CN211056348U - Automatic tape sticking device - Google Patents

Abstract

The utility model discloses an automatic adhesive tape sticking device, which comprises a plurality of material support plates, a support plate conveying mechanism, an adhesive tape feeding mechanism, a cutting mechanism and an adhesive tape detection mechanism; the adhesive tape feeding mechanism, the adhesive tape detecting mechanism and the cutting mechanism are sequentially arranged above the carrier plate conveying mechanism along the conveying direction of the carrier plate conveying mechanism; the material conveying mechanism is used for conveying materials to the material support plates; the adhesive tape detection mechanism is used for detecting whether the adhesive tape feeding mechanism is short of materials; the cutting mechanism is used for pressing the adhesive tape on the material carrier plate and cutting off the adhesive tape. The automatic cutting function of the automatic adhesive tape is realized, the material shortage condition is automatically detected, the purpose of timely material change is achieved, and the production efficiency is improved; meanwhile, the width of the material conveying mechanism of the carrier plate can be adjusted, the device is suitable for various products, and the device is convenient to change the shape.

Description

Automatic tape sticking device

Technical Field

The utility model relates to a rubberizing tape operation technical field especially relates to an automatic rubberizing tape device.

Background

In the production process of electronic products, the procedure of sticking the adhesive tape is generally finished by using adhesive tape sticking equipment, but the adhesive tape sticking equipment in the market has the following defects:

(1) after the adhesive tape is cut off, the adhesive tape needs to be adhered to the next material carrier plate again, and the roller needs to be used for rolling again to prevent the adhesive tape from arching or falling off, so that the production efficiency is low;

(2) the product made by the equipment is single, and one equipment only produces one material, so that the resource waste is caused;

(3) the stress surface of the arc-shaped blade is large, so that the cut-off openings of the adhesive tape are uneven, and the cut-off openings are arched.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic adhesive tape sticking device, which realizes the automatic cutting function of the automatic adhesive tape sticking, automatically detects the material shortage condition, achieves the purpose of timely material changing and improves the production efficiency; meanwhile, the width of the material conveying mechanism of the carrier plate can be adjusted, the device is suitable for various products, and the device is convenient to change the shape.

In order to realize the purpose, the following technical scheme is adopted:

an automatic adhesive tape sticking device comprises a plurality of material support plates, a support plate conveying mechanism, an adhesive tape feeding mechanism, a cutting mechanism and an adhesive tape detection mechanism; the adhesive tape feeding mechanism, the adhesive tape detecting mechanism and the cutting mechanism are sequentially arranged above the carrier plate conveying mechanism along the conveying direction of the carrier plate conveying mechanism; the material conveying mechanism is used for conveying materials to the material support plates; the adhesive tape detection mechanism is used for detecting whether the adhesive tape feeding mechanism is short of materials; the cutting mechanism is used for pressing the adhesive tape on the material carrier plate and cutting off the adhesive tape.

Furthermore, the cutting mechanism comprises a translation driving module and a transferring and cutting module; move and carry and cut off the module and install on translation drive module, move and carry and cut off the module and be used for pushing down the sticky tape that two adjacent material support plate tip pasted and cut off the sticky tape, translation drive module is used for moving to move and carry and cut off the module and drive and move and carry and cut off the module and drive two material support plates and move along defeated material direction after moving to carry and cut off the module and push down two adjacent material support plates.

Furthermore, the shifting and cutting module comprises an installation seat, a sawtooth cutter, an upper fixed pressing block, a lower fixed pressing block, a clamping driving cylinder and a lifting driving cylinder; the clamping driving cylinder is connected with the translation driving module through the mounting seat and is used for driving the upper fixed pressing block and the lower fixed pressing block to clamp or separate from each other; the lifting driving cylinder is arranged on the upper fixed pressing block, and a through abdicating hole is formed in the middle of the upper fixed pressing block; the output end of the lifting driving cylinder is connected with the sawtooth cutter and used for driving the sawtooth cutter to pass through the abdicating hole to descend to cut off the adhesive tape.

Further, the translation driving module comprises a translation driving motor and a first ball screw; the mounting seat is in driving connection with the translation driving motor through a first ball screw.

Furthermore, the carrier plate conveying mechanism comprises a plurality of conveying modules, a blocking cylinder, an adjusting module, a first profile frame and a second profile frame which are arranged in parallel; the plurality of conveying modules are distributed along the length direction of the first profile frame and the second profile frame respectively and are arranged on the inner sides of the first profile frame and the second profile frame; the adjusting module is arranged on the first profile frame and the second profile frame and used for adjusting the distance between the first profile frame and the second profile frame; the blocking cylinder is installed on the outer side of the first profile frame, and the output end of the blocking cylinder extends to the inner side of the first profile frame and is used for blocking a flowing material carrier plate.

Furthermore, each transmission module comprises a first driving motor, a transmission belt, a driving wheel and a plurality of driven wheels; the first driving motor is used for driving a driving wheel to drive the conveying belt to rotate through a plurality of driven wheels.

Furthermore, the adjusting module comprises a plurality of second driving motors, a plurality of second ball screws and a plurality of guide assemblies; the first profile frame is connected with the second profile frame in a sliding mode through a plurality of guide assemblies; each second driving motor is fixedly arranged on the second section bar frame, and the output end of each second driving motor is in driving connection with the first section bar frame through a second ball screw and used for driving the first section bar frame to be close to or far away from the second section bar frame.

Furthermore, the adhesive tape feeding mechanism comprises a material tray, a material shaft, a mounting frame, a first adhesive tape fixing baffle and a plurality of second adhesive tape fixing baffles; the material tray is coaxially arranged on the outer side of the material shaft and is rotationally connected with the material shaft; the one end and the mounting bracket of first sticky tape fixed stop and a plurality of second sticky tape fixed stop can be dismantled and be connected, and on first sticky tape fixed stop's the other end was fixed in the material axle, the other end suit of a plurality of second sticky tape fixed stop was in order to realize separating the sticky tape on the charging tray.

Furthermore, a fixing ring and a limit knob are arranged at one end of each first adhesive tape fixing baffle and one end of each second adhesive tape fixing baffle, which are connected with the mounting frame; the fixed ring is sleeved on the mounting frame, and the limiting knob is mounted on the fixed ring to limit the position of the fixed ring on the mounting frame.

Further, the adhesive tape detection mechanism comprises a driven roller, an optical fiber sensor and a detection fixing frame; the detection fixing frame is arranged outside the material conveying mechanism of the support plate in a spanning mode, and the driven roller is detachably and rotatably connected with the detection fixing frame in a direction perpendicular to the material conveying direction; the optical fiber sensor is installed on the detection fixing frame and used for detecting whether an adhesive tape is arranged on the adhesive tape detection mechanism or not.

Adopt above-mentioned scheme, the beneficial effects of the utility model are that:

1) the cutting mechanism can cut off the adhesive tape after pressing the adhesive tape on the material carrier plate, the adhesiveness of the adhesive tape cannot be influenced during cutting, meanwhile, the adhesive tape can be prevented from arching or falling off, the adhesive tape can be better transited to the next material carrier plate, the function of automatically and continuously cutting off the adhesive tape is realized, and the operation efficiency is improved; meanwhile, the tool point of the sawtooth cutter is smaller than the stress surface of the arc cutter, so that the adhesive tape bears higher pressure and is easier to cut;

2) the adjusting module can adjust the width of the conveying mechanism of the support plate, and the adhesive tape feeding mechanism and the adhesive tape detecting mechanism can be matched with the adjusting module for adjustment, so that the adhesive tape feeding mechanism is suitable for material support plates with various specifications, has wide applicability and is convenient for shape changing operation;

3) the adhesive tape detection mechanism can detect whether the adhesive tape exists or not so as to feed back an abnormal signal, reduce the waiting time and improve the efficiency.

Drawings

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

fig. 2 is a perspective view of the cutting mechanism of the present invention;

fig. 3 is a perspective view of the transfer cutting module of the present invention;

fig. 4 is a perspective view of a carrier feeding mechanism of the present invention;

FIG. 5 is a schematic structural view of a second profile rack, a conveying module, and an adjusting module according to the present invention;

fig. 6 is a perspective view of the adhesive tape feeding mechanism of the present invention;

fig. 7 is a perspective view of the tape detecting mechanism of the present invention;

wherein the figures identify the description:

1-material carrier plate, 2-carrier plate conveying mechanism,

3-adhesive tape feeding mechanism, 4-cutting mechanism,

5-adhesive tape detection mechanism, 21-transmission module,

22-a blocking cylinder, 23-an adjusting module,

24-a first profile frame, 25-a second profile frame,

211-first drive motor, 212-conveyor belt,

213-a driving wheel, 214-a driven wheel,

231-the second drive motor, 232-the second ball screw,

233-guide component, 31-tray,

32-material shaft, 33-mounting frame,

34-a first adhesive tape fixing baffle, 35-a second adhesive tape fixing baffle,

36-adhesive tape, 341/351-fixing ring,

342/352-limit knob, 41-translation driving module,

42-transferring and cutting module, 411-translational driving motor,

412-first ball screw, 421-mount,

422-a sawtooth cutter, 423-an upper fixed pressing block,

424, lower fixed pressing block, 425, clamping driving cylinder,

426-lifting driving cylinder, 51-driven roller,

52-optical fiber sensor, 53-detection fixing frame.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 7, an automatic tape adhering device includes a plurality of material carriers 1, a carrier feeding mechanism 2, a tape feeding mechanism 3, a cutting mechanism 4, and a tape detecting mechanism 5; the adhesive tape feeding mechanism 3, the adhesive tape detecting mechanism 5 and the cutting mechanism 4 are sequentially arranged above the carrier plate conveying mechanism 2 along the conveying direction of the carrier plate conveying mechanism 2; the adhesive tape feeding mechanism 3 is used for loading adhesive tapes 36, and a plurality of material carrier plates 1 are placed on the carrier plate conveying mechanism 2 and flow along the conveying direction so that the adhesive tapes 36 are automatically adhered to the material carrier plates 1; the adhesive tape detection mechanism 5 is used for detecting whether the adhesive tape feeding mechanism 3 is short of materials; the cutting mechanism 4 is used for pressing the adhesive tape 36 on the material carrier plate 1 and cutting off the adhesive tape 36.

The cutting mechanism 4 comprises a translation driving module 41 and a transferring and cutting module 42; the transferring and cutting module 42 is installed on the translation driving module 41, the transferring and cutting module 42 is used for pressing the adhesive tapes 36 adhered to the end portions of the two adjacent material carrier plates 1 and cutting the adhesive tapes 36, and the translation driving module 41 is used for driving the transferring and cutting module 42 to drive the two material carrier plates 1 to move along the conveying direction after the transferring and cutting module 42 presses the two adjacent material carrier plates 1. The shifting and cutting module 42 comprises a mounting seat 421, a sawtooth cutter 422, an upper fixed pressing block 423, a lower fixed pressing block 424, a clamping driving cylinder 425 and a lifting driving cylinder 426; the clamping driving cylinder 425 is connected with the translation driving module 41 through a mounting seat 421 and is used for driving the upper fixed pressing block 423 and the lower fixed pressing block 424 to clamp or separate from each other; the lift drives actuating cylinder 426 and installs on last fixed briquetting 423, goes up fixed briquetting 423 middle part and sets up the hole of stepping down that runs through, and the lift drives actuating cylinder 426 output and is connected with sawtooth cutter 433 for drive sawtooth cutter 433 passes the hole of stepping down and cuts off sticky tape 36. The translation driving module 41 includes a translation driving motor 411 and a first ball screw 412, and the mounting seat 421 is in driving connection with the translation driving motor 411 through the first ball screw 412.

The carrier plate conveying mechanism 2 comprises a plurality of conveying modules 21, a blocking cylinder 22, an adjusting module 23, and a first profile frame 24 and a second profile frame 25 which are arranged in parallel, wherein the plurality of conveying modules 21 are distributed along the length direction of the first profile frame 24 and the length direction of the second profile frame 25 respectively and are arranged on the inner sides of the first profile frame 24 and the second profile frame 25; the adjusting module 23 is mounted on the first profile frame 24 and the second profile frame 25 and is used for adjusting the distance between the two; the blocking cylinder 22 is mounted on the outer side of the first profile frame 24, and the output end thereof extends to the inner side of the first profile frame 24 for blocking the flowing material carrier plate 1. Each transmission module 21 comprises a plurality of first driving motors 211, a transmission belt 212, a plurality of driving wheels 213 and a plurality of driven wheels 214; each first driving motor 211 is used to drive a driving wheel 213 to drive the transmission belt 212 to rotate via a plurality of driven wheels 214. The adjusting module 23 comprises a plurality of second driving motors 231, a plurality of second ball screws 232 and a plurality of guide assemblies 233; the first profile frame 24 is connected with the second profile frame 25 in a sliding way through a plurality of guide components 233; each second driving motor 231 is fixedly mounted on the second profile frame 25, and its output end is drivingly connected to the first profile frame 24 via a second ball screw 232 for driving the first profile frame 24 closer to or farther from the second profile frame 25.

The adhesive tape feeding mechanism 3 comprises a material tray 31, a material shaft 32, a mounting frame 33, a first adhesive tape fixing baffle 34 and a plurality of second adhesive tape fixing baffles 35; the material tray 31 is coaxially arranged on the outer side of the material shaft 32 and is rotationally connected with the material shaft; the one end and the mounting bracket 33 of first sticky tape fixed stop 34 and a plurality of second sticky tape fixed stop 35 can be dismantled and be connected, and the other end of first sticky tape fixed stop 34 is fixed in on the stub bar 32, and the other end suit of a plurality of second sticky tape fixed stop 35 is in order to realize separating sticky tape 36 on charging tray 31. The first adhesive tape fixing baffle 34 and one end of each second adhesive tape fixing baffle 35 connected with the mounting rack 33 are respectively provided with a fixing ring 341/351 and a limit knob 342/352; the retaining ring 341/351 fits over the mounting bracket 33 and the stop knob 342/352 fits over the retaining ring 341/351 to limit the position of the retaining ring 341/351 on the mounting bracket 33.

The adhesive tape detection mechanism 5 comprises a driven roller 51, an optical fiber sensor 52 and a detection fixing frame 53, wherein the detection fixing frame 53 is arranged outside the carrier plate conveying mechanism 2 in a spanning manner, and the driven roller 51 is detachably and rotatably connected with the detection fixing frame 53 in a direction perpendicular to the conveying direction; the optical fiber sensor 52 is mounted on the detection fixing frame 53 and used for detecting whether the adhesive tape 36 is on the adhesive tape detection mechanism 5.

The utility model discloses a theory of operation:

the translation driving motor 411, the first driving motors 211, the second driving motors 231, the optical fiber sensor 52, the blocking cylinder 22, the clamping driving cylinder 425 and the lifting driving cylinder 426 are all connected to the same electric control circuit.

In an embodiment, the carrier feeding mechanism 2 further comprises a plurality of photoelectric sensors (not shown in the drawings), which are installed between the first profile frame 24 and the second profile frame 25, and located below the material carrier 1, and are used for sensing the position of the material carrier 1 and providing an operating signal for the clamping driving cylinder 425. The clamping driving cylinder 425 drives the upper fixing pressing block 423 and the lower fixing pressing block 424 to move away from or close to each other; a groove for avoiding the sawtooth cutter 422 is formed in the middle of the top of the downward pressing fixing block 424. The tray 31 is loaded with a plurality of rolls of tapes 36, the position of the second tape fixing baffle 35 is adjusted, every two rolls of tapes 36 are separated by the second tape fixing baffle 35 (as shown in fig. 6), and the position is adjusted by the limit knob 342/352. The second driving motor 231 drives the first profile frame 24 to approach or leave the second profile frame 25 through the plurality of second ball screws 232 and the plurality of guide assemblies 233, so as to adjust the distance between the first profile frame 24 and the second profile frame 25, and the material carrier plate is suitable for material carrier plates 1 with different specifications. The guide assembly 233 comprises a guide rod and a guide sleeve; the guide sleeve is arranged on the first profile frame 24, one end of the guide rod is fixedly connected with the second profile frame 25, and the other end of the guide rod is arranged on the outer side of the first profile frame 24.

The working process of the utility model is as follows:

the operator passes one end of each roll of tape 36 through the bottom of the driven roller 51 and sticks it to the top of the material-carrying plate 1, completing the feeding operation. When the material carrier plate 1 pulls the adhesive tape 36 in a flowing manner, the material tray 31 is driven to rotate relative to the material shaft for discharging, so that the uninterrupted material feeding function is realized; meanwhile, the adhesive tape 36 drives the driven roller 51 to rotate, the optical fiber sensor 52 is used for detecting whether the adhesive tape 36 is on the adhesive tape detection mechanism 5, and if the adhesive tape 36 is used up, the optical fiber sensor 52 feeds back an abnormal signal so as to be convenient for external shutdown or other treatment.

When the material carrier plate 1 flows on the carrier plate conveying mechanism 2, the adhesive tape 36 is guided by the angle of the tensile force and continuously adheres to the top of the material carrier plate 1; when the material carrier plates 1 reach the designated positions, the blocking cylinder 22 limits the two material carrier plates 1 adjacent to each other in the front-back direction, the clamping driving cylinder 425 drives the upper fixing pressing block 423 to press downwards to be matched with the lower fixing pressing block 424 to press the two material carrier plates 1 adjacent to each other in the front-back direction, then the blocking cylinder 22 is released, and the translation driving module 41 drives the transfer cutting module 42 to drive the two material carrier plates 1 to move forward for a certain distance, so that the adhesive tape 36 is continuously adhered to the tops of the two material carrier plates 1; after the adhesive tape is advanced to a designated position, the lifting driving cylinder 426 drives the sawtooth cutter 422 to descend to cut off the adhesive tape 36; after the tape 36 is cut, the lifting drive cylinder 426 and the clamping drive cylinder 425 are reset, and the translation drive module 41 returns to the original point.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An automatic adhesive tape sticking device is characterized by comprising a plurality of material support plates, a support plate conveying mechanism, an adhesive tape feeding mechanism, a cutting mechanism and an adhesive tape detection mechanism; the adhesive tape feeding mechanism, the adhesive tape detecting mechanism and the cutting mechanism are sequentially arranged above the carrier plate conveying mechanism along the conveying direction of the carrier plate conveying mechanism; the material conveying mechanism is used for conveying materials to the material support plates; the adhesive tape detection mechanism is used for detecting whether the adhesive tape feeding mechanism is short of materials; the cutting mechanism is used for pressing the adhesive tape on the material carrier plate and cutting off the adhesive tape.

2. The automatic taping device of claim 1, wherein the cutting mechanism comprises a translation driving module, a transfer cutting module; move and carry and cut off the module and install on translation drive module, move and carry and cut off the module and be used for pushing down the sticky tape that two adjacent material support plate tip pasted and cut off the sticky tape, translation drive module is used for moving to move and carry and cut off the module and drive and move and carry and cut off the module and drive two material support plates and move along defeated material direction after moving to carry and cut off the module and push down two adjacent material support plates.

3. The automatic taping device of claim 2, wherein the transfer cutting module comprises a mounting seat, a serrated cutter, an upper fixed pressing block, a lower fixed pressing block, a clamping driving cylinder, and a lifting driving cylinder; the clamping driving cylinder is connected with the translation driving module through the mounting seat and is used for driving the upper fixed pressing block and the lower fixed pressing block to clamp or separate from each other; the lifting driving cylinder is arranged on the upper fixed pressing block, and a through abdicating hole is formed in the middle of the upper fixed pressing block; the output end of the lifting driving cylinder is connected with the sawtooth cutter and used for driving the sawtooth cutter to pass through the abdicating hole to descend to cut off the adhesive tape.

4. The automatic taping device of claim 3, wherein the translational drive module comprises a translational drive motor, a first ball screw; the mounting seat is in driving connection with the translation driving motor through a first ball screw.

5. The apparatus of claim 1, wherein the carrier feeding mechanism comprises a plurality of transport modules, a blocking cylinder, an adjusting module, and two first and second profile frames disposed in parallel; the plurality of conveying modules are distributed along the length direction of the first profile frame and the second profile frame respectively and are arranged on the inner sides of the first profile frame and the second profile frame; the adjusting module is arranged on the first profile frame and the second profile frame and used for adjusting the distance between the first profile frame and the second profile frame; the blocking cylinder is installed on the outer side of the first profile frame, and the output end of the blocking cylinder extends to the inner side of the first profile frame and is used for blocking a flowing material carrier plate.

6. The automatic taping device of claim 5, wherein each of the conveying modules comprises a first driving motor, a conveying belt, a driving wheel, a plurality of driven wheels; the first driving motor is used for driving a driving wheel to drive the conveying belt to rotate through a plurality of driven wheels.

7. The automatic taping device of claim 5, wherein the adjusting module comprises a plurality of second driving motors, a plurality of second ball screws, a plurality of guide assemblies; the first profile frame is connected with the second profile frame in a sliding mode through a plurality of guide assemblies; each second driving motor is fixedly arranged on the second section bar frame, and the output end of each second driving motor is in driving connection with the first section bar frame through a second ball screw and used for driving the first section bar frame to be close to or far away from the second section bar frame.

8. The automatic taping device of claim 1, wherein the tape feeding mechanism comprises a tray, a feed shaft, a mounting frame, a first tape fixing baffle, a plurality of second tape fixing baffles; the material tray is coaxially arranged on the outer side of the material shaft and is rotationally connected with the material shaft; the one end and the mounting bracket of first sticky tape fixed stop and a plurality of second sticky tape fixed stop can be dismantled and be connected, and on first sticky tape fixed stop's the other end was fixed in the material axle, the other end suit of a plurality of second sticky tape fixed stop was in order to realize separating the sticky tape on the charging tray.

9. The automatic taping device of claim 8, wherein a fixing ring and a limit knob are provided at an end of each of the first and second tape fixing baffles connected to the mounting frame; the fixed ring is sleeved on the mounting frame, and the limiting knob is mounted on the fixed ring to limit the position of the fixed ring on the mounting frame.

10. The automatic taping device of claim 1, wherein the tape detecting mechanism comprises a driven roller, an optical fiber sensor, a detecting holder; the detection fixing frame is arranged outside the material conveying mechanism of the support plate in a spanning mode, and the driven roller is detachably and rotatably connected with the detection fixing frame in a direction perpendicular to the material conveying direction; the optical fiber sensor is installed on the detection fixing frame and used for detecting whether an adhesive tape is arranged on the adhesive tape detection mechanism or not.

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