CN217478647U - Correction tape rolling cutting device - Google Patents

Abstract

The utility model discloses a correction tape winding and cutting device, which comprises a frame, a winding mechanism and a laser cutting mechanism, wherein the winding mechanism and the laser cutting mechanism have the same number and are in one-to-one correspondence; the winding mechanism comprises a slitting guide roller, an overturning winding frame, an overturning driving mechanism capable of driving the overturning winding frame to overturn and two winding rollers, the slitting guide roller and the overturning winding frame are respectively rotatably mounted on the rack, the slitting guide roller is arranged in front of the overturning winding frame, the overturning driving mechanism is mounted on the rack and is in transmission connection with the overturning winding frame, and two ends of each winding roller can be rotatably mounted on the overturning winding frame and are symmetrically arranged along the axis of the overturning winding frame; the laser cutting mechanism is arranged on the machine frame and is positioned above the overturning and winding frame and the slitting guide roller. The correction tape winding and cutting device automatically cuts off the core paper which is wound, does not need to stop in the cutting process, and can continuously wind the core paper.

Description

Correction tape rolling cutting device

Technical Field

The utility model relates to a correction tape production facility, in particular to correction tape rolling cutting device.

Background

People often encounter the condition of wrong writing in the daily writing process, and because marks cannot be removed by using an eraser after writing like a ball-point pen, a pen and the like, if the wrong writing is directly removed by using the pen, the appearance is influenced too much, a small amount of correction tape or correction fluid is coated on the wrong writing usually to cover the wrong writing and write again at a corrected position. The correction tape and the correction fluid are convenient and quick to use and strong in covering force, and the correction traces cannot be displayed in a copy or a fax. The correction tape has the advantages that the correction tape needs to wait for a short period of time after being used, the liquid can be written after being dried, the correction tape can be written on a clean and smooth surface immediately after being used, and the correction tape is more environment-friendly and free of peculiar smell, so that the correction tape is more popular with people. The existing correction tape winding structure is that a belt feeding wheel and a waste belt wheel are respectively arranged on two gears which are meshed with each other, the two gears rotate relatively during use, unused core paper is discharged from the belt feeding wheel, and the used waste belt paper is collected by the waste belt wheel.

In the process of manufacturing the cored paper, the cored paper with the coating rolled up completely is manufactured, and when the cored paper is rolled up in a subsequent circle, the whole cored paper needs to be cut into a plurality of parallel strip-shaped cored paper before rolling. However, after the winding length of the existing equipment meets the requirement, the winding needs to be stopped first, and then all strip core paper is cut off in sequence; after the core paper which finishes rolling is taken out, the strip core paper is required to be sequentially attached to the winding roller, and then rolling can be performed next time, so that the operation is inconvenient, and more manpower is required to be invested.

Disclosure of Invention

The utility model aims to solve the technical problem that a correction tape rolling cutting device is provided, this kind of correction tape rolling cutting device cuts off the tape core paper of accomplishing the rolling automatically, need not the shut down at the cutting-off process, can carry out the rolling of tape core paper in succession.

In order to solve the technical problems, the technical scheme is as follows:

the utility model provides a correction tape rolling cutting device which characterized in that: the winding mechanism and the laser cutting mechanism are the same in number and are in one-to-one correspondence; the winding mechanism comprises a slitting guide roller, an overturning winding frame, an overturning driving mechanism capable of driving the overturning winding frame to overturn and two winding rollers, the slitting guide roller and the overturning winding frame are respectively rotatably mounted on the rack, the slitting guide roller is arranged in front of the overturning winding frame, the overturning driving mechanism is mounted on the rack and is in transmission connection with the overturning winding frame, and two ends of each winding roller can be rotatably mounted on the overturning winding frame and are symmetrically arranged along the axis of the overturning winding frame; the laser cutting mechanism is arranged on the machine frame and is positioned above the overturning and winding frame and the slitting guide roller.

In the correction tape winding and cutting device, the whole version of the cored paper subjected to coating stripping and gummed paper attaching is conveyed to the winding roller through the slitting guide roller, and the slitting guide roller cuts the whole version of the cored paper into a plurality of parallel strip-shaped cored paper so that the strip-shaped cored paper is wound by the winding roller; then, the winding roller winds each strip-shaped core paper, when the winding length reaches the requirement (namely, the wound core paper length reaches the required length of the correction tape), the overturning winding frame is firstly overturned, so that the other winding roller winds the position, to be wound, of the core paper, the core paper is attached to the winding roller (when the core paper length reaches the required length, the core paper is generally attached to the adhesive paper in the previous process, the adhesive paper attachment is not only used for attaching the front end of the core paper to the winding roller when the core paper is subsequently installed on the correction tape, but also used for attaching the newly wound core paper to the feeding roller, generally, the winding roller is penetrated with the feeding roller for subsequent winding installation on the correction tape, when the strip-shaped core paper is wound on the feeding rollers, and after winding is completed, taking down the belt conveying wheel); and then cutting off the cored paper on the winding roller which finishes winding by the laser cutting mechanism, starting to rotate the winding roller which is prepared for winding, continuing to wind the cored paper, and circulating in sequence. The quantity of winding mechanism and laser cutting mechanism can set up as required.

The front-back direction is determined according to the conveying direction of the core paper, and the position where the core paper passes first is front, and the position where the core paper passes later is back.

In a preferred scheme, the laser cutting mechanism comprises a front and rear translation driving device, a front and rear translation frame and a laser cutter, the front and rear translation driving device is installed on the rack, the front and rear translation frame is installed on the power output end of the front and rear translation driving device, and the laser cutter is installed on the front and rear translation frame. When cutting is needed, the front-back translation driving device drives the front-back translation frame to translate front and back to drive the laser cutter to move to the upper position between the turnover winding frame and the slitting guide roller; when cutting is not required, the laser cutter retracts. By adopting the arrangement, the laser cutter can give way to the space of overturning when the overturning and winding frame overturns, and the overturning cannot be influenced.

In a further preferred scheme, the laser cutting mechanism further comprises a left translation driving device, a right translation driving device, a left translation frame and a right translation frame, the left translation driving device and the right translation driving device are installed on the front translation frame and the rear translation frame, the left translation frame and the right translation frame are installed on the power output ends of the left translation driving device and the right translation driving device, and the laser cutter is installed on the left translation frame and the right translation frame. When cutting off, the left-right translation driving device drives the laser cutter to translate, and the cored paper is cut off from left to right. The left and right translation driving device can adopt a rodless cylinder, and the left and right translation frames are connected with a sliding block of the rodless cylinder; the front and back translation driving device can adopt two cylinders, and two ends of the front and back translation frame are respectively connected with piston rods of the two cylinders.

In a preferred scheme, the overturning and winding frame comprises a connecting plate and two overturning plates, and two ends of the connecting plate are respectively and fixedly connected with the middle parts of the inner side surfaces of the two overturning plates; the two wind-up rollers are respectively rotatably arranged between the two turnover plates and are respectively positioned at two ends of the turnover plates and symmetrically arranged; the outer sides of the two turnover plates are rotatably installed on the rack through rotating shafts respectively, the two turnover plates can coaxially rotate, and driving pieces matched with the turnover driving mechanism are arranged at the two ends of the outer side of one turnover plate.

In a further preferred scheme, the overturning driving mechanism comprises a driving gear driving device and a driving gear, the driving gear driving device is installed on the rack, and the driving gear is connected with a power output end of the driving gear driving device; two the driving piece is can with driving gear engaged with driven gear, two driven gear respectively fixed mounting be in the outside both ends of returning face plate. During the rolling, one of them driven gear on the returning face plate keeps meshing with the driving gear and rotates, and when needs overturn, drive gear drive arrangement rotates through the drive driving gear to drive the returning face plate through driven gear and overturn, until another driven gear meshes with the driving gear mutually.

In a further preferred scheme, the driving gear driving device comprises a motor, a driving wheel, a driven wheel and a synchronous belt, the motor is installed on the rack, the driving wheel is installed on a power output shaft of the motor, the driven wheel is rotatably installed on the rack and is coaxial with the driving gear, and the synchronous belt is tensioned between the driving wheel and the driven wheel. When needing the upset, the motor passes through the driving wheel drive and rotates from the driving wheel to drive the driving gear and rotate, the driven gear with driving gear meshing drives the returning face plate and overturns.

In a further preferred scheme, the connecting plate is long. The webs in the form of strips can provide sufficient torsion resistance when turned over.

The beneficial effects of the utility model reside in that: the correction tape winding and cutting device can automatically cut off the core paper which is wound, does not need to stop in the cutting process, and can continuously wind the core paper.

Drawings

Fig. 1 is a schematic structural view of a correction tape winding and cutting device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a winding mechanism and a laser cutting mechanism in an embodiment of the present invention;

fig. 3 is a schematic structural view of another angle of the winding mechanism and the laser cutting mechanism in the embodiment of the present invention.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

a correction tape winding and cutting device as shown in fig. 1-3, which comprises a frame 1, a winding mechanism 2 and a laser cutting mechanism 3, wherein the winding mechanism 2 and the laser cutting mechanism 3 are in the same number and are in one-to-one correspondence; the winding mechanism 2 comprises a slitting guide roller 201, an overturning winding frame 202, an overturning driving mechanism 203 capable of driving the overturning winding frame 202 to overturn and two winding rollers 204, the slitting guide roller 201 and the overturning winding frame 202 are respectively rotatably mounted on the rack 1, the slitting guide roller 201 is arranged in front of the overturning winding frame 202, the overturning driving mechanism 203 is mounted on the rack 1 and is in transmission connection with the overturning winding frame 202, and two ends of each winding roller 204 can be rotatably mounted on the overturning winding frame 202 and are symmetrically arranged along the axis of the overturning winding frame 202; the laser cutting mechanism 3 is installed on the machine frame 1, and the laser cutting mechanism 3 is positioned above the overturning and winding frame 202 and the slitting guide roller 201.

In the correction tape winding and cutting device, the whole version of the cored paper subjected to coating stripping and gummed paper attachment is conveyed to the winding roller 204 through the slitting guide roller 201, and the slitting guide roller 201 cuts the whole version of the cored paper into a plurality of parallel strip-shaped cored paper so that the strip-shaped cored paper is wound by the winding roller 204; then, the wind-up roll 204 winds up each strip-shaped cored paper, when the winding length reaches the requirement (namely, the wound cored paper reaches the required length of the correction tape), the wind-up roll 202 is firstly turned over, so that the other wind-up roll 204 winds up the position of the cored paper attached with the gummed paper to prepare winding, the cored paper is attached to the wind-up roll 204 (when the cored paper reaches the required length, the cored paper is usually attached to the gummed paper in the previous process, the gummed paper attachment is not only used for attaching the front end of the cored paper to the wind-up roll when the cored paper is subsequently mounted on the correction tape, but also used for attaching the newly wound cored paper to the wind-up roll, generally, the wind-up roll 204 is provided with a wind-up roll wheel for subsequent mounting on the correction tape, when the strip-shaped cored paper is wound up, each cored paper is respectively wound on the wind-up roll, after the rolling is finished, taking down the belt conveying wheel); then the laser cutting mechanism 3 cuts the cored paper on the winding roller 204 which finishes winding, and finally the winding roller 204 which is ready for winding starts to rotate, continues to wind the cored paper, and circulates in sequence.

The front-back direction is determined according to the conveying direction of the core paper, and the position where the core paper passes first is front, and the position where the core paper passes later is back.

The laser cutting mechanism 3 comprises a front-back translation driving device 301, a front-back translation frame 302, a left-right translation driving device 303, a left-right translation frame 304 and a laser cutter 305, wherein the front-back translation driving device 301 is installed on the machine frame 1, the front-back translation frame 302 is installed on the power output end of the front-back translation driving device 301, the left-right translation driving device 303 is installed on the front-back translation frame 302, the left-right translation frame 304 is installed on the power output end of the left-right translation driving device 303, and the laser cutter 305 is installed on the left-right translation frame 304. When cutting is needed, the front-back translation driving device 301 drives the front-back translation frame 302 to translate front and back to drive the laser cutter 305 to move to the upper position between the turnover winding frame 202 and the slitting guide roller 201, and the left-right translation driving device 303 drives the laser cutter 305 to translate to cut the cored paper from left to right; when cutting is not required, the laser cutter 305 is retracted. With the adoption of the arrangement, the laser cutter 305 can make room for overturning when the overturning winding frame 202 overturns, and the overturning cannot be influenced. The left and right translation driving device 303 adopts a rodless cylinder, and the left and right translation frames 304 are connected with a sliding block of the rodless cylinder; the front and rear translation driving device 301 adopts two cylinders, and two ends of the front and rear translation frame 302 are respectively connected with piston rods of the two cylinders.

The turnover winding frame 202 comprises a connecting plate 2021 and two turnover plates 2022, and two ends of the connecting plate 2021 are respectively fixedly connected with the middle parts of the inner side surfaces of the two turnover plates 2022; the two winding rollers 204 are respectively and rotatably mounted between the two turning plates 2022, and the two winding rollers 204 are respectively positioned at two ends of the turning plates 2022 and are symmetrically arranged; the outsides of the two turning plates 2022 are rotatably mounted on the frame 1 through rotating shafts respectively, and the two turning plates 2022 can rotate coaxially, and driving parts 20221 which can be matched with the turning driving mechanism 203 are arranged at both ends of the outside of one of the turning plates 2022.

The overturning driving mechanism 203 comprises a driving gear driving device 2031 and a driving gear 2032, wherein the driving gear driving device 2031 is installed on the rack 1, and the driving gear 2032 is connected with the power output end of the driving gear driving device 2031; the two driving members 20221 are driven gears capable of meshing with the driving gear 2032, and the two driven gears are respectively and fixedly mounted at two ends of the outer side of the flip plate 2022. During the rolling, one of them driven gear on the returning face plate 2022 keeps meshing with the driving gear 2032 and rotates, and when needs overturn, the driving gear driving device 2031 rotates through driving the driving gear 2032 to drive the returning face plate 2022 through the driven gear and overturn until another driven gear meshes with the driving gear 2032 mutually.

The driving gear driving device 2031 comprises a motor, a driving wheel, a driven wheel and a synchronous belt, wherein the motor is installed on the frame 1, the driving wheel is installed on a power output shaft of the motor, the driven wheel is rotatably installed on the frame 1 and coaxially arranged with the driving gear 2032, and the synchronous belt is tensioned between the driving wheel and the driven wheel. When the overturning is needed, the motor drives the driven wheel to rotate through the driving wheel, so that the driving gear 2032 is driven to rotate, and the driven gear meshed with the driving gear 2032 drives the overturning plate 2022 to overturn.

The connecting plate 2021 is elongated. The connecting plate 2021, which is elongated, can provide sufficient torsion resistance when flipped over.

Claims (7)

1. The utility model provides a correction tape rolling cutting device which characterized in that: the winding mechanism and the laser cutting mechanism are the same in number and are in one-to-one correspondence; the winding mechanism comprises a slitting guide roller, an overturning winding frame, an overturning driving mechanism capable of driving the overturning winding frame to overturn and two winding rollers, the slitting guide roller and the overturning winding frame are respectively rotatably mounted on the rack, the slitting guide roller is arranged in front of the overturning winding frame, the overturning driving mechanism is mounted on the rack and is in transmission connection with the overturning winding frame, and two ends of each winding roller can be rotatably mounted on the overturning winding frame and are symmetrically arranged along the axis of the overturning winding frame; the laser cutting mechanism is arranged on the rack and is positioned above the overturning and winding frame and the slitting guide roller.

2. A correction tape roll cutting device as defined in claim 1, wherein: the laser cutting mechanism comprises a front and rear translation driving device, a front and rear translation frame and a laser cutter, the front and rear translation driving device is installed on the rack, the front and rear translation frame is installed on the power output end of the front and rear translation driving device, and the laser cutter is installed on the front and rear translation frame.

3. The correction tape winding and cutting device according to claim 2, wherein: the laser cutting mechanism further comprises a left translation driving device, a right translation driving device, a left translation frame and a right translation frame, the left translation driving device and the right translation driving device are installed on the front translation frame and the rear translation frame, the left translation frame and the right translation frame are installed on the power output end of the left translation driving device and the right translation driving device, and the laser cutter is installed on the left translation frame and the right translation frame.

4. A correction tape roll cutting device as defined in claim 1, wherein: the turnover winding frame comprises a connecting plate and two turnover plates, and two ends of the connecting plate are respectively fixedly connected with the middle parts of the inner side surfaces of the two turnover plates; the two wind-up rollers are respectively rotatably arranged between the two turnover plates and are respectively positioned at two ends of the turnover plates and symmetrically arranged; the outer sides of the two turnover plates are rotatably arranged on the rack through rotating shafts respectively, the two turnover plates can coaxially rotate, and driving pieces matched with the turnover driving mechanism are arranged at the two ends of the outer side of one turnover plate.

5. The correction tape roll cutting device according to claim 4, wherein: the overturning driving mechanism comprises a driving gear driving device and a driving gear, the driving gear driving device is installed on the rack, and the driving gear is connected with the power output end of the driving gear driving device; two the driving piece is can with driving gear engaged with driven gear, two driven gear respectively fixed mounting be in the outside both ends of returning face plate.

6. A correction tape roll cutting device as defined in claim 5, wherein: the driving gear driving device comprises a motor, a driving wheel, a driven wheel and a synchronous belt, the motor is installed on the rack, the driving wheel is installed on a power output shaft of the motor, the driven wheel is rotatably installed on the rack and coaxially arranged with the driving gear, and the synchronous belt is tensioned between the driving wheel and the driven wheel.

7. The correction tape roll cutting device according to claim 4, wherein: the connecting plate is in a strip shape.

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