CN114084715A

CN114084715A - Winding method of winding device for processing PP (polypropylene) woven packing belt

Info

Publication number: CN114084715A
Application number: CN202111589399.8A
Authority: CN
Inventors: 潘剑; 泮俊
Original assignee: Taizhou Weide Packaging Co ltd
Current assignee: Taizhou Weide Packaging Co ltd
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2022-02-25
Anticipated expiration: 2040-05-20
Also published as: CN111547375B; CN111547375A; CN114084715B

Abstract

The invention belongs to the field of packing belts, and particularly relates to a winding method of a winding device for processing a PP braided packing belt. The winding device is provided with the double-station winding and winding module, one station is used for loading and winding, and the other station is used for loading and unloading the belt pipe and discharging, so that the time is saved, and the working efficiency is improved; according to the invention, the belt pipes are automatically loaded and unloaded through the belt pipe lifting turntable module and the belt pipe lifting and transverse moving clamping module, so that time and labor are saved.

Description

Winding method of winding device for processing PP (polypropylene) woven packing belt

Technical Field

The invention belongs to the field of packaging belts, and particularly relates to a winding method of a winding device for processing a PP (polypropylene) woven packaging belt.

Background

The PP packing belt, which is a known name of polypropylene, is a lighter one of common plastics, and the main material of the PP packing belt is polypropylene wire drawing grade resin, and the PP packing belt is widely applied to various fields because of the advantages of good plasticity, strong breaking tension, bending resistance, light specific gravity, convenient use and the like. In traditional packing area rolling technology, go up packing area, coiling packing area and unload the area and all accomplish at a station in proper order, the area pipe of packing area is generally adorned the inflatable through the manual work moreover and is epaxial, also dismantles through the manual work, and whole rolling process very spends time, leads to rolling efficiency high inadequately.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a technical scheme of a winding method of a winding device for processing a PP (polypropylene) woven packing belt.

A winding method of a winding device for processing a PP (polypropylene) woven packing belt comprises the following steps:

s100, a belt pipe lifting turntable module works to lift a belt pipe to a proper height, then a belt pipe lifting and transverse moving clamping module works, the belt pipe lifting and transverse moving clamping module conveys the belt pipe to an air expansion shaft at the left end through lifting and transverse moving, overturning and clamping actions, when the belt pipe on one lifting cylinder for providing the belt pipe is used up, a clutch mechanism drives a driving gear to be separated from a driven gear on the lifting cylinder, then the turntable rotates for a certain angle to enable the next lifting cylinder to reach a station for providing the belt pipe, and the clutch mechanism drives the driving gear to be meshed with the driven gear on the lifting cylinder;

s200, operating the double-station winding module, driving a roller mounting frame to rotate 180 degrees by a roller rotation driving mechanism, and enabling the positions of a left roller mechanism and a right roller mechanism to be interchanged, wherein the left end of an air expansion shaft provided with a belt pipe comes to the right position;

s300, packing a belt on the belt pipe on the right inflatable shaft through a feeding device and a guiding device, driving a motor set to drive the inflatable shaft to rotate by the inflatable shaft for winding, and meanwhile, installing a new belt pipe on the left inflatable shaft by the device;

s400, after the rolling is finished, the roller rotary driving mechanism drives the roller mounting frame to rotate 180 degrees again, so that the positions of the left roller mechanism and the right roller mechanism are exchanged, the roller mechanism on the right side starts rolling, in the roller mechanism on the left side, the first cylinder drives the roller overturning frame and the roller mechanism on the roller overturning frame to overturn 90 degrees, so that the air expansion shaft and the belt pipe on the air expansion shaft are in a vertical state, the air expansion shaft loosens the belt pipe, and the belt pipe and the packing belt fall onto the material receiving disc;

s500 the sixth cylinder drives the material receiving disc to descend until the material is intercepted by the conveyor belt mechanism, and the conveyor belt mechanism conveys away the material.

Furthermore, the winding device comprises a double-station winding and winding module for winding, a belt pipe lifting turntable module for lifting a belt pipe, a belt pipe lifting and transverse moving clamping module for conveying the belt pipe on the belt pipe lifting turntable module to the double-station winding and winding module, and a conveying module for blanking;

the double-station winding module comprises a roller mounting frame, a roller rotation driving mechanism for driving the roller mounting frame to rotate, two roller overturning frames in rotating fit with the roller mounting frame, a roller mechanism arranged on the overturning roller frame and a first air cylinder for driving the roller overturning frames to overturn;

the belt pipe lifting turntable module comprises a turntable, a turntable rotation driving mechanism for driving the turntable to rotate, a plurality of lifting pipe mechanisms which are annularly arranged on the turntable and used for placing and lifting belt pipes, a lifting pipe driving mechanism for driving the lifting pipe mechanisms to work and a clutch mechanism for realizing the clutch function between the lifting pipe driving mechanism and the lifting pipe mechanisms;

the lifting and transverse moving clamping module with the pipe comprises a base, a front and rear transverse moving seat in sliding fit on the base, a second air cylinder for driving the front and rear transverse moving seat to transversely move front and rear, a lifting seat in sliding fit on the front and rear transverse moving seat, a third air cylinder for driving the lifting seat to lift, a turnover seat rotatably installed on the lifting seat, a turnover mechanism for driving the turnover seat to turn over and a clamping mechanism with the pipe arranged on the turnover seat;

further, the roller mechanism comprises an air expansion shaft and an air expansion shaft driving motor set used for driving the air expansion shaft to rotate.

Furthermore, the roller mechanism also comprises an end plate arranged at one end of the air expansion shaft.

Furthermore, the lifting pipe mechanism comprises a lifting cylinder arranged on the turntable, a screw rod rotationally matched in the lifting cylinder, a lifting block screwed on the screw rod and in sliding fit with the lifting cylinder, and a driven gear arranged at the lower end of the screw rod; the lifting pipe driving mechanism comprises a rotating frame which is in rotating fit with the rotating disc, a driving gear which is in rotating fit with the rotating frame and is meshed with the driven gear, and a lifting pipe driving motor set which is arranged on the rotating frame and is used for driving the driving gear to rotate; the clutch mechanism comprises a fourth cylinder for driving the rotating frame to rotate.

Furthermore, the turnover mechanism comprises a turnover shaft in rotating fit with the lifting seat, a turnover gear arranged on the turnover shaft, a rack in sliding fit with the lifting seat and meshed with the turnover gear, and a fifth cylinder for driving the rack to slide up and down, wherein the turnover seat is fixedly matched with the turnover shaft.

Furthermore, the clamping mechanism with the pipe comprises a bidirectional cylinder arranged on the overturning seat, clamping plates arranged at two ends of the bidirectional cylinder and clamping claws fixedly matched with the clamping plates.

Further, the conveying module comprises a front conveying belt mechanism and a rear conveying belt mechanism and a lifting material receiving mechanism arranged between the two conveying belt mechanisms.

Furthermore, the lifting material receiving mechanism comprises a material receiving disc and a sixth air cylinder for driving the material receiving disc to lift.

Compared with the prior art, the invention has the following advantages: the winding device is provided with the double-station winding and winding module, one station is used for loading and winding, and the other station is used for loading and unloading the belt pipe and discharging, so that the time is saved, and the working efficiency is improved; according to the invention, the belt pipes are automatically loaded and unloaded through the belt pipe lifting turntable module and the belt pipe lifting and transverse moving clamping module, so that time and labor are saved.

Drawings

FIG. 1 is a schematic view of a winding device used in the present invention;

FIG. 2 is a schematic structural diagram of a double-station winding and winding module in the winding device adopted in the present invention;

FIG. 3 is a schematic view of an exploded structure of a double-station winding and winding module in the winding device adopted in the present invention;

FIG. 4 is a schematic view of an exploded structure of a double-station winding module in a winding device used in the present invention with a roller rotation driving mechanism removed;

FIG. 5 is a schematic structural diagram of a belt lifting turntable module in a winding device used in the present invention;

FIG. 6 is a schematic cross-sectional view of a belt lifting turntable module in a winding device according to the present invention;

FIG. 7 is a schematic structural view of a belt tube lifting turntable module in a winding device used in the present invention when a turntable rotation driving mechanism is removed;

FIG. 8 is a schematic view of a belt lifting and traversing clamping module in a take-up device according to the present invention;

FIG. 9 is a second schematic view of a belt tube lifting and traversing clamping module in a winding device according to the present invention;

FIG. 10 is a third schematic view of a third exemplary structure of a belt lifting and traversing clamping module in a winding device according to the present invention;

FIG. 11 is a schematic view of a roll-up device with a tube lifting and traversing gripper module for removing a base according to the present invention;

fig. 12 is a schematic structural view of a conveying module in a winding device adopted by the present invention.

Detailed Description

The invention will be further explained with reference to the drawings.

As shown in fig. 1 to 12, the processing and winding device for the PP woven packing belt comprises a frame 5, a double-station winding and winding module 1 for winding, a belt tube lifting turntable module 2 for lifting a belt tube, a belt tube lifting and transverse moving clamping module 3 for conveying the belt tube on the belt tube lifting turntable module 2 to the double-station winding and winding module 1, and a conveying module 4 for blanking. The double-station winding and rolling module 1, the belt pipe lifting turntable module 2, the belt pipe lifting and transverse moving clamping module 3 and the conveying module 4 are all arranged on the rack 5.

The double-station winding and rolling module 1 comprises a roller mounting frame 100 which is in running fit with the rack 5, a roller rotation driving mechanism 101 which is used for driving the roller mounting frame 100 to rotate, two rotation supporting seats 107 which are in running fit with the roller mounting frame 100, a roller overturning frame 102 which is fixedly matched with the rotation supporting seats 107, a roller mechanism which is arranged on the overturning roller frame 102 and a first air cylinder 103 which is used for driving the rotation supporting seats 107 to overturn. The drum rotation driving mechanism 101 is a worm gear reducer, the rear end of the drum mounting rack 100 is provided with a main shaft, and the worm gear reducer is in transmission fit with the main shaft to drive the drum mounting rack 100 to rotate. The output shaft of the first cylinder 103 is fixedly matched with a hinged seat which is hinged with a connecting rod, the connecting rod is hinged with the rotating supporting seat 107, the first cylinder 103 drives the connecting rod to rotate, the connecting rod drives the rotating supporting seat 107 to rotate, and the rotating supporting seat 107 drives the roller overturning frame 102 and the roller mechanism thereon to rotate so as to realize overturning. The roller mechanism comprises an air expansion shaft 104, an air expansion shaft driving motor set 105 for driving the air expansion shaft 104 to rotate and an end plate 106 arranged at one end of the air expansion shaft 104, the air expansion shaft driving motor set 105 and the air expansion shaft 104 are driven by a belt pulley, and the air expansion shaft 104 is a known technology and has the advantages that the whole shaft is not required to be unloaded after unloading, and the material can be taken away after direct air release.

The double-station winding module 1 can realize the following actions during working: the worm gear reducer drives the roller mounting rack 100 to turn over 180 degrees, so that the two roller mechanisms on the roller mounting rack 100 can exchange positions; the first cylinder 103 drives the roller turnover frame 102 and the roller mechanism on the roller turnover frame to turn over for 90 degrees, so that the original horizontal air expansion shaft 104 is in a vertical state, the blanking is convenient, and the first cylinder 103 drives the roller mechanism to reset after the blanking; the air expansion shaft driving motor set 105 drives the air expansion shaft 104 to rotate, and winding are achieved.

The belt tube lifting turntable module 2 comprises a turntable 200 which is in running fit with the rack 5, a turntable rotation driving mechanism 201 for driving the turntable 200 to rotate, a plurality of lifting tube mechanisms which are annularly arranged on the turntable 200 and used for placing and lifting belt tubes, a lifting tube driving mechanism for driving the lifting tube mechanisms to work, and a clutch mechanism for realizing the clutch function between the lifting tube driving mechanism and the lifting tube mechanisms. The turntable rotation driving mechanism 201 is a worm gear speed reducer, the center of the turntable 200 is provided with a main shaft, and the worm gear speed reducer is in transmission fit with the main shaft, so that the purpose of rotating the turntable is achieved.

The lifting pipe mechanism comprises a lifting cylinder 202 arranged on the turntable 200, a screw 203 in rotating fit in the lifting cylinder 202, a lifting block 204 in threaded connection with the screw 203 and in sliding fit with the lifting cylinder 202, and a driven gear 205 arranged at the lower end of the screw 203; the riser driving mechanism comprises a rotating frame 206 which is in rotating fit with the turntable 200, a driving gear 207 which is in rotating fit with the rotating frame 206 and is meshed with the driven gear 205, and a riser driving motor group 208 which is arranged on the rotating frame 206 and is used for driving the driving gear 207 to rotate; the clutch mechanism includes a fourth cylinder 209 for rotating the turret 206. The lifting block 204 is slidably fitted inside the lifting cylinder 202, sliding grooves are formed in two sides of the lifting cylinder 202, protruding blocks are arranged on two sides of the lifting block 204 and can slide on the sliding grooves, a lifting sleeve 210 is sleeved outside the lifting cylinder 202, the lifting sleeve 210 and the protruding blocks are fixed through screws, and when the lifting cylinder is used specifically, the belt pipe is sleeved outside the lifting cylinder 202 and supported on the lifting sleeve 210, and the belt pipe is driven to ascend through the lifting sleeve 210.

The belt tube lifting turntable module 2 can realize the following actions during working: the turntable rotation driving mechanism 201 drives the turntable to rotate; the lifting pipe driving motor group 208 drives the driving gear 207 to rotate, the driving gear 207 drives the driven gear 205 to rotate, the driven gear 205 drives the screw rod 203 to rotate, the screw rod 203 drives the lifting block 204 on the screw rod to ascend together with the lifting sleeve 210, and the lifting sleeve 210 drives the belt pipe placed on the support sleeve 210 to ascend; the fourth cylinder 209 rotates the rotating frame 206 to separate the driving gear 207 from the driven gear 205.

It should be noted that the position of only one station in the belt tube lifting turntable module 2 corresponds to the belt tube lifting-traversing clamping module 3, the lifting cylinder 202 at the station provides the belt tube for the winding device of the present invention, and when the belt tube on the lifting cylinder 202 is used up, the turntable 200 rotates to replace the next lifting cylinder 202 to the station to continue providing the belt tube.

The lifting and transverse moving clamping module 3 with the pipe comprises a base 300, a front and rear transverse moving seat 301 in sliding fit on the base 300, a second air cylinder 302 for driving the front and rear transverse moving seat 301 to transversely move front and rear, a lifting seat 303 in sliding fit on the front and rear transverse moving seat 301, a third air cylinder 304 for driving the lifting seat 303 to lift, a turning seat 312 rotatably installed on the lifting seat 303, a turning mechanism for driving the turning seat 312 to turn over, and a clamping mechanism with the pipe arranged on the turning seat, wherein the clamping mechanism with the pipe corresponds to the roller mechanism at the left end.

The turnover mechanism comprises a turnover shaft 305 in rotating fit with the lifting seat 303, a turnover gear 306 arranged on the turnover shaft 305, a rack 307 in sliding fit with the lifting seat 303 and meshed with the turnover gear 306, and a fifth cylinder 308 for driving the rack 307 to slide up and down, wherein the turnover seat 312 is fixedly matched with the turnover shaft 305.

The belt tube clamping mechanism comprises a bidirectional cylinder 309 arranged on an overturning seat 312, clamping plates 310 arranged at two ends of the bidirectional cylinder 309 and clamping claws 311 fixedly matched with the clamping plates 310.

The lifting and transverse moving clamping module 3 with the pipe can realize the following actions: the second cylinder 302 drives the front-back transverse moving seat 301 to transversely move front and back on the base 300; the third cylinder 304 drives the lifting seat 303 to lift on the front and back transverse moving seat; the fifth cylinder 308 drives the rack 307 to slide, the rack 307 drives the overturning gear 306 to rotate by 90 degrees, and the overturning gear 306 drives the overturning shaft 305 and the overturning seat 312 to overturn by 90 degrees, so that the pipe clamping mechanism on the overturning seat 312 is switched between a horizontal state and a vertical state; the bidirectional cylinder 309 drives the clamping plates 310 at the upper and lower ends to move, and the clamping plates 310 drive the clamping claws 311 to move, so that the two clamping claws 311 are closed or separated.

The conveying module 4 comprises a front conveying belt mechanism 400 and a rear conveying belt mechanism 400 and a lifting material receiving mechanism arranged between the two conveying belt mechanisms 400, and the lifting material receiving mechanism comprises a material receiving disc 401 and a sixth air cylinder 402 used for driving the material receiving disc 401 to lift. The position of the take-up pan 401 corresponds to the position of the roller mechanism at the left end.

The transport module 4 is able to perform the following actions: the sixth cylinder 402 drives the receiving tray 401 to ascend for receiving materials, after the materials are received, the sixth cylinder 402 drives the receiving tray 401 to descend until the materials are intercepted by the conveyor belt mechanism 400, and the conveyor belt mechanism 400 conveys the materials away.

A winding method of the processing winding device comprises the following steps:

s100, the belt pipe lifting turntable module 2 works to lift a belt pipe to a proper height, then the belt pipe lifting and transverse moving clamping module 3 works, the belt pipe lifting and transverse moving clamping module 3 conveys the belt pipe to the air expansion shaft 104 at the left end through lifting and transverse moving, overturning and clamping actions, when the belt pipe on one lifting cylinder 202 for supplying the belt pipe is used up, the clutch mechanism drives the driving gear 207 to be separated from the driven gear 205 on the lifting cylinder 202, then the turntable 200 rotates for a certain angle to enable the next lifting cylinder 202 to reach a station for supplying the belt pipe, and the clutch mechanism drives the driving gear 207 to be meshed with the driven gear 205 on the lifting cylinder 202;

s200, the double-station winding module 1 works, a roller rotating driving mechanism 101 drives a roller mounting frame 100 to rotate 180 degrees, the positions of a left roller mechanism and a right roller mechanism are exchanged, and an air expansion shaft 105 with a pipe is arranged at the left end and comes to the right position;

s300, packing a belt on the belt pipe on the right inflatable shaft 104 through an additionally equipped feeding device and a guiding device, driving a motor set 105 by the inflatable shaft to drive the inflatable shaft 104 to rotate for winding, and meanwhile, installing a new belt pipe on the left inflatable shaft 104 by the device through manual feeding and guiding;

s400, after the rolling is finished, the roller rotating driving mechanism 101 drives the roller mounting frame 100 to rotate 180 degrees again, so that the positions of the left roller mechanism and the right roller mechanism are exchanged, the roller mechanism on the right side starts rolling, in the roller mechanism on the left side, the first air cylinder 103 drives the roller overturning frame 102 and the roller mechanism on the roller overturning frame to overturn 90 degrees, so that the air expansion shaft 104 and a belt pipe on the air expansion shaft are in a vertical state, the air expansion shaft 104 loosens the belt pipe, and the belt pipe is communicated with a packing belt and falls onto the material receiving disc 401;

s500, the sixth air cylinder 402 drives the material receiving disc 401 to descend until the material is intercepted by the conveyor belt mechanism 400, and the conveyor belt mechanism 400 conveys the material away.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A winding method of a winding device for processing a PP (polypropylene) woven packing belt is characterized by comprising the following steps:

2. The winding method of a winding device for processing the PP weaving packing belt according to claim 1, wherein the winding device comprises a double-station winding module for winding, a belt pipe lifting turntable module for lifting a belt pipe, a belt pipe lifting and traversing clamping module for conveying the belt pipe on the belt pipe lifting turntable module to the double-station winding module, and a conveying module for blanking;

the lifting and transverse moving clamping module with the pipe comprises a base, a front and rear transverse moving seat in sliding fit on the base, a second cylinder for driving the front and rear transverse moving seat to transversely move forwards and backwards, a lifting seat in sliding fit on the front and rear transverse moving seat, a third cylinder for driving the lifting seat to lift, a turnover seat rotatably installed on the lifting seat, a turnover mechanism for driving the turnover seat to turn over and a clamping mechanism with the pipe arranged on the turnover seat.

3. The winding device for the PP weaving, packing and belt processing as claimed in claim 2, wherein the roller mechanism comprises an air expansion shaft and an air expansion shaft driving motor set for driving the air expansion shaft to rotate.

4. The winding device for the PP weaving and packing belt according to claim 3, wherein the roller mechanism further comprises an end plate provided with one end of the inflatable shaft.

5. The winding device for processing the PP weaving packing belt according to claim 2, wherein the lifting pipe mechanism comprises a lifting cylinder arranged on the turntable, a screw rod rotationally matched in the lifting cylinder, a lifting block screwed on the screw rod and in sliding fit with the lifting cylinder, and a driven gear arranged at the lower end of the screw rod; the lifting pipe driving mechanism comprises a rotating frame which is in rotating fit with the rotating disc, a driving gear which is in rotating fit with the rotating frame and is meshed with the driven gear, and a lifting pipe driving motor set which is arranged on the rotating frame and is used for driving the driving gear to rotate; the clutch mechanism comprises a fourth cylinder for driving the rotating frame to rotate.

6. The winding device for processing the PP weaving and packing belt according to claim 2, wherein the turnover mechanism comprises a turnover shaft rotatably fitted on the lifting seat, a turnover gear arranged on the turnover shaft, a rack slidably fitted on the lifting seat and engaged with the turnover gear, and a fifth cylinder for driving the rack to slide up and down, wherein the turnover seat is fixedly fitted with the turnover shaft.

7. The winding device for processing the PP weaving, packing and belt according to claim 2, wherein the belt clamping mechanism comprises a bidirectional cylinder arranged on the overturning seat, clamping plates arranged at two ends of the bidirectional cylinder and clamping claws fixedly matched with the clamping plates.

8. The winding device for the PP weaving, packing and belt processing as claimed in claim 2, wherein the conveying module comprises a front conveyor belt mechanism and a rear conveyor belt mechanism and a lifting material receiving mechanism arranged between the two conveyor belt mechanisms.

9. The winding device for the PP weaving, packing and belt processing as claimed in claim 8, wherein the lifting and receiving mechanism includes a receiving tray and a sixth cylinder for driving the receiving tray to lift.