CN217126456U - Bus adhesive tape winding device convenient for adhesive coating - Google Patents

Abstract

The utility model discloses a generating line sticky tape wind convenient to cover glue uses in generating line sticky tape winding field, and its technical scheme main points are: comprises a supporting frame, a glue winding mechanism and a glue coating mechanism; the adhesive coating mechanism comprises an adhesive coating bracket, an adhesive sticking assembly, a cutting assembly and a smoothing assembly, wherein the adhesive sticking assembly and the cutting assembly are arranged on the adhesive coating bracket, and the smoothing assembly is used for sticking the tail of the adhesive tape on the bus; the rubberizing component comprises a rubberizing bracket arranged on the rubberizing bracket in a sliding manner and a rubberizing driving component used for driving the rubberizing bracket to move; the rubberizing support is rotatably connected with at least two groups of supporting wheels, and a compression connecting plate and a pressing connecting plate are arranged on the rubberizing support in a sliding manner along the vertical direction; has the technical effects that: when the adhesive tape is cut off, the tail part of the adhesive tape and the head part of the adhesive tape which needs to be used for next adhesive coating can be fixed and then cut, so that the subsequent adhesive coating operation is carried out, and the overall adhesive winding efficiency is improved.

Description

Bus adhesive tape winding device convenient for adhesive coating

Technical Field

The utility model relates to a generating line sticky tape winding field, in particular to generating line sticky tape wind convenient to cover gluey.

Background

At present, chinese patent application publication No. CN110758803A discloses an automatic tape winding system, which includes a frame, a rotary tape sticking device, a tape smoothing and cutting device, a workpiece supporting device, a tape pressing device, and a workpiece pressing device; the rotary tape sticking device is arranged at the front end of the rack and comprises a driving assembly, a rotary support and a tape sticking device; the adhesive tape flattening and cutting device is installed at the lower end of the rack and comprises an adhesive tape cutting assembly, an optical axis and a flattening cylinder, the workpiece supporting device comprises a plurality of rollers installed on the rack, the adhesive tape pressing device is installed on the side face of the rack and comprises a first telescopic piece and a second telescopic piece, and the workpiece pressing device is located on the back side of the rack and comprises a pressing cylinder and a pressing block.

The existing automatic adhesive tape winding system can realize the functions of adhering an adhesive tape and winding the adhesive tape; however, after the adhesive tape is wound once, the adhesive tape is cut off, the adhesive tape head is easily lost, the adhesive tape head is often adhered to the bus bar manually, and the adhesive winding efficiency cannot be improved well in high-frequency adhesive winding processing.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a generating line sticky tape wind convenient to cover gluey, its advantage is when the sticky tape is cut off, and the afterbody of sticky tape and the head that the next time covers gluey needs to be used all can be fixed, tailor again to follow-up covers gluey operation, has improved holistic efficiency of twining.

The above technical purpose of the present invention can be achieved by the following technical solutions: a bus adhesive tape winding device convenient for adhesive coating comprises a support frame and an adhesive tape winding mechanism used for winding an adhesive tape on the end part of a bus, wherein the adhesive tape winding mechanism is arranged on the support frame;

the glue spreading mechanism is arranged on the support frame;

the adhesive coating mechanism comprises an adhesive coating support matched with the support frame in a sliding mode, an adhesive pasting component, a cutting component and a flattening component, wherein the adhesive pasting component is arranged on the adhesive coating support and used for pasting the adhesive tape head on the bus, the cutting component is used for cutting off the adhesive tape, and the flattening component is used for pasting the adhesive tape tail on the bus;

the rubberizing assembly comprises a rubberizing support arranged on the rubberizing support in a sliding mode and a rubberizing driving assembly used for driving the rubberizing support to move; the rubberizing support is rotatably connected with at least two groups of supporting wheels, and slides along the vertical direction to be provided with a compression connecting plate and a pressing connecting plate, the compression connecting plate is rotatably connected with compression wheels, and the pressing connecting plate is rotatably connected with a pressing wheel.

Through the technical scheme, the glue coating bracket is connected with the support frame in a sliding manner and is used for supporting the glue coating mechanism; the adhesive tape is adhered to the bus by the adhesive tape adhering component, and when the adhesive tape winding is finished, the adhesive tape adhering component performs clamping movement to clamp and fix the cut adhesive tape head, so that the device can automatically perform next adhesive tape winding work and can quickly identify the adhesive tape head, and the working efficiency is improved; the cutting assembly sinks when cutting the adhesive tape, and the adhesive tape retracts to the original position after being cut off, so that the conditions of blocking and bus cutting during the next adhesive tape winding work are avoided, and the production quality of the bus is ensured; after the cutting assembly cuts off the adhesive tape, the flattening assembly presses and flattens the adhesive tape head connected with one end of the bus, so that the adhesive tape head is prevented from warping on the bus, and the production quality of the bus is guaranteed;

the rubberizing bracket can drive the supporting wheel, the pressing wheel and the pressing wheel to push forwards or retract backwards by moving; the rubberizing driving component is used for adjusting the horizontal and vertical positions of the rubberizing mechanism; the supporting wheel is pushed forward to be used for supporting the adhesive tape, the pressing wheel slides left and right to be used for pasting the adhesive tape on the bus, the pressing wheel sinks to be matched with the supporting wheel to clamp the adhesive tape, the cut adhesive tape head is fixed, the adhesive tape is prevented from deviating, and the production efficiency is improved.

The utility model discloses further set up to: the cutting assembly is a blade which slides along the vertical direction, the blade is arranged along a vertical plane, and the vertical plane where the blade is located between the adjacent supporting wheels.

Through above-mentioned technical scheme, the blade setting is in the position between two supporting wheels, and after twining gluey back, the sticky tape covers in two supporting wheel tops, and cylinder drive blade sinks to cut off the sticky tape, accomplish and twine gluey work, realize that the device is automatic to twine gluey work.

The utility model discloses further set up to: a rubberizing mounting plate is connected above the rubberizing support in a sliding manner, and a small pressing cylinder, a small pressing cylinder and a small cutting cylinder which respectively drive the pressing connecting plate, the pressing connecting plate and the blades to slide are arranged on the rubberizing mounting plate;

and a partition plate is arranged between the small compressing cylinder and the small cutting cylinder.

Through the technical scheme, the small compressing cylinder, the small pressing cylinder and the small cutting cylinder are respectively used for pushing the compressing connecting plate, the pressing connecting plate and the blade to slide along the vertical direction so as to simultaneously compress the adhesive tapes on two sides of the blade; the partition plate is used for separating the small pressing cylinder from the small cutting cylinder so as to increase the distance between the blade and the pressing wheel, and the adhesive tape head left after the adhesive tape is cut off has a certain length so as to be used for subsequent adhesive tape coating.

The utility model discloses further set up to: the length direction of the rubber coating support is arranged along the width direction of the support frame, the rubberizing driving assembly comprises a horizontal sliding plate and a vertical sliding plate which are arranged along the rubber coating support in a sliding mode, a linear sliding table for driving the horizontal sliding plate to horizontally slide is arranged on the rubber coating support, a vertical driving cylinder is connected below the horizontal sliding plate, and a piston rod of the vertical driving cylinder is connected with the vertical sliding plate; the rubberizing support is matched with the vertical sliding plate in a sliding mode.

Through the technical scheme, the horizontal sliding plate is used for controlling the sliding of the horizontal direction of the glue coating mechanism, and the vertical sliding plate is used for controlling the sliding of the vertical direction of the glue coating mechanism, so that the whole position of the glue coating mechanism is adjusted, the glue pasting is more flexible, and the working efficiency is improved.

The utility model discloses further set up to: the smoothing assembly comprises a smoothing mounting plate and a smoothing roller, wherein the smoothing mounting plate is arranged in the vertical direction of the rubberizing support, and the smoothing roller is rotatably connected onto the smoothing mounting plate.

Through above-mentioned technical scheme, smooth the gyro wheel and sink and glue the sticky tape on the generating line, smooth the gyro wheel and slide about on the generating line and smooth the sticky tape on the generating line, better prevent that generating line hair from rolling up and warping up.

The utility model discloses further set up to: the adhesive tape winding mechanism comprises an installation ring, an adhesive tape wheel, a revolution driving assembly and a rotation driving assembly, wherein the revolution driving assembly drives the adhesive tape wheel to revolve around the installation ring, and the rotation driving assembly drives the adhesive tape wheel to rotate.

Through the technical scheme, the mounting ring is used for connecting the revolution driving assembly and the rotation driving assembly, the adhesive tape frame is fixed on the driven ring, and the revolution driving assembly is matched with the rotation driving assembly to enable the driven ring to rotate at a constant speed, so that the adhesive tape wheel is driven to rotate at a constant speed, and the adhesive tape is stressed uniformly when being wound.

The utility model discloses further set up to: the revolution driving component comprises a driven ring which is rotationally connected with the mounting ring, driven teeth which are arranged on the outer side of the driven ring, and a driving gear which drives the driven teeth to rotate;

the driving gear is rotationally connected with the mounting ring;

the autorotation driving assembly comprises a tape frame fixedly connected with the driven ring, an internal gear fixed by the mounting ring and a gear set for driving the tape wheel to rotate reversely with the driven ring, and the gear set is matched with the internal gear.

Through the technical scheme, the driven teeth on the driven ring are meshed with the driving gear, and the driving gear drives the driven teeth to rotate at a constant speed, so that the rotation driving assembly revolves around the mounting ring at a constant speed; the adhesive tape wheel is connected with the gear set, and the gear set is matched with the internal gear, so that the rotating direction of the adhesive tape is opposite to that of the driven gear, and the adhesive tape is always in a tightened state and is uniformly stressed.

The utility model discloses further set up to: the gear set comprises a middle gear meshed with the internal gear and a rubber belt gear meshed with the middle gear, and the rubber belt gear is rotationally connected with the rubber belt frame.

Through the technical scheme, the intermediate gear moves on the inner gear to drive the adhesive tape gear meshed with the intermediate gear to rotate, so that the adhesive tape rotates while revolving around the mounting ring, the adhesive tape is stressed uniformly, and the adhesive tape on the bus is wound and distributed uniformly.

To sum up, the utility model discloses following beneficial effect has:

1. the two supporting wheels are matched with the pressing wheel and the pressing wheel to press the adhesive tapes on the two sides of the blade, when the adhesive tapes are cut off by the blade, the head and the tail of each adhesive tape are in a clamped state, so that the adhesive tapes can be used better in the following process, and the overall efficiency is improved;

2. through the lateral shifting of the adhesive coating support, the pressing of the floating roller and the pressing wheel to the adhesive tape is matched, the head and the tail of the adhesive tape can be more tightly attached to the bus, the curling condition of the subsequent adhesive tape is avoided, and the adhesive coating quality is further improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic view of a glue wrapping mechanism of an embodiment;

fig. 3 is a schematic view of a revolution drive assembly of an embodiment;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

FIG. 5 is a schematic view of a taping assembly of an embodiment;

fig. 6 is a schematic view of a smoothing assembly of an embodiment.

Reference numerals: 1. a support frame; 2. a limiting block; 5. a glue winding mechanism; 6. a glue coating mechanism; 10. a mounting frame; 12. a tape dispenser; 13. a tape wheel; 14. coating a rubber bracket; 15. a horizontal sliding plate; 16. a vertical driving cylinder; 17. a vertical sliding plate; 18. sticking a rubber support; 19. a blade; 20. a smoothing assembly; 21. a support wheel; 22. a pinch roller; 23. pressing the pressing wheel; 24. a fixing plate; 25. mounting a rubber mounting plate; 27. a lower horizontal cylinder; 28. an upper horizontal cylinder; 29. rotating the cover plate; 30. an internal gear; 31. a driven ring; 32. a driven tooth; 33. a small ball; 34. a mounting ring; 35. a drive gear; 36. an intermediate gear; 37. a tape gear; 38. a rubberizing component; 40. a drive motor; 42. a partition plate; 43. a rubberizing drive assembly; 44. a revolution driving assembly; 45. a rotation driving assembly; 46. compressing the connecting plate; 47. pressing the connecting plate; 48. a gear set; 49. smoothing the mounting plate; 50. smoothing the roller; 52. and (4) a synchronous belt.

Detailed Description

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

Example (b):

referring to fig. 1, an automatic adhesive tape winding device includes a support frame 1, an adhesive coating mechanism 6 and an adhesive winding mechanism 5, wherein the support frame 1 is a frame structure formed by combining aluminum profiles, and an electric appliance element and a PLC control system can be placed in the support frame 1; sliding rails are connected to the positions, close to the two sides, of the interior of the support frame 1 through bolts, a synchronous belt 52 fixedly connected with the support frame 1 is arranged close to one of the sliding rails, and the synchronous belt 52 and the sliding rails are arranged along the length direction of the support frame 1; the glue coating mechanism 6 and the glue winding mechanism 5 are both arranged above the support frame 1 and are arranged in a sliding manner along the length direction of the support frame 1;

the adhesive coating mechanism 6 is used for coating the head and the tail of the adhesive tape on the bus;

and the adhesive tape winding mechanism 5 is used for uniformly winding the adhesive tape on the end part of the bus.

Referring to fig. 2, the adhesive winding mechanism 5 includes a mounting ring 34, a revolving driving assembly 44, a rotating driving assembly 45, and an adhesive tape wheel 13; the revolution driving assembly 44 is used for driving the adhesive tape wheel 13 to revolve around the mounting ring 34, and the rotation driving assembly 45 is used for driving the adhesive tape wheel 13 to rotate;

referring to fig. 3, the revolution driving assembly 44 includes a driven ring 31, driven teeth 32, small balls 33, a rotating cover plate 29, and a driving gear 35; the driven ring 31 is coaxially and rotatably connected with the mounting ring 34, the driven ring 31 is arranged in an inner hole of the mounting ring 34, and a plurality of driven teeth 32 are uniformly distributed around the circumferential surface of the driven ring 31; the opposite circumferential surfaces of the driven ring 31 and the mounting ring 34 are provided with grooves for accommodating small balls 33; the driving gear 35 is rotatably connected with the mounting ring 34, the driving gear 35 is meshed with the driven teeth 32, and a motor for driving the driving gear 35 to rotate is connected to the mounting ring 34 through bolts.

Referring to fig. 3 and 4, the rotation driving assembly 45 includes a gear set 48, the tape dispenser 12, and the internal gear 30; a groove for placing the gear set 48 is formed in the driven ring 31, the adhesive tape holder 12 is covered on the groove, the adhesive tape holder 12 is fixed on the driven ring 31 through bolts, and the adhesive tape wheel 13 is arranged on the adhesive tape holder 12; the rotary cover plate 29 is fixedly connected with the inner gear 30 and the mounting ring 34 through bolts, and the inner gear 30 is positioned between the mounting ring 34 and the rotary cover plate 29;

referring to fig. 3 and 4, the gear set 48 includes an intermediate gear 36 and a tape gear 37, the intermediate gear 36 is engaged with the internal gear 30, the tape gear 37 is engaged with the intermediate gear 36, and the tape gear 13 is connected with the tape gear 37 using a shaft; when the adhesive tape is wound, the driving gear 35 drives the driven ring 31 to rotate, the intermediate gear 36 moves along the inner gear 30, and the intermediate gear 36 drives the adhesive tape gear 37, so that the adhesive tape wheel 13 is driven to rotate reversely with the driven ring 31 when revolving around the axis of the mounting ring 34, and the adhesive tape is released while being wound; the adhesive tape wheel 13 is provided with an anti-slip pad to increase the friction between the adhesive tape and the adhesive tape wheel 13 and prevent the adhesive tape from falling off from the adhesive tape wheel 13 when the adhesive tape is wound.

The operation process of the glue winding mechanism 5 is as follows:

firstly, after a bus is placed on a support frame 1, a glue coating mechanism 6 coats the head of a glue tape on the end part of the bus;

then, the revolution driving component 44 drives the adhesive tape wheel 13 to rotate around the mounting ring 34, and simultaneously drives the gear set 48 to operate;

then, the gear set 48 rotates the tape wheel 13 to wind the tape on the bus bar uniformly.

With reference to the figures and drawings, the gluing mechanism 6 comprises a gluing bracket 14, a gluing assembly 38, a cutting assembly and a smoothing assembly 20, the gluing bracket 14 being bolted to the side of the mounting ring 34 facing away from the tape wheel 13 (see fig. 3);

an adhesive tape applying assembly 38 for applying an adhesive tape head to the bus bar;

a cutting assembly for cutting the adhesive tape;

and a smoothing assembly 20 for adhering the tail of the adhesive tape to the bus bar.

Referring to fig. 5 and 6, the rubberizing assembly 38 includes rubberizing support 18 and rubberizing drive assembly 43, and the rubberizing drive assembly 43 includes horizontal slide plate 15 and vertical slide plate 17, and horizontal slide plate 15 horizontal sliding connection is in rubberizing support 14 below, and the rubberizing support 14 is last to rotate and to be connected with the drive lead screw with horizontal slide plate 15 screw-thread fit, and horizontal slide plate 15 below bolted connection has vertical drive cylinder 16, and the piston rod of vertical drive cylinder 16 is connected with vertical slide plate 17.

Referring to fig. 5 and 6, the rubberizing bracket 18 is horizontally connected to the vertical sliding plate 17 in a sliding manner, the two are matched with each other through a sliding block and a sliding rail, the vertical sliding plate 17 is fixedly connected with a lower horizontal cylinder 27 through a bolt, and a piston rod of the lower horizontal cylinder 27 is connected with the rubberizing bracket 18; the rubberizing mounting plate 25 is arranged above the rubberizing support 18, the rubberizing support 18 is matched with the rubberizing mounting plate 25 through a sliding block and a sliding rail, an upper horizontal cylinder 28 is arranged on one side, located on the lower horizontal cylinder 27, of the rubberizing support 18, the upper horizontal cylinder 28 is arranged in parallel with the lower horizontal cylinder 27, and a piston rod of the upper horizontal cylinder 28 is fixedly connected with the rubberizing mounting plate 25.

Referring to fig. 5 and 6, the rubberizing module 38 further comprises two support wheels 21, a pinch wheel 22, a pinch connection plate 46, a press wheel 23 and a press connection plate 47, which are horizontally arranged side by side; the two supporting wheels 21 are rotatably connected to the rubberizing brackets 18; the pressing connecting plate 46 and the pressing connecting plate 47 are vertically connected to the rubberizing mounting plate 25 in a sliding mode, the pressing connecting plate 46 and the pressing connecting plate 47 are connected with the rubberizing mounting plate 25 through small cylinders which are vertically arranged, the pressing wheel 22 is rotationally connected to the pressing connecting plate 46, and the pressing wheel 22 is located above one of the supporting wheels 21; the pressing wheel 23 is rotatably connected to the pressing connecting plate 47.

Referring to fig. 5 and 6, the cutting assembly is a blade 19 sliding along the vertical direction, the blade 19 is horizontally positioned on one side of the pressing wheel 22 far away from the pressing wheel 23, the blade 19 is vertically positioned above the space between the two supporting wheels 21, and the rubberizing mounting plate 25 is connected with a small pressing cylinder, a small pressing cylinder and a small cutting cylinder which respectively drive the pressing connecting plate 46, the pressing connecting plate 47 and the blade 19 to slide through bolts; a partition plate 42 is arranged between the small pressing cylinder and the small cutting cylinder, and the partition plate 42 is connected with the rubberizing mounting bolt.

Referring to fig. 5 and 6, the smoothing assembly 20 includes a smoothing mounting plate 49 and a smoothing roller 50, the smoothing roller 50 is rotatably connected to the smoothing mounting plate 49, the smoothing roller 50 is disposed on a side of the blade 19 away from the pressing wheel 22, and the smoothing mounting plate 49 is connected to the rubberizing mounting plate 25 through a small air cylinder;

the axes of the supporting wheel 21, the pressing wheel 22, the pressing wheel 23 and the smoothing roller 50 are all arranged in parallel.

The operation process of the glue coating mechanism 6 is as follows:

before the glue winding operation, the glue coating mechanism 6 integrally descends under the action of the vertical cylinder, the horizontal sliding plate 15 horizontally slides on the glue coating support 14 to one side far away from the mounting frame 10, the horizontal sliding plate 15 drives the glue coating mechanism 6 to enable the pressing wheel 22 to completely paste the adhesive tape head on the bus, the pressing wheel 22 ascends and retracts to the initial position, the whole glue coating mechanism 6 horizontally and smoothly moves to the initial position, then the glue coating mechanism 6 integrally retracts under the action of the lower horizontal cylinder 27, and blocking during glue winding is avoided.

When the adhesive tape winding is about to be finished, the supporting wheel 21 is pushed forwards under the action of the lower horizontal cylinder 27, when the adhesive tape wheel 13 rotates to the initial position, the adhesive tape covers on the supporting wheel 21, under the action of the upper horizontal cylinder 28, the cutting assembly, the leveling assembly 20, the pressing wheel 22 and the pressing wheel 23 are pushed forwards, the pressing wheel 22 sinks, the pressing wheel 22 and the supporting wheel 21 are matched to clamp the adhesive tape, at the moment, the blade 19 sinks and cuts off the adhesive tape, the leveling roller 50 sinks to press the adhesive tape head on a bus, the adhesive tape coating mechanism 6 integrally slides to one side close to the mounting frame 10, and the leveling roller 50 completely levels the adhesive tape head on the bus.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. A bus adhesive tape winding device convenient for adhesive tape covering comprises a support frame (1) and an adhesive tape winding mechanism (5) for winding an adhesive tape on the end part of a bus, wherein the adhesive tape winding mechanism (5) is arranged on the support frame (1);

the device is characterized by also comprising a glue coating mechanism (6) arranged on the support frame (1);

the adhesive coating mechanism (6) comprises an adhesive coating support (14) in sliding fit with the support frame (1), an adhesive pasting component (38) arranged on the adhesive coating support (14) and used for pasting an adhesive tape head on a bus, a cutting component used for cutting off the adhesive tape and a smoothing component (20) used for pasting an adhesive tape tail on the bus;

the rubberizing component (38) comprises a rubberizing support (18) arranged on the rubberizing support (14) in a sliding mode and a rubberizing driving component (43) used for driving the rubberizing support (18) to move; the rubberizing support (18) are gone up to rotate and are connected with at least two sets of supporting wheel (21), slide along vertical direction and compress tightly connecting plate (46) and press connecting plate (47), it is connected with pinch roller (22) to rotate on compressing tightly connecting plate (46), it is connected with according to pinch roller (23) to press connecting plate (47) rotation.

2. The bus bar tape winding device convenient for coating adhesive tape as claimed in claim 1, wherein the cutting assembly is a blade (19) sliding along a vertical direction, the blade (19) is arranged along a vertical plane, and the vertical plane of the blade (19) is located between the adjacent support wheels (21).

3. The bus tape winding device convenient for coating adhesive is characterized in that an adhesive mounting plate (25) is connected above the adhesive support (18) in a sliding manner, and a pressing small cylinder, a pressing small cylinder and a cutting small cylinder which respectively drive a pressing connecting plate (46), a pressing connecting plate (47) and a blade (19) to slide are arranged on the adhesive mounting plate (25);

a partition plate (42) is arranged between the small pressing cylinder and the small cutting cylinder.

4. The bus tape winding device convenient for adhesive coating is characterized in that the length direction of the adhesive coating support (14) is arranged along the width direction of the support frame (1), the adhesive coating driving assembly (43) comprises a horizontal sliding plate (15) and a vertical sliding plate (17) which are arranged along the adhesive coating support (14) in a sliding manner, a linear sliding table for driving the horizontal sliding plate (15) to horizontally slide is arranged on the adhesive coating support (14), a vertical driving cylinder (16) is connected below the horizontal sliding plate (15), and a piston rod of the vertical driving cylinder (16) is connected with the vertical sliding plate (17); the rubberizing support (18) is matched with the vertical sliding plate (17) in a sliding mode.

5. The bus bar tape winding device facilitating glue application as recited in claim 1, wherein the smoothing assembly (20) comprises a smoothing mounting plate (49) vertically oriented along the glue bracket (18) and a smoothing roller (50) rotatably connected to the smoothing mounting plate (49).

6. The bus tape winding device for facilitating the coating of the adhesive as claimed in claim 3, wherein the adhesive winding mechanism (5) comprises a mounting ring (34) and a tape wheel (13), and a revolving driving assembly (44) for driving the tape wheel (13) to revolve around the mounting ring (34) and a rotating driving assembly (45) for driving the tape wheel (13) to rotate.

7. The bus tape winding device facilitating adhesive tape covering is characterized in that the revolution driving assembly (44) comprises a driven ring (31) connected with the mounting ring (34) in a rotating mode, driven teeth (32) arranged on the outer side of the driven ring (31), and a driving gear (35) driving the driven teeth (32) to rotate;

the driving gear (35) is rotationally connected with the mounting ring (34);

the autorotation driving assembly (45) comprises a tape frame (12) fixedly connected with the driven ring (31), an internal gear (30) fixed by the mounting ring (34) and a gear set (48) for driving the tape wheel (13) and the driven ring (31) to rotate in the opposite direction, and the gear set (48) is matched with the internal gear (30).

8. The bus bar tape winding device facilitating tape coating as claimed in claim 7, wherein the gear set (48) comprises an intermediate gear (36) engaged with the internal gear (30) and a tape gear (37) engaged with the intermediate gear (36), the tape gear (37) being rotatably connected with the tape holder (12).

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