CN218707940U - A rubberizing equipment for adhesive tape - Google Patents

Abstract

The utility model relates to a rubberizing device for adhesive tapes, which comprises a back plate, wherein the front side surface of the back plate is provided with a compaction conveying wheel set at intervals, and the adhesive tapes supported on a supporting seat are driven by two groups of compaction conveying wheel sets to be driven from left to right; a glue brushing part, a hot air gun and a pressing elastic sheet are sequentially arranged on the back plate above the supporting seat from left to right, and the glue brushing part, the air outlet of the hot air gun and the pressing elastic sheet of the glue brushing part are positioned on the same straight line in the left-right direction and are all positioned above the adhesive tape; the adhesive tape mounting seat is characterized by also comprising an adhesive tape mounting seat, wherein the end part of an adhesive tape on the adhesive tape mounting seat penetrates through the lower part of the compression elastic sheet from left to right and is attached to the top surface of the adhesive tape; after glue is coated on the adhesive tape by the glue coating piece, the glue is kept at proper humidity by the hot air gun, then the adhesive tape is attached to the adhesive tape coated with the glue, the adhesive tape is pressed on the adhesive tape by the elastic force when passing through the pressing elastic sheet and is pressed again by the pressing conveying wheel group at the rear part in the conveying process, and therefore the reliability of attaching the adhesive tape on the adhesive tape is reliably guaranteed, the efficiency is high, and the effect is good.

Description

A rubberizing equipment for adhesive tape

Technical Field

The utility model belongs to the technical field of sticky tape subsides dress equipment technique and specifically relates to a rubberizing equipment for adhesive tape.

Background

In the mechanical manufacturing industry, because the shapes of the adhesive tapes are different, the adhesive tape gluing machine needs to realize the full automation of the adhesive tape gluing, and has higher cost. In the prior art, two ways of manual rubberizing and mechanical rubberizing are generally adopted.

The process of manual rubberizing is as follows: spreading the adhesive tape, smearing the adhesive tape with glue, adjusting the humidity with a hot air gun, and finally attaching the adhesive tape with a handheld adhesive attaching gun.

In the existing mechanical adhesive tape sticking mode, an adhesive tape is driven by the movement of an adhesive tape to be led out, and meanwhile, the adhesive tape passes through an adhesive tape sticking wheel along with the movement of the adhesive tape, and pressure stuck on the adhesive tape is applied to the adhesive tape by the adhesive tape sticking wheel.

The existing manual adhesive tape sticking has long adhesive tape sticking time, high cost and low efficiency; the adhesive tape has insufficient straightness; mechanical rubberizing can be improved in efficiency, but straightness accuracy is not enough easily caused by the shaking of a rubberizing belt, and particularly rubberizing cannot be performed on products with relatively complex sections.

SUMMERY OF THE UTILITY MODEL

The applicant provides a rubberizing equipment for adhesive tape rational in infrastructure to the shortcoming among the above-mentioned prior art of production to realize the synchronous drive of adhesive tape around the rubberizing, and the adhesive tape compresses tightly on the adhesive tape through compressing tightly shell fragment, rear compress tightly conveying wheelset in proper order, has reliably guaranteed the reliability that the adhesive tape pasted on the adhesive tape, and is efficient, effectual.

The utility model discloses the technical scheme who adopts as follows:

a rubberizing device for rubber strips comprises a back plate, wherein compression conveying wheel sets are installed on the front side surface of the back plate at intervals from left to right, a supporting seat is installed on the front side surface of the back plate between two compression conveying wheel sets, the top surface of the supporting seat supports the rubber strips, and the rubber strips are driven by the two compression conveying wheel sets to be transmitted from left to right; a glue brushing part, a hot air gun and a pressing elastic sheet are sequentially arranged on the back plate above the supporting seat from left to right, and the glue brushing part, the air outlet of the hot air gun and the pressing elastic sheet of the glue brushing part are positioned on the same straight line in the left-right direction and are all positioned above the adhesive tape; the adhesive tape installing seat is characterized by further comprising an adhesive tape installing seat, and the end part of the adhesive tape on the adhesive tape installing seat penetrates through the lower part of the compression elastic sheet from left to right and is attached to the top surface of the adhesive tape.

As a further improvement of the technical scheme:

the single group of pressing conveying wheel sets respectively comprise two pressing wheels which are arranged up and down, and the two pressing wheels are opposite in rotation direction and are respectively attached to the top surface and the bottom surface of the rubber strip.

Four pinch rollers in the two groups of pinch roller sets are driven by the same power through a transmission mechanism to synchronously rotate, two pinch rollers positioned above rotate in the same direction, and two pinch rollers positioned below rotate in the same direction.

The structure of the transmission mechanism is as follows: the automatic pressing device comprises a driving wheel connected with the output end of a motor, driven shafts positioned in the centers of lower pressing wheels in two groups of pressing conveying wheel groups penetrate through a back plate backwards, driven wheels are sleeved on the driven shafts positioned behind the back plate, driving belts are sequentially arranged around the driving wheel and the two driven wheels, and the driving wheel drives the lower pressing wheels in the two groups of pressing conveying wheel groups to synchronously and synchronously drive in the same direction through the driving wheel, the driven wheels and the driven shafts; the single driven shaft changes the rotation direction through gear transmission, and a driven gear in the gear transmission drives an upper pressing wheel in a corresponding pressing transmission wheel set to rotate.

The upper pinch roller in the single group of pressing conveying wheel sets is arranged on the back plate through the pressing adjusting mechanism, and the upper and lower spacing distance between the upper pinch roller and the lower pinch roller is adjusted through the pressing adjusting mechanism.

The structure of the pressing adjusting mechanism is as follows: the mechanism comprises a front sliding block and a rear sliding block which are respectively arranged on the front side surface and the rear side surface of a back plate in a sliding way through a front guide rail and a rear guide rail, a central shaft is arranged by penetrating the front sliding block and the rear sliding block in a front-back way and rotating together, an elongated slot for the central shaft to move up and down is arranged on the back plate, and the central shaft is adjusted up and down along the elongated slot relative to the back plate under the action of external force; the pressing wheel positioned above the pressing conveying wheel set is sleeved at the front end of the central shaft, the rear end of the central shaft is in power connection with a driven gear in gear transmission, and the central shaft and the driven gear rotate in the same direction.

Horizontal adjusting rails are arranged on the back plate between the two groups of pressing conveying wheel sets at intervals from front to back, and a glue brushing piece, a hot air gun and a pressing elastic piece are sequentially arranged on the horizontal adjusting rails from left to right.

The glue brushing piece and the pressing elastic piece are respectively arranged on the horizontal adjusting track through a bidirectional adjusting mechanism; the bidirectional adjusting mechanism adjusts the positions of the glue brushing piece or the pressing elastic piece in the front-back direction and the height direction.

And a height adjusting mechanism is arranged on the back plate between the two groups of pressing and conveying wheel sets, a supporting seat is arranged on the height adjusting mechanism, and the position of the supporting seat relative to the back plate in height is adjusted through the height adjusting mechanism.

The back plate positioned on the left side of the left pressing and conveying wheel set is also provided with a guide mechanism, and the guide mechanism and the pressing and conveying wheel set are positioned on the same straight line in the left-right direction; the rubber strip is guided by the guide mechanism and then is conveyed into the compaction conveying wheel set.

The utility model has the advantages as follows:

the utility model has compact and reasonable structure and convenient operation, after the glue is coated on the adhesive tape by the glue coating piece, the glue keeps proper humidity by the hot air gun, then the adhesive tape is attached on the adhesive tape coated with the glue, the adhesive tape is pressed on the adhesive tape by the elastic force when passing through the pressing elastic piece, and the pressing elastic piece is downwards attached on the adhesive tape and the adhesive tape due to the self elasticity, thereby effectively ensuring the reliable, stable and consistent attachment between the adhesive tape and the adhesive tape, reducing the influence of fluctuation in the transmission process and helping the requirement of ensuring the attachment straightness;

in addition, the adhesive tape is further compressed again by the rear compressing and conveying wheel set in the conveying process, so that the reliability of adhesive tape mounting on the adhesive tape is reliably ensured, the overall efficiency is high, and the effect is good;

the utility model discloses still include following advantage:

the utility model discloses in, adopt to compress tightly the preliminary subsides of shell fragment between to sticky tape and the adhesive tape and cover and carry out the application of force, absorb the influence of external factors such as conveying by the self elasticity that compresses tightly the shell fragment, reliably guaranteed laminating each other between sticky tape and the adhesive tape through flexible mode, the stable subsides of sticky tape are covered on being particularly useful for different cross sectional shape adhesive tapes, and the practicality is good.

The utility model adopts two groups of pressing conveying wheel groups to drive and guide the adhesive tape, which is more concise compared with the prior belt transmission structure, and avoids the problem that the belt transmission can fluctuate, so that the transmission is more stable, and the cost is lower;

four pinch rollers are driven by same power and rotate in two sets of conveying wheelsets that compress tightly, have guaranteed the synchronism of rubberizing front and back transmission process to four pinch rollers are the action wheel, have avoided the passive phenomenon of rotating and skidding easily of current pinch roller, have effectively guaranteed the smooth and easy nature of adhesive tape transmission.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the layout schematic diagram of the conveying wheel set, the glue brushing component, the hot air gun and the like compressed on the back plate.

Fig. 3 is a schematic structural diagram of the transmission mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the pressing adjusting mechanism of the present invention.

Fig. 5 is a schematic structural view of the bidirectional adjusting mechanism of the present invention.

Fig. 6 is a schematic structural diagram of the guiding mechanism of the present invention.

Wherein: 1. a back plate; 2. a compaction conveying wheel set; 3. pressing the elastic sheet; 4. a bidirectional adjustment mechanism; 5. an adhesive tape mounting seat; 6. a guide mechanism; 7. brushing a rubber part; 8. a hot air gun; 80. horizontally adjusting the track; 9. a transmission mechanism; 10. an adhesive tape;

11. a supporting seat; 12. a height adjustment mechanism;

20. a pressing adjustment mechanism; 21. a rear guide rail; 22. a rear slider; 23. a front slider; 24. a front guide rail; 25. adjusting the screw rod; 26. a fixed block;

41. a vertical plate; 42. a horizontal support block; 43. a transverse screw rod; 44. a horizontal moving block; 45. a vertical screw rod; 46. a vertical support block; 47. a lifting block;

61. a support plate; 62. erecting a frame; 63. a horizontal roller; 64. a vertical roller;

91. a motor; 92. a driving wheel; 93. a main belt; 94. a tension wheel; 95. a driven shaft; 96. gear transmission is carried out; 97. a first belt transmission; 98. and (5) belt transmission.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1 and 2, the rubberizing device for rubber strips of the present embodiment includes a back plate 1, wherein the front side surface of the back plate 1 is provided with compressing and conveying wheel sets 2 at left and right intervals, the front side surface of the back plate 1 between two compressing and conveying wheel sets 2 is provided with a supporting seat 11, a rubber strip 10 is supported on the top surface of the supporting seat 11, and the rubber strip 10 is driven by the two compressing and conveying wheel sets 2 to be driven from left to right; a glue brushing part 7, a hot air gun 8 and a pressing elastic sheet 3 are sequentially arranged on the back plate 1 above the supporting seat 11 from left to right, and a glue brushing part of the glue brushing part 7, an air outlet of the hot air gun 8 and the pressing elastic sheet 3 are positioned on the same straight line in the left-right direction and are all positioned above the adhesive tape 10; the adhesive tape fixing device further comprises an adhesive tape mounting seat 5, and the end part of the adhesive tape on the adhesive tape mounting seat 5 penetrates through the lower part of the compression elastic sheet 3 from left to right and is attached to the top surface of the adhesive tape 10.

After glue is coated on the adhesive tape 10 by the glue coating part 7, the glue is kept at proper humidity by the hot air gun 8, then the adhesive tape is attached to the adhesive tape 10 coated with the glue, the adhesive tape is tightly pressed on the adhesive tape 10 by the elastic force of the elastic pressing piece 3 when passing through the pressing elastic piece, the pressing elastic piece 3 is kept to be attached to the adhesive tape and the adhesive tape 10 downwards due to the elastic force of the pressing elastic piece, the adhesive tape is further tightly pressed again by the pressing conveying wheel group 2 at the rear part in the conveying process, and therefore the reliability of the adhesive tape attachment on the adhesive tape 10 is reliably ensured.

In one embodiment, each single pressing and conveying wheel set 2 comprises two pressing wheels which are arranged up and down, the two pressing wheels are oppositely turned and are respectively attached to the top surface and the bottom surface of the rubber strip 10, so that the rubber strip 10 is driven to be driven during attachment in the synchronous direction rotation of the upper pressing wheel and the lower pressing wheel, the driving stability of the rubber strip 10 is effectively guaranteed, the pressing and conveying wheel set 2 located behind the adhesive tape can further attach and compress the adhesive tape and the rubber strip during transmission through the upper pressing wheel and the lower pressing wheel, and the attaching reliability of the adhesive tape is effectively guaranteed.

In this embodiment, two sets of pressing conveying wheel sets 2 are adopted to drive and guide the rubber strip 10, so that the structure is simpler compared with the existing belt transmission, the problem that the belt transmission is fluctuated is avoided, the transmission is more stable, and the cost is lower.

In the embodiment shown in fig. 2 and 3, the four pinch rollers in the two sets of pinch roller sets 2 are driven by the same power through the transmission mechanism 9 to rotate synchronously, the two pinch rollers located above rotate in the same direction, and the two pinch rollers located below rotate in the same direction.

In this embodiment, four pinch rollers are driven by same power and are rotated in two sets of conveying wheelsets that compress tightly 2, have guaranteed the synchronism of rubberizing front and back transmission process to four pinch rollers are the action wheel, have avoided the passive phenomenon of rotating and skidding easily of current pinch roller, have effectively guaranteed the smooth and easy nature of adhesive tape 10 transmission.

In the embodiment shown in fig. 3, the transmission mechanism 9 has the structure: the automatic pressing device comprises a driving wheel 92 connected with the output end of a motor 91, driven shafts 95 positioned in the centers of lower pressing wheels in two groups of pressing conveying wheel sets 2 penetrate through a back plate 1 backwards, driven wheels are sleeved on the driven shafts 95 positioned behind the back plate 1, a main belt 93 is assembled around the driving wheel 92 and the two driven wheels in sequence, and the driving wheel 92 drives the lower pressing wheels in the two groups of pressing conveying wheel sets 2 to synchronously and synchronously drive in the same direction through the main belt 93, the driven wheels and the driven shafts 95; the single driven shafts 95 all change the rotation direction through the gear transmission 96, and the driven gears in the gear transmission 96 drive the upper pressing wheels in the corresponding pressing transmission wheel sets 2 to rotate.

In this embodiment, the back plate 1 may be fixedly mounted on an external rack, and the motor 91 may be mounted on the rack below the middle portion of the back plate 1 to implement mounting; the transmission mechanism 9 is symmetrically arranged by taking the vertical direction of the motor 91 as the center, so as to synchronously drive the pressing wheels in the two pressing and conveying wheel sets 2 to rotate.

In addition, a tension wheel 94 can be arranged on the side surface of the main belt 93 between the driving wheel 92 and the driven shaft 95 to adjust the tension of the main belt 93.

In this embodiment, driven gear among the gear drive 96 can directly drive and compress tightly the conveying wheelset 2 the upper pinch roller and rotate, for example lay it on same root axis of rotation to combine the overall arrangement to arrange the form that two pinch rollers arranged from top to bottom among the realization compressing tightly conveying wheelset 2, under this condition, four pinch rollers among two sets of conveying wheelsets 2 that compress tightly can rotate the transmission as the action wheel in step.

Of course, because the rotation directions of the driving wheel and the driven wheel in the belt transmission are consistent, and the belt transmission can realize the power transmission within a certain distance, the driven gear in the gear transmission 96 can also drive the upper pressing wheel in the pressing conveying wheel set 2 to rotate after the one-stage or multi-stage belt transmission, so that the layout of the pressing wheel in the pressing conveying wheel set 2 on the back plate 1 is more flexible.

In one embodiment, the upper pressing wheel in the single-group pressing conveying wheel set 2 is mounted on the back plate 1 through the pressing adjusting mechanism 20, and the upper and lower spacing distances between the upper pressing wheel and the lower pressing wheel are adjusted by the pressing adjusting mechanism 20, so that the device can be suitable for transmission and rubberizing of rubber strips 10 with different thicknesses.

In the embodiment shown in fig. 3 and 4, the pressing adjustment mechanism 20 has a structure of: the back plate comprises a front sliding block 23 and a back sliding block 22 which are respectively arranged on the front side surface and the back side surface of the back plate 1 in a sliding way through a front guide rail 24 and a back guide rail 21, a central shaft is arranged by penetrating the front sliding block 23 and the back sliding block 22 in a front-back way and rotating together, a long groove for the central shaft to move up and down is arranged on the back plate 1, and the central shaft is adjusted up and down along the long groove relative to the back plate 1 under the action of external force; the pinch roller above the pinch roller set 2 is sleeved at the front end of the central shaft, the rear end of the central shaft is in power connection with the driven gear in the gear transmission 96, and the central shaft and the driven gear rotate in the same direction.

In this embodiment, an external force can be applied to one of the front slider 23 and the rear slider 22 to adjust the height, for example, an adjusting screw rod 25 is assembled above the front slider 23 through a screw pair, the upper portion of the adjusting screw rod 25 is rotatably installed on a fixed block 26, the fixed block 26 is fixedly installed on the back plate 1, by rotating the adjusting screw rod 25, the front slider 23 is driven by the screw pair to move up and down along the front guide rail 24 relative to the back plate 1, so as to drive the rear slider 22 and the upper pressing wheel on the central shaft to move up and down synchronously, and the adjustment of the interval distance between the upper pressing wheel and the lower pressing wheel in the pressing conveying wheel set 2 by the pressing adjusting mechanism 20 is realized.

In this embodiment, in order to facilitate the adjustment of the height of the upper pressing wheel, i.e., the central axis thereof, by the pressing adjustment mechanism 20, the driven gear in the gear transmission 96 drives the central axis to rotate by the belt transmission one 97 and the belt transmission two 98 in the transmission mechanism 9, and the axes of the belt transmission one 97 and the belt transmission two 98 are arranged outside the pressing conveying wheel set 2 in the lateral direction, when the pressing adjustment mechanism 20 adjusts the interval between the upper and lower pressing wheels in the pressing conveying wheel set 2, the belt transmission two 98 can be synchronously tensioned or loosened to adapt to the fine adjustment of the transmission distance, so that the adjustment of the interval between the two pressing wheels in the pressing conveying wheel set 2 by the pressing adjustment mechanism 20 is also realized while the upper and lower pressing wheels in the pressing conveying wheel set 2 are synchronously driven by the transmission mechanism 9 to synchronously rotate, and the use is more convenient and flexible, and the applicability is better.

In one embodiment, horizontal adjusting rails 80 are installed on the back plate 1 between the two pressing and conveying wheel sets 2 at intervals in the front-back direction, and the glue brushing member 7, the hot air gun 8 and the pressing spring plate 3 are sequentially installed on the horizontal adjusting rails 80 from left to right.

Through the setting of horizontal adjustment track 80, can carry out convenient regulation to brush glue 7, hot-blast rifle 8 and the interval distance that compresses tightly shell fragment 3 on adhesive tape conveying direction according to actual need to satisfy actual production and use beat.

Further, the glue brushing part 7 and the pressing spring plate 3 are respectively arranged on the horizontal adjusting track 80 through the two-way adjusting mechanism 4; the bidirectional adjusting mechanism 4 adjusts the positions of the glue brushing part 7 or the pressing spring plate 3 in the front-back direction and the height direction so as to facilitate practical use, operation and maintenance, and is suitable for different gluing occasions.

In the embodiment shown in fig. 5, the bidirectional adjusting mechanism 4 may be configured as follows: including slidable mounting in the riser 41 of horizontal adjustment track 80, horizontal movable block 44 is installed through horizontal lead screw 43 back-and-forth movement to the riser 41 side, horizontal movable block 44 side reciprocates through vertical lead screw 45 and installs lifter 47, lifter 47 tip extends towards driven adhesive tape 10 direction, and corresponding shell fragment 3 or the brush mucilage binding 7 that compresses tightly is installed at lifter 47 tip, through horizontal lead screw 43 or vertical lead screw 45's rotation, drive horizontal movable block 44 or lifter 47's removal, thereby realize around or the ascending adjustment of direction of height.

Furthermore, a horizontal supporting block 42 for the transverse screw rod 43 to penetrate through is mounted at the end of the vertical plate 41, the horizontal supporting block 42 supports the transverse screw rod 43 to rotate, the other end of the transverse screw rod 43 is assembled with a horizontal moving block 44 in a spiral pair mode, and the horizontal moving block 44 is driven to move back and forth relative to the vertical plate 41 when the transverse screw rod 43 rotates by combining a moving guide structure such as a guide rail between the horizontal moving block 44 and the vertical plate 41;

similarly, a vertical supporting block 46 for the vertical screw rod 45 to rotate and penetrate through can be installed at the top end of the horizontal moving block 44, the vertical supporting block 46 forms a rotating support for the vertical screw rod 45, the other end of the vertical screw rod 45 is assembled with a lifting block 47 in a spiral pair mode, and a moving guide structure such as a guide rail and the like between the lifting block 47 and the horizontal moving block 44 is combined, so that the lifting block 47 is driven to move up and down relative to the horizontal moving block 44 when the vertical screw rod 45 rotates.

In another embodiment, a height adjusting mechanism 12 is installed on the back plate 1 between the two sets of pressing and conveying wheel sets 2, a supporting seat 11 is installed on the height adjusting mechanism 12, and the position of the supporting seat 11 relative to the back plate 1 is adjusted through the height adjusting mechanism 12.

The supporting seat 11 plays a supporting role for the adhesive tape 10 in transmission, and is particularly matched with the adhesive brushing piece 7, the hot air gun 8 and the pressing elastic sheet 3 above in the processes of adhesive brushing, air blowing and adhesive pasting, so that the stability of the adhesive tape 10 in the adhesive pasting process is ensured; the height adjusting mechanism 12 adjusts the height of the supporting seat 11 relative to the back plate 1, so that the supporting seat 11 is suitable for different rubber strips 10.

As shown in fig. 2, the height adjusting mechanism 12 may be a power mechanism such as an air cylinder disposed below the middle portion of the supporting seat 11, or may be a manual adjusting mechanism combined with a screw pair, and is matched with the guide rails on both sides to adjust the supporting seat 11.

In order to ensure the accuracy of the conveying of the rubber strip 10, in one embodiment, a guide mechanism 6 is further installed on the back plate 1 positioned on the left side of the left pressing conveying wheel set 2, and the guide mechanism 6 and the pressing conveying wheel set 2 are positioned on the same straight line in the left-right direction; the rubber strip 10 is guided by the guide mechanism 6 and then is conveyed into the compaction conveying wheel set 2; the glue strip 10 is guided by the guide 6 so that it can be introduced directly against the pressing and conveying wheel set 2.

In the embodiment shown in fig. 6, the guide mechanism 6 includes a support plate 61 mounted at the end of the back plate 1, two horizontal rollers 63 arranged at intervals up and down are mounted on the top surface of the support plate 61 through a stand 62, and two vertical rollers 64 are further mounted on the support plate 61 outside the stand 62 at intervals front and back; the rubber strip 10 is sequentially passed between two vertical rollers 64 and between two horizontal rollers 63, thereby guiding the rubber strip 10 in the front-back and up-down directions.

In this embodiment, adopt and compress tightly shell fragment 3 and carry out the application of force to pasting preliminarily between sticky tape and adhesive tape 10, absorb the influence of external factors such as conveying by the self elasticity that compresses tightly shell fragment 3, reliably guaranteed laminating each other between sticky tape and the adhesive tape 10 through flexible mode, especially be applicable to the stable of different cross sectional shape adhesive tapes on the adhesive tape 10 and paste and cover, the practicality is good.

The utility model discloses a use-way does:

adhesive tape 10 passes behind guiding mechanism 6 and transmits to a set of 2 pinch rollers that compress tightly of conveying wheelset that are close to between, then carries out the brush of top surface through brush glue spare 7 and glues, blows hot-blast moisturizing to the glue of brush by hot-blast rifle 8, then pastes at 3 departments of compressing tightly shell fragment and covers the sticky tape to by further compressing tightly when transmitting to another group and compressing tightly conveying wheelset 2, thereby realized that the subsides of sticky tape covers on adhesive tape 10.

In this embodiment, the glue brushing member 7, the hot air gun 8 and the tape roll can be installed by referring to the prior art, for example, the glue brushing member 7 can be a brush, the brush with a downward drip nozzle is controlled by a glue dripping valve to drip glue, the tape roll can be rotatably installed on the external rack above the back plate 1, and the tape roll passively rotates to unscrew the tape in the process that the tape is pulled out along with the adhesive tape 10.

The utility model has compact and smart structure, realizes reliable, stable and consistent lamination between the adhesive tape and the adhesive tape, reduces the influence of fluctuation in the conveying process, and is helpful for ensuring the requirement of laminating straightness accuracy; and the whole rubberizing is efficient, effectual.

The above description is for the purpose of explanation and not limitation of the invention, which is defined in the claims, and any modifications may be made within the scope of the invention.

Claims (10)

1. A rubberizing equipment for adhesive tape which characterized in that: the back plate comprises a back plate (1), wherein the front side surface of the back plate (1) is provided with compression conveying wheel sets (2) at left and right intervals, a supporting seat (11) is arranged on the front side surface of the back plate (1) between the two compression conveying wheel sets (2), the top surface of the supporting seat (11) supports an adhesive tape (10), and the adhesive tape (10) is driven by the two compression conveying wheel sets (2) to be transmitted from left to right; a glue brushing part (7), a hot air gun (8) and a pressing elastic sheet (3) are sequentially arranged on the back plate (1) above the supporting seat (11) from left to right, and a glue brushing part of the glue brushing part (7), an air outlet of the hot air gun (8) and the pressing elastic sheet (3) are positioned on the same straight line in the left-right direction and are all positioned above the adhesive tape (10); the adhesive tape fixing device is characterized by further comprising an adhesive tape mounting seat (5), wherein the end part of the adhesive tape on the adhesive tape mounting seat (5) penetrates through the lower part of the compression elastic sheet (3) from left to right and is attached to the top surface of the adhesive tape (10).

2. Rubberizing device for a strip of glue according to claim 1, wherein: the single group of pressing conveying wheel sets (2) respectively comprise two pressing wheels which are arranged up and down, and the two pressing wheels are opposite in rotation direction and are respectively attached to the top surface and the bottom surface of the rubber strip (10).

3. Rubberizing device for a strip of glue according to claim 2, wherein: four pinch rollers in the two groups of pinch conveying wheel sets (2) are driven by the same power through a transmission mechanism (9) to synchronously rotate, two pinch rollers positioned above rotate in the same direction, and two pinch rollers positioned below rotate in the same direction.

4. Rubberizing device for a strip of glue according to claim 3, wherein: the structure of the transmission mechanism (9) is as follows: the automatic pressing device comprises a driving wheel (92) connected with the output end of a motor (91), driven shafts (95) positioned at the centers of pressing wheels below in the two groups of pressing conveying wheel sets (2) penetrate through a back plate (1) backwards, driven wheels are sleeved on the driven shafts (95) positioned at the rear of the back plate (1), main belts (93) are arranged around the driving wheel (92) and the two driven wheels in sequence, and the driving wheel (92) drives the pressing wheels below in the two groups of pressing conveying wheel sets (2) to synchronously drive in the same direction through the main belts (93), the driven wheels and the driven shafts (95); the single driven shaft (95) changes the rotation direction through gear transmission (96), and a driven gear in the gear transmission (96) drives a pressing wheel above the corresponding pressing transmission wheel set (2) to rotate.

5. Rubberizing device for a strip of glue according to claim 4, wherein: the pressing wheels positioned above in the single group of pressing conveying wheel sets (2) are arranged on the back plate (1) through the pressing adjusting mechanism (20), and the upper and lower spacing distances between the upper pressing wheels and the lower pressing wheels are adjusted through the pressing adjusting mechanism (20).

6. Rubberizing device for a strip of glue according to claim 5, wherein: the structure of the pressing adjusting mechanism (20) is as follows: the mechanism comprises a front sliding block (23) and a rear sliding block (22) which are respectively installed on the front side surface and the rear side surface of a back plate (1) through a front guide rail (24) and a rear guide rail (21) in a sliding manner, a central shaft is installed by penetrating the front sliding block (23) and the rear sliding block (22) in a front-and-rear manner and rotating together, a long groove for the central shaft to move up and down is formed in the back plate (1), and the central shaft is adjusted up and down along the long groove relative to the back plate (1) under the action of external force; the pressing wheel positioned above the pressing conveying wheel set (2) is sleeved at the front end of the central shaft, the rear end of the central shaft is in power connection with a driven gear in the gear transmission (96), and the central shaft and the driven gear rotate in the same direction.

7. Rubberizing device for a strip of rubber, according to claim 1, wherein: horizontal adjusting rails (80) are arranged on the back plate (1) between the two groups of pressing conveying wheel sets (2) at intervals in the front-back direction, and glue brushing parts (7), hot air guns (8) and pressing elastic pieces (3) are sequentially arranged on the horizontal adjusting rails (80) from left to right.

8. Rubberizing device for a strip of glue according to claim 7, wherein: the glue brushing piece (7) and the pressing spring plate (3) are respectively arranged on the horizontal adjusting track (80) through the bidirectional adjusting mechanism (4); the bidirectional adjusting mechanism (4) adjusts the positions of the glue brushing part (7) or the pressing spring plate (3) in the front-back direction and the height direction.

9. Rubberizing device for a strip of glue according to claim 1, wherein: a height adjusting mechanism (12) is arranged on the back plate (1) between the two groups of pressing and conveying wheel sets (2), a supporting seat (11) is arranged on the height adjusting mechanism (12), and the position of the supporting seat (11) relative to the back plate (1) in height is adjusted through the height adjusting mechanism (12).

10. Rubberizing device for a strip of glue according to claim 1, wherein: a guide mechanism (6) is further installed on the back plate (1) positioned on the left side of the left pressing and conveying wheel set (2), and the guide mechanism (6) and the pressing and conveying wheel set (2) are positioned on the same straight line in the left-right direction; the rubber strip (10) is guided by the guide mechanism (6) and then is conveyed into the compaction conveying wheel set (2).

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