CN112551226A

CN112551226A - Winding mechanism of paper winding machine

Info

Publication number: CN112551226A
Application number: CN202011480019.2A
Authority: CN
Inventors: 朱永胜
Original assignee: Pingyang Ruiou Machinery Co ltd
Current assignee: Pingyang Ruiou Machinery Co ltd
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2021-03-26
Anticipated expiration: 2040-12-15
Also published as: CN112551226B

Abstract

The invention discloses a winding mechanism of a paper winder, which comprises: the winding device comprises a frame body, a rotary table rotationally arranged on the frame body and a plurality of winding shafts arranged on the rotary table, wherein the winding shafts comprise winding A shafts and winding B shafts which are circumferentially staggered along the circumference of the rotary table, and the number of the winding A shafts is the same as that of the winding B shafts; the driving device drives the turntable to rotate and drives the coiling A shaft and the coiling B shaft to be positioned on each station; the multi-station winding mechanism further comprises a transmission mechanism for driving the winding shaft to rotate, the transmission mechanism comprises a transmission mechanism A unit for controlling the winding shaft A to rotate and a transmission mechanism B unit for controlling the winding shaft B to rotate, the winding shaft A and the winding shaft B are respectively provided with a transmission part which is in transmission with the transmission mechanism, the winding shaft A and the winding shaft B are respectively provided with an electric control clutch part which is used for controlling the winding shaft A and the winding shaft B to be separated from the transmission part, and the transmission mechanism is also provided with a speed regulation mechanism.

Description

Winding mechanism of paper winding machine

Technical Field

The invention relates to the field of roll paper production equipment, in particular to a winding mechanism of a paper winding machine.

Background

In existing roll paper production equipment, paper can be wound to obtain a roll. The existing roll paper equipment can comprise roll-up shafts driven to rotate, at least two roll-up shafts are required according to station setting, each roll paper device comprises a feeding station, a pre-roll station, a roll-up station and a discharging station, the roll-up shafts on the pre-roll station and the roll-up station are driven to rotate to pre-roll paper and roll-up paper, the required rotating speeds of the roll-up shafts on the pre-roll station and the roll-up station when the paper is rolled to different diameters are different, in addition, in some automatic roll paper production equipment, in order to improve the productivity, the roll-up shafts are often arranged according to the stations, the roll-up shafts on the pre-roll-up station and the roll-up station are removed, other roll-up shafts need to rotate, and therefore the corresponding roll-up shafts are often controlled to rotate in sequence by arranging a plurality of independent powers in the prior art, and the equipment cost is greatly improved.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an energy-saving paper rolling device, which reduces power sources and realizes the control of a multi-station winding shaft.

In order to achieve the purpose, the invention provides the following technical scheme: a winding mechanism of a reel-up, comprising:

the winding device comprises a support, a rotary table rotationally arranged on the support and a plurality of winding shafts arranged on the rotary table, wherein the winding shafts comprise winding A shafts and winding B shafts which are circumferentially staggered along the circumference of the rotary table, and the number of the winding A shafts is the same as that of the winding B shafts;

the driving device drives the turntable to rotate and drives the coiling A shaft and the coiling B shaft to be positioned on each station;

still including driving roll-up axle pivoted drive mechanism, this drive mechanism is including controlling a plurality of roll-up A axle pivoted drive mechanism A unit and controlling a plurality of roll-up B axle pivoted drive mechanism B unit, roll-up A axle and roll-up B axle all set up with the driven transmission portion of drive mechanism, roll-up A axle and roll-up B axle all are provided with the automatically controlled clutch parts that are used for control and transmission portion to break away from, drive mechanism still is provided with speed adjusting mechanism.

As a further improvement of the present invention, the transmission mechanism a unit and the transmission mechanism B unit each include a servo motor and a conveyor belt, the speed adjusting mechanism is a speed adjusting unit in the servo motor, the transmission part includes a transmission wheel a disposed on the winding a shaft and a transmission wheel B disposed on the winding B shaft, the transmission wheel a and the transmission wheel B are staggered in the axial position of the winding shaft, a transmission wheel C is disposed on the output shaft of the servo motor, the conveyor belt is wound with a plurality of transmission wheels a and transmission wheels C on the corresponding servo motors, and another conveyor belt is wound with a plurality of transmission wheels B and transmission wheels C on the corresponding servo motors.

As a further improvement of the present invention, the transmission mechanism a unit and the transmission mechanism B unit each include a transmission belt, the transmission part includes a transmission wheel a and a transmission wheel B, which are respectively disposed on the winding a shaft, the transmission wheel a and the transmission wheel B are staggered on the axial position of the winding shaft, the number of the motors is one, two transmission wheels C are disposed on the output shaft of the motor, a plurality of transmission wheels a and C and a plurality of transmission wheels B and another transmission wheel C are respectively wound on the two transmission belts, and the speed adjusting mechanism is a friction clutch disposed between the output shaft of the motor and the transmission wheels C to control friction force or a friction clutch disposed between the rotation of a plurality of winding a shafts and a plurality of winding B shafts.

As a further improvement of the invention, when the motor is arranged on the bracket, the conveyor belt is provided with a tensioning mechanism which adjusts and keeps the conveyor belt in a tensioning state when the turntable rotates to position the furling A shaft and the furling B shaft to the next station.

As a further improvement of the invention, the driving wheel a and the driving wheel B are both provided with a connecting shaft, the electrically controlled clutch component is a clutch, the clutch is sleeved on the connecting shaft of the winding a shaft and the driving wheel a, the clutch is fixedly connected with the winding a shaft or the connecting shaft of the driving wheel a, and the clutch driving part is electrically controlled to be disengaged from the winding a shaft or the driving wheel a.

As a further improvement of the invention, the tensioning mechanism comprises a power component, a tensioning wheel and a swinging rod, the middle section of the connecting shaft is fixedly connected with the bracket, an output shaft of the power component is hinged with one end of the swinging rod, the other end of the swinging rod is rotatably connected with the tensioning wheel, the tensioning wheel is abutted against the transmission belt, and the power component drives the swinging rod to rotate to keep the tensioning wheel abutted against the transmission belt.

As a further improvement of the invention, the circumferential surface of the rotating disc is provided with the insections, the driving device comprises a motor and a driving gear, the driving gear is fixed on an output shaft of the motor, and the driving gear is meshed with the circumferential surface of the rotating disc.

As a further improvement of the invention, the output shafts of the motors are all sleeved with support shafts, the transmission wheel C is fixedly sleeved on the support shafts, the support is provided with a mounting groove, a bearing is arranged in the mounting groove, and one end of each support shaft is rotatably connected with the bearing.

As a further improvement of the invention, the circumferential surface of the turntable is also provided with a smooth surface, the support is provided with a plurality of positioning wheels which are arranged at equal intervals along the circumference of the turntable, and the plurality of positioning wheels are mutually butted with the smooth surface of the turntable.

As a further improvement of the invention, the transmission wheel A and the transmission wheel B are gears, and the transmission belt is a tooth surface transmission belt meshed with the transmission wheel A or the transmission wheel B.

The invention has the beneficial effects that: the transmission between the transmission device of the winding shaft and the winding shaft is controlled by the clutch, so that the winding shaft which is not at the winding and pre-winding stations is stopped by the clutch, one or two motors can be used for controlling the rotation of all the winding shafts, the equipment cost is reduced, the conveying power of the motors is reduced, the energy consumption is reduced, the loss of the motors is greatly reduced, on the other hand, the work of a feeding station and a blanking station is not hindered, and in addition, the rotation speed of the winding shafts of the winding and pre-winding stations is controlled by taking the friction clutch as a speed regulator, so that the rotation speeds of the winding shafts of the winding and pre-winding stations are adjusted to different degrees when the paper rolls with different specifications are wound, and the rotation speed adjustment is more accurate.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a first embodiment of the transmission mechanism of the present invention;

FIG. 3 is a schematic structural view of a first embodiment of the transmission mechanism of the present invention;

FIG. 4 is a schematic structural diagram of a second embodiment of the transmission mechanism of the present invention;

FIG. 5 is a schematic structural view of a gluing mechanism for a paper tube according to the present invention;

FIG. 6 is a schematic view of a gluing roller mounting structure of the gluing mechanism for a paper tube according to the present invention;

FIG. 7 is a schematic view of the floating assembly mounting structure of the paper tube gluing mechanism of the present invention;

FIG. 8 is a schematic view of the floating assembly of the gluing mechanism for paper tubes according to the present invention.

Reference numerals: 1. a support; 2. a turntable; 3. reeling a shaft; 31. rolling up the A shaft; 32. rolling up the B shaft; 4. a feeding mechanism; 41. a vibration plate; 42. a feeding frame; 421. a frame body; 422. a first conveyor belt; 423. an upper pressure plate 424 and a limit side plate; 425. an installation part; 426. adjusting the bolt; 427. a base body; 428. a second conveyor belt; 43. a discharge port; 5. a paper tube gluing mechanism; 51. a paper tube gluing device; 511. a glue groove; 512. gluing rollers; 513. a support arm; 514. a clip; 515. mounting grooves; 516. an elastic member; 517. a slider; 5171. a rotating shaft; 5172. a metal sheath; 518. a baffle plate; 519. positioning holes; 52. a mounting frame; 53. a slide rail; 54. a slider; 6. a paper roll cutting mechanism; 7. a paper roll gluing mechanism; 8. a drive device; 81. a drive gear; 82. positioning wheels; 9. a transmission mechanism; 91. a conveyor belt; 92. a motor; 921. a support shaft; 922. positioning a groove; 93. a driving wheel; 94. a friction clutch; 95. an electrically controlled clutch component; 96. a tensioning mechanism; 961. a power component; 962. a tension wheel; 963. a swing lever; 10. a paper tube feeding mechanism; 11. a blanking mechanism.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals.

Referring to fig. 1, a paper winder of this embodiment includes a support 1, a turntable 2 rotatably disposed on the support 1, and a driving device 8 for driving the turntable 2 to rotate, the turntable 2 is provided with reeling shafts 3 arranged at equal intervals along the circumferential direction, the support 1 is correspondingly provided with a feeding mechanism 4, a paper tube gluing mechanism 5, a paper roll cutting mechanism 6, a paper roll gluing mechanism 7, and a discharging mechanism along the circumferential direction of the turntable 2, the reeling shafts 3 include reeling a shafts 31 and reeling B shafts 32 circumferentially staggered along the circumferential direction of the turntable 2, when the reeling shaft 3 at the pre-reeling station position is defined as the reeling a shaft 31, the other reeling shaft 3 disposed adjacent thereto is the reeling B shaft 32, the other reeling a shaft 31 disposed adjacent to the reeling B shaft 32 is the reeling a shaft 31, and the driving mechanism 9 for driving the reeling shaft 3 to rotate is further included, the driving mechanism 9 includes a conveying belt 91 and a motor 92, the reeling shaft 3 is provided with a driving wheel 93 for driving the conveying belt 91, the feeding mechanism 4 pushes the roll paper core to the roll-up shaft 3, the roll paper core is fixed on the roll-up shaft 3, the roll-up shaft is preferably of an air expansion shaft structure, after the roll paper core is fed, the driving device 8 drives the turntable 2 to rotate, the roll-up shaft 3 fixed with the roll paper core is rotated to a pre-roll-up position, the paper tube gluing mechanism 5 is close to the roll-up shaft 3 of the pre-roll-up position to glue the paper roll, the roll paper feeding mechanism 4 is arranged on one side of the bracket 1, the roll paper material is transmitted to the roll-up shaft 3 of the pre-roll-up position through the roll paper feeding mechanism 4 and is mutually bonded with the roll paper core, meanwhile, the motor 92 drives the roll-up shaft 3 to rotate for roll-up work, after the roll-up shaft 3 is completed in the pre-roll-up work, the driving device 8 drives the turntable 2 to rotate the roll-up shaft 3 completing the pre-roll-up, when the motor 92 drives the winding shaft of the winding station to work, the winding shaft adjacent to the pre-winding station can be driven to rotate, after winding is finished, the paper roll cutting mechanism 6 cuts paper, the paper roll gluing mechanism 7 glues the tail of the paper roll and presses the winding shaft 3 on the winding station through the pressing piece, so that the tail of the paper roll is pressed with the paper roll, after the winding station finishes winding, the transmission mechanism controls the winding shaft of the winding station to stop rotating, the driving device 8 drives the turntable 2 to rotate again, the winding shaft 3 rotates to the discharging station, and the discharging mechanism discharges the paper roll from the winding shaft 3.

As shown in fig. 2-3, another specific embodiment of the transmission mechanism 9 is that the number of the furling shafts 3 is an even number, the number of the furling shafts 3 is at least 4, the number of the conveyor belts 91 is two, two conveyor belts 91 respectively control the rotation of a plurality of furling a shafts 31 and the rotation of a plurality of furling B shafts 32, two motors 92 respectively control the transmission of two conveyor belts 91, two motors 92 are servo motors 92, the servo motors 92 can be controlled by programs to adjust speed, a plurality of furling shafts 3 are respectively provided with an electrically controlled clutch component 95 for controlling the separation from the drive wheels 93, the furling shafts 3 are driven by the motors 92 linked with the furling shafts 3 when rotating to the pre-furling station, the electrically controlled clutch components 95 on other furling shafts 3 on the same conveyor belt control the transmission parts to be disengaged from the furling shafts 3, and the furling shafts 3 at the furling station are driven to rotate by, the electric control clutch components 95 on other furling shafts 3 on the same transmission belt control the transmission part to be mutually disengaged with the furling shaft 3, the electric control clutch components 95 can be selected as a mechanical clutch, two servo motors 92 can respectively control the rotating speed of the furling shaft 3 on a pre-furling station and a furling station, the servo motors 92 are fixedly arranged on the rotary table 2, the motors 92 can also be arranged on the support 1, when the motors 92 are arranged on the support 1, the transmission belt 91 is also provided with a tensioning mechanism 96, and the tensioning mechanism 96 adjusts and keeps the transmission belt 91 in a tensioning state when the rotary table 2 rotates the furling A shaft 31 and the furling B shaft 32 to be positioned to the next station.

As shown in fig. 4, another specific embodiment of the transmission mechanism 9 is that the number of the furling shafts 3 is even, the number of the furling shafts 3 is at least 4, the number of the conveyor belts 91 is two, two conveyor belts 91 respectively control a plurality of furling a shafts 31 to rotate and a plurality of furling B shafts 32 to rotate, the number of the motor 92 is one, two transmission wheels C are arranged on an output shaft of the motor 92, the two transmission wheels C are in transmission with the two conveyor belts 91, the motor 92 can be a common step motor 92, two friction clutches 94 respectively controlling the two transmission wheels C are arranged on an output shaft of the motor 92, the two friction clutches 94 are fixed on an output shaft of the motor 92, the two transmission wheels C are rotatably arranged on an output shaft of the motor 92, the friction clutches 94 control the friction force between the output shaft of the motor 92 and the transmission wheels C to adjust the rotation speed of the transmission wheels, when the friction clutch 94 comprises an input shaft with an outer ring and an output shaft with an inner ring, the output shaft of the motor 92 is connected with a sleeve, the outer ring of the friction clutch 94 is fixedly sleeved inside the sleeve, the driving wheel C is connected with the output shaft with the inner ring, a window is arranged at the position of the sleeve corresponding to the driving wheel C for the transmission belt 91 to pass through, a plurality of furling shafts 3 are all provided with an electric control clutch component 95 for controlling the separation from the driving wheel 93, the furling shafts 3 are mutually linked with the driving wheel C when rotating to a pre-furling station through the friction clutch 94, the electric control clutch components 95 on other furling shafts 3 on the same driving belt control the transmission parts to be mutually disengaged with the furling shafts 3, meanwhile, the furling shafts 3 on the furling station are driven to rotate by the other driving wheel C, the electric control, the two drive wheels C can control the rotational speed of the take-up spindle 3 in the pre-take-up position and in the take-up position by means of two friction clutches 94, respectively, in a further preferred embodiment, when one motor drives two conveyor belts, two driving wheels C are arranged on the output shaft of the motor, the two driving wheels C are driven by the two conveyor belts 91, a plurality of furling shafts 3 are respectively provided with a friction clutch 94 for controlling the friction force between the furling shafts and the driving wheels 93, the rotating speeds of the furling shafts of the pre-furling station and the furling station are controlled by a friction clutch 94, the motor 92 is fixedly arranged on the turntable 2, the motor 92 can also be arranged on the bracket 1, when the motor 92 is provided on the stand 1, the belt 91 is further provided with a tensioning mechanism 96, and the tensioning mechanism 96 adjusts to keep the belt 91 in a tensioned state when the turntable 2 rotates the take-up a spindle 31 and the take-up B spindle 32 to be positioned to the next station.

The take-up spindle 3 and the drive wheel 93 on the output shaft of the motor 92 can preferably both be provided as a drive wheel 93 with toothed flanks, the drive belt being a toothed belt which engages with the drive wheel 93 for increasing the friction and preventing slipping.

Through setting up motor 92 on support 1, do not rotate along with carousel 2 and rotate, alleviate carousel 2 pivoted resistance, simultaneously when motor 92 quantity is one, through setting up motor 92 on support 1, avoid the unbalance of carousel 2 weight.

As shown in fig. 2-4, wherein the driving device 8 can drive the turntable 2 by any conventional driving method, preferably, the circumferential surface of the turntable 2 is provided with teeth, the driving device 8 includes a motor 92 and a driving gear 81, the driving gear 81 is fixed on an output shaft of the motor 92, the driving gear 81 is meshed with the circumferential surface of the turntable 2, the circumferential surface of the turntable 2 is also provided with a smooth surface, the support 1 is provided with a plurality of positioning wheels 82 arranged at equal intervals along the circumference of the turntable 2, and the plurality of positioning wheels 82 are abutted against the smooth surface of the turntable 2 to realize the smooth rotation of the turntable 2.

The motor 92, when arranged on the turntable 2, can directly drive one of the take-up shafts 3 on the same conveyor belt 91, or it can be arranged elsewhere on the turntable 2 to engage the conveyor belt 91 by means of a drive wheel 93. When the motor 92 is arranged on the bracket 1, a driving wheel 93 is arranged on an output shaft of the motor 92 and is meshed with the conveyor belt 91.

When motor 92 sets up on support 1, motor 92 output shaft all overlaps and is equipped with support shaft 921, and drive wheel C sets up the fixed cover and establishes on support shaft 921, is provided with constant head tank 922 on support 1, is provided with the bearing in this constant head tank 922, and the one end and the bearing of support shaft 921 rotate to be connected, realize the stable transmission of motor 92 output shaft.

The tensioning mechanism 96 may be a spring with tension that keeps the tensioning wheel 962 pulling the conveyor belt 91 taut at all times, wherein the tensioning mechanism 96 may alternatively be a pull rod with a power source, which may be an air cylinder or an oil cylinder or a motor 92. The preferred tensioning mechanism 96 comprises a power component 961, a tension wheel 962 and a swinging rod 963, the middle section of the connecting shaft is fixedly connected with the bracket 1, the output shaft of the power component 961 is hinged with one end of the swinging rod 963, the other end of the swinging rod 963 is rotatably connected with the tension wheel 962, the tension wheel 962 is abutted against the transmission belt, the power component 961 drives the swinging rod 963 to rotate to keep the tension wheel 962 abutted against the transmission belt 91, the position of the winding shaft 3 on the turntable 2 is changed along with the rotation of the turntable 2 as the transmission wheel 93 of the motor 92 is arranged on the bracket 1 during the rotation of the turntable 2, the power component 961 of the tensioning mechanism 96 drives the swinging rod 963, and the transmission belt 91 is kept in a tensioned state all the time during the rotation of the turntable 2.

As shown in fig. 8, the feeding mechanism 4 includes a paper tube feeding mechanism 10, which includes a vibration plate 41 and a feeding frame 42, the vibration plate 41 is provided with a discharge port 43, the discharge port 43 is in a strip shape adapted to a paper tube, the vibration plate 41 drives the paper tube to be arranged at the discharge port 43 in the axial direction thereof through vibration, the feeding frame 42 includes a frame body 421, a first conveyor belt 422 and a first driving device 8 for driving the first conveyor belt 422 to transmit, the first conveyor belt 422 is rotatably disposed on the frame body 421, the discharge port 43 is disposed at an end portion of the first conveyor belt 422, the paper tube vibrates to the discharge port and contacts with the conveyor belt 91, the conveyor belt drives the paper tube to advance, an upper pressing plate 423 is further disposed at a position near one end of the vibration plate 421, a conveying channel which vertically contacts the paper tube is formed between the upper pressing plate 423 and the first conveyor belt 422, by disposing the upper pressing plate 423, the friction between the paper, continuously drive the fiber container and convey on first conveyer belt 422, first conveyer belt 422 conveys the feed mechanism with a plurality of fiber container, and feed mechanism is including the conveyer belt, sets up interval adjusting device on the feed mechanism, and this interval adjusting device can be the baffle of intermittent type lift, and this baffle sets up the tip at feed mechanism's conveyer belt for control a plurality of fiber container, feed mechanism establishes a plurality of fiber container cover on the conveyer belt on the roll-up axle of material loading station.

Preferably, the frame body 421 is provided with limiting side plates 424 at two sides of the first conveyor belt 422, a paper tube conveying channel is formed between the two limiting side plates 424, and the limiting side plates 424 keep the axes of a plurality of paper tubes aligned all the time.

Further preferably, the width between two spacing curb plates 424 is adjustable set up in support body 421 both sides, top board 423 and support body 421 liftable adjust, adapt to the fiber container of different specifications, make the equal specification that can adapt to the fiber container about transfer passage, spacing curb plate 424 and top board 423's regulation mode can adopt automatically regulated also can adopt manual regulation mode, wherein spacing curb plate 424 is rectangular form, this spacing curb plate 424 downwardly extending has installation department 425, during manual regulation, installation department 425 passes through adjusting bolt 426 and support body 421 adjustable connection, during automatic regulation, can drive through setting up cylinder or lead screw motor 92 and adjust spacing curb plate 424 and top board 423.

Further preferably, the upper pressing plate 423 includes a base 427, a second conveyor belt 28 and a second driving device 8 for driving the second conveyor belt 28 to transmit, the base 427 is sleeved with the second conveyor belt 28, a transmission channel which vertically supports the paper tube is formed between the second conveyor belt 28 and the first conveyor belt 422, the upper pressing plate 423 is set as the conveyor belt, and the downward pressure of the paper tube can be given to increase the friction force between the paper tube and the first conveyor belt 422, and at the same time, the forward power is given to the paper tube, so that the paper tube is transmitted more smoothly in the transmission channel, and the paper tube is prevented from being accumulated at the outlet of the vibration plate 41.

It is further preferable that the second conveyor belt 28 of the upper press plate 423 is shorter than the first conveyor belt 422, and after the front paper tube passes through the conveyor belt 91 for a certain distance, the paper tube at the rear section pushes the front paper tube to advance, so as to reduce the length of the second conveyor belt 28, thereby reducing the energy consumption.

As shown in fig. 5-7, the paper tube gluing mechanism 5 includes a paper tube gluing device 51, a driving component for driving the paper tube gluing device 51 to approach a gluing station, and an installation frame 52, the installation frame 52 is provided with a slide rail 53, the glue slot 511 is provided with a slide block 54, the slide block 54 is slidably connected with the slide rail 53, when the paper tube needs gluing, the driving component drives the paper tube gluing device 51 to approach the paper tube on a pre-rolling station for gluing the paper tube, the gluing device includes a glue slot 511, a gluing roller 512 and a support shaft 513, the glue slot 511 is used for receiving glue, a heating device is arranged in the glue slot 511 for keeping the glue in a liquid flowing state, the support shaft 513 is fixed on the side wall of the glue slot 511, the support shaft 513 and the glue slot 511 can be fixed in any fixing manner, one end of the support shaft 513 extends into the glue slot 511, the gluing roller 512 and one end of the support shaft 513 extend into, the back shaft 513 includes the link that is formed by two clamping pieces 514 intervals, be provided with the subassembly that floats on two clamping pieces 514, rubberizing running roller 512 rotates with the subassembly that floats to be connected, driver part includes power supply and direction subassembly, gluey groove 511 is connected to the output of power supply, direction subassembly includes locating plate and guide bar, the guide bar sets up on gluey groove 511, be provided with the mounting hole on the locating plate, guide bar and mounting hole sliding connection, through setting up the subassembly that floats, make rubberizing running roller 512 can give the fiber container rubberizing of not equidimension specification, and when the different and lead to the skew of roll-up axle 3 location angle of fiber container size specification, need not adjust the position of fiber container rubberizing mechanism 5, set up the subassembly that floats on clamping piece 514 simultaneously, make its deformation recovery ability stronger, keep rubberizing running roller 512 accurate location throughout.

Further preferably, the clamping piece 514 is provided with an installation groove 515, the floating component is arranged in the installation groove 515, the floating component is accommodated by arranging the installation groove 515 on the clamping piece 514, so that the structure is more compact, and the installation groove 515 also limits the moving direction of the gluing roller 512.

Further preferably, the floating assembly comprises an elastic member 516 and a floating block 517, one end of the elastic member 516 is connected with the installation groove 515, the other end of the elastic member is connected with the floating block 517, the gluing roller 512 is rotatably connected with the floating block 517, the floating block 517 is in a block shape matched with the installation groove 515, a space for floating the floating block 517 is arranged in the installation groove 515, and the elastic member 516 can be a spring or an elastic rubber block.

The mounting groove 515 may be formed in a side groove manner on the clip 514, preferably, the mounting groove 515 is open at one end, the clip 514 is provided with a blocking piece 518 at the opening of the mounting groove 515, and the blocking piece 518 is detachably connected with the clip 514 to facilitate the installation of the floating assembly.

The installation groove 515 is obliquely arranged towards one side of the sizing roller 512 in the vertical direction, and the preferred inclination angle of the installation groove 515 forms an included angle of 30-60 degrees relative to the vertical direction, so that the sizing roller 512 is in mutual contact with the lower side surface of the paper tube, the paper tube gives the counter force of the sizing roller 512 to coaxially correspond to the installation groove 515, and the floating direction of the floating block 517 is the same as the counter force to offset the counter force of the sizing roller 512.

A positioning hole 519 is formed in the bottom surface of the mounting groove 515, a spring is arranged in the positioning hole 519, and a part of the spring extends out of the bottom surface of the mounting groove 515 to be connected with the floating block 517, so that the spring is stably mounted and the deformation direction of the spring is guided.

The floating block 517 is provided with a rotating shaft 5171, a metal sleeve 5172 is arranged on the rotating shaft 5171, the gluing roller 512 is rotatably connected with the metal sleeve 5172, the rotating friction force between the gluing roller 512 and the rotating shaft 5171 is reduced by arranging the metal sleeve 5172, and the metal sleeve 5172 is preferably a copper sleeve.

As shown in fig. 1, the paper roll cutting mechanism 6 and the paper roll gluing mechanism 7 are correspondingly arranged, the paper roll gluing mechanism 7 is arranged on the inner side of the winding shaft 3 of the pre-winding station, the paper roll cutting mechanism 6 is arranged above the paper roll gluing mechanism 7, the paper roll cutting mechanism 6 comprises a knife rest, a blade arranged on the knife rest, a power source I and a power source II, the power source I drives the knife rest to move towards the cutting station, the cutting station is arranged between the pre-winding station and the winding station, the power source II drives the blade to cut, the paper roll gluing mechanism 7 comprises a glue groove 511 and a glue roller, preferably, the glue groove 511 can also be provided with a power source, the power source drives the glue groove 511 to the paper roll tail gluing station, the glue groove 511 is arranged on the inner side of the winding shaft 3 of the pre-winding station, the knife rest is respectively provided with a first roller and a second roller in front and, the first gyro wheel contradicts each other with the roll-up axle 3 of roll-up station in advance, the second gyro wheel contradicts with the rubber roll each other, the second rubber roll makes scroll and rubber roll contact rubberizing each other, it is tight tensioning state to have kept the scroll at first gyro wheel and second gyro wheel simultaneously, power supply II drives the blade and tailors the stock form down, scroll rubberizing mechanism 7 still includes scroll tails rolling auxiliary device, this auxiliary device is including power supply and casting die, before scroll afterbody roll-up to the roll-up axle 3 of roll-up station, this power supply drives the casting die and removes and contradicts each other to the roll-up axle 3 of roll-up station, make the bonding of scroll afterbody on the scroll, the casting die can adopt the gyro wheel, preferred cladding has soft material on its gyro wheel, the power supply can be cylinder or hydro-cylinder or.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. A winding mechanism of a winder is characterized by comprising: the winding device comprises a support (1), a rotary table (2) rotatably arranged on the support and a plurality of winding shafts (3) arranged on the rotary table (2), wherein the winding shafts (3) comprise winding A shafts (31) and winding B shafts (32) which are circumferentially staggered along the circumference of the rotary table (2), and the number of the winding A shafts (31) is the same as that of the winding B shafts (32);

the device also comprises a driving device (8), wherein the driving device (8) drives the turntable (2) to rotate and drives the furling A shaft (31) and the furling B shaft (32) to be positioned on each station;

still including driving roll-up axle (3) pivoted drive mechanism (9), this drive mechanism (9) are including controlling a plurality of roll-up A axle (31) pivoted drive mechanism A unit and controlling a plurality of roll-up B axle (32) pivoted drive mechanism B unit, roll-up A axle (31) and roll-up B axle (32) all set up with drive mechanism (9) driven transmission portion, roll-up A axle (31) and roll-up B axle (32) all are provided with and are used for controlling automatically controlled clutch part (95) that break away from with the transmission portion, drive mechanism (9) still are provided with speed governing mechanism.

2. The winding mechanism of a reel-up according to claim 1, characterized in that: drive mechanism A unit and drive mechanism B unit all include servo motor, conveyer belt (91), speed governing mechanism is the speed governing unit in the servo motor, and transmission portion is including setting up the drive wheel A and the setting of rolling up B axle (32) drive wheel B in roll-up A axle (31) respectively, drive wheel A and drive wheel B misplace on the axial position of roll-up axle (3), are provided with drive wheel C on the servo motor output shaft, drive belt (91) are around establishing drive wheel C on a plurality of drive wheel A and the corresponding servo motor to and another conveyer belt (91) are around establishing drive wheel C on a plurality of drive wheel B and the corresponding servo motor.

3. The winding mechanism of a reel-up according to claim 1, characterized in that: the transmission mechanism A unit and the transmission mechanism B unit respectively comprise a conveyor belt (91), the transmission part comprises a transmission wheel A and a transmission wheel B, the transmission wheel A is arranged on a winding A shaft (31) and the transmission wheel B is arranged on a winding B shaft (32), the transmission wheel A and the transmission wheel B are staggered on the axial position of a winding shaft (3), the number of the motor (92) is one, two transmission wheels C are arranged on an output shaft of the motor (92), the two conveyor belts (91) are respectively wound with a plurality of transmission wheels A and C, a plurality of transmission wheels B and the other transmission wheel C, and the speed regulating mechanism is a friction clutch (94) which is arranged between an output shaft of the motor (92) and the transmission wheels C and controls friction force or a friction clutch (94) which is arranged between a plurality of winding A shafts (31) and a plurality of winding B shafts (32).

4. The winding mechanism of a reel-up according to claim 1, characterized in that: when the motor (92) is arranged on the bracket, the conveyor belt (91) is provided with a tensioning mechanism (96), and the tensioning mechanism (96) adjusts and keeps the conveyor belt (91) in a tensioning state when the turntable (2) rotates to roll the A shaft (31) and the B shaft (32) to be positioned at the next station.

5. The winding mechanism of a reel-up according to claim 2, 3 or 4, characterized in that: the driving wheel A and the driving wheel B are both provided with connecting shafts, the electric control clutch component (95) is a clutch, the clutch is sleeved on the connecting shafts of the winding A shaft (31) and the driving wheel A, the clutch is fixedly connected with the winding A shaft (31) or the connecting shafts of the driving wheel A, and a driving part of the clutch is in electric control disengaging connection with the winding A shaft (31) or the driving wheel A.

6. The winding mechanism of a reel-up according to claim 4, characterized in that: the tensioning mechanism (96) comprises a power component (961), a tensioning wheel (962) and a swinging rod (963), the middle section of the connecting shaft is fixedly connected with the support, an output shaft of the power component (961) is hinged to one end of the swinging rod (963), the other end of the swinging rod (963) is rotatably connected with the tensioning wheel (962), the tensioning wheel (962) is abutted against the transmission belt, and the power component (961) drives the swinging rod (963) to rotate to keep the tensioning wheel (962) abutted against the transmission belt (91).

7. The winding mechanism of a reel-up according to claim 1, characterized in that: the circumferential surface of the rotary table (2) is provided with the insection, the driving device (8) comprises a motor (92) and a driving gear (81), the driving gear (81) is fixed on an output shaft of the motor (92), and the driving gear (81) is meshed with the circumferential surface of the rotary table (2).

8. The winding mechanism of a reel-up according to claim 2, characterized in that: all the cover of motor (92) output shaft is equipped with back shaft (921), drive wheel C sets up fixed cover and establishes on back shaft (921), be provided with constant head tank (922) on the support, be provided with the bearing in this constant head tank (922), the one end and the bearing of back shaft (921) rotate to be connected.

9. The winding mechanism of a reel-up according to claim 1, characterized in that: the periphery of the turntable (2) is further provided with a smooth surface, the support is provided with a plurality of positioning wheels (82) which are arranged at equal intervals along the periphery of the turntable (2), and the plurality of positioning wheels (82) are mutually abutted to the smooth surface of the turntable (2).

10. A winding mechanism of a reel-up according to claim 2 or 3, characterized in that: the transmission wheel A and the transmission wheel B are gears, and the transmission belt is a tooth surface transmission belt (91) meshed with the transmission wheel A or the transmission wheel B.