CN218931255U - Automatic alignment rubberizing equipment of rubber strip - Google Patents

Abstract

Automatic rubber strip alignment rubberizing equipment includes: the automatic rubber strip rubberizing device comprises a bottom frame, a pulling device, an aligning device, a pasting device and a controller, wherein the pulling device, the aligning device and the pasting device are sequentially arranged on the bottom frame, the aligning device is used for positioning a rubber strip and a double faced adhesive tape, the pasting device is used for pasting the double faced adhesive tape on the rubber strip, a side frame is arranged on one side of the bottom frame, a discharging shaft for placing double faced adhesive tape coil stock is arranged above the front side of the aligning device on the side frame, the rubber strip sequentially passes through the pulling device, the aligning device and the pasting device, the double faced adhesive tape of the double faced adhesive tape coil stock sequentially passes through the aligning device and the pasting device on the rubber strip, and the automatic rubber strip rubberizing device is further provided with the controller for controlling the pulling device, the aligning device and the pasting device to pull the rubber strip to advance. According to the automatic rubber strip rubberizing equipment, the double-sided adhesive tape is glued on the rubber strip through the automatic equipment, the full-automatic operation is realized, the labor is saved, the gluing position is accurate, the automatic rubber strip rubberizing equipment is easy to paste in place, the situation of wasting rim charge is avoided, and the cost is low.

Description

Automatic alignment rubberizing equipment of rubber strip

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to automatic alignment rubberizing equipment for rubber strips.

Background

The multi-purpose double faced adhesive tape of polymer rubber strip is pasted in the packing box, give equipment, the product vibration damping in the packing box. At present, the high polymer rubber strip is pasted double faced adhesive tape and is all adopted the mode that the tool was fixed a position, manual paste, paste efficiency very low, extravagant a large amount of manual works, the technology is more loaded down with trivial details, need to adjust repeatedly to paste the position, paste easily and put in place, extravagant a lot of rim charge causes the material extravagant, with high costs.

Therefore, there is an urgent need to develop an automatic rubber strip rubberizing device with high rubberizing efficiency and low cost.

Disclosure of Invention

The utility model aims to avoid the defects in the prior art and provide the automatic rubber strip rubberizing equipment with high rubberizing efficiency and low cost.

An automatic alignment rubberizing equipment of rubber strip for paste double faced adhesive tape on the rubber strip, include: the automatic rubber strip pasting device comprises a bottom frame, a material pulling device, a aligning device, a pasting device and a controller, wherein the material pulling device is sequentially arranged on the bottom frame, the aligning device is used for positioning the rubber strip, the aligning device is used for pasting the double-sided tape on the rubber strip, the pasting device is arranged on one side of the bottom frame, a discharging shaft for placing double-sided tape coiled materials is arranged on the upper front side of the aligning device on the side frame, the rubber strip sequentially passes through the material pulling device, the aligning device is used for pasting the double-sided tape coiled materials, the double-sided tape sequentially passes through the aligning device and the pasting device on the rubber strip, and the automatic rubber strip pasting device is further provided with the controller for controlling the material pulling device, the aligning device and the pasting device to pull the rubber strip to move forward.

Preferably, the material pulling device comprises a material guiding roller, a first servo motor for driving the material guiding roller to rotate, and a height-adjustable rotatable material pressing shaft which is arranged in parallel with the material guiding roller, wherein a gap between the material guiding roller and the material pressing shaft just clamps the rubber strip.

Preferably, the left and right sides of the rubber strip are respectively provided with a convex positioning strip downwards, the guide roller is provided with a first guide groove matched with the positioning strips, and the positioning strips are just arranged in the first guide groove.

Preferably, the underframe is provided with two supporting frames, the supporting frames are provided with supporting holes, the material pressing shaft is provided with a rotating shaft, two ends of the rotating shaft are respectively inserted into the two supporting holes, the upper ends of the supporting holes are provided with first screw holes, two ends of the rotating shaft are provided with second screw holes, and the automatic rubber strip rubberizing equipment is further provided with first bolts which are screwed into the first screw holes and the second screw holes in sequence.

Preferably, the above alignment device comprises a first through hole for the rubber strip to pass through, a second through hole for the double faced adhesive tape to pass through and a floating slide block and a fixed slide block which are connected together and are suspended in the second through hole, wherein the upper end of the second through hole is provided with a third screw hole, the upper end of the fixed slide block is provided with a fourth screw hole, and the automatic rubber strip rubberizing equipment is further provided with a fine adjustment screw which is screwed into the third screw hole and the fourth screw hole in sequence.

Preferably, the automatic rubberizing equipment for rubber strips is further provided with a compression spring, and two ends of the compression spring are respectively connected with the floating sliding block and the fixed sliding block.

Preferably, a second guide chute matched with the positioning strip is arranged at the lower end of the first through hole, and the positioning strip is just arranged in the second guide chute; the lower extreme of floating slider is provided with the location the third baffle box of double faced adhesive tape, the double faced adhesive tape just set up in the third baffle box.

Preferably, the above-mentioned sticking device includes initiative roller, drive initiative roller pivoted second servo motor, with initiative roller parallel arrangement's adjustable height's compression roller, initiative roller with clearance between the compression roller just will double-sided tape presss from both sides the paste on the rubber strip, initiative roller be located the both sides of rubber strip are provided with the location axle sleeve respectively.

Preferably, the alignment device and the pasting device are arranged in adjacent pairs, the alignment device and the pasting device are arranged in two pairs, and the third guide groove position of the floating slide block of the second pair is staggered with the third guide groove position of the floating slide block of the first pair.

Preferably, a first photoelectric sensor for detecting the rubber strip is disposed between the material pulling device above the rubber strip and the alignment device of the first pair, a second photoelectric sensor for detecting whether the rubber strip is piled up is disposed between the material pulling device below the rubber strip and the alignment device of the first pair, a third photoelectric sensor for detecting the rubber strip is disposed between the pasting device of the first pair above the rubber strip and the alignment device of the second pair, a fourth photoelectric sensor for detecting whether the rubber strip is piled up is disposed between the pasting device of the first pair below the rubber strip and the alignment device of the second pair, and the controller controls the first servo motor to work according to the sensing signals of the first photoelectric sensor and the second photoelectric sensor, and controls the first servo motor to work according to the first signals of the third photoelectric sensor and the fourth photoelectric sensor.

Compared with the prior art, the utility model has the following advantages: the automatic rubber strip rubberizing equipment is provided with a material pulling device, an alignment device and a pasting device, and during initial operation, the rubber strip is manually penetrated through the material pulling device, the alignment device and the pasting device in sequence, and double-sided adhesive tape of double-sided adhesive tape coil materials is manually penetrated through the alignment device and the pasting device in sequence on the rubber strip; when the double-sided adhesive tape is started, the controller controls the material pulling device, the alignment device and the pasting device to pull the rubber strip to advance, the material pulling device pulls the rubber strip, the alignment device positions the double-sided adhesive tape to a preset position on the rubber strip, and the pasting device pastes the double-sided adhesive tape on the rubber strip. According to the automatic rubber strip rubberizing equipment, the double-sided adhesive tape is glued on the rubber strip through the automatic equipment, the full-automatic operation is realized, the labor is saved, the gluing position is accurate, the automatic rubber strip rubberizing equipment is easy to paste in place, the situation of wasting rim charge is avoided, and the cost is low.

Drawings

The utility model is further illustrated by means of the accompanying drawings, the embodiments in which do not constitute any limitation of the utility model.

FIG. 1 is a schematic diagram of an automatic rubber strip alignment and rubberizing device according to the utility model;

FIG. 2 is a schematic diagram of a rubber strip automatic alignment rubberizing device of the utility model after the arrangement of rubber strips and double-sided tape;

FIG. 3 is a schematic diagram of a rubber strip automatic alignment rubberizing device of the utility model after the arrangement of rubber strips and double-sided tape;

FIG. 4 is a schematic structural view of a pulling device of the automatic rubber strip alignment and rubberizing device of the utility model;

fig. 5 is a schematic structural view of an alignment device of an automatic rubber strip alignment and rubberizing device of the utility model.

Detailed Description

The utility model will be further described with reference to the following examples and figures:

an automatic rubberizing device for a rubber strip 10, as shown in fig. 1 to 5, for applying a double-sided adhesive tape 11 on the rubber strip 10, comprising: the automatic rubber strip pasting device comprises a chassis 12, a material pulling device 13, a contraposition device 14 for positioning a rubber strip 10 and a double-sided adhesive 11, and a pasting device 15 for pasting the double-sided adhesive 11 on the rubber strip 10, wherein the chassis 12 is provided with a side frame 16 on one side, a discharging shaft 18 for placing a double-sided adhesive roll 17 is arranged above the contraposition device 14 on the side frame 16, the rubber strip 10 sequentially passes through the material pulling device 13, the contraposition device 14 and the pasting device 15, the double-sided adhesive 11 of the double-sided adhesive roll 17 sequentially passes through the contraposition device 14 and the pasting device 15 on the rubber strip 10, and a controller (not labeled in the figure) for controlling the material pulling device 13, the contraposition device 14 and the pasting device 15 to pull the rubber strip 10 to advance is further arranged on the automatic rubber strip pasting device 10.

The automatic rubberizing equipment of the rubber strip 10 is provided with a material pulling device 13, an aligning device 14 and a pasting device 15, and during initial operation, the rubber strip 10 is manually penetrated through the material pulling device 13, the aligning device 14 and the pasting device 15 in sequence, and the double-sided adhesive 11 of the double-sided adhesive roll 17 is manually penetrated through the aligning device 14 and the pasting device 15 in sequence on the rubber strip 10; when the double-sided adhesive tape is started, the controller (not labeled in the figure) controls the material pulling device 13, the alignment device 14 and the pasting device 15 to pull the rubber strip 10 to advance, the material pulling device 13 pulls the rubber strip 10, the alignment device 14 positions the double-sided adhesive tape 11 to a preset position on the rubber strip 10, and the pasting device 15 pastes the double-sided adhesive tape 11 on the rubber strip 10. According to the automatic rubberizing equipment for the rubber strip 10, the double faced adhesive tape 11 is pasted on the rubber strip 10 through automatic equipment, the automatic operation is fully automatic, the labor is saved, the pasting position is accurate, the rubberizing equipment is easy to paste in place, the situation of wasting rim charge is avoided, and the cost is low.

Preferably, as shown in fig. 4, the material pulling device 13 comprises a material guiding roller 19, a first servo motor 20 for driving the material guiding roller 19 to rotate, and a height-adjustable and rotatable material pressing shaft 21 arranged in parallel with the material guiding roller 19, wherein a gap between the material guiding roller 19 and the material pressing shaft 21 just clamps the rubber strip 10. The pressing shaft 21 can be adjusted in height and rotated, so that the gap between the guide roller 19 and the pressing shaft 21 can be ensured to clamp the rubber strip 10. The first servo motor 20 drives the material guiding roller 19 to rotate, and the material pressing shaft 21 and the material guiding roller 19 cooperate to drive the rubber strip 10 to move rightwards for feeding.

Preferably, as shown in fig. 1 to 4, the left and right sides of the rubber strip 10 are respectively provided with a convex positioning strip 22 downwards, the guide roller 19 is provided with a first guide groove 23 matched with the positioning strip 22, and the positioning strip 22 is just arranged in the first guide groove 23. The positioning strips 22 on both sides of the rubber strip 10 are just arranged in the first guide groove 23 of the guide roller 19, so that the rubber strip 10 can be positioned, and the rubber strip 10 is prevented from deviating from the position in the moving process.

Preferably, as shown in fig. 4, the chassis 12 is provided with two supporting frames 24, the supporting frames 24 are provided with supporting holes 25, the pressing shaft 21 is provided with a rotating shaft 26, two ends of the rotating shaft 26 are respectively inserted into the two supporting holes 25, a first screw hole 27 is arranged at the upper end of the supporting hole 25, a second screw hole (not labeled in the drawing) is arranged at two ends of the rotating shaft 26, and the automatic rubberizing device for the rubber strip 10 is further provided with a first bolt 28 screwed into the first screw hole 27 and the second screw hole (not labeled in the drawing) in sequence. Two ends of a rotating shaft 26 of the material pressing shaft 21 are respectively inserted into the two supporting holes 25, and the material pressing shaft 21 can roll so as to facilitate the rightward movement and feeding of the rubber strip 10. The first bolt 28 is screwed into the first screw hole 27 and the second screw hole (not labeled in the figure) in sequence, and the height of the material pressing shaft 21 can be controlled and adjusted by adjusting the first bolt 28, so that the gap between the material guiding roller 19 and the material pressing shaft 21 is ensured to just clamp the rubber strip 10.

Preferably, as shown in fig. 5, the alignment device 14 includes a first through hole 29 through which the rubber strip 10 passes, a second through hole 30 disposed on the first through hole 29 through which the double-sided tape 11 passes, a floating slider 31 and a fixed slider 32 suspended in the second through hole 30 and connected together, a third screw hole (not shown in the figure) is disposed at the upper end of the second through hole 30, a fourth screw hole (not shown in the figure) is disposed at the upper end of the fixed slider 32, and a trimming screw 33 is further disposed on the automatic rubberizing device for the rubber strip 10 to sequentially screw into the third screw hole (not shown in the figure) and the fourth screw hole (not shown in the figure). The rubber strip 10 passes through the first through hole 29 to limit the horizontal position and the vertical position of the rubber strip 10. The double faced adhesive tape 11 is pulled down from the double faced adhesive tape coil stock 17 placed in front of and above the alignment device 14 and passes through the second through hole 30 under the floating slide block 31, so that the second through hole 30 and the floating slide block 31 limit the horizontal position and the vertical position of the double faced adhesive tape 11. The trimming screw 33 is screwed into a third screw hole (not shown) and a fourth screw hole (not shown) in sequence, so that the vertical positions of the floating slide block 31 and the fixed slide block 32 can be adjusted by adjusting the trimming screw 33, and the double-sided adhesive 11 is fixed at the corresponding position of the rubber strip 10.

Preferably, as shown in fig. 5, the automatic rubberizing device of the rubber strip 10 is further provided with a compression spring 34, and two ends of the compression spring 34 are respectively connected with the floating slide block 31 and the fixed slide block 32. The compression spring 34 is arranged between the floating sliding block 31 and the fixed sliding block 32, when the double faced adhesive tape 11 is pressed down by the floating sliding block 31 to be stuck on the rubber strip 10, the double faced adhesive tape 11 and the rubber strip 10 have certain elasticity, have better pre-sticking effect and cannot be damaged. The compression spring 34 may be a rice compression spring 34.

Preferably, as shown in fig. 5, the lower end of the first through hole 29 is provided with a second guide groove 35 matched with the positioning strip 22, and the positioning strip 22 is just arranged in the second guide groove 35; the lower extreme of the floating slide block 31 is provided with a third guide chute 36 for positioning the double faced adhesive tape 11, and the double faced adhesive tape 11 is just arranged in the third guide chute 36. The positioning strips 22 on both sides of the rubber strip 10 are just arranged in the second guide grooves 35 at the lower end of the first through hole 29, so that the rubber strip 10 can be positioned, and the rubber strip 10 is prevented from deviating from the position in the moving process. The double faced adhesive tape 11 is just arranged in the third guide chute 36 at the lower end of the floating slide block 31, and can play a role in positioning the double faced adhesive tape 11. The position of the third guide groove 36 is the position where the rubber strip 10 is attached to the double-sided adhesive tape 11, so that the double-sided adhesive tape 11 is ensured to be attached to the preset position of the rubber strip 10.

The double faced adhesive tape 11 passes through the third guide groove 36 of the floating slide block 31, so that the double faced adhesive tape 11 and the rubber strip 10 are aligned, the height of the fine-tuning fixing slide block 32 is adjusted, the distance between the floating slide block 31 and the rubber strip 10 in the first through hole 29 is shortened by the compression spring 34, and the distance is adjusted to a proper position, the double faced adhesive tape 11 and the rubber strip 10 are adhered, and the double faced adhesive tape 11 can be completely adhered on the rubber strip 10 by the following lamination.

Preferably, as shown in fig. 1 to 3, the adhering device 15 includes a driving roller 37, a second servo motor 38 for driving the driving roller 37 to rotate, and a height-adjustable pressing roller 39 parallel to the driving roller 37, wherein a gap between the driving roller 37 and the pressing roller 39 just clamps and adheres the double faced adhesive tape 11 on the rubber strip 10, and positioning shaft sleeves 40 are respectively arranged on two sides of the driving roller 37, which are located on the rubber strip 10. The height of the press roller 39 can be adjusted according to the requirement, the pressing force of the press roller 39 can be properly adjusted according to the specific material feeding effect, and the gap between the driving roller 37 and the press roller 39 is ensured to just clamp and adhere the double faced adhesive tape 11 on the rubber strip 10. The second servo motor 38 drives the driving roller 37 to rotate, and plays a role of conveying the rubber strip 10 forward, namely conveying the rubber strip 10 with the double faced adhesive tape 11 forward while clamping and pressing the double faced adhesive tape 11 to the rubber strip 10. The positioning sleeve 40 can play a role of positioning the rubber strip 10 to prevent the rubber strip 10 from deviating from a position during pressing and moving.

Preferably, as shown in fig. 1 to 3, the alignment device 14 and the pasting device 15 are adjacently arranged in pairs, the alignment device 14 and the pasting device 15 are arranged in two pairs, and the third guide groove 36 of the floating slider 31 of the second pair is staggered from the third guide groove 36 of the floating slider 31 of the first pair. Two pairs of alignment devices 14 and pasting devices 15 can be arranged according to the needs, the position of the third guide chute 36 of the second pair of floating sliding blocks 31 is staggered with the position of the third guide chute 36 of the first pair of floating sliding blocks 31, and two double faced adhesive tapes 11 can be pasted on the same rubber strip 10 at a time without re-feeding, so that the efficiency is high, the speed is high, and the process time is greatly saved.

Preferably, as shown in fig. 1 and 2, a first photoelectric sensor 41 for detecting whether the rubber strip 10 is piled is disposed between the upper drawing device 13 of the rubber strip 10 and the first pair of aligning devices 14, a second photoelectric sensor 42 for detecting whether the rubber strip 10 is piled is disposed between the lower drawing device 13 of the rubber strip 10 and the first pair of aligning devices 14, a third photoelectric sensor 43 for detecting the rubber strip 10 is disposed between the upper first pair of pasting devices 15 of the rubber strip 10 and the second pair of aligning devices 14, a fourth photoelectric sensor 44 for detecting whether the rubber strip 10 is piled is disposed between the lower first pair of pasting devices 15 of the rubber strip 10 and the second pair of aligning devices 14, and a controller (not shown) controls the first servo motor 20 to operate according to the sensing signals of the first photoelectric sensor 41 and the second photoelectric sensor 42 and controls the second servo motor 38 of the first pair to operate according to the sensing signals of the third photoelectric sensor 43 and the fourth photoelectric sensor 44.

The controller (not shown) is electrically connected to the first photo-sensor 41, the second photo-sensor 42, the third photo-sensor 43, the fourth photo-sensor 44, the first servo motor 20 and the second servo motor 38, respectively.

In the transmission process, when the first photoelectric sensor 41 senses that the rubber strip 10 at the discharging side of the material pulling device 13 is in transmission, the first photoelectric sensor 41 sends a sensing signal to a controller (not labeled in the figure), and the controller (not labeled in the figure) controls the first servo motor 20 to work; when the second photoelectric sensor 42 senses that the rubber strip 10 on the discharging side of the material pulling device 13 has a stacking condition, the second photoelectric sensor 42 sends a sensing signal to a controller (not labeled in the figure), and the controller (not labeled in the figure) controls the first servo motor 20 to stop working until the stacking is completed and the first photoelectric sensor 41 senses that no stacking exists, the first servo motor 20 works again.

When the third photoelectric sensor 43 senses that the first pair of the adhesive devices 15 is in transmission on the discharging side rubber strips 10, the third photoelectric sensor 43 sends a sensing signal to a controller (not labeled in the figure), and the controller (not labeled in the figure) controls the second servo motor 38 of the first pair to work; when the fourth photoelectric sensor 44 senses that the first pair of adhesive devices 15 has a stacking condition on the discharging side rubber strips 10, the fourth photoelectric sensor 44 sends a sensing signal to a controller (not labeled in the figure), and the controller (not labeled in the figure) controls the first pair of second servomotors 38 to stop working until the stacking is completed and the third photoelectric sensor 43 senses that no stacking exists, the first pair of second servomotors 38 work again.

Because the feeding of the two second servomotors 38 is slowed down in the process of pasting the rubber strip 10, the rotating speeds of the first servomotor 20 and the two second servomotors 38 are inconsistent, the front materials are piled up, and the first servomotor 20 and the first pair of second servomotors 38 are controlled to start and stop integrally by matching the first photoelectric sensor 41, the second photoelectric sensor 42, the third photoelectric sensor 43, the fourth photoelectric sensor 44 and a controller (not labeled in the figure), so that the feeding speed is stabilized, the full-automatic closed-loop control is realized, and the deformation, the pulling, the clamping and other conditions of the rubber strip 10 in the feeding process can be avoided.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. Automatic rubber strip alignment rubberizing equipment for paste double-sided tape on the rubber strip, its characterized in that includes: the automatic rubber strip pasting device comprises a bottom frame, a material pulling device, a aligning device, a pasting device and a controller, wherein the material pulling device is sequentially arranged on the bottom frame, the aligning device is used for positioning the rubber strip, the aligning device is used for pasting the double-sided tape on the rubber strip, the pasting device is arranged on one side of the bottom frame, a discharging shaft for placing double-sided tape coiled materials is arranged on the upper front side of the aligning device on the side frame, the rubber strip sequentially passes through the material pulling device, the aligning device is used for pasting the double-sided tape coiled materials, the double-sided tape sequentially passes through the aligning device and the pasting device on the rubber strip, and the automatic rubber strip pasting device is further provided with the controller for controlling the material pulling device, the aligning device and the pasting device to pull the rubber strip to move forward.

2. An automatic rubber strip alignment and rubberizing device according to claim 1, wherein: the material pulling device comprises a material guiding roller, a first servo motor for driving the material guiding roller to rotate, and a rotatable material pressing shaft with adjustable height, wherein the height of the material pressing shaft is arranged in parallel with the material guiding roller, and a gap between the material guiding roller and the material pressing shaft just clamps the rubber strip.

3. An automatic rubber strip alignment and rubberizing device according to claim 2, wherein: the left and right sides of rubber strip is provided with the location strip of evagination downwards respectively, the guide roller bearing be provided with location strip complex first baffle box, the location strip just set up in the first baffle box.

4. A rubber strip automatic alignment rubberizing device according to claim 3, wherein: the automatic rubberizing equipment of the rubber strip is characterized in that two supporting frames are arranged on the underframe, supporting holes are formed in the supporting frames, a rotating shaft is arranged on the pressing shaft, two ends of the rotating shaft are respectively inserted into the two supporting holes, first screw holes are formed in the upper ends of the supporting holes, second screw holes are formed in the two ends of the rotating shaft, and a first bolt is further arranged on the automatic rubberizing equipment of the rubber strip and screwed into the first screw holes and the second screw holes in sequence.

5. The automatic rubber strip alignment and rubberizing device according to claim 4, wherein: the alignment device comprises a first through hole for the rubber strip to penetrate through, a second through hole for the double faced adhesive tape to penetrate through, and a floating slide block and a fixed slide block which are connected together and are suspended in the second through hole, wherein the first through hole is arranged on the first through hole, the second through hole is provided with a third screw hole, the upper end of the fixed slide block is provided with a fourth screw hole, and the automatic rubberizing equipment for the rubber strip is further provided with a fine adjustment screw which is screwed into the third screw hole and the fourth screw hole in sequence.

6. The automatic rubber strip alignment and rubberizing device according to claim 5, wherein: the automatic rubberizing equipment of rubber strip still is provided with compression spring, compression spring both ends are connected respectively the floating slider with fixed slider.

7. The automatic rubber strip alignment and rubberizing device according to claim 6, wherein: the lower end of the first through hole is provided with a second guide chute matched with the positioning strip, and the positioning strip is just arranged in the second guide chute; the lower extreme of floating slider is provided with the location the third baffle box of double faced adhesive tape, the double faced adhesive tape just set up in the third baffle box.

8. The automatic rubber strip alignment and rubberizing device of claim 7, wherein: the pasting device comprises a driving roller, a second servo motor for driving the driving roller to rotate and a pressing roller with adjustable height, wherein the pressing roller is arranged in parallel with the driving roller, a gap between the driving roller and the pressing roller just clamps and pastes the double-sided adhesive tape on the rubber strip, and positioning shaft sleeves are respectively arranged on two sides of the driving roller, which are positioned on the rubber strip.

9. The automatic rubber strip alignment and rubberizing device according to claim 8, wherein: the aligning device and the pasting device are arranged adjacently in pairs, the aligning device and the pasting device are arranged in two pairs, and the position of the third guide chute of the floating slide block of the second pair is staggered with the position of the third guide chute of the floating slide block of the first pair.

10. The automatic rubber strip alignment and rubberizing device according to claim 9, wherein: the device comprises a rubber strip, a first photoelectric sensor, a second photoelectric sensor, a third photoelectric sensor, a fourth photoelectric sensor and a controller, wherein the rubber strip is arranged between the first photoelectric sensor and the second photoelectric sensor, the first photoelectric sensor is arranged between the second photoelectric sensor and the first photoelectric sensor, the second photoelectric sensor is arranged between the first photoelectric sensor and the second photoelectric sensor, the third photoelectric sensor is arranged between the first photoelectric sensor and the second photoelectric sensor, the fourth photoelectric sensor is arranged between the first photoelectric sensor and the second photoelectric sensor, the second photoelectric sensor is arranged between the first photoelectric sensor and the second photoelectric sensor, the first servo motor is controlled to work according to sensing signals of the first photoelectric sensor and the second photoelectric sensor, and the controller is controlled to work according to first servo signals of the third photoelectric sensor and the fourth photoelectric sensor.

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