame and shock absorption blocks located below the lower pressing plate and fixedly connected to the connecting frame, and the lower pressing plate is connected with the other ends of the connecting rods.

8. The winding apparatus capable of adjusting a winding manner according to claim 1, wherein: the rotating assembly comprises a rotating motor fixedly connected with the disc, a driving gear arranged at the output end of the rotating motor, a transmission gear meshed with the driving gear, and a rotating part arranged on the transmission gear, wherein the driving gear and the transmission gear are positioned on the base.

9. A working method of winding equipment capable of adjusting a winding mode is characterized by comprising the following steps:

s1: when the device starts to wind the product, an operator firstly places the product on the rotating part, and then preparation work before the device is wound is finished;

s2: when the shovel is flatly placed on the rotating part, the disc can move downwards due to the gravity of the product, so that the lower pressing plate starts to work, the moving lower pressing plate drives the connecting rod to start to work, and meanwhile, the downward moving lower pressing plate is contacted with the damping block, so that the damping effect is achieved;

s3: when a product is located at a designated position on the rotating part, the hydraulic telescopic rod starts to work, the moving hydraulic telescopic rod drives the connecting shaft to start to work, the moving connecting shaft drives the cross arm to start to work, the moving cross arm drives the first pulley and the second pulley to respectively start to move on the horizontal support and the extrusion plate, the extrusion plate starts to move downwards, the extrusion plate is contacted with the product, and clamping work is finished;

s4: when the device finishes clamping work, the driving part starts to work at the moment, and then the moving driving part drives the gear to start to work, so that the moving gear starts to move on the fixed rack and simultaneously drives the movable rack to start to move, so that the moving movable rack drives the connecting piece to start to move, and then the moving connecting piece can adjust the position on the slide rail, so that the position of the lower clamping plate on the connecting piece is adjusted, and further a film shaft can be placed between the upper clamping plate and the lower clamping plate, so that the position adjusting work is finished;

s5: when the film shaft is positioned at the designated position, the rotating motor starts to work, the moving rotating motor drives the driving gear to start to work, the moving driving gear drives the transmission gear to start to move, the moving transmission gear drives the rotating part to start to rotate, the product starts to rotate, and the film can be wound on the product;

s6: when the film starts to be wound on the leveling blade, the trunnion type air cylinder starts to work at the moment, the moving trunnion type air cylinder drives the lever to start to move, the working lever drives the transmission shaft to start to work, the moving transmission shaft drives the connecting part to start to work, the film shaft can be driven to start to work in the vertical direction, and the film shaft is matched with the rotating assembly so as to finish the winding work of the whole device;

s7: after the device accomplished winding work, trunnion formula cylinder and rotating electrical machines stop work, and hydraulic telescoping rod reverse work simultaneously, and then make holding down plate principle product up end, operating personnel transported the good product of winding to established region this moment, and then accomplished the winding work to the product.

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