CN216613446U - Label paper rolling and slitting machine - Google Patents

Abstract

The utility model relates to a label paper winding and slitting machine, wherein a non-setting adhesive paper cylinder is placed on a feeding roller of a feeding mechanism in a roll shape, the slitting structure divides the non-setting adhesive paper cylinder into strips through a rolling component, the slotting tool and the first winding roller are driven by the material pressing cylinder to swing around the material pressing swing shaft to enable the first winding roller to move towards the installation shaft to form a first gap, the second winding roller axially ascends and descends to form a second gap with the installation shaft, the installation shaft is driven by the rewinding driving assembly to actively rotate, the slotting tool presses the label paper to change the movement direction of the label paper, the second gap, the first gap and the slotting tool of the label paper enable the label paper to be pressed and covered on the paper core sleeve of the installation shaft in a hemispherical shape, and the first winding roller and the second winding roller press and cover the label paper for winding, thereby realize that the head end is not adhered and the folding rolling of head end, solved and to have the label head end to adhere to the problem that head end label can not be utilized and can damage the label printer when the refill sleeve pipe is used in traditional rolling mode.

Description

Label paper rolling and slitting machine

Technical Field

The utility model relates to the field of label rolling equipment, in particular to a label paper rolling and slitting machine.

Background

The self-adhesive label paper is mainly automatically wound through a winding machine, a paper core sleeve is sleeved on a winding roller, the winding roller drives the paper core sleeve to rotate, so that winding is realized, most self-adhesive label paper on the market is firstly fixed on the paper core sleeve by using an adhesive, and the paper core sleeve is sleeved on the winding roller for winding; the adhesive label paper is also folded at the initial end to achieve a traction effect and rotate along with the winding roller to wind in the market, but the folded part forms wrinkles, so that the attractiveness of the rolled label is affected.

During the operation of the adhesive label paper winder, an adhesive paper tube is required to be separated and then rewound into a plurality of independent label papers, and the existing adhesive label paper winder has the following defects in the actual use process:

1. when a group of label paper is rewound, the label paper and a paper tube need to be cut off and then discharged, an existing adhesive label paper winder can enable workers to cut off the label paper manually or fold and cut off the label paper through cutters arranged up and down when the label paper is cut off, however, the problem that the structure is complex, the material cutting speed is low and the notch is uneven exists in the material cutting mode, the label paper after rewinding is discharged and packaged in a discharging mechanism, the existing discharging mechanism needs to stop the winder during discharging, the paper core sleeve can be fed again after discharging, and therefore the machine stops when discharging and changing materials, and the machining efficiency is seriously affected.

2. The existing adhesive label paper winding machine needs to place an adhesive paper cylinder on a feeding roller during working and then makes individual independent label paper after being divided and wound by a slitting machine, but the adhesive paper cylinder is large in size and very bearing, and workers are very inconvenient and too large in workload when carrying the adhesive paper cylinder on the feeding roller to work.

3. During the operation of the adhesive label paper winding machine, an adhesive paper cylinder is required to be separated into a plurality of independent label paper, but the width specification of the label paper obtained by the separation of the existing separation mechanism is fixed, so that the label paper with different width specifications cannot be separated, the problem of low adaptability to the width exists, and the problems of uneven notches and difficult separation of the label paper with thicker thickness exist in the existing separation mechanism during the separation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a label paper winding and slitting machine aiming at the defects of the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: label paper rolling divides strip machine, which comprises a frame, the frame is equipped with feed mechanism, branch strip mechanism and rolling unloader, its characterized in that in proper order along label paper's direction of motion: the feeding mechanism comprises a feeding roller for mounting the adhesive paper tube, the slitting mechanism comprises a slitting frame and a slitting driving assembly which are arranged on the rack, and a hobbing assembly which is arranged in the slitting frame and used for slitting the adhesive paper tube, the winding and blanking device comprises a blanking mechanism arranged at one end of the rack far away from the feeding mechanism, a rewinding mechanism arranged at one end of the rack corresponding to the blanking mechanism, and a slotting tool cutting device arranged between the blanking mechanism and the slitting mechanism, the blanking mechanism comprises at least one mounting shaft, the end of the rack corresponding to the mounting shaft is provided with the rewinding driving assembly for driving the mounting shaft to rotate, the slotting tool cutting device comprises a material pressing frame arranged at one end of the rack corresponding to the mounting shaft, one end of the material pressing frame facing the mounting shaft is provided with a first winding roller, the other end of the material pressing frame is connected with a material pressing cylinder, and the material pressing frame is connected with the rack through a material pressing swinging shaft, the rewinding mechanism comprises a rewinding lifting frame arranged at one end of the rack corresponding to the installation shaft, the rewinding lifting frame is provided with a second winding roller towards one end of the installation shaft, the second winding roller is arranged at one end of the installation shaft far away from the first winding roller, one end of the rack corresponding to the rewinding lifting frame is provided with a rewinding lifting assembly for driving the second winding roller to axially lift, the rewinding lifting assembly drives the second winding roller to move towards the installation shaft to form a second gap between the second winding roller and the installation shaft, and one end of the first winding roller towards the installation shaft is provided with an inserting knife for tightly pressing the label paper on the installation shaft, the label paper which is split by the hob assembly sequentially passes through the second gap and the first gap and is pressed on the mounting shaft by the slotting tool to be wound.

By adopting the technical scheme, the adhesive paper tube is placed on a feeding roller of a feeding mechanism in a roll shape, and is conveyed to a slitting mechanism after being subjected to deviation rectification through a snake-shaped deviation rectifier, the slitting structure divides the adhesive paper tube into slits through a rolling assembly, a second gap, a first gap and a slotting tool of the label paper drive the slotting tool and a first winding roller to swing around a swaging swing shaft through a swaging air cylinder so as to enable the first winding roller to move towards an installation shaft to form the first gap, the second winding roller is lifted axially to form the second gap with the installation shaft, a rewinding driving assembly drives the installation shaft to rotate actively so as to enable the slotting tool to change the moving direction of the label paper after pressing the label paper, the hemispherical shape is pressed on a paper core sleeve of the installation shaft, the label paper is pressed and wound by the first and second winding rollers, so that the head end is not adhered and not folded, and the slotting tool is straightened with the label paper at the installation shaft, the non-stick rolling is realized through the installation axle of initiative rotation, first, second wind-up roll and slotting tool to whole process, improves the machining efficiency of product promptly, has solved and has had the label head end to adhere to the problem that head end label can not obtain utilizing and can harm the label printer when the refill sleeve pipe is used in traditional rolling mode.

Foretell label paper rolling divides strip machine can further set up to: the feeding mechanism comprises a turnover disc and a turnover driving assembly, the turnover disc is arranged on the frame and movably connected with the frame, the turnover driving assembly drives the turnover disc to rotate on the frame in the circumferential direction, one end of the turnover disc, corresponding to the rewinding mechanism, is matched with the slotting tool material cutting device to form a rewinding station, the other end of the turnover disc is a feeding station, the number of the installation shafts is 2, the installation shafts are arranged at two ends of the diameter of the turnover disc, the installation shafts at the two ends are respectively positioned in the rewinding station and the feeding station, the installation shafts are movably connected with the turnover disc and drive the turnover disc to rotate through the turnover driving assembly, so that the positions of the installation shafts in the rewinding station and the feeding station are exchanged, turnover disc positioning blocks are arranged at two ends of the turnover disc, a turnover disc locking cylinder is arranged on the frame, a locking cone is arranged at the output end of the turnover disc locking cylinder, and a locking groove for the locking cone to be inserted into and locked on the turnover disc is arranged on the frame, when the installation shaft is arranged in the rewinding station or the blanking station, the turnover disc locking cylinder drives the locking cone to be inserted into the locking groove.

By adopting the technical scheme, a rewinding station is arranged on a frame, label paper after being split is rewound and cut into label paper which is independent one by one through a slotting cutter cutting device and a rewinding mechanism, finished label paper is taken off from a blanking station through a blanking station, and then label paper core sleeves which are not rewound are arranged, wherein the label paper core sleeves are arranged on installation shafts at two ends of a reversing disc, a reversing driving assembly drives the reversing disc to rotate intermittently so that the positions of the rewinding station and the installation shafts in the blanking station are exchanged, the rewinding driving assembly drives the installation shafts to rotate so as to realize winding, when the rewinding station works, the blanking station can also unload finished products and load the label paper core sleeves, the double-station work can be realized without stopping, one work can stand by one work, the production and processing efficiency is improved, the reversing disc is provided with one reversing positioning block at each of two ends of the reversing disc so that the reversing disc can not only rotate forward and backward, when only needing the installation axle to set up in rewinding station or unloading station, one of them locking groove just in time faces the carousel locking cylinder that turns over, makes the carousel locking cylinder drive the locking awl and inserts in the locking groove, prevents rewinding and unloading in-process, and the carousel that turns over rotates, improve equipment stability.

Foretell label paper rolling divides strip machine can further set up to: the rewinding driving assembly comprises a rewinding driving motor arranged on the frame, a rewinding synchronous auxiliary wheel arranged at one end of the mounting shaft facing the rewinding driving motor, and a rewinding synchronous auxiliary wheel arranged at one end of the frame far away from the rewinding driving motor, the output end of the rewinding driving motor is provided with a rewinding synchronous main wheel, a rewinding synchronous belt is wound between the rewinding synchronous auxiliary wheel and the rewinding synchronous main wheel, the rewinding synchronous auxiliary wheel is arranged outside the rewinding synchronous belt and is abutted and meshed with the periphery of the rewinding synchronous belt and drives the mounting shaft in the rewinding station to rotate, the overturning driving assembly comprises an overturning shaft and an overturning driving motor, the output end of the overturning driving motor is provided with an overturning synchronous main wheel, one end of the overturning shaft is connected with the overturning disc, and the other end of the overturning synchronous auxiliary wheel is arranged, a turnover synchronous belt is wound between the turnover synchronous main wheel and the turnover synchronous auxiliary wheel, one end of the turnover disc corresponding to two installation shafts is provided with a stop cylinder, the output end of the stop cylinder is provided with a stop plate, the installation shafts are provided with stop tables after penetrating through the turnover disc, the stop plate is provided with arc-shaped stop grooves matched with the stop tables, the stop cylinders are abutted against the stop tables by pushing the arc-shaped stop grooves to limit the rotation of the installation shafts, the rewinding lifting assembly comprises rewinding lifting cylinders arranged on a frame, the output end of the rewinding lifting cylinder is connected with the rewinding lifting frame and drives the second winding roller to axially reciprocate, one side of the rewinding lifting frame corresponding to the second winding roller is provided with an auxiliary roller, one end of the rewinding lifting frame corresponding to the auxiliary roller is provided with an L-shaped swinging frame with the center hinged with the rewinding lifting frame, and one end of the L-shaped swinging frame is connected with the auxiliary roller, the other end is connected with supplementary swing cylinder, supplementary swing cylinder is connected with the frame to drive the auxiliary roll and be the wane motion, make the reciprocal installation axle motion of rolling up in the station of auxiliary roll, make auxiliary roll, first rolling roller axle and second rolling roller axle be the outer peripheral face of triangle-shaped structural distribution at the installation axle.

By adopting the technical scheme, the rewinding driving motor drives the rewinding synchronous belt to rotate through the rewinding synchronous sub-wheel, the rewinding synchronous sub-wheel on the mounting shaft is arranged outside the rewinding synchronous belt, the rewinding synchronous sub-wheel can be driven to rotate through the rewinding synchronous belt while the interference of the overturning shaft is avoided, so that the label paper on the mounting shaft is wound through the rotation of the mounting shaft, the central winding mode is realized, the overturning driving motor drives the overturning synchronous sub-wheel to rotate through the overturning synchronous belt, and further drives the overturning shaft to rotate, the rewinding station and the mounting shaft position in the blanking station are driven to exchange one work and one standby state through setting the overturning driving motor to rotate in two opposite directions or in the same direction, the quick feeding and discharging are realized, the rewinding lifting cylinder is arranged to drive the second winding roller to be close to or separate the mounting shaft, so that the label paper is adaptive to label paper with different thicknesses, simultaneously when the tilting disk rotates, can not interfere the tilting disk and rotate, through setting up the auxiliary roller, make supplementary swing cylinder drive the auxiliary roller and be the wane motion, make it be close to or the separation installation axle, label paper is before advancing first clearance, walk around the auxiliary roller surface earlier and is passing through first clearance, the stroke of rolling is increased in the rolling in-process, make the rolling time label can not produce the fold, and cooperate first rolling roller and second rolling roller to be the outer peripheral face of triangle-shaped structural distribution at the installation axle, make the rolling process more stable.

Foretell label paper rolling divides strip machine can further set up to: the material cutting mechanism is arranged at one end of the material pressing frame facing the slotting tool, the material cutting mechanism comprises a material cutting mounting frame arranged on the material pressing frame, synchronous wheel mounting plates are arranged at two ends of the material cutting mounting frame and connected through a material cutting balancing rod, material cutting synchronous wheels with end parts hinged with the synchronous wheel mounting plates are oppositely arranged on the synchronous wheel mounting plates, material cutting synchronous belts are wound between the material cutting synchronous wheels, one of the material cutting synchronous wheels is provided with a synchronous belt driving motor driving the material cutting synchronous belts to rotate back and forth, a cutter mounting plate is arranged at one end of the material cutting synchronous belt facing the slotting tool, one end of the cutter mounting plate is fixedly connected with the material cutting synchronous belts, the other end of the cutter mounting plate is provided with a cutter, the cutter is arranged at the front end of the slotting tool, the synchronous belt driving motor drives the cutter to reciprocate radially between the synchronous wheel mounting plates, and the cutter is a circular cutter blade, the cutter is installed on the cutter mounting plate through the material cutting motor and drives the cutter to rotate through the material cutting motor.

By adopting the technical scheme, the adhesive sticker paper tube passes through the lower part of the slotting tool and the cutter in a roll shape, the slotting tool is driven by the material pressing cylinder to swing by taking the material pressing swing shaft as the center, the slotting tool presses the label paper and then straightens the slotting tool and the label paper at the installation shaft, then the synchronous belt drive motor drives the material breaking synchronous wheel to rotate back and forth, the cutting synchronous belt is cut by the cutting cutter to slide back and forth between the two synchronous wheel installation plates, the adhesive sticker paper tube can be divided into independent label paper by the cutting cutter back and forth, the whole process only needs to drive the material breaking synchronous belt to move back and forth by the driving source, the structure is simpler, the cost is lower, the material breaking speed is improved, the noise is reduced, the high-speed moving cutter can quickly cut the adhesive sticker paper tube, the processing efficiency of products is improved, the cut can be leveled, the high-speed rotation of the cutter is realized by the material breaking motor, and the label paper is further cut, improve cutting force and disconnected material efficiency, make the incision more level and more smooth.

Foretell label paper rolling divides strip machine can further set up to: the device is characterized in that one end of the synchronizing wheel mounting plate corresponding to the material breaking mounting frame is provided with an L-shaped mounting plate, one end of the L-shaped mounting plate facing the material breaking mounting frame is provided with a lifting sliding table, two ends of the material breaking mounting frame are provided with lifting sliding rails for mounting the lifting sliding tables, two ends of the material breaking mounting frame are provided with material breaking lifting cylinders, the output direction of the material breaking lifting cylinders is parallel to the lifting sliding rails, one end of the L-shaped mounting plate is connected with the lifting sliding tables, the other end of the L-shaped mounting plate is connected with the output end of the material breaking lifting cylinders, the synchronizing wheel mounting plate is driven to move axially along the lifting sliding rails through the material breaking lifting cylinders, the material breaking sliding rails are arranged between the synchronizing wheel mounting plates, the cutter mounting plate is provided with the material breaking sliding tables, the cutter mounting plate is mounted on the material breaking sliding rails through the material breaking sliding tables, and drives the cutter mounting plate to reciprocate back and forth along the material breaking sliding rails through a synchronous belt drive motor, one end of the material pressing frame corresponding to the slotting tool is provided with a cylinder mounting plate, the cylinder mounting plate is provided with a slotting tool lifting cylinder, the output end of the slotting tool lifting cylinder is provided with a slotting tool mounting plate, the slotting tool is mounted on the slotting tool mounting plate, and the slotting tool is driven to axially lift by the slotting tool lifting cylinder, one end of the material pressing frame corresponding to the cylinder mounting plate is provided with a cylinder adjusting plate, one side of the cylinder adjusting plate is provided with an angle adjusting plate, one end of the cylinder mounting plate is hinged with the cylinder adjusting plate, an angle adjusting slide block is arranged at one end facing the angle adjusting plate, an arc adjusting groove is arranged in the angle adjusting plate, the angle adjusting slide block is connected with the arc-shaped adjusting groove through a fastener, the material breaking mounting frame is provided with a horizontal adjusting groove, the material pressing frame is provided with a horizontal adjusting block, the horizontal adjusting block is arranged in a horizontal adjusting groove, and the material cutting mounting frame moves back and forth on the horizontal adjusting block through the horizontal adjusting groove.

By adopting the technical scheme, one end of the L-shaped mounting plate is connected with the synchronous wheel mounting plate by arranging the L-shaped mounting plate, the other end of the L-shaped mounting plate extends to the upper part of the material breaking mounting frame to be connected with the material breaking lifting cylinder, the air inlet and outlet of the material breaking lifting cylinder can push the L-shaped mounting plate to move axially on the lifting slide rail, further the axial distance of the cutter is controlled, a user can debug and replace more conveniently, the adaptability of a product is improved, the material breaking slide rail is arranged between the synchronous wheel mounting plates, the cutter mounting plate is erected on the material breaking slide rail through the material breaking slide table and moves back and forth along the material breaking slide rail, namely the cutter is ensured not to shake in the motion process, the cutter can move on the material breaking slide rail all the time, the vertical and horizontal deviation is avoided, the stability of material breaking is improved, the integrity of a notch is kept, the axial position of the slotting tool is adjusted by arranging the slotting tool lifting cylinder, and the slotting tool can just tighten the adhesive paper tube to facilitate material breaking, and then the non-setting adhesive fiber container of the different specifications of adaptation, cylinder mounting panel one end is passed through the articulated elements and is articulated with the cylinder adjusting plate, make slotting tool lift cylinder rotate along the articulated elements, through setting up angle adjusting slider and arc adjustment tank, make slotting tool lift cylinder hover at any department of arc adjustment tank through angle adjusting slider, and then adjust the angle of slotting tool, the non-setting adhesive fiber container of the different specifications of adaptation, through setting up the horizontal adjustment piece on the pressure work or material rest, and set up the horizontal adjustment tank on disconnected material mounting bracket, make disconnected material mounting bracket pass through the horizontal adjustment tank and move on the horizontal adjustment piece back-and-forth, adjust cutter and the position of slotting tool on the frame, the non-setting adhesive fiber container of the different specifications of adaptation, the suitability of product is improved.

Foretell label paper rolling divides strip machine can further set up to: one end of the hob component extends out of the rack and is connected with the slitting drive component, the hob component is driven to rotate by the slitting drive component, the hob component comprises an upper hob shaft, a lower hob shaft and a transmission component, the transmission component is arranged on the slitting rack and is used for linking the upper hob shaft and the lower hob shaft to rotate, a plurality of upper hobs distributed at equal intervals are sleeved on the outer peripheral surface of the upper hob shaft, lower hobs which correspond to the upper hobs in a one-to-one mode are sleeved on the outer peripheral surface of the lower hob shaft, the upper hobs and the lower hobs are in staggered contact, an upper hob adjusting shaft is arranged at one end, corresponding to the upper hob shaft, of the slitting rack, one end of the upper hob adjusting shaft extends out of the slitting rack and is provided with an upper hob adjusting handle, an upper hob adjusting frame is fixedly arranged on the upper hob adjusting shaft, the upper hob shaft is arranged on the upper hob adjusting frame and is controlled to float up and down by the upper hob adjusting shaft through the upper hob adjusting handle, and then the upper hob shaft and the lower hob adjusting handle are adjusted, The space between the lower hobs, the transmission component comprises a lower hob transmission gear arranged on the lower hob shaft and an upper hob transmission gear arranged on the upper hob shaft and meshed with the lower hob transmission gear, one end of the rack corresponding to the slitting rack is provided with a slitting guide shaft, the slitting rack is erected on the slitting guide shaft, the slitting rack is provided with a slitting adjusting screw rod, one end of the slitting adjusting screw rod is fixedly connected with the slitting rack, the other end of the slitting adjusting screw rod extends out of the rack and is provided with a slitting adjusting handle, the slitting adjusting screw rod is in threaded connection with the rack, the slitting driving component comprises a slitting motor arranged on the rack and a cutter synchronizing wheel arranged on the lower hob shaft, the output end of the slitting motor is provided with an output synchronizing wheel, a slitting synchronizing belt is wound between the output synchronizing wheel and the cutter synchronizing wheel and drives the lower hob shaft to rotate through the slitting synchronizing belt, and the rack is provided with a traction component, traction assembly one end extends the frame and is connected with branch strip drive assembly outward, traction assembly draws the axle and draws the axle down including last, divide strip drive assembly still including setting up the epaxial synchronous wheel that draws of drawing down, divide the strip hold-in range around locating on drawing synchronous wheel, cutter synchronous wheel and the output synchronous wheel, be equipped with the count light eye between traction assembly and the hobbing cutter subassembly, the count light eye passes through the count mounting bracket to be fixed in the frame.

By adopting the technical scheme, the upper hob and the lower hob are sleeved on the outer peripheral surfaces of the upper hob shaft and the lower hob shaft respectively, so that the distance between the upper hob and the lower hob can be adjusted, label paper with different width specifications is produced, the upper hob and the lower hob are in staggered contact, so that the upper hob and the lower hob are not in contact when being cut, the abrasion between the upper hob and the lower hob is avoided, meanwhile, the upper hob and the lower hob which are arranged in a staggered manner can be abutted against the bottom of a raw material through the lower hob, the upper hob is matched with and cut, so that vertically staggered shearing force is realized, the self-adhesive paper tube with thicker thickness can be rapidly divided when being processed, the problem of uneven cuts is solved, the upper hob shaft is arranged on an upper knife adjusting frame, the upper hob adjusting shaft is driven by a hand through an upper knife adjusting handle of a special family to float up and down by taking the upper knife adjusting shaft as a center, so that the distance between the upper hob and the lower hob is controlled to be adaptive to the raw materials with different thicknesses, meanwhile, when the upper and lower hobs are replaced, the upper and lower hobs can be quickly opened for replacement, so that the replacement is more convenient, the lower cutter transmission gear is linked with the lower cutter shaft, so that the lower cutter shaft can drive the upper cutter transmission gear which is meshed with the lower cutter transmission gear to rotate when rotating, further the upper and lower cutter shafts synchronously rotate, and the raw materials are stably cut, because the raw materials are label paper, when the distance between the upper and lower hobs is adjusted by the upper cutter adjusting handle, the teeth of the upper and lower cutter transmission gears cannot be separated, through arranging the slitting guide shaft, the slitting frame can horizontally move in the frame through the slitting guide shaft, through arranging the slitting adjusting screw rod which is in threaded connection with the frame on the slitting frame, an operator can drive the slitting frame to move only by rotating the slitting adjusting handle, further the slitting frame can adapt to the raw materials coming from different positions, and the slitting driving component drives the output synchronous wheel to rotate through the slitting motor, make hold-in range linkage cutter synchronizing wheel rotate, and then drive whole hobbing cutter subassembly and rotate and divide the strip to handle the non-setting adhesive fiber container, and the hold-in range has that the drive ratio is accurate, energy-conservation, the advantage of low noise, pull the subassembly through setting up, make the non-setting adhesive fiber container be pulled the subassembly and send to the hobbing cutter subassembly and divide the strip to handle, wherein go up and pull the axle down and pass through the gear and transmit, synchronous rotation, the stability of material feeding is improved, pull the epaxial synchronizing wheel through pulling under, make and pull the subassembly and all drive through dividing the strip drive assembly with the hobbing cutter subassembly, improve equipment synchronizing wheel, reduce equipment manufacturing cost, through setting up the count light eye, to label paper automatic counting, realize complete machine intelligent processing.

Foretell label paper rolling divides strip machine can further set up to: the feeding mechanism is characterized in that a feeding groove for placing a feeding roller is formed in the rack, a feeding arm for driving the feeding roller to enter the feeding groove is arranged in the rack, one end of the feeding arm is connected with the rack through a feeding transmission shaft, the other end of the feeding arm extends out of the rack, the feeding transmission shaft is arranged at one end, away from the feeding groove, of the rack, one end of the rack penetrates out of the rack, a pulling cylinder is arranged at one end, corresponding to the feeding transmission shaft, of the rack, a pulling shaft pulling arm is arranged at the output end of the pulling cylinder, one end of the pulling shaft pulling arm is connected with the pulling cylinder, the other end of the pulling shaft pulling arm is connected with the feeding transmission shaft, the feeding arm is driven by the pulling cylinder to reciprocate in the axial direction with the feeding transmission shaft as a fulcrum, a feeding assembly is arranged at one end, corresponding to the feeding groove, of the rack comprises a feeding mounting frame and a magnetic powder brake arranged on the feeding mounting frame, and a driving gear is arranged at one end, facing the feeding groove, the utility model discloses a material loading mechanism, including loading roller, loading arm, axle sleeve, loading roller, driving gear, magnetic powder brake, locking part, axle sleeve, loading roller one end is extended the loading groove and is equipped with the driven gear who meshes with the driving gear outward to drive the loading roller at the loading inslot internal rotation through magnetic powder brake, the tip of the one end of loading transmission shaft is kept away from to the loading arm is up-bent to form and is prevented that the spacing of loading roller from the loading arm roll and collude, the loading transmission shaft passes through locking part and loading arm fixed connection, loading roller both ends cover is equipped with the axle sleeve, the loading roller offsets through axle sleeve and loading groove, the one end that the frame corresponds the loading groove is equipped with limit baffle, limit baffle passes through the material loading fastener and fixes at the loading groove opening part.

By adopting the technical scheme, the adhesive paper tube can rotate on the feeding roller or drive the feeding roller to rotate together, the feeding roller is inserted into an inner hole of the adhesive paper tube, air is fed through the pulling cylinder to push the pulling shaft pulling arm to move towards the feeding groove, the feeding arm takes the feeding transmission shaft as a fulcrum to move downwards towards the ground, then the adhesive paper tube provided with the feeding roller is moved onto the feeding arm, the feeding arm is lifted towards one end of the feeding groove through the pulling cylinder until two ends of the feeding roller are not lower than the feeding groove, then the feeding roller is pushed into the feeding groove, the feeding work of the adhesive paper tube can be conveniently and easily completed, the feeding and discharging of workers are more convenient and labor-saving, the feeding roller is fixedly connected with the adhesive paper tube and arranged in the feeding groove, the driving source drives the driving gear to be linked with the adhesive paper tube to rotate, the feeding roller is driven to rotate in the feeding groove, and the paper tube passes through the feeding roller, the feeding efficiency is improved, the limit hooks are arranged at the end part of the feeding arm, when the feeding roller feeds materials on the feeding arm, the feeding roller does not need to be pushed manually in real time, the feeding roller is prevented from rolling off the feeding arm through the limit hooks, the feeding roller is rolled into the feeding groove after the height of the paper feeding groove is increased through the feeding arm, the locking parts are arranged on two sides of the feeding transmission shaft corresponding to the feeding arm, the locking parts are fixedly connected with the feeding arm, the feeding transmission shaft drives the feeding arm to swing through the locking parts, shaft sleeves are arranged at two ends of the feeding roller, friction between the feeding roller and the feeding groove is reduced, the efficiency of the feeding roller during rotation is improved, the feeding roller is limited in the feeding groove through the limit baffle, the feeding roller is prevented from falling off the feeding groove during rotation, the magnetic powder brake is adopted to silently drive the feeding roller to rotate, oscillation cannot occur, and the feeding roller has high response speed, the structure is simple, No pollution, no noise, no impact vibration, energy saving and the like. .

Foretell label paper rolling divides strip machine can further set up to: the mounting shaft is an inflatable shaft or a vacuum-pumping shaft.

Adopt above-mentioned technical scheme, when the rolling divides the strip machine to be used for preparing cored reel formula tag paper, installation axle this moment is the inflatable axle, fixes the refill sleeve pipe on the inflatable axle rolling through the inflation of inflatable axle and realizes having the die to mend the rubberizing rolling, when the rolling divides the strip machine to be used for preparing coreless reel formula tag paper, installation axle this moment is the evacuation axle, adsorbs the realization of having no die to have the crease rolling through the evacuation with tag paper.

The utility model is further described below with reference to the accompanying drawings.

Drawings

Fig. 1 is a perspective view of an embodiment of the present invention.

Fig. 2 is a front view of an embodiment of the present invention.

Fig. 3 is a sectional view taken along line a-a of fig. 2.

Fig. 4 is a schematic connection diagram of a feeding mechanism according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the tumble driving assembly according to the embodiment of the present invention.

Fig. 6 is a schematic connection diagram of a winding and blanking device in the embodiment of the utility model.

FIG. 7 is a schematic view of the connection of the parking cylinder according to the embodiment of the present invention.

Fig. 8 is a schematic connection diagram of a slotting tool material cutting device according to an embodiment of the utility model.

Fig. 9 is an exploded view of fig. 8.

Fig. 10 is an exploded view of fig. 8, 2.

Fig. 11 is a schematic perspective view of a slitting mechanism according to an embodiment of the present invention.

FIG. 12 is a cross-sectional view of a loading mechanism according to an embodiment of the utility model.

Fig. 13 is a diagram of a product of the reel-on-reel label paper of the present invention.

Figure 14 is a diagram of a coreless roll of label paper according to the present invention.

Detailed Description

As shown in fig. 1-12, the label paper winding and slitting machine comprises a frame 1, the frame 1 is sequentially provided with a feeding mechanism 2, a slitting mechanism 3, and a winding and discharging device along a movement direction of the label paper, the feeding mechanism 2 comprises a feeding roller 21 for mounting a non-setting adhesive paper tube a, the slitting mechanism 3 comprises a slitting frame 31 and a slitting driving component arranged on the frame 1, and a hob component arranged in the slitting frame 31 for slitting the non-setting adhesive paper tube a, the winding and discharging device comprises a discharging mechanism 4 arranged at one end of the frame 1 far away from the feeding mechanism 2, a rewinding mechanism 5 arranged at one end of the frame 1 corresponding to the discharging mechanism 4, and a slotting cutter cutting device 6 arranged between the discharging mechanism 4 and the slitting mechanism 3, the discharging mechanism 4 comprises at least one mounting shaft 41, one end of the frame 1 corresponding to the mounting shaft 41 is provided with a rewinding driving component for driving the mounting shaft 41 to rotate, the slotting tool material cutting device 6 comprises a material pressing frame 61 arranged at one end of the rack 1 corresponding to the mounting shaft 41, a first winding roller 62 is arranged at one end of the material pressing frame 61 facing the mounting shaft 41, a material pressing cylinder 63 is connected at the other end of the material pressing frame 61, the material pressing frame 61 is connected with the rack 1 through a material pressing swing shaft 64, the material pressing swing shaft 64 is arranged between the first winding roller 62 and the material pressing cylinder 63, one end of the material pressing cylinder 63 is connected with the rack 1, the other end of the material pressing cylinder is hinged with the material pressing frame 61, and drives the first winding roller 62 to swing around the material pressing swing shaft 64 to form a first gap A between the first winding roller 62 and the mounting shaft 41, the rewinding mechanism 5 comprises a rewinding lifting frame 51 arranged at one end of the rack 1 corresponding to the mounting shaft 41, a second winding roller 52 is arranged at one end of the rewinding lifting frame 51 facing the mounting shaft 41, and the second winding roller 52 is arranged at one end of the mounting shaft 41 far away from the first winding roller 62, a rewinding lifting assembly for driving the second winding roller 52 to axially lift is arranged at one end of the rack 1 corresponding to the rewinding lifting frame 51, the rewinding lifting assembly drives the second winding roller 52 to move towards the installation shaft 41, a second gap B is formed between the second winding roller 52 and the installation shaft 41, a slotting cutter 65 for pressing label paper on the installation shaft 41 is arranged at one end of the first winding roller 62 facing the installation shaft 41, the label paper which is split by the hobbing cutter assembly sequentially passes through the second gap B and the first gap A and then is pressed on the installation shaft 41 through the slotting cutter 65 for winding, the discharging mechanism 4 comprises a turning disc 42 and a turning driving assembly 7, the turning disc 42 is arranged on the rack 1 and is movably connected with the rack 1, the turning driving assembly 7 drives the turning disc 42 to circumferentially rotate on the rack 1, one end of the turning disc 42 corresponding to the rewinding mechanism 5 is matched with the slotting cutter blanking device 6 to form a rewinding station C, and the other end is a discharging station D, the number of the mounting shafts 41 is 2, the mounting shafts 41 are arranged at two ends of the diameter of the turnover disc 42, the mounting shafts 41 at the two ends are respectively located in the rewinding station C and the blanking station D, the mounting shafts 41 are movably connected with the turnover disc 42 and drive the turnover disc 42 to rotate through the turnover driving assembly 7, so that the mounting shafts 41 in the rewinding station C and the blanking station D can exchange positions, turnover disc positioning blocks 43 are arranged at the two ends of the turnover disc 42, a turnover disc locking cylinder 11 is arranged on the frame 1, a locking cone 111 is arranged at the output end of the turnover disc locking cylinder 11, a locking groove 431 for the locking cone 111 to insert and lock the turnover disc 42 is formed in the turnover disc positioning block 43, when the mounting shafts 41 are arranged in the rewinding station C or the blanking station D, the turnover disc locking cylinder 11 drives the locking cone 111 to insert into the locking groove 431, and the rewinding driving assembly 9 comprises a rewinding driving motor 91 arranged on the frame 1, wherein the rewinding driving motor 91 is arranged at one end, facing the rewinding driving motor 91, of the mounting shafts 41, facing the rewinding driving motor 91 A rewinding synchronous auxiliary wheel 411 and a rewinding synchronous auxiliary wheel 92 arranged at one end of the frame 1 far away from the rewinding driving motor 91, wherein the output end of the rewinding driving motor 91 is provided with a rewinding synchronous main wheel, a rewinding synchronous belt 93 is wound between the rewinding synchronous auxiliary wheel 62 and the rewinding synchronous main wheel, the rewinding synchronous auxiliary wheel 411 is arranged between the rewinding synchronous auxiliary wheel 92 and the rewinding synchronous main wheel, the rewinding synchronous auxiliary wheel 411 is arranged at the outer side of the rewinding synchronous belt 93 and is abutted and meshed with the outer periphery of the rewinding synchronous belt 93 and drives the mounting shaft 41 in the rewinding station A to rotate, the overturning driving component 7 comprises an overturning shaft 71 and an overturning driving motor 72, the output end of the overturning driving motor 72 is provided with an overturning synchronous main wheel 721, one end of the overturning shaft 71 is connected with the overturning disc 42, the other end of the overturning synchronous auxiliary wheel 73 is provided with an overturning synchronous auxiliary wheel 73, an overturning synchronous belt 74 is wound between the overturning synchronous main wheel 721 and the overturning synchronous auxiliary wheel 73, the rewinding lifting assembly comprises a rewinding lifting cylinder 53 arranged on the frame 1, the output end of the rewinding lifting cylinder 53 is connected with the rewinding lifting frame 51 and drives the second rewinding roller 52 to axially reciprocate, an auxiliary roller 54 is arranged on one side of the rewinding lifting frame 51 opposite to the second rewinding roller 52, an L-shaped swing frame 55 with the center hinged with the rewinding lifting frame 51 is arranged at one end of the rewinding lifting frame 51 corresponding to the auxiliary roller 54, one end of the L-shaped swing frame 55 is connected with the auxiliary roller 54, the other end of the auxiliary swing cylinder 56 is connected with the frame 1, the auxiliary swing cylinder 56 drives the auxiliary roller 54 to perform seesaw movement, so that the mounting shaft 41 in the reciprocating rolling station C of the auxiliary roller 54 moves, the auxiliary roller 54, the first rolling roller shaft 62 and the second rolling roller shaft 52 are distributed on the outer circumferential surface of the mounting shaft 41 in a triangular structure, one end of the pressing frame 61 facing the slotting tool 65 is provided with a material breaking mechanism, the material breaking mechanism comprises a material breaking mounting frame 66 arranged on the pressing frame 61, both ends of the material breaking mounting frame 66 are provided with synchronous wheel mounting plates 661, the synchronous wheel mounting plates 662 are connected through material breaking balance rods, each of the synchronous wheel mounting plates 661 is provided with a material breaking synchronous wheel 663, the end part of each synchronous wheel mounting plate is hinged with the corresponding synchronous wheel mounting plate 661, a material breaking synchronous belt 664 is wound between the material breaking synchronous wheels 663, one of the material breaking synchronous wheels 663 is provided with a synchronous belt driving motor driving the material breaking synchronous belt 664 to rotate back and forth, the material hold-in range 664 absolutely has the cutter mounting panel 666 of installing towards the one end of slotting tool 65, cutter mounting panel 666 one end and material hold-in range 664 fixed connection absolutely, the other end is equipped with cutter 67, cutter 67 sets up in the front end of slotting tool 65, hold-in range driving motor 665 drives cutter 67 radial reciprocating motion between synchronizing wheel mounting panel 661, cutter 67 is the circular blade, cutter 67 is installed on cutter mounting panel 666 through disconnected material motor 671 to drive cutter 67 through disconnected material motor 671 and rotate, the one end that synchronizing wheel mounting panel 661 corresponds disconnected material mounting panel 66 all is equipped with L type mounting panel 68, L type mounting panel 68 all is equipped with lift slip table 681 towards the one end of disconnected material mounting panel 66, disconnected material mounting panel 66 both ends all are equipped with the lift slide 667 that supplies lift slip table 681 to install, disconnected material mounting panel 66 both ends all are equipped with disconnected material lift cylinder 668, the output direction of disconnected material lift cylinder 668 parallels with lift slide rail 667, L type mounting panel 68 one end is connected with lift slip table 681, and the other end is connected with the output of disconnected material lift cylinder 668, and drive synchronizing wheel mounting panel 661 along lift slide rail 667 axial displacement through disconnected material lift cylinder 668, be equipped with disconnected material slide rail 669 between the synchronizing wheel mounting panel 661, be equipped with disconnected material slip table 672 on cutter mounting panel 666, cutter mounting panel 666 installs on disconnected material slide rail 669 through disconnected material slip table 672 to drive cutter mounting panel 666 along disconnected material slide rail 669 reciprocating motion through synchronous belt driving motor 665, the one end that presses material frame 61 to correspond slotting tool 65 is equipped with cylinder mounting panel 69, be equipped with slotting tool lift cylinder 691 on the cylinder mounting panel 69, slotting tool lift cylinder 691's output is equipped with slotting tool mounting panel 692, slotting tool 65 installs on the slotting tool mounting panel, the slotting tool 65 is driven to axially lift through a slotting tool lifting air cylinder 691, an air cylinder adjusting plate 693 is arranged at one end of the material pressing frame 61 corresponding to the air cylinder mounting plate 69, an angle adjusting plate 694 is arranged at one side of the air cylinder adjusting plate 693, one end of the air cylinder mounting plate 6 is hinged with the air cylinder adjusting plate 693, an angle adjusting slider 695 is arranged at one end facing the angle adjusting plate 694, an arc adjusting groove 696 is arranged in the angle adjusting plate 695, the angle adjusting slider 695 is connected with the arc adjusting groove 696 through a fastener, a horizontal adjusting groove 660 is arranged on the material cutting mounting frame 66, a horizontal adjusting block 611 is arranged on the material pressing frame 61, the horizontal adjusting block 611 is arranged in the horizontal adjusting groove 660, the material cutting mounting frame 66 moves back and forth on the horizontal adjusting block 611 through the horizontal adjusting groove 660, one end of the hobbing cutter assembly extends out of the machine frame 1 to be connected with the slitting drive assembly to drive the hobbing cutter assembly to rotate through the slitting drive assembly, hob cutter subassembly is including setting up last arbor 32, lower arbor 33 on slitting frame 31 and linkage upper slitter shaft 32, lower arbor 33 pivoted drive assembly, it is equipped with a plurality of upper slitter cutters 321 that each equidistance distributes to go up arbor 33 outer peripheral face cover, lower arbor 33 outer peripheral face cover is equipped with lower hob 331 with last hob 321 one-to-one, go up hob 321 and hob 331 dislocation contact down, the one end that slitting frame 31 corresponds upper slitter shaft 32 is equipped with upper slitter regulating spindle 34, upper slitter regulating spindle 34 one end extends slitting frame 31 and is equipped with upper slitter adjustment handle 341 outward, fixed upper slitter regulating spindle 35 that is equipped with on upper slitter regulating spindle 34, upper slitter shaft 32 installs on upper slitter regulating spindle 35 to adjust upper slitter shaft 34 and float for the center through upper slitter adjustment handle 341 control upper slitter shaft 32 upper slitter regulating spindle 34 from top to bottom, and then adjust the interval between upper slitter shaft 32 and the lower arbor 33, drive assembly is including setting up lower slitter drive gear 332 on lower arbor 33 and setting up on upper slitter 32 The upper cutter transmission gear 322 meshed with the lower cutter transmission gear 332, one end of the rack 1 corresponding to the slitting frame 31 is provided with a slitting guide shaft 36, the slitting frame 31 is erected on the slitting guide shaft 36, a slitting adjusting screw 37 is arranged on the slitting frame 36, one end of the slitting adjusting screw 37 is fixedly connected with the slitting frame 31, the other end of the slitting adjusting screw extends out of the rack 1 and is provided with a slitting adjusting handle 371, the slitting adjusting screw 37 is in threaded connection with the rack 1, the slitting driving component comprises a slitting motor 38 arranged on the rack 1 and a cutter synchronizing wheel 333 arranged on a lower cutter shaft 33, an output synchronizing wheel is arranged at the output end of the slitting motor 38, a slitting synchronizing belt 381 is arranged between the output synchronizing wheel and the cutter synchronizing wheel 333 in a winding manner, the lower cutter shaft 33 is driven to rotate through the slitting synchronizing belt 381, a traction component 39 is arranged on the rack 1, one end of the traction component 39 extends out of the rack 1 and is connected with the slitting driving component, the drawing assembly 39 comprises an upper drawing shaft 391 and a lower drawing shaft 392, the strip dividing driving assembly further comprises a drawing synchronous wheel 393 arranged on the lower drawing shaft 392, the strip dividing synchronous belt 381 is wound on the drawing synchronous wheel 393, the cutter synchronous wheel 333 and the output synchronous wheel, a counting unthreaded hole 30 is arranged between the drawing assembly 39 and the hob assembly, the counting unthreaded hole 30 is fixed on the frame 1 through a counting mounting rack 301, the frame 1 is provided with a feeding groove 12 for placing a feeding roller 21, the frame 1 is internally provided with a feeding arm 22 for driving the feeding roller 21 to enter the feeding groove 12, one end of the feeding arm 22 is connected with the frame 1 through a feeding transmission shaft 23, the other end of the feeding arm extends out of the frame 1, the feeding transmission shaft 23 is arranged at one end of the frame 1 far away from the feeding groove 12, one end of the feeding transmission shaft penetrates out of the frame 1, one end of the frame 1 corresponding to the feeding transmission shaft 23 is provided with a drawing cylinder 13, the output end of the pulling cylinder 13 is provided with a pulling shaft pulling arm 14, one end of the pulling shaft pulling arm 14 is connected with the pulling cylinder 13, the other end of the pulling shaft pulling arm is connected with the feeding transmission shaft 23, the pulling cylinder 13 drives the feeding arm 22 to make axial reciprocating motion with the feeding transmission shaft 23 as a fulcrum, one end of the rack 1 corresponding to the feeding trough 12 is provided with a feeding assembly, the feeding assembly comprises a feeding mounting rack 15 arranged on the rack 1 and a magnetic powder brake 16 arranged on the feeding mounting rack 15, one end of the magnetic powder brake 16 facing the feeding trough 12 is provided with a driving gear 161, one end of the feeding roller 21 extends out of the feeding trough 12 and is provided with a driven gear 211 meshed with the driving gear 161, the magnetic powder brake 16 drives the feeding roller 21 to rotate in the feeding trough 12, the end part of the feeding arm 22 far away from one end of the feeding transmission shaft 23 is bent upwards to form a limiting hook 221 for preventing the feeding roller 21 from rolling down from the feeding arm 22, the feeding transmission shaft 23 is fixedly connected with the feeding arm 22 through a locking piece 24, shaft sleeves 212 are sleeved at two ends of the feeding roller 21, the feeding roller 21 abuts against the feeding groove 12 through the shaft sleeves 212, a limiting baffle 17 is arranged at one end, corresponding to the feeding groove 12, of the rack 1, the limiting baffle 17 is fixed at an opening of the feeding groove 12 through a feeding fastening piece 18, and the mounting shaft 41 is an air expansion shaft or a vacuum pumping shaft.

As shown in fig. 13, a cored roll type label paper includes a paper core sleeve 80 with a paper tape 8 and a paper tape 8 not adhered to each other, the paper tape 8 is wound into a cylindrical body by the paper core sleeve 80, a paper tape head 81 is left on an outer ring of the paper tape 8, a locking paper slip 82 is pasted between the paper tape head 8 and the paper tape 8, at this time, an installation shaft is an air expansion shaft, the paper core sleeve is sleeved on the air expansion shaft to be rewound to form the cored roll type label paper, the movement direction of the label paper is changed after the label paper is pressed by an insertion knife, the paper core sleeve on the installation shaft is pressed in a hemispherical shape to cover the label paper, and the first and second winding rollers are used for pressing and winding the label paper, so that the first end is not adhered and the first end is not folded and wound, the cored roll type label paper can be manufactured without adhesive, a user can use the label paper to the last one, and the use is more energy-saving and environment-friendly.

As shown in fig. 14, a coreless roll type label paper comprises a paper tape 8, the paper tape 8 is wound into a cylindrical body, a mounting hole 83 is formed in the center of the cylindrical body, the mounting hole 83 is an inner hole formed by winding the paper tape, a paper tape tail 84 is left in the mounting hole 83, a paper tape head 81 is left on the outer ring of the paper tape 8, a locking paper strip 82 is attached between the paper tape head 81 and the paper tape 8, the mounting shaft is a vacuum-pumping shaft, the movement direction of the label paper is changed after the label paper is pressed by an insert cutter, the label paper is hemispherically pressed and covered on the vacuum-pumping shaft, negative pressure is formed by the vacuum-pumping shaft to adsorb the label paper on the vacuum-pumping shaft, the label paper is pressed and covered and wound by first and second winding rollers, so that the head end is not adhered and the head end is not folded, the coreless roll type label paper can be manufactured without being folded, a user can use the label paper to the last one, a paper core sleeve is cancelled, and waste of resources and environmental pollution are avoided, the use is more energy-saving and environment-friendly.

Claims (8)

1. Label paper rolling divides strip machine, which comprises a frame, the frame is equipped with feed mechanism, branch strip mechanism and rolling unloader, its characterized in that in proper order along label paper's direction of motion: the feeding mechanism comprises a feeding roller for mounting the adhesive paper tube, the slitting mechanism comprises a slitting frame and a slitting driving assembly which are arranged on the rack, and a hobbing assembly which is arranged in the slitting frame and used for slitting the adhesive paper tube, the winding and blanking device comprises a blanking mechanism arranged at one end of the rack far away from the feeding mechanism, a rewinding mechanism arranged at one end of the rack corresponding to the blanking mechanism, and a slotting tool cutting device arranged between the blanking mechanism and the slitting mechanism, the blanking mechanism comprises at least one mounting shaft, the end of the rack corresponding to the mounting shaft is provided with the rewinding driving assembly for driving the mounting shaft to rotate, the slotting tool cutting device comprises a material pressing frame arranged at one end of the rack corresponding to the mounting shaft, one end of the material pressing frame facing the mounting shaft is provided with a first winding roller, the other end of the material pressing frame is connected with a material pressing cylinder, and the material pressing frame is connected with the rack through a material pressing swinging shaft, the rewinding mechanism comprises a rewinding lifting frame arranged at one end of the rack corresponding to the installation shaft, the rewinding lifting frame is provided with a second winding roller towards one end of the installation shaft, the second winding roller is arranged at one end of the installation shaft far away from the first winding roller, one end of the rack corresponding to the rewinding lifting frame is provided with a rewinding lifting assembly for driving the second winding roller to axially lift, the rewinding lifting assembly drives the second winding roller to move towards the installation shaft to form a second gap between the second winding roller and the installation shaft, and one end of the first winding roller towards the installation shaft is provided with an inserting knife for tightly pressing the label paper on the installation shaft, the label paper which is split by the hob assembly sequentially passes through the second gap and the first gap and is pressed on the mounting shaft by the slotting tool to be wound.

2. The label paper winding and slitting machine as claimed in claim 1, wherein: the feeding mechanism comprises a turnover disc and a turnover driving assembly, the turnover disc is arranged on the frame and movably connected with the frame, the turnover driving assembly drives the turnover disc to rotate on the frame in the circumferential direction, one end of the turnover disc, corresponding to the rewinding mechanism, is matched with the slotting tool material cutting device to form a rewinding station, the other end of the turnover disc is a feeding station, the number of the installation shafts is 2, the installation shafts are arranged at two ends of the diameter of the turnover disc, the installation shafts at the two ends are respectively positioned in the rewinding station and the feeding station, the installation shafts are movably connected with the turnover disc and drive the turnover disc to rotate through the turnover driving assembly, so that the positions of the installation shafts in the rewinding station and the feeding station are exchanged, turnover disc positioning blocks are arranged at two ends of the turnover disc, a turnover disc locking cylinder is arranged on the frame, a locking cone is arranged at the output end of the turnover disc locking cylinder, and a locking groove for the locking cone to be inserted into and locked on the turnover disc is arranged on the frame, when the installation shaft is arranged in the rewinding station or the blanking station, the turnover disc locking cylinder drives the locking cone to be inserted into the locking groove.

3. The label paper winding and slitting machine as claimed in claim 2, wherein: the rewinding driving assembly comprises a rewinding driving motor arranged on the frame, a rewinding synchronous auxiliary wheel arranged at one end of the mounting shaft facing the rewinding driving motor, and a rewinding synchronous auxiliary wheel arranged at one end of the frame far away from the rewinding driving motor, the output end of the rewinding driving motor is provided with a rewinding synchronous main wheel, a rewinding synchronous belt is wound between the rewinding synchronous auxiliary wheel and the rewinding synchronous main wheel, the rewinding synchronous auxiliary wheel is arranged outside the rewinding synchronous belt and is abutted and meshed with the periphery of the rewinding synchronous belt and drives the mounting shaft in the rewinding station to rotate, the overturning driving assembly comprises an overturning shaft and an overturning driving motor, the output end of the overturning driving motor is provided with an overturning synchronous main wheel, one end of the overturning shaft is connected with the overturning disc, and the other end of the overturning synchronous auxiliary wheel is arranged, a turnover synchronous belt is wound between the turnover synchronous main wheel and the turnover synchronous auxiliary wheel, one end of the turnover disc corresponding to two installation shafts is provided with a stop cylinder, the output end of the stop cylinder is provided with a stop plate, the installation shafts are provided with stop tables after penetrating through the turnover disc, the stop plate is provided with arc-shaped stop grooves matched with the stop tables, the stop cylinders are abutted against the stop tables by pushing the arc-shaped stop grooves to limit the rotation of the installation shafts, the rewinding lifting assembly comprises rewinding lifting cylinders arranged on a frame, the output end of the rewinding lifting cylinder is connected with the rewinding lifting frame and drives the second winding roller to axially reciprocate, one side of the rewinding lifting frame corresponding to the second winding roller is provided with an auxiliary roller, one end of the rewinding lifting frame corresponding to the auxiliary roller is provided with an L-shaped swinging frame with the center hinged with the rewinding lifting frame, and one end of the L-shaped swinging frame is connected with the auxiliary roller, the other end is connected with supplementary swing cylinder, supplementary swing cylinder is connected with the frame to drive the auxiliary roll and be the wane motion, make the reciprocal installation axle motion of rolling up in the station of auxiliary roll, make auxiliary roll, first rolling roller axle and second rolling roller axle be the outer peripheral face of triangle-shaped structural distribution at the installation axle.

4. The label paper winding and slitting machine as claimed in claim 3, wherein: the material cutting mechanism is arranged at one end of the material pressing frame facing the slotting tool, the material cutting mechanism comprises a material cutting mounting frame arranged on the material pressing frame, synchronous wheel mounting plates are arranged at two ends of the material cutting mounting frame and connected through a material cutting balancing rod, material cutting synchronous wheels with end parts hinged with the synchronous wheel mounting plates are oppositely arranged on the synchronous wheel mounting plates, material cutting synchronous belts are wound between the material cutting synchronous wheels, one of the material cutting synchronous wheels is provided with a synchronous belt driving motor driving the material cutting synchronous belts to rotate back and forth, a cutter mounting plate is arranged at one end of the material cutting synchronous belt facing the slotting tool, one end of the cutter mounting plate is fixedly connected with the material cutting synchronous belts, the other end of the cutter mounting plate is provided with a cutter, the cutter is arranged at the front end of the slotting tool, the synchronous belt driving motor drives the cutter to reciprocate radially between the synchronous wheel mounting plates, and the cutter is a circular cutter blade, the cutter is installed on the cutter mounting plate through the material cutting motor and drives the cutter to rotate through the material cutting motor.

5. The label paper winding and slitting machine as claimed in claim 4, wherein: the device is characterized in that one end of the synchronizing wheel mounting plate corresponding to the material breaking mounting frame is provided with an L-shaped mounting plate, one end of the L-shaped mounting plate facing the material breaking mounting frame is provided with a lifting sliding table, two ends of the material breaking mounting frame are provided with lifting sliding rails for mounting the lifting sliding tables, two ends of the material breaking mounting frame are provided with material breaking lifting cylinders, the output direction of the material breaking lifting cylinders is parallel to the lifting sliding rails, one end of the L-shaped mounting plate is connected with the lifting sliding tables, the other end of the L-shaped mounting plate is connected with the output end of the material breaking lifting cylinders, the synchronizing wheel mounting plate is driven to move axially along the lifting sliding rails through the material breaking lifting cylinders, the material breaking sliding rails are arranged between the synchronizing wheel mounting plates, the cutter mounting plate is provided with the material breaking sliding tables, the cutter mounting plate is mounted on the material breaking sliding rails through the material breaking sliding tables, and drives the cutter mounting plate to reciprocate back and forth along the material breaking sliding rails through a synchronous belt drive motor, one end of the material pressing frame corresponding to the slotting tool is provided with a cylinder mounting plate, the cylinder mounting plate is provided with a slotting tool lifting cylinder, the output end of the slotting tool lifting cylinder is provided with a slotting tool mounting plate, the slotting tool is mounted on the slotting tool mounting plate, and the slotting tool is driven to axially lift by the slotting tool lifting cylinder, one end of the material pressing frame corresponding to the cylinder mounting plate is provided with a cylinder adjusting plate, one side of the cylinder adjusting plate is provided with an angle adjusting plate, one end of the cylinder mounting plate is hinged with the cylinder adjusting plate, an angle adjusting slide block is arranged at one end facing the angle adjusting plate, an arc adjusting groove is arranged in the angle adjusting plate, the angle adjusting slide block is connected with the arc-shaped adjusting groove through a fastener, the material breaking mounting frame is provided with a horizontal adjusting groove, the material cutting and installing device is characterized in that a horizontal adjusting block is arranged on the material pressing frame, the horizontal adjusting block is arranged in a horizontal adjusting groove, and the material cutting and installing frame moves back and forth on the horizontal adjusting block through the horizontal adjusting groove.

6. The label paper winding and slitting machine as claimed in claim 5, wherein: one end of the hob component extends out of the rack and is connected with the slitting drive component, the hob component is driven to rotate by the slitting drive component, the hob component comprises an upper hob shaft, a lower hob shaft and a transmission component, the transmission component is arranged on the slitting rack and is used for linking the upper hob shaft and the lower hob shaft to rotate, a plurality of upper hobs distributed at equal intervals are sleeved on the outer peripheral surface of the upper hob shaft, lower hobs which correspond to the upper hobs in a one-to-one mode are sleeved on the outer peripheral surface of the lower hob shaft, the upper hobs and the lower hobs are in staggered contact, an upper hob adjusting shaft is arranged at one end, corresponding to the upper hob shaft, of the slitting rack, one end of the upper hob adjusting shaft extends out of the slitting rack and is provided with an upper hob adjusting handle, an upper hob adjusting frame is fixedly arranged on the upper hob adjusting shaft, the upper hob shaft is arranged on the upper hob adjusting frame and is controlled to float up and down by the upper hob adjusting shaft through the upper hob adjusting handle, and then the upper hob shaft and the lower hob adjusting handle are adjusted, The space between the lower hobs, the transmission component comprises a lower hob transmission gear arranged on the lower hob shaft and an upper hob transmission gear arranged on the upper hob shaft and meshed with the lower hob transmission gear, one end of the rack corresponding to the slitting rack is provided with a slitting guide shaft, the slitting rack is erected on the slitting guide shaft, the slitting rack is provided with a slitting adjusting screw rod, one end of the slitting adjusting screw rod is fixedly connected with the slitting rack, the other end of the slitting adjusting screw rod extends out of the rack and is provided with a slitting adjusting handle, the slitting adjusting screw rod is in threaded connection with the rack, the slitting driving component comprises a slitting motor arranged on the rack and a cutter synchronizing wheel arranged on the lower hob shaft, the output end of the slitting motor is provided with an output synchronizing wheel, a slitting synchronizing belt is wound between the output synchronizing wheel and the cutter synchronizing wheel and drives the lower hob shaft to rotate through the slitting synchronizing belt, and the rack is provided with a traction component, traction assembly one end extends the frame and is connected with branch strip drive assembly outward, traction assembly draws the axle and draws the axle down including last, divide strip drive assembly still including setting up the epaxial synchronous wheel that draws of drawing down, divide the strip hold-in range around locating on drawing synchronous wheel, cutter synchronous wheel and the output synchronous wheel, be equipped with the count light eye between traction assembly and the hobbing cutter subassembly, the count light eye passes through the count mounting bracket to be fixed in the frame.

7. The label paper winding and slitting machine as claimed in claim 6, wherein: the feeding mechanism is characterized in that a feeding groove for placing a feeding roller is formed in the rack, a feeding arm for driving the feeding roller to enter the feeding groove is arranged in the rack, one end of the feeding arm is connected with the rack through a feeding transmission shaft, the other end of the feeding arm extends out of the rack, the feeding transmission shaft is arranged at one end, away from the feeding groove, of the rack, one end of the rack penetrates out of the rack, a pulling cylinder is arranged at one end, corresponding to the feeding transmission shaft, of the rack, a pulling shaft pulling arm is arranged at the output end of the pulling cylinder, one end of the pulling shaft pulling arm is connected with the pulling cylinder, the other end of the pulling shaft pulling arm is connected with the feeding transmission shaft, the feeding arm is driven by the pulling cylinder to reciprocate in the axial direction with the feeding transmission shaft as a fulcrum, a feeding assembly is arranged at one end, corresponding to the feeding groove, of the rack comprises a feeding mounting frame and a magnetic powder brake arranged on the feeding mounting frame, and a driving gear is arranged at one end, facing the feeding groove, the utility model discloses a material loading mechanism, including loading roller, loading arm, axle sleeve, loading roller, frame, drive roller, loading arm, axle sleeve, loading roller one end is extended and is equipped with outside the loading groove and be equipped with the driven gear with driving gear engaged with to drive the loading roller at the loading groove internal rotation through magnetic brake, the tip of the one end of loading transmission shaft is kept away from to the loading arm up-bending forms and prevents the spacing colluding that the loading roller rolled from the loading arm, the loading transmission shaft passes through retaining member and loading arm fixed connection, loading roller both ends cover is equipped with the axle sleeve, the loading roller offsets through axle sleeve and loading groove, the one end that the frame corresponds the loading groove is equipped with limit baffle, limit baffle passes through the material loading fastener and fixes at the loading groove opening part.

8. The label paper winding and slitting machine as claimed in any one of claims 1 to 7, wherein: the mounting shaft is an inflatable shaft or a vacuum-pumping shaft.

Images