CN210016383U

CN210016383U - Tape winding mechanism and tape wrapping device

Info

Publication number: CN210016383U
Application number: CN201921133625.XU
Authority: CN
Inventors: 李金光
Original assignee: WENZHOU SONDRA AUTOMATION TECHNOLOGY Co Ltd
Current assignee: WENZHOU SONDRA AUTOMATION TECHNOLOGY Co Ltd
Priority date: 2019-07-18
Filing date: 2019-07-18
Publication date: 2020-02-04
Anticipated expiration: 2029-07-18

Abstract

The utility model provides a tape winding mechanism and belting device, wherein, tape winding mechanism includes: the storage belt ring is wound with an insulating belt and can rotate around the center of the storage belt ring, and a to-be-wound part penetrates through a central hole of the storage belt ring; the tape guide part is arranged side by side with the tape storage ring and can rotate around the part to be wound, the tape guide part is provided with a tape wrapping part which is arranged on one side of the axial direction of the tape storage ring and is suitable for driving the insulating tape to wind around the part to be wound, and a tape guide part extending above the insulating tape, and the free end of the insulating tape winds from the tape storage ring to the outside of the tape storage ring along the tape guide part; and the wrapping tape driving mechanism is connected with the guide tape piece and drives the guide tape piece to rotate. Above-mentioned structure setting of winding mechanism can be applicable to and twine sticky insulating tape, and because the diameter of storing up the belt ring can set up great to can store more insulating tape, compare with prior art, reduce the number of times of shutting down and changing the sticky tape dish, and then improved winding efficiency.

Description

Tape winding mechanism and tape wrapping device

Technical Field

The utility model relates to a belting equipment technical field, concretely relates to winding mechanism and belting device.

Background

Along with the development of society, the demand of the motor field for coils is increasing day by day, the structure of the coil is complicated day by day because of the use needs, and the coil body is twined one deck or multilayer insulating tape when in subsequent use to prevent the appearance of short circuit condition, and the past all adopts manual mode to twine the insulating tape, has the winding difficulty, twines the drawback that the precision is not high, inefficiency.

In order to solve the above problems, chinese patent document CN106877597A discloses a full-automatic high-speed taping machine for high-voltage motor coils, as shown in fig. 5, the taping mechanism includes an insulating tape reel 01 with an insulating tape 02 wound thereon, an insulating tape guide 03, and a taping ring reel 04, a tape storage slot 05 is provided on the outer wall of the taping ring reel 04, a plurality of bearing rollers 06 are circumferentially and uniformly distributed in the tape storage slot 05, during taping, a free end of the insulating tape 02 passes through the insulating tape guide 03 and a gap between the two bearing rollers 06, and then is wound on the coil body 07 for one to two turns, the taping ring reel 04 is driven by a power mechanism to rotate counterclockwise, so as to drive the insulating tape 02 to be wound on the coil body 07 through one bearing roller 06, in this process, the taping ring reel 04 rotates one turn, the insulating tape 02 is wound on the coil body 07 for one turn, and at the same time, the insulating tape 02 is wound in the, when the tape winding mechanism is used for sticky insulating tapes, because the multiple layers of insulating tapes 02 stored in the tape storage groove 05 can be connected in an adhesive manner, the resistance of the bearing roller 06 for driving the insulating tapes to wind the coil body 07 is greatly increased, the condition of tape breakage often occurs, the shutdown treatment is required, and the tape winding efficiency is reduced.

In order to solve the above problem, chinese patent document CN204992982U discloses a tape winding mechanism for a tape wrapping machine of a high-speed rail traction motor coil, which includes a notch ring, a tape disc installed on the notch ring, and a driving motor, wherein when the tape is wound, the free end of the insulating tape is wound on the coil body for one to two turns, and when the driving motor drives the notch ring to rotate counterclockwise, the tape disc rotates along with the notch ring and winds the tape on the coil body. When above-mentioned tape winding mechanism is used for twining treating the winding as shown in fig. 3, treating that the winding includes two parallel arrangement treats the winding board, two treat that the clearance between the winding board is less, in order to avoid touching and treat the winding board, the diameter of adhesive tape dish can not set up very greatly, lead to the adhesive tape length that the adhesive tape dish carried to be shorter, consequently when needs winding coil plate body length is longer, the staff need shut down and change the adhesive tape dish several times, reduced the efficiency of taping.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model lies in overcoming the winding mechanism among the prior art when using in narrow and small space, need shut down and change the sticky tape dish several times, lead to the defect of winding inefficiency to a winding mechanism that is applicable to have sticky insulating tape, and winding efficiency is high is provided, and the band device that has this winding mechanism.

Therefore, the utility model provides a belt winding mechanism, which comprises a belt storage ring, a belt guide part and a belt driving mechanism, wherein the belt storage ring is wound with an insulating belt and can rotate around the center of the belt storage ring, and a part to be wound is arranged in a central hole of the belt storage ring; the tape guide part is arranged side by side with the tape storage ring and can rotate around the to-be-wound part, the tape guide part is provided with a tape wrapping part which is arranged on one side of the axial direction of the tape storage ring and is suitable for driving the insulating tape to wind around the to-be-wound part, and a tape guide part extending above the insulating tape, and the free end of the insulating tape winds from the tape storage ring to the outside of the tape storage ring along the tape guide part; and the wrapping tape driving mechanism is connected with the guide tape piece and drives the guide tape piece to rotate.

The guide belt part is a plurality of guide belt shafts which are uniformly distributed on the guide belt part.

The wrapping part is a roller which is rotatably arranged on the belt guide part.

The wrapping belt driving mechanism comprises a wrapping belt ring, a first driving belt and a wrapping belt motor, the wrapping belt ring is rotatably arranged on the wrapping belt bracket, and the wrapping belt ring is fixedly provided with the guide belt piece; the first transmission belt is pressed on the outer wall of the strap ring; the wrapping belt motor is installed on the wrapping belt support and connected with the first transmission belt, and the wrapping belt motor drives the wrapping belt to rotate around the center of the wrapping belt through the first transmission belt.

The first transmission belt is wound to form a triangle, and one side of the triangle is in compression joint with the outer wall of the strap ring.

Still be provided with on the band support and be suitable for store up the band mechanism of band conveyer belt, store up the band mechanism and include insulating tape dish, store up and take the drive structure: the insulating tape reel is arranged on the tape carrier, and the free end of the insulating tape arranged on the insulating tape reel is fixedly arranged in the tape storage groove of the tape storage ring; the storage belt driving structure drives the storage belt ring to rotate, so that the insulating belt on the insulating belt disk is wound on the storage belt ring in the storage belt groove.

The storage belt ring is provided with a notch for inserting the to-be-wound piece, the notch is detachably provided with an arc-shaped installation part, and the arc-shaped installation part is closed when the storage belt or the wrapping belt is in a state.

The belt storage driving structure comprises an upper belt driving wheel and a belt storage motor, and one end of the upper belt driving wheel is abutted with the inner wall of the belt storage ring in a fitting manner; the belt storage motor is provided with a power output shaft, the power output shaft is connected with the other end of the upper belt driving wheel through a second driving belt, and the belt storage motor drives the upper belt driving wheel to drive the belt storage ring to rotate.

The damping mechanism comprises a tension control belt and a tension control cylinder, and the tension control belt is connected with the power output shaft; the tension control cylinder is connected with the tension control belt and controls the rotating speed of the power output shaft by controlling the tightness state of the tension control belt.

The utility model discloses a belt wrapping device, which comprises the belt winding mechanism; the mounting support is movably mounted on the base along the X-axis direction, and the wrapping belt support is arranged on the mounting support and can move along the Z-axis direction.

A deflection mechanism is arranged between the belting support and the mounting support and comprises a deflection connecting piece and a deflection motor, and the deflection connecting piece is fixedly connected with the belting support; the deflection motor is connected with the deflection connecting piece, and the deflection motor drives the wrapping tape support to rotate through the deflection connecting piece.

The base is provided with an installation mechanism for fixing the piece to be wound, the installation mechanism comprises two fixing supports and a plurality of supporting cylinders, the two fixing supports are respectively arranged at two ends of the piece to be wound in the length direction and are suitable for fixing two ends of the piece to be wound, and the piece to be wound is away from the base by a certain height; the supporting cylinders are installed on the base and arranged at intervals along the length direction of the to-be-wound piece, and the supporting cylinders are suitable for supporting the to-be-wound piece.

The winding device is characterized by further comprising a positioning mechanism arranged on the mounting support, wherein the positioning mechanism comprises two positioning wheels, a supporting wheel and a positioning driving assembly, the two positioning wheels are oppositely arranged on the movable support, and the two positioning wheels are driven by a positioning cylinder to clamp the to-be-wound piece; the supporting wheel is arranged on the movable bracket and is suitable for supporting the piece to be wound; the positioning driving assembly is connected with the movable support and drives the movable support to move to a set position.

The utility model discloses technical scheme has following advantage:

1. the utility model provides a tape winding mechanism, which comprises a tape storage ring and a tape guide part arranged side by side with the tape storage ring, wherein the tape guide part is provided with a tape wrapping part which is arranged at one side of the axial direction of the tape storage ring and is suitable for driving an insulating tape to wind on a part to be wound, and a tape guide part extending into the upper part of the insulating tape, when the tape is wrapped, the free end of the insulating tape is wound outside the tape storage ring along the tape guide part from the tape storage ring and is wound on the part to be wound for one to two circles, then the tape wrapping part drives the insulating tape to wind on the part to be wound under the driving of the tape guide part, the tape wrapping part drives the tape storage ring to rotate together through the insulating tape when rotating, when the tape winding mechanism works, the insulating tape leaves from the outer side of the tape storage ring layer by layer, when the insulating tape leaves the tape storage ring, no friction occurs between the insulating tape wound on the tape storage ring and the, therefore, the insulating tape is not easy to break, and can be suitable for insulating tapes wound with viscosity; because the diameter of storing up the band ring can set up great to can store more insulated tape, compare with prior art, reduce the number of times of shutting down and changing the sticky tape dish, and then improved the taping efficiency, in addition, through setting up the conducting strip portion, can avoid taking place the broken area of friction between the lateral wall of insulated tape and storing up the band ring, further improved the taping efficiency.

2. The utility model provides a around band mechanism, leading tape portion are a plurality of leading tape spool of evenly distributed on leading tape member, and leading tape spool can reduce the area of contact between leading tape member and the insulating tape to avoid there being sticky insulating tape to glue on leading tape spool, lead to disconnected area, improved around taking efficiency.

3. The utility model provides a around band mechanism, band portion are for rotationally setting up the gyro wheel on leading the belting, because be sliding friction between gyro wheel and the insulating tape to make there be sticky insulating tape to be difficult to glue on leading the belting, lead to disconnected area, improved around taking efficiency.

4. The utility model provides a around band mechanism, band actuating mechanism includes: the strap ring is rotatably arranged on the strap bracket and is fixedly provided with a strap guide piece; the first transmission belt is pressed on the outer wall of the strap ring in a crimping mode, the first transmission belt is wound into a triangle, and one side of the triangle is pressed on the outer wall of the strap ring in a crimping mode; the belting motor is installed on the belting support and connected with the first transmission belt, the belting motor drives the belting to rotate around the center of the belting motor through the first transmission belt, and then the conduction belt piece is driven to rotate, and the belting driving mechanism has the advantage of being simple in structure.

5. The utility model provides a winding mechanism has the confession on the storage belt ring and treats winding member male breach, and breach department detachably installs the arc installation department, and when storage belt or band state, the breach is sealed to the arc installation department to increase the structural strength who stores up the belt ring, prevent to store up the winding of belt ring and warp down of insulating tape.

6. The utility model provides a belting is provided with deflection mechanism between band support and the installing support, and deflection mechanism includes: the deflection connecting piece is fixedly connected with the belting bracket; and the deflection motor is connected with the deflection connecting piece and drives the wrapping tape support to rotate through the deflection connecting piece. Through setting up deflection mechanism, when treating that the winding has the kink branch, can drive and band the corresponding certain angle of rotation winding of support, improved winding efficiency.

7. The utility model provides a belting still includes the positioning mechanism who sets up on the installing support, and positioning mechanism includes: the two positioning wheels are oppositely arranged on the movable support, and the two positioning wheels are driven by the positioning cylinder to clamp the piece to be wound; the supporting wheel is arranged on the movable support and is suitable for supporting the piece to be wound; and the positioning driving assembly is connected with the movable support and drives the movable support to move to a set position. Through setting up positioning mechanism, can guarantee to treat that the winding can not take place to warp to avoid interfering the removal of taking mechanism along the X axle direction around.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the taping device after a part of the taping mechanism is removed;

FIG. 2 is an exploded view of the tape winding mechanism;

FIG. 3 is a schematic structural view of a positioning mechanism and a member to be wound;

FIG. 4 is a schematic structural view of the positioning mechanism;

fig. 5 is a schematic structural diagram of a belt winding mechanism in the prior art.

Description of reference numerals: 01. an insulating tape reel; 02. an insulating tape; 03. an insulating tape guide plate; 04. wrapping a ring plate; 05. a belt storage groove; 06. a bearing roller; 07. a coil body;

1. a belt storage ring; 10. an insulating tape; 11. a belt storage groove; 12. an arc-shaped mounting part; 2. a member to be wound; 3. a tape guide; 31. a wrapping portion; 32. a guide belt part; 4. a bag belt bracket; 41. a first drive belt; 42. a strap ring; 43. a taping motor; 44. a deflection link; 45. a deflection motor; 5. an insulating tape reel; 6. an upper belt driving wheel; 61. a tape storage motor; 62. a second belt; 63. a tension control band; 64. a tension control cylinder; 7. a base; 71. mounting a bracket; 8. fixing a bracket; 81. a support cylinder; 9. moving the support; 91. positioning wheels; 92. positioning the air cylinder; 93. and supporting the wheels.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example 1

The embodiment provides a tape winding mechanism, which is suitable for winding a tape on a to-be-wound piece 2, and as shown in fig. 1 and 2, the tape winding mechanism comprises a tape storage ring 1, a tape guide piece 3, a tape driving mechanism, a tape storage mechanism and a damping mechanism.

Store up belt ring 1, its storage belt groove 11 internal winding has insulating tape 10, can rotate around its self center, wear to establish in the centre bore of storing belt ring 1 and wait to twine 2, store up the confession on the belt ring 1 treat twine 2 male breach, breach department detachably installs arc installation department 12, when storing up belt or band state, arc installation department 12 seals the breach, the one end of arc installation department 12 is articulated with the breach wall of storing up belt ring 1, the other end with breach wall buckle connects (not drawn in the picture).

Conduction band spare 3, with storage belt ring 1 sets up side by side, and can wind treat that winding 2 rotates, conduction band spare 3 have set up in storage belt ring 1 axis direction one side be suitable for the drive insulation band 10 is around locating the bandaging portion 31 on treating winding 2, and stretch into extremely conduction band portion 32 of insulation band 10 top, insulation band 10's free end along conduction band portion 32 is followed storage belt ring 1 is around taking extremely outside storage belt ring 1, in the embodiment, conduction band spare 3 is the arc setting, and bandaging portion 31 is for rotationally set up in gyro wheel on conduction band spare 3, conduction band portion 32 be evenly distributed in a plurality of conduction band axles on conduction band spare 3, bandaging portion 31 drives storage belt ring 1 through insulation band 10 and rotates when carrying out the bandaging.

Band actuating mechanism includes: the strap ring 42 is rotatably arranged on the strap bracket 4, the strap guide part 3 is fixedly arranged on the strap ring 42, and the strap ring 42 is provided with a gap for inserting the part to be wound 2; the first transmission belt 41 is in compression joint with the outer wall of the strap ring 42, the first transmission belt 41 is wound to form a triangle, and one side of the triangle is in compression joint with the outer wall of the strap ring 42; and the taping motor 43 is arranged on the taping bracket 4 and connected with the first transmission belt 41, and the taping motor 43 drives the taping ring 42 to rotate around the center of the taping ring 42 through the first transmission belt 41.

The tape storage mechanism comprises an insulating tape reel 5 and a tape storage drive structure. The insulating tape reel 5 is arranged on the tape holder 4, the free end of the insulating tape 10 arranged on the insulating tape reel 5 is fixedly arranged in the tape storage groove 11 of the tape storage ring 1, and a snap ring (not shown in the figure) for fixing the free end of the insulating tape 10 is arranged in the tape storage groove 11. The tape storage drive structure comprises: one end of the upper belt driving wheel 6 is abutted with the inner wall of the belt storage ring 1; the belt storage motor 61 is provided with a power output shaft, the power output shaft is connected with the other end of the upper belt driving wheel 6 through a second driving belt 62, and the belt storage motor 61 drives the upper belt driving wheel 6 to drive the belt storage ring 1 to rotate.

The damping mechanism includes: a tension control belt 63 connected to the power output shaft; and a tension control cylinder 64 connected to the tension control belt 63, wherein the tension control cylinder 64 controls the rotation speed of the power output shaft by controlling the tightness of the tension control belt 63.

As an alternative embodiment, a positioning groove is formed on the wall of the gap of the belt storage ring 1, and a positioning block which is adaptive to and clamped with the positioning groove is formed on the arc-shaped mounting part 12.

The tape winding mechanism of this embodiment, at the during operation, the insulating tape 10 leaves from the outside successive layer of storing up belt ring 1, when the insulating tape 10 leaves storing up belt ring 1 not with twining to store up the insulating tape 10 on belt ring 1 and storing up between belt ring 1 and take place the friction, resistance when insulating tape 1 leaves is relatively less, therefore, insulating tape 1 is difficult to break off, and can be applicable to and twine sticky insulating tape, and because the diameter of storing up belt ring 1 can set up great, thereby can store more insulating tape, compare with prior art, the number of times of changing the adhesive tape dish has been reduced to shut down, and then the tape winding efficiency has been improved, in addition, through setting up conducting strip portion 32, can avoid taking place the broken area of friction between the lateral wall of insulating tape 10 and storing up belt ring 1, tape winding efficiency has further been improved.

Example 2

The present embodiment provides a taping device, as shown in fig. 1,3 and 4, including the taping mechanism according to embodiment 1, a base 7, a mounting bracket 71, a deflecting mechanism, a mounting mechanism and a positioning mechanism.

The mounting bracket 71 is movably mounted on the base 7 along the X-axis direction, the tape wrapping bracket 4 is arranged on the mounting bracket 71 and can move along the Z-axis direction, and the mounting bracket 71 drives the tape winding mechanism to wind the tape from one end of the to-be-wound part 2 to the other end of the to-be-wound part while moving. In this embodiment, the power mechanism for driving the mounting bracket 71 and the taping bracket 4 to move may be a cylinder push rod assembly, or may be a motor and ball screw structure.

The deflection mechanism is arranged between the belting support 4 and the mounting support 71, comprises a deflection connecting piece 44 and is fixedly connected with the belting support 4; and the deflection motor 45 is connected with the deflection connecting piece 44, and the deflection motor 45 drives the belting support 4 to rotate through the deflection connecting piece 44.

The installation mechanism includes: the two fixing supports 8 are respectively arranged at two ends of the to-be-wound piece 2 in the length direction, are suitable for fixing the two ends of the to-be-wound piece 2 and enable the to-be-wound piece 2 to be away from the base 7 by a certain height, in the embodiment, the to-be-wound piece 2 comprises two to-be-wound plates which are arranged in parallel and bending plates which are arranged at two ends of the to-be-wound plate, and the bending plates are connected with the two to-be-wound plates; the supporting cylinders 81 are mounted on the base 7 and arranged at intervals along the length direction of the to-be-wound piece 2, and the supporting cylinders 51 are suitable for supporting the to-be-wound piece 2.

The positioning mechanism includes: the two positioning wheels 91 are oppositely arranged on the movable support 9, and the two positioning wheels 91 clamp the to-be-wound piece 2 under the driving of the positioning air cylinder 92; a support wheel 93, arranged on the mobile support 9, suitable for supporting the piece to be wound 2; and the positioning driving assembly is connected with the movable support 9 and drives the movable support 9 to move to a set position. The positioning driving assembly comprises a lifting cylinder and a moving cylinder which respectively drive the moving support to move up and down along the Z axis and move back and forth along the Y axis.

The utility model discloses a working principle around band mechanism as follows:

storing the belt:

the free end of the insulating tape 10 on the insulating tape disk 5 is manually fixedly arranged in the tape storage groove 11 of the tape storage ring 1, the tape storage motor 61 starts to work, the tape storage ring 1 is driven to rotate through the second driving belt 62 and the upper tape driving wheel 6, so that tape storage is carried out, and the tape storage motor stops working after tape storage is completed.

Wrapping:

the free end of the insulating tape 10 on the tape storage ring 1 is manually wound to the outside of the tape storage ring 1 from the tape storage ring 1 along the tape guide part 32, then wound to the winding part 2 to be wound for one to two turns, the tape motor 43 works, the tape guide part 3 is driven to rotate through the first transmission tape 41 and the tape winding ring 42, the tape winding part 31 arranged on the tape guide part 3 drives the insulating tape 10 to be wound on the winding part 2, and the power mechanism drives the mounting bracket 71 to move in the same direction while the tape motor 43 works, so that the tape winding mechanism is driven to move to the other end from one end of the winding part 2 to be wound, and the tape winding action is completed.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims

1. A tape winding mechanism is characterized in that: the method comprises the following steps:

the winding device comprises a storage belt ring (1), an insulation belt (10) wound on the storage belt ring (1) and capable of rotating around the center of the storage belt ring, and a to-be-wound part (2) penetrates through a central hole of the storage belt ring (1);

the tape guide (3) is arranged side by side with the tape storage ring (1) and can rotate around the to-be-wound part (2), the tape guide (3) is provided with a tape wrapping part (31) which is arranged on one side of the axial direction of the tape storage ring (1) and is suitable for driving the insulation tape (10) to wind around the to-be-wound part (2), and a tape guide part (32) extending above the insulation tape (10), and the free end of the insulation tape (10) is wound from the tape storage ring (1) to the outside of the tape storage ring (1) along the tape guide part (32);

and the tape wrapping driving mechanism is connected with the tape guide (3) and drives the tape guide (3) to rotate.

2. The tape winding mechanism of claim 1, wherein: the guide belt part (32) is a plurality of guide belt shafts which are uniformly distributed on the guide belt part (3).

3. The tape winding mechanism of claim 2, wherein: the wrapping part (31) is a roller which is rotatably arranged on the belt guide part (3).

4. The tape winding mechanism of claim 3, wherein: the belting driving mechanism comprises:

the belting ring (42) is rotatably arranged on the belting bracket (4), and the guiding belt piece (3) is fixedly arranged on the belting ring (42);

a first transmission belt (41) which is pressed on the outer wall of the strap ring (42);

the wrapping tape motor (43) is mounted on the wrapping tape support (4) and connected with the first transmission belt (41), and the wrapping tape motor (43) drives the wrapping tape ring (42) to rotate around the center of the wrapping tape ring through the first transmission belt (41).

5. The tape winding mechanism of claim 4, wherein: the first transmission belt (41) is wound to be triangular, and one side of the triangle is in compression joint with the outer wall of the strap ring (42).

6. The tape winding mechanism of claim 4, wherein: still be provided with on band support (4) and be suitable for store up band ring (1) storage band mechanism that send the area, store up band mechanism and include:

the insulating tape reel (5) is arranged on the tape carrier (4), and the free end of the insulating tape (10) arranged on the insulating tape reel (5) is fixedly arranged in the tape storage groove (11) of the tape storage ring (1);

the storage belt driving structure drives the storage belt ring (1) to rotate, so that the insulating belt (10) on the insulating belt disk (5) is wound on the storage belt ring (1) and is arranged in the storage belt groove (11).

7. The tape winding mechanism of claim 6, wherein: the storage belt ring (1) is provided with a notch for inserting the winding piece (2), the notch is detachably provided with an arc-shaped installation part (12), and the arc-shaped installation part (12) is sealed when the storage belt or the belt is in a belt state.

8. The tape winding mechanism of claim 7, wherein: the tape storage drive structure comprises:

one end of the upper belt driving wheel (6) is attached to and abutted against the inner wall of the belt storage ring (1);

the belt storage motor (61) is provided with a power output shaft, the power output shaft is connected with the other end of the upper belt driving wheel (6) through a second driving belt (62), and the belt storage motor (61) drives the upper belt driving wheel (6) to drive the belt storage ring (1) to rotate.

9. The tape winding mechanism of claim 8, wherein: still include when the band control the damping mechanism of insulating band (10) elasticity state, damping mechanism includes:

a tension control belt (63) connected to the power output shaft;

and the tension control cylinder (64) is connected with the tension control belt (63), and the tension control cylinder (64) controls the rotating speed of the power output shaft by controlling the tightness state of the tension control belt (63).

10. A belting device is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the tape winding mechanism of any one of claims 4-9;

the mounting support (71) is movably mounted on the base (7) along the X-axis direction, and the wrapping tape support (4) is arranged on the mounting support (71) and can move along the Z-axis direction.

11. Taping device according to claim 10, wherein: a deflection mechanism is arranged between the wrapping tape support (4) and the mounting support (71), and comprises:

the deflection connecting piece (44) is fixedly connected with the belting bracket (4);

the deflection motor (45) is connected with the deflection connecting piece (44), and the deflection motor (45) drives the wrapping tape support (4) to rotate through the deflection connecting piece (44).

12. Taping device according to claim 11, wherein: be provided with on base (7) fixedly treat the installation mechanism of winding piece (2), installation mechanism includes:

the two fixing supports (8) are respectively arranged at two ends of the to-be-wound piece (2) in the length direction, are suitable for fixing two ends of the to-be-wound piece (2), and enable the to-be-wound piece (2) to be away from the base (7) by a certain height;

the supporting cylinders (81) are mounted on the base (7) and are arranged at intervals along the length direction of the to-be-wound piece (2), and the supporting cylinders (81) are suitable for supporting the to-be-wound piece (2).

13. Taping device according to claim 12, wherein: still including setting up in positioning mechanism on installing support (71), positioning mechanism includes:

the two positioning wheels (91) are oppositely arranged on the movable support (9), and the two positioning wheels (91) are driven by a positioning cylinder (92) to clamp the to-be-wound piece (2);

a support wheel (93) arranged on the mobile support (9) and suitable for supporting the piece (2) to be wound;

and the positioning driving assembly is connected with the movable support (9) and drives the movable support (9) to move to a set position.