CN213505233U - Double faced adhesive tape cutting laminating machine - Google Patents

Abstract

A double faced adhesive tape cutting laminating machine comprises a composite conveying device and a synchronous pulley type laminating device; the composite conveying device comprises a first conveying belt, a first driving mechanism for driving the first conveying belt, second conveying belts arranged on two sides of the top surface of the first conveying belt, a second driving mechanism for driving the second conveying belts, and a third driving mechanism for driving the two second conveying belts to be close to or far away from each other; the synchronous pulley type laminating device comprises a mounting plate which is arranged above the first conveyor belt and is vertically arranged, a fourth driving mechanism for driving the mounting plate to transversely move above the first conveyor belt, an unwinding mechanism fixed on the mounting plate, a fixing plate fixed on the mounting plate, a first belt pressing wheel mechanism arranged on the fixing plate, a movable plate, a second belt pressing wheel mechanism fixed on the movable plate, a fifth driving mechanism for driving the movable plate to longitudinally move above the first conveyor belt, a winding mechanism fixed on the movable plate and a cutting mechanism. The utility model discloses can cut off the double faced adhesive tape and retrieve double faced adhesive tape substrate paper automatically.

Description

Double faced adhesive tape cutting laminating machine

Technical Field

The utility model relates to a double faced adhesive tape cuts rigging machine.

Background

The existing workbench attached by the double-sided adhesive tape basically cuts the base paper and the double-sided adhesive tape together by using a cutter, after the work flow is finished, the base paper is remained on the double-sided adhesive tape, and the base paper needs to be removed and recycled by one more process so as to prevent the subsequent work from being influenced. The substrate paper is cut into a plurality of sections, which makes the recycling work difficult in the subsequent treatment, and even causes resource waste because the substrate paper cannot be completely recycled.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a double faced adhesive tape cuts rigging machine is provided, can cut off the double faced adhesive tape and retrieve double faced adhesive tape substrate paper automatically.

In order to solve the technical problem, the technical scheme of the utility model is that: a double faced adhesive tape cutting laminating machine comprises a composite conveying device and a synchronous pulley type laminating device;

the synchronous pulley type laminating device comprises a mounting plate, a fourth driving mechanism for driving the mounting plate to transversely move, an unreeling mechanism fixed on the mounting plate, a fixed plate fixed on the mounting plate, a first belt pressing wheel mechanism arranged on the fixed plate, a movable plate, a second belt pressing wheel mechanism fixed on the movable plate, a fifth driving mechanism for driving the movable plate to longitudinally move, a reeling mechanism fixed on the movable plate and a cutting mechanism; the fixed plate and the movable plate are both provided with a plurality of synchronous belt pulleys, and the first belt pulley mechanism comprises a first air cylinder, a first pressure arm connected with the first air cylinder and a first belt pulley pivoted at the lower end of the first pressure arm; the second pinch roller mechanism comprises a second air cylinder, a second press arm connected with the second air cylinder and a second pinch roller pivoted at the lower end of the second press arm.

As an improvement, the synchronous pulley type laminating device comprises a mounting plate which is arranged above the first conveyor belt and is vertically arranged, a fourth driving mechanism which drives the mounting plate to transversely move above the first conveyor belt, an unreeling mechanism fixed on the mounting plate, a fixed plate fixed on the mounting plate, a first belt pressing wheel mechanism arranged on the fixed plate, a movable plate, a second belt pressing wheel mechanism fixed on the movable plate, a fifth driving mechanism which drives the movable plate to longitudinally move above the first conveyor belt, a reeling mechanism fixed on the movable plate and a cutting mechanism; the fixed plate and the movable plate are both provided with a plurality of synchronous belt pulleys, and the first belt pulley mechanism comprises a first air cylinder, a first pressure arm connected with the first air cylinder and a first belt pulley pivoted at the lower end of the first pressure arm; the second pinch roller mechanism comprises a second air cylinder, a second press arm connected with the second air cylinder and a second pinch roller pivoted at the lower end of the second press arm; the double faced adhesive tape discharged by the unwinding mechanism is wound on the winding mechanism after sequentially passing through the first pinch roller and the second pinch roller.

As an improvement, the fourth driving mechanism comprises two second screw rods which are parallel to each other and arranged above the first conveyor belt and a first nut seat matched with the second screw rods, the two second screw rods are linked through the transmission mechanism, the mounting plate is arranged between the two second screw rods, and the lower end of the mounting plate is fixed on the first nut seat; and a guide rod penetrating through the first nut seat is arranged below the second screw rod.

As an improvement, the two sides of the first conveyor belt are respectively provided with a support on the workbench, the two ends of the first screw rod and the second screw rod are respectively pivoted on the supports on the two sides, and the two ends of the guide rod are respectively fixed on the supports on the two sides.

As an improvement, one end of one of the first screw rods is provided with a first hand wheel, and one end of one of the second screw rods is provided with a second hand wheel.

As an improvement, two sides of the inlet end of the first conveyor belt are provided with baffle plates, and the baffle plates are fixed on the first mounting rod through connecting rods.

As an improvement, the synchronous belt pulley comprises a pivot shaft and two lantern rings sleeved on the pivot shaft, and a limit groove for restraining the double-sided adhesive tape is formed between the two lantern rings; the lantern ring is C-shaped, and two ends of an opening of the lantern ring are connected through bolts; the double faced adhesive tape is pressed on the synchronous belt wheel through the brake mechanisms, the brake mechanisms comprise brake cylinders and brake blocks, and the brake blocks are arranged in the limiting grooves.

As an improvement, the fifth driving mechanism includes a third screw, a second nut seat disposed on the back of the movable plate and engaged with the third screw, and a third motor driving the third screw, and the third motor is fixed on the mounting plate through the motor seat.

As an improvement, the unwinding mechanism comprises an unwinding support plate, an unwinding motor fixed on the unwinding support plate, an unwinding rotating shaft and an unwinding disc sleeved on the unwinding rotating shaft; one end of the unreeling rotating shaft penetrates through the unreeling support plate and then is connected with the unreeling motor, the other end of the unreeling rotating shaft penetrates through the unreeling support plate and then is connected with the limiting sleeve, a spring is arranged between the unreeling disc and the unreeling support plate, a plurality of annular grooves are formed in the unreeling disc, and the double faced adhesive tape is wound in the annular grooves.

As the improvement, the cutting mechanism comprises a blade, a telescopic cylinder for driving the blade to stretch and a lifting cylinder for driving the telescopic cylinder to lift, and the lifting cylinder is fixed on the mounting plate.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the second conveyor belts are added on two sides of the first conveyor belt, and the two second conveyor belts are clamped on two sides of the workpiece, so that the workpiece guiding device not only has the function of guiding the workpiece, but also can play a role of assisting in driving the workpiece, and the workpiece can be accurately positioned at an appointed position;

2. the two second conveying belts are close to or far away from each other through a second driving mechanism, so that the width of the workpiece conveying channel is changed to adapt to the operation of workpieces with different sizes;

3. the second pinch roller is matched with the first pinch roller, so that the double faced adhesive tape can be stably attached to the surface of the workpiece; cutting the double-sided adhesive tape at the separation part by matching with a cutting mechanism, and then recovering the residual base paper by a winding mechanism, thereby not only realizing automatic laminating and cutting, but also reducing resource waste and facilitating recovery and reutilization;

4. the synchronous belt wheel type laminating device enables the laminating of the double-sided adhesive tape and the recovery of the base paper to be combined into one process, so that the operation efficiency is improved;

5. the mounting plate is driven to move transversely through the fourth driving mechanism, and then the front position and the rear position of the synchronous pulley type laminating device are adjusted, so that the station is changed, and multi-station work can be completed on the same machine tool.

Drawings

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

Fig. 2 is a top perspective view of the compound delivery device.

Fig. 3 is a bottom perspective view of the compound delivery device.

Fig. 4 is a schematic view of a first conveyor belt.

Fig. 5 is a schematic view of a second conveyor belt.

Fig. 6 is a perspective view of the timing pulley type bonding device.

Fig. 7 is a front view of the timing pulley type bonding apparatus.

Fig. 8 is a schematic view of the movable plate.

Fig. 9 is a schematic view of a fixing plate.

Fig. 10 is a schematic view of a cutting mechanism.

Fig. 11 is a schematic view of an unwinding mechanism.

Fig. 12 is a schematic diagram of a timing pulley.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, a double-sided adhesive tape cutting and laminating machine includes a worktable 1, a composite conveying device 2 and a synchronous pulley type laminating device 3, which are arranged on the worktable 1. The composite conveying device 2 is used for moving workpieces into or out of a working area, and can form flow production; and the size of the workpiece can be adjusted according to the size of the workpiece, so that the applicability of the workpiece is wider. The synchronous belt wheel type laminating device 3 is used for laminating the double faced adhesive tape on the surface of a workpiece, automatically cutting the double faced adhesive tape 5 to form automatic unreeling operation, and meanwhile, the residual base material paper can be recycled.

As shown in fig. 2 and 3, the composite conveying device 2 includes a first conveyor belt 21 horizontally disposed, a first driving mechanism for driving the first conveyor belt 21, second conveyor belts 22 disposed on two sides of a top surface of the first conveyor belt 21, a second driving mechanism for driving the second conveyor belts 22, a third driving mechanism for driving the two second conveyor belts 22 to approach or separate from each other, and first mounting rods 211 disposed on two sides of the first conveyor belt 21.

As shown in fig. 2 and 4, two sides of the first conveyor belt 21 are respectively provided with a first mounting rod 211, the length of the first mounting rod 211 is similar to that of the first conveyor belt 21, and the bottom of the first mounting rod 211 is fixed on the workbench 1 through an upright post, so that an accommodating space is formed between the first conveyor belt 21 and the workbench 1; the first conveyor belt 21 is pivoted between the two first mounting rods 211 through a first driving roller and a first driven roller, and the first conveyor belt 21 is suspended above the workbench 1. The first driving mechanism comprises a first motor 213 arranged in the accommodating space below the first conveyor belt 21, and the first motor 213 is fixed on the first mounting rod 211 on one side through a first connecting seat, so that the first motor 213 can be suspended in the accommodating space, and the overall structure is more compact and the layout design is reasonable; the first motor 213 drives the drive roller through a first transmission mechanism, which may be a gear train.

As shown in fig. 2 and 5, the second conveyor belt 22 is pivoted on the second mounting rod 221 through a second driving roller and a second driven roller, the second conveyor belt 22 is disposed below the second mounting rod 221, the first conveyor belt 21 is perpendicular to the second conveyor belt 22, the first conveyor belt 21 and the second conveyor belts 22 on two sides enclose a conveying channel, the first conveyor belt 21 can support and drive a workpiece, and the second conveyor belts 22 are clamped on two sides of the workpiece to assist in driving the workpiece. The second driving drive comprises a second motor 222 which is reversely fixed at one end of the second mounting rod 221, an output shaft of the second motor 222 is connected with a second driving roller, and the second motor 222 drives the second conveyor belt 22 through the second driving roller. The third driving mechanism comprises two first screw rods 223 which are parallel to each other and arranged in the accommodating space below the first conveyor belt 21, first nuts 224 matched with the first screw rods 223 and second nuts 227 matched with the first screw rods 223; two ends of the first screw 223 are provided with two threads in different directions, the first nut 224 and the second nut 227 are respectively in threaded fit with threaded sections at two ends, and the rotation of the first nut 224 can enable the first nut 224 and the second nut 227 to move reversely; the two first screw rods 223 are linked through a transmission mechanism 228, one end of one first screw rod 223 is provided with a first hand wheel 226, and the two first screw rods 223 can be driven to synchronously rotate through the first hand wheel 226; the first nut 224 is connected with the second mounting rod 221 corresponding to the second conveyor belt 22 on one side through the first connecting piece 225, and the second nut 227 is connected with the second mounting rod 221 corresponding to the second conveyor belt 22 on the other side through the second connecting piece 225, that is, the distance between the second conveyor belts 22 on both sides can be controlled through the first hand wheel 226; the first and second connecting members are L-shaped, so that the first and second nuts 224 and 227 are hidden under the first conveyor belt 21, and space utilization is higher.

As shown in fig. 4, baffles 23 are disposed on two sides of the entrance end of the first conveyor belt 21, the baffles 23 are fixed on the first mounting rod 211 through a connecting rod, and can guide the workpiece to enter the first conveyor belt 21, primarily correct the position of the workpiece, and adjust the position of the baffles according to the size of the workpiece.

As shown in fig. 6, the synchronous pulley type laminating apparatus 3 includes a mounting plate 31 vertically disposed above the first conveyor belt 21, a fourth driving mechanism 35 for driving the mounting plate 31 to move transversely above the first conveyor belt 21, an unwinding mechanism 32 fixed to the mounting plate 31, a fixed plate 37 fixed to the mounting plate 31, a first pinch roller mechanism 38 disposed on the fixed plate 37, a movable plate 36, a second pinch roller mechanism 39 fixed to the movable plate 36, a fifth driving mechanism 34 for driving the movable plate 36 to move longitudinally above the first conveyor belt 21, a winding mechanism 33 fixed to the movable plate 36, and a cutting mechanism 8.

As shown in fig. 7 to 9, the first pinch roller mechanism 38 includes a first air cylinder 381, a first press arm 382 connected to the first air cylinder 381, and a first pinch roller 383 pivoted to a lower end of the first press arm 382. The second pinch roller mechanism 39 comprises a second air cylinder 391, a second press arm 392 connected with the second air cylinder 391 and a second pinch roller 393 pivoted at the lower end of the second press arm 392; the first and second pinch rollers 383 and 393 may press the double-sided adhesive tape 5 to the surface of the workpiece, so that the double-sided adhesive tape 5 is attached to the workpiece. The fixed plate 37 and the movable plate 36 are both provided with a plurality of synchronous pulleys 7, and the synchronous pulleys 7 on the fixed plate 37 are used for guiding the double faced adhesive tape 5 paid out by the unreeling mechanism 32 to a first pinch roller 383 of a first pinch roller 383 mechanism 38; the synchronous pulley 7 on the movable plate 36 is used for guiding the residual base paper to the winding mechanism 33 for recycling; the double-sided tape 5 paid out by the unreeling mechanism 32 is sequentially wound around the reeling mechanism 33 after passing through the synchronous pulley 7 on the fixed plate 37, the first pinch roller 383, the second pinch roller 393, and the synchronous pulley 7 on the movable plate 36.

As shown in fig. 12, the synchronous pulley 7 includes a pivot shaft 71 and two collars 72 sleeved on the pivot shaft 71, and a limit groove 73 for restricting the double-sided adhesive tape 5 is formed between the two collars 72; the lantern ring 72 is C-shaped, two ends of the opening of the lantern ring are connected through bolts, and the tightness of the lantern ring 72 is adjusted through the bolts, so that the size of the limiting groove 73 can be conveniently assembled and adjusted, and the double-sided adhesive tapes 5 with different widths can be adapted. As shown in fig. 7, the movable plate 36 and the fixed plate 37 are both provided with a brake mechanism 6 for pressing the double-sided adhesive tape 5 onto the synchronous pulley 7, the brake mechanism 6 includes a brake cylinder and a brake block, the brake block is located in the limit slot 73, and when the unwinding mechanism 32 stops unwinding, the double-sided adhesive tape 5 can be pressed and fixed by using the brake mechanism to avoid inertia or pulling.

As shown in fig. 6, the fourth driving mechanism 35 includes two second screw rods 352 parallel to each other and disposed above the first conveyor belt 21, and a first nut seat 354 engaged with the second screw rods 352; the two second screw rods 352 are linked through a second transmission mechanism 355; the mounting plate 31 is arranged between the two second screw rods 352, and the lower end of the mounting plate 31 is fixed on the first nut seat 354; a guide rod 353 passing through the first nut seat 354 is arranged below the second screw rod 352; one end of one of the second screws 352 is provided with a second hand wheel 351, and the two second screws 352 are driven to synchronously rotate by the second hand wheel 351, so that the mounting plate 31 is driven to transversely move above the first conveyor belt 21.

As shown in fig. 7, the fifth driving mechanism 34 includes a third screw 342, a second nut seat disposed on the back of the movable plate 36 and engaged with the third screw 342, and a third motor 341 driving the third screw 342, and the third motor 341 is fixed on the mounting plate 31 through the motor seat; the fifth driving mechanism 34 can drive the movable plate 36 to move along the length direction of the first conveyor belt 21.

As shown in fig. 2, the two sides of the first conveyor belt 21 on the working table 1 are respectively provided with a bracket 4, two ends of the first screw 223 and the second screw 352 are respectively pivoted on the two side brackets 4, and two ends of the guide rod 353 are respectively fixed on the two side brackets 4.

As shown in fig. 11, the unwinding mechanism 32 includes an unwinding support plate 325, an unwinding motor 324 fixed on the unwinding support plate 325, an unwinding rotation shaft 326, and an unwinding disc 321 sleeved on the unwinding rotation shaft 326; one end of the unreeling rotating shaft 326 passes through the unreeling support plate 325 and then is connected with the unreeling motor 324, the other end of the unreeling rotating shaft 326 passes through the unreeling and then is connected with the limiting sleeve 322, a spring 323 is arranged between the unreeling disc 321 and the unreeling support plate 325, the position of the unreeling disc 321 can be changed due to different compression degrees of the spring 323, and different double-faced adhesive tapes 5 on the unreeling disc 321 are positioned at working stations; the unwinding disc 321 is provided with a plurality of annular grooves, and the double-faced adhesive tapes 5 are wound in the annular grooves, so that a plurality of rolls of double-faced adhesive tapes 5 can be placed on the unwinding disc 321, and the continuous operation capacity of the equipment is improved. As shown in fig. 8, the winding mechanism 33 includes a winding disc 331, a winding motor for driving the winding disc 331, and a winding support 332, and the winding disc 331 is fixed on the movable plate 36 through the winding support 332.

As shown in fig. 7 and 10, the cutting mechanism 8 includes a blade 83, a telescopic cylinder 82 for driving the blade 83 to extend and contract, and a lifting cylinder 81 for driving the telescopic cylinder 82 to lift and lower; the lifting cylinder 81 is fixed to the mounting plate 31, and the blade 83 is extended and pressed against the double-sided tape 5, thereby cutting the double-sided tape 5.

The utility model discloses the theory of operation: the first conveyor belt 21 drives the workpiece to move into or out of the working area, so that the flow process is formed; because the positions of the fixing plate 37 and the first pinch roller 383 are relatively unchanged, the position of the workpiece needs to be accurately positioned before the double-sided adhesive tape 5 is attached to the surface of the workpiece, and the attachment can be completed only when the first conveyor belt 21 cannot complete the accurate positioning of the workpiece, the utility model discloses add the second conveyor belts 22 on the two sides of the first conveyor belt 21, and the two second conveyor belts 22 are clamped on the two sides of the workpiece, so that the function of guiding the workpiece is achieved, the function of assisting in driving the workpiece can be achieved, and the workpiece can be accurately positioned at the designated position; the two second conveyor belts 22 are close to or far away from each other through a second driving mechanism, so that the width of the workpiece conveying channel is changed to adapt to the operation of workpieces with different sizes; when the workpiece reaches the designated working area, the position of the first pinch roller 383 is kept unchanged, the second pinch roller 393 presses down the double-sided adhesive tape 5 to be attached to the surface of the workpiece, then the fifth driving mechanism 34 drives the movable plate 36 to move together with the second pinch roller 393 to be close to the first pinch roller 383, in the moving process of the second pinch roller 393, a section of the double-sided adhesive tape 5 can be attached to the surface of the workpiece, and the double-sided adhesive tape 5 passed by the second pinch roller 393 is separated from the base paper; then, the blade 83 of the cutting mechanism 8 presses on the double-sided adhesive tape 5 at the separation position and cuts it, completing one work flow; after the cutting mechanism 8 is reset, the first conveyor belt 21 and the second conveyor belt 22 move the workpiece out of the working area together, meanwhile, the winding mechanism 33 recovers the remaining substrate paper, the fifth driving mechanism 34 drives the movable plate 36 to reset together with the second pinch roller 393 and keep away from the first pinch roller 383, and a section of double-foot glue between the first pinch roller 383 and the second pinch roller 393 waits for the next workpiece to be attached. The fourth driving mechanism 35 can drive the mounting plate 31 to move transversely above the first conveyor belt 21, so that the synchronous belt wheel 7 type laminating device 3 is integrally moved to one position, and the laminating of the double-sided adhesive tape 5 on different positions of a workpiece can be realized or the operation of different workpieces can be adapted.

Claims (9)

1. The utility model provides a double faced adhesive tape cuts rigging machine which characterized in that: comprises a composite conveying device and a synchronous pulley type laminating device; the synchronous pulley type laminating device comprises a mounting plate, a fourth driving mechanism for driving the mounting plate to transversely move, an unreeling mechanism fixed on the mounting plate, a fixed plate fixed on the mounting plate, a first belt pressing wheel mechanism arranged on the fixed plate, a movable plate, a second belt pressing wheel mechanism fixed on the movable plate, a fifth driving mechanism for driving the movable plate to longitudinally move, a reeling mechanism fixed on the movable plate and a cutting mechanism; the fixed plate and the movable plate are both provided with a plurality of synchronous belt pulleys, and the first belt pulley mechanism comprises a first air cylinder, a first pressure arm connected with the first air cylinder and a first belt pulley pivoted at the lower end of the first pressure arm; the second pinch roller mechanism comprises a second air cylinder, a second press arm connected with the second air cylinder and a second pinch roller pivoted at the lower end of the second press arm.

2. The double faced adhesive tape cutting and laminating machine according to claim 1, characterized in that: the composite conveying device comprises a first conveying belt, a first driving mechanism, second conveying belts, a second driving mechanism, a third driving mechanism and first mounting rods, wherein the first conveying belt is horizontally arranged, the first driving mechanism is used for driving the first conveying belt, the second conveying belts are arranged on two sides of the top surface of the first conveying belt, the second driving mechanism is used for driving the second conveying belts, the third driving mechanism is used for driving the two second conveying belts to be close to or far away from each other, and the first mounting rods are arranged on two side surfaces of; the first conveyor belt is pivoted between the two first mounting rods through a first driving roller and a first driven roller, the first driving mechanism comprises a first motor arranged below the first conveyor belt, the first motor is fixed on the mounting rod on one side through a first connecting seat, and the first motor drives the driving roller through a first transmission mechanism; the second conveying belt is pivoted on the second mounting rod through a second driving roller and a second driven roller, the second driving mechanism comprises a second motor which is inversely fixed at one end of the second mounting rod, an output shaft of the second motor is connected with the second driving roller, the first conveying belt is vertical to the second conveying belt, and the first conveying belt and the second conveying belts at two sides form a conveying channel in a surrounding manner; the third driving mechanism comprises two first screw rods which are parallel to each other and arranged below the first conveyor belt, a first nut matched with the first screw rods and a second nut matched with the first screw rods, the two first screw rods are linked through a transmission mechanism, the first screw rods are driven to linearly move in the direction of the first nut and the second nut by rotation, the first nuts are connected with second mounting rods corresponding to the second conveyor belt on one side through first connecting pieces, and the second nuts are connected with second mounting rods corresponding to the second conveyor belt on the other side through second connecting pieces.

3. The double faced adhesive tape cutting and laminating machine according to claim 1, characterized in that: the fourth driving mechanism comprises two second screw rods which are parallel to each other and arranged above the first conveyor belt and a first nut seat matched with the second screw rods, the two second screw rods are linked through the transmission mechanism, the mounting plate is arranged between the two second screw rods, and the lower end of the mounting plate is fixed on the first nut seat; and a guide rod penetrating through the first nut seat is arranged below the second screw rod.

4. The double faced adhesive tape cutting and laminating machine according to claim 2, characterized in that: one end of one of the first screw rods is provided with a first hand wheel, and one end of one of the second screw rods is provided with a second hand wheel.

5. The double faced adhesive tape cutting and laminating machine according to claim 2, characterized in that: baffle plates are arranged on two sides of the inlet end of the first conveyor belt and fixed on the first mounting rod through connecting rods.

6. The double faced adhesive tape cutting and laminating machine according to claim 1, characterized in that: the synchronous belt wheel comprises a pivot shaft and two lantern rings sleeved on the pivot shaft, and a limit groove for restricting the double-sided adhesive tape is formed between the two lantern rings; the lantern ring is C-shaped, and two ends of an opening of the lantern ring are connected through bolts; the double faced adhesive tape is pressed on the synchronous belt wheel through the brake mechanisms, the brake mechanisms comprise brake cylinders and brake blocks, and the brake blocks are arranged in the limiting grooves.

7. The double faced adhesive tape cutting and laminating machine according to claim 1, characterized in that: the fifth driving mechanism comprises a third screw, a second nut seat arranged on the back of the movable plate and matched with the third screw, and a third motor for driving the third screw, and the third motor is fixed on the mounting plate through the motor seat.

8. The double faced adhesive tape cutting and laminating machine according to claim 1, characterized in that: the unwinding mechanism comprises an unwinding support plate, an unwinding motor fixed on the unwinding support plate, an unwinding rotating shaft and an unwinding disc sleeved on the unwinding rotating shaft; one end of the unreeling rotating shaft penetrates through the unreeling support plate and then is connected with the unreeling motor, the other end of the unreeling rotating shaft penetrates through the unreeling support plate and then is connected with the limiting sleeve, a spring is arranged between the unreeling disc and the unreeling support plate, a plurality of annular grooves are formed in the unreeling disc, and the double faced adhesive tape is wound in the annular grooves.

9. The double faced adhesive tape cutting and laminating machine according to claim 1, characterized in that: the cutting mechanism comprises a blade, a telescopic cylinder for driving the blade to stretch and a lifting cylinder for driving the telescopic cylinder to lift, and the lifting cylinder is fixed on the mounting plate.

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