CN116177276B

CN116177276B - Winding and unwinding device for lithium copper composite belt

Info

Publication number: CN116177276B
Application number: CN202310466084.7A
Authority: CN
Inventors: 李曾谋; 周会平
Original assignee: Kunming Tianmou Science & Technology Co ltd
Current assignee: Kunming Tianmou Science & Technology Co ltd
Priority date: 2023-04-27
Filing date: 2023-04-27
Publication date: 2023-07-07
Anticipated expiration: 2043-04-27
Also published as: CN116177276A

Abstract

The invention belongs to the technical field of winding and unwinding devices, and particularly relates to a winding and unwinding device for a lithium-copper composite belt, which is used for relieving the problem that a torsion force is easily broken due to a rolling way of a rotary column in the prior art. The device comprises an introduction shell, wherein the interior of the introduction shell is fixedly connected with parallel clamping plates, and a conveying channel is formed between the two parallel clamping plates; the outlet end fixedly connected with side position frame shell of parallel splint, side position frame shell with the conveying passageway butt joint, the inner chamber of side position frame shell peg graft has winding mechanism. The device accomplishes rolling work through winding mechanism to copper lithium area, has adsorption function to copper lithium area at the during operation to make copper lithium area when the rolling, need not apply great traction force to its end and also can carry out rolling work with its adherence.

Description

Winding and unwinding device for lithium copper composite belt

Technical Field

The invention belongs to the technical field of winding and unwinding devices, and particularly relates to a winding and unwinding device for a lithium copper composite belt.

Background

The lithium metal is often used as a negative electrode of a primary or secondary lithium battery, and the lithium electrode has the advantages of strong conductivity, active electrochemical property, strong reducibility, small electrochemical equivalent, large theoretical specific capacity and the like, but also has the defects of low cycle efficiency, poor safety and the like.

Batch production's copper lithium combined material rolls with the form of strip to carry out transport, send to battery production factory and use, but copper lithium combined material own material is softer, makes the banding form after, can become more fragile, if the mode of rolling is pulled to the pillar at this moment, leads to the problem that copper lithium area was broken by torsion easily, so need improve the rolling mode.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a winding and unwinding device for a lithium-copper composite belt, which is used for relieving the problem that the copper-lithium belt is easily broken by torsion in the rotating column traction winding mode in the prior art.

The winding and unwinding device for the lithium copper composite belt comprises an introduction shell, wherein parallel clamping plates are fixedly connected inside the introduction shell, and a conveying channel is formed between the two parallel clamping plates;

the device comprises a parallel clamping plate, a conveying channel, a side frame shell, a winding mechanism, a thread rotary drum, a modified rotary rod, a butt joint part, a built-in cylinder shell, an air extraction rotor and an air extraction rotor, wherein the outlet end of the parallel clamping plate is fixedly connected with the side frame shell, the side frame shell is in butt joint with the conveying channel, the winding mechanism is inserted into an inner cavity of the side frame shell and comprises a side rotary machine, the end part of an output shaft of the side rotary machine is fixedly connected with the modified rotary rod, the butt joint part is fixedly connected with the two sides of the modified rotary rod, the surface of the butt joint part is far away from the modified rotary rod, and the built-in cylinder shell is fixedly connected with the thread rotary drum;

the inlet end of the parallel clamping plates is fixedly connected with a moving part, the moving part is positioned in the introducing shell and is provided with an introducing channel communicated with the conveying channel between the two parallel clamping plates, and the moving part is used for inputting the composite belt into the conveying channel between the two parallel clamping plates.

Further, an external rotating sleeve is rotationally connected to the outer part of the refitted rotating rod, an axle center inserting rod is fixedly connected to the external rotating sleeve, and the axis of the axle center inserting rod is perpendicular to the axis of the refitted rotating rod;

the two ends of the refitted rotating rod are inserted with solid inserting blocks, the top end of the output shaft of the side position rotating machine is fixedly connected with a connecting turntable, and the surface of the connecting turntable is fixedly connected with the inner cavity of the refitted rotating rod;

through holes are uniformly formed in the inner cavity of the refitted rotating rod, and ventilation holes are uniformly formed in the inner cavity of the connecting rotating disc.

Still further, the side frame shell is provided with middle cavity and two side cavities that are located the middle cavity both sides, and built-in shell is located the side cavity inside, and screw thread rotary drum and the air extraction rotor that connects in screw thread rotary drum are located the side cavity inside.

Further, the butt joint part comprises an adherence cylinder shell, one side of the inner cavity of the adherence cylinder shell, which is far away from the axis inserted link, is connected with a pressing push rod in a sliding manner, and the pressing push rod is abutted with the inner wall of the side cavity;

the bottom fixedly connected with of push rod seals the inner tube, the top fixedly connected with dislocation seal dish of wall cylinder shell inner chamber, the bottom of sealing the inner tube passes through built-in spring and wall cylinder shell inner chamber's bottom sliding connection.

Still further, the moving part includes the filling shell, the bottom sliding connection who fills the shell inner chamber has the guide slider, the bottom of guide slider inner chamber leads to sliding connection has the buffering briquetting, the top fixedly connected with elasticity depression bar of buffering briquetting, the top rotation of elasticity depression bar inner chamber is connected with built-in gyro wheel, the axle center department rotation of built-in gyro wheel inner chamber is connected with movable rotor.

Still further, the surface of filling the shell is with the inner chamber fixed connection of introduction shell, the quantity of filling the shell is two, the one side that the buffering briquetting surface was kept away from the elastic compression pole evenly is provided with the elastic gasket, the one side that the built-in gyro wheel surface was kept away from the elastic compression pole is connected with the inner chamber roll of filling the shell, movable rotor's surface and the inner chamber sliding connection of filling the shell.

Still further, the both ends of introduction shell all fixedly connected with moment of torsion bull stick, moment of torsion bull stick's surface rotation is connected with the arc clamp plate, the one side roll connection that the inner chamber of arc clamp plate is close to the side position frame shell has the buffering roller, the surface roll connection of buffering roller and side position frame shell.

Further, the parallel clamping plate is provided with an online dust removing mechanism, the online dust removing mechanism comprises a composite rotating wheel arranged on the switching cutting groove, an external driving wheel arranged on two sides of the parallel clamping plate, a lateral driving belt wound on the external driving wheel, and an independent rotor arranged in the lateral driving belt, wherein the independent rotor is used for driving the composite rotating wheel to rotate;

the compound rotating wheel comprises a grooving roller, and the grooving roller is connected with and driven by the independent rotor; symmetrical rotating shells are fixedly connected to two lateral sides of the shaft rod protruding out of the grooving roller, and a plurality of air outlet holes are formed in the upper surface and the lower surface of each symmetrical rotating shell; the side part of the symmetrical rotating shell is inserted with a built-in sliding plate, the outer surface of the built-in sliding plate is connected with a plurality of fixed push rods which are arranged around the inner wall of the switching cutting groove in a sliding manner, and the inner side of the built-in sliding plate is fixedly connected with a shaft rod of the cutting groove roller through a spring belt; the grooving roller rotates to drive the built-in slide plate to rotate, the built-in slide plate retracts inwards under the propping action of the fixed push rod and is driven to extend by the spring belt after the propping action of the fixed push rod is lost, and the stretching action of the built-in slide plate enables the air pressure in the symmetrical rotating shell to change so as to spray air.

Furthermore, a regulating pull rod is fixedly connected to one side, far away from the side frame shell, of the inner cavity of the parallel clamping plate, and the regulating pull rod is connected with the inner wall of the introduction shell.

The beneficial effects of the invention are as follows:

1. the device is through parallel splint guide copper lithium area motion to the device inside, then accomplish rolling work through winding mechanism to it, and if adopt the mode of rolling is pulled to the revolving post, lead to copper lithium area by torsion broken problem easily, so the device repacking the repacking bull stick of rolling usefulness, make repacking bull stick have adsorption function to copper lithium area at the during operation to transport the inside of device under the rotation effect of compound runner, thereby make copper lithium area when the rolling, need not apply great traction force to its end and also can carry out rolling work with its adherence.

2. The side position frame shell of the device is internally provided with a plurality of groups of winding mechanisms, after each group of winding mechanisms is completed, the side plates can be pulled out from the inner cavity of the side position frame shell, the refitted rotating rods are uniformly replaced, mechanical components are not arranged in the refitted rotating rods of the device, the extraction components are positioned in the inner cavity of the side position frame shell, the side position frame shell can be produced in a large scale, and the side position frame shell can be stacked together after being wound, so that the production cost is reduced.

3. The repacking bull stick of the device is when installing the inside side position frame shell, need align the socket that axle center inserted bar corresponds with the side position frame shell, otherwise it is likely to appear the gas leakage problem, the dynamics of breathing in of repacking bull stick will be less when serious, and then lead to copper lithium area unable laminating at the surface of repacking bull stick, the device passes through the interfacing part, adjusts the position that axle center inserted bar corresponds the socket with the side position frame shell, it is fixed with every repacking bull stick to utilize the push rod, then the adherence wall shell of this moment can carry out gas transportation, open the opening of every repacking bull stick, thereby avoid repacking bull stick to the problem that the interface advances dirt to block up.

4. The device can carry out the skew action through the copper lithium area of moving part to the rolling to make copper lithium area can spiral rolling at the surface of repacking bull stick, and in order to prevent that the buffer briquetting of both sides from excessively extruding the copper lithium area, lead to copper lithium area to take place deformation problem, the buffer briquetting of both sides can carry out self-adaptation through the elasticity depression bar and adjust, thereby avoid appearing above-mentioned problem.

5. When the copper lithium belt entering the device is rolled, dust can be adhered to the outer surface, if the device is directly rolled, hard particles can dent the surface of the copper lithium belt due to extrusion, and in the process of conveying the copper lithium belt by rolling the grooving roller, the nozzle right facing the copper lithium belt can continuously rotate to adjust the direction, so that gas in the inner cavity of the symmetrical rotating shell is sprayed out through holes at two sides, the comprehensive cleaning work of the outer surface of the symmetrical rotating shell is completed, and the problems are avoided.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of a parallel splint of the present invention;

FIG. 3 is a cross-sectional view of the winding mechanism of the present invention;

FIG. 4 is a cross-sectional view of the retrofit turning bar of the present invention;

FIG. 5 is a cross-sectional view of a docking component of the present invention;

FIG. 6 is a cross-sectional view of an introduction housing of the present invention;

FIG. 7 is a cross-sectional view of a moving part of the present invention;

figure 8 is a cross-sectional view of a composite rotor of the present invention.

In the figure: 1. introducing a shell; 11. a torque rotating rod; 12. an arc-shaped pressing plate; 13. a buffer roller shaft; 2. a moving member; 21. filling the shell; 22. a guide slider; 23. buffering and briquetting; 24. an elastic compression bar; 25. a roller is arranged in the inner part; 26. a movable rotor; 3. a parallel splint; 31. regulating and controlling a pull rod; 32. an external driving wheel; 33. a side drive belt; 34. an independent rotor; 4. a composite rotating wheel; 41. grooving rollers; 42. fixing the push rod; 43. symmetrically rotating the shell; 44. a spring strap; 45. a sliding plate is arranged in the inner part; 5. a side frame shell; 51. a side plate; 6. a winding mechanism; 61. a side position rotating machine; 62. modifying the rotating rod; 63. a solid insert; 64. the connecting turntable; 65. an outer connecting rotating sleeve; 66. an axle center inserted link; 67. a built-in cylinder shell; 68. an air extraction rotor; 69. a threaded rotating drum; 610. bending the inserted bar; 7. a docking member; 71. attaching a cylinder shell; 72. pressing the push rod; 73. dislocation sealing disc; 74. closing the inner cylinder; 001-an intermediate chamber; 002-side chamber; 003-through holes; 004-vent holes.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

The invention provides a winding and unwinding device of a lithium copper composite belt, which comprises an introduction shell 1, wherein parallel clamping plates 3 are fixedly connected inside the introduction shell 1, and a conveying channel is formed between the two parallel clamping plates 3;

the outlet end of the parallel clamping plate 3 is fixedly connected with a side frame shell 5, the side frame shell 5 is in butt joint with a conveying channel, a winding mechanism 6 is inserted into an inner cavity of the side frame shell 5, the winding mechanism 6 comprises a side position rotating machine 61, the end part of an output shaft of the side position rotating machine 61 is fixedly connected with a modified rotating rod 62, the modified rotating rod 62 is fixedly connected with a butt joint part 7, one side of the surface of the butt joint part 7, far away from the modified rotating rod 62, is slidingly connected with a built-in cylinder shell 67, the built-in cylinder shell 67 is fixedly connected with a threaded rotating cylinder 69, and the threaded rotating cylinder 69 is fixedly connected with an air extraction rotor 68;

the inlet end of the parallel clamping plates 3 is fixedly connected with a moving part 2, the moving part 2 is positioned in the introducing shell 1 and is provided with an introducing channel communicated with the conveying channel between the two parallel clamping plates 3, and the moving part 2 is used for inputting the compound belt into the conveying channel between the two parallel clamping plates 3.

The parallel clamping plate 3 is provided with an online dust removing mechanism, the online dust removing mechanism comprises a composite rotating wheel 4 arranged on the transfer cutting groove, an external driving wheel 32 arranged on two sides of the parallel clamping plate 3, a side driving belt 33 wound on the external driving wheel 32, and an independent rotor 34 arranged in the side driving belt 33, wherein the independent rotor 34 is used for driving the composite rotating wheel 4 to rotate;

the composite wheel 4 comprises a grooving roller 41, and the grooving roller 41 is connected with the independent rotor 34 and driven by the independent rotor 34; symmetrical rotating shells 43 are fixedly connected to two lateral sides of the shaft rod protruding from the grooving roller 41, and a plurality of air outlet holes are formed in the upper surface and the lower surface of the symmetrical rotating shells 43; the side part of the symmetrical rotating shell 43 is inserted with a built-in sliding plate 45, the outer surface of the built-in sliding plate 45 is connected with a plurality of fixed push rods 42 which are arranged on the inner wall of the switching grooving in a surrounding manner, and the inner side of the built-in sliding plate 45 is fixedly connected with the shaft rod of the grooving roller 41 through a spring belt 44; the grooving roller 41 rotates to drive the built-in slide plate 45 to rotate, the built-in slide plate 45 is retracted inwards under the propping action of the fixed push rod 42 and is driven to extend by the spring belt 44 after the propping action of the fixed push rod 42 is lost, and the air pressure in the symmetrical rotating shell 43 is changed by the telescopic action of the built-in slide plate 45 so as to spray air.

In the alternative scheme of this embodiment, more preferably, still include winding mechanism 6, winding mechanism 6 peg graft in the inner chamber of side frame shell 5, this winding mechanism 6 can carry out rolling work to the lithium copper composite tape, winding mechanism 6 has side position rotating machine 61, the top fixedly connected with of side position rotating machine 61 output shaft repacks bull stick 62, the both sides of repacking bull stick 62 inner chamber all fixedly connected with docking part 7, docking part 7 surface keep away from the one side sliding connection of repacking bull stick 62 has built-in shell 67, the middle part fixedly connected screw thread rotary drum 69 of built-in shell 67 inner chamber, the middle part fixedly connected with air extraction rotor 68 of screw thread rotary drum 69 inner chamber.

Both sides of the inner cavity of the refitted rotating rod 62 are rotationally connected with an external rotating sleeve 65, both ends of the inner cavity of the refitted rotating rod 62 are spliced with solid inserting blocks 63, the top end of an output shaft of the side position rotating machine 61 is fixedly connected with a connecting rotary table 64, and the inner cavity of the external rotating sleeve 65 is fixedly connected with an axle center inserting rod 66.

The surface of the connecting rotary plate 64 is fixedly connected with the inner cavity of the refitting rotary plate 62, the refitting rotary plate 62 is provided with through holes 003, the inner cavity of the connecting rotary plate 64 is uniformly provided with vent holes 004, one end of the axle center inserted rod 66 away from the refitting rotary plate 62 is fixedly connected with the axle center of the inner cavity of the abutting part 7, and the surface of the solid inserted block 63 is rotationally connected with the inner cavity of the side frame shell 5.

Wherein, the side frame shell 5 is provided with an intermediate chamber 001 and two side chambers 002 located in both sides of the intermediate chamber, the built-in cylinder shell 67 is located in the side chamber 002, and the screw rotor 69 and the air extraction rotor 68 connected to the screw rotor 69 are located in the side chamber 002.

The built-in cylinder shell 67 is fixedly connected with the side chamber 002 of the side position frame shell 5, the surface of the air extraction rotor 68 is fixedly connected with the inner wall of the side chamber 002 of the side position frame shell 5, the two sides of the side position frame shell 5 are slidably connected with the side plates 51, and the two sides of the surface of the side position rotator 61 are spliced with the two sides of the surface of the side position frame shell 5 through the bending inserted rods 610. The side plate 51 is laterally removed and the side rotator 61 can be removed.

The butt joint part 7 comprises an adherence cylinder shell 71, one side, far away from the axis inserting rod 66, of the inner cavity of the adherence cylinder shell 71 is slidably connected with a pressing push rod 72, the bottom end of the pressing push rod 72 is fixedly connected with a closed inner cylinder 74, the top of the inner cavity of the adherence cylinder shell 71 is fixedly connected with a dislocation sealing disc 73, and the bottom end of the closed inner cylinder 74 is slidably connected with the bottom of the inner cavity of the adherence cylinder shell 71 through an internal spring.

The assembly process is as follows:

reinserting the side plate 51 into the side frame housing 5, connecting the solid insert 63 connected to the side plate 51, the refitting rotary rod 62, the external rotary sleeve 65 sleeved on the refitting rotary rod 62, the axle center insert 66 spliced on the external rotary sleeve 65, and the abutting part 7 connected to the axle center insert 66 all move along with the side plate 51, when the pressing push rod 72 moving to the abutting part 7 abuts against the built-in cylinder housing 67 positioned in the side cavity of the side frame housing 5, the pressing push rod 72 is opened under the extrusion action of the built-in cylinder housing 67, so that the air suction channel is opened.

Regarding the moving member 2:

the moving part 2 comprises a filling shell 21, the bottom of the inner cavity of the filling shell 21 is slidably connected with a guide slide block 22 through a sliding slot, the bottom of the inner cavity of the guide slide block 22 is slidably connected with a buffer press block 23 through a longitudinal slide rail, the top end of the buffer press block 23 is fixedly connected with an elastic press rod 24, the top of the inner cavity of the elastic press rod 24 is rotatably connected with a built-in roller 25, and the axle center of the inner cavity of the built-in roller 25 is rotatably connected with a movable rotor 26.

The surface of the filling shell 21 is fixedly connected with the inner cavity of the introduction shell 1, the number of the filling shells 21 is two, elastic gaskets are uniformly arranged on one side, far away from the elastic pressing rod 24, of the surface of the buffer pressing block 23, one side, far away from the elastic pressing rod 24, of the surface of the built-in roller 25 is in rolling connection with the inner cavity of the filling shell 21, and the surface of the movable rotor 26 is in sliding connection with the inner cavity of the filling shell 21 through a guide chute.

Before the process of the copper lithium belt moving rightwards, the upper and lower sides of the copper lithium belt are slightly clamped by the guide slide blocks 22 on the two sides, then in the process of the copper lithium belt moving rightwards, the built-in rollers 25 are controlled by the movable rotors 26 on the two sides to roll, so that the built-in rollers 25 slide along the inner cavity of the filling shell 21, the buffer press block 23 is pulled by the elastic press rod 24 to slide forwards along the inner cavity of the guide slide block 22, the copper lithium belt is gradually slid forwards by the gasket at the bottom of the buffer press block 23, and the copper lithium belt is completely wound on the surface of the modified rotary rod 62.

Both ends of the introduced shell 1 are fixedly connected with a torque rotating rod 11, the surface of the torque rotating rod 11 is rotationally connected with an arc pressing plate 12, one side, close to the side position frame shell 5, of an inner cavity of the arc pressing plate 12 is in rolling connection with a buffer roller shaft 13, and the surface of the buffer roller shaft 13 is in rolling connection with the surface of the side position frame shell 5.

In the process of using the device, the copper lithium belt is inserted into the socket at the left end of the introduction shell 1, then is inserted into the device, then the outside driving wheels 32 at two sides are started, the outside driving wheels 32 control the side driving belt 33 to rotate through the friction force of the grinding bricks, and then each independent rotor 34 is driven to rotate, at the moment, the independent rotor 34 rotates the inner composite rotating wheel 4 through the shell, and the composite rotating wheel 4 transports the copper lithium belt clamped inside from left to right through the friction force until the copper lithium belt enters the side frame shell 5.

When copper lithium belt enters the side frame shell 5, firstly, under the rotation action of the composite rotating wheel 4 and the guiding and supporting action of the winding mechanism 6 on the left side of the side frame shell 5, the winding mechanism 6 on the rightmost end starts to conduct winding work, at this time, the side position rotating machine 61 controls the solid plug 63 and the connecting rotating disc 64 to conduct rotation through the output shaft, two ends of the modified rotating rod 62 are basically broken, so when the connecting rotating disc 64 controls the modified rotating rod 62 to rotate, the external rotating sleeve 65 and the modified rotating rod 62 can conduct relative rotation, the external rotating sleeve 65 integrally keeps a static state, at this time, the air suction rotors 68 on the upper side and the lower side of the side frame shell 5 start to work, through the rotating joints on the two sides, the air suction rotors control the threaded rods inside the threaded rotating cylinders 69 on the two sides, and when the threaded rods rotate, air in the inner cavity of the modified rotating rod 62 is pumped out through the shaft center plug 66 and the butt joint part 7 through the built-in cylinder shell 67, and then the modified rotating rod 62 is endowed with a certain action, then the copper lithium belt can be attached to the outer surface of the modified rotating rod 62 due to adsorption force, and wound on the outer surface of the modified rotating rod 62 along with the rotation of the modified rotating rod 62.

After the copper lithium belt is wound on the outer surface of the rightmost modified rotating rod 62, a new copper lithium belt is needed to be inserted again, then the copper lithium belt is wound on the outer surface of the modified rotating rod 62 adjacent to the modified rotating rod, then the winding mechanism 6 is sequentially wound from right to left, after the winding is completed, the modified rotating rod 62 is needed to be taken down, at the moment, the side plates 51 on two sides slide rightwards along the inner cavity of the side frame shell 5, then the bundled winding mechanism 6 is taken down, and then the modified rotating rod 62 is taken down, and the new modified rotating rod 62 is replaced.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims

1. The utility model provides a roll up and unreel device of lithium copper composite tape which characterized in that: the device comprises an introduction shell (1), wherein parallel clamping plates (3) are fixedly connected inside the introduction shell (1), and a conveying channel is formed between the two parallel clamping plates (3);

the device is characterized in that the outlet end of the parallel clamping plate (3) is fixedly connected with a side position frame shell (5), the side position frame shell (5) is in butt joint with the conveying channel, a winding mechanism (6) is inserted into an inner cavity of the side position frame shell (5), the winding mechanism (6) comprises a side position rotating machine (61), the end part of an output shaft of the side position rotating machine (61) is fixedly connected with a modified rotating rod (62), two sides of the modified rotating rod (62) are fixedly connected with a butt joint part (7), one side, far away from the modified rotating rod (62), of the surface of the butt joint part (7) is slidably connected with a built-in cylinder shell (67), the built-in cylinder shell (67) is fixedly connected with a threaded rotating cylinder (69), and the threaded rotating cylinder (69) is fixedly connected with an air extraction rotor (68);

the inlet end of the parallel clamping plates (3) is fixedly connected with a moving part (2), and the moving part (2) is positioned in the introducing shell (1) and is provided with an introducing channel communicated with a conveying channel between the two parallel clamping plates (3), wherein the moving part (2) is used for inputting a composite belt into the conveying channel between the two parallel clamping plates (3);

the external rotating sleeve (65) is connected to the exterior of the refitted rotating rod (62) in a rotating way, the external rotating sleeve (65) is fixedly connected with the axle center inserting rod (66), and the axis of the axle center inserting rod (66) is perpendicular to the axis of the refitted rotating rod (62);

the two ends of the refitting rotary rod (62) are inserted with solid inserting blocks (63), the top end of the output shaft of the lateral position rotating machine (61) is fixedly connected with a connecting rotary table (64), and the surface of the connecting rotary table (64) is fixedly connected with the inner cavity of the refitting rotary rod (62);

through holes (003) are uniformly formed in the inner cavity of the refitted rotating rod (62), and vent holes (004) are uniformly formed in the inner cavity of the connecting rotating disc (64);

the online dust removing mechanism is arranged on the parallel clamping plate (3) and comprises a composite rotating wheel (4) arranged on the switching cutting groove, an external driving wheel (32) arranged on two sides of the parallel clamping plate (3), a lateral driving belt (33) wound on the external driving wheel (32) and an independent rotor (34) arranged in the lateral driving belt (33), wherein the independent rotor (34) is used for driving the composite rotating wheel (4) to rotate;

the composite rotating wheel (4) comprises a grooving roller (41), and the grooving roller (41) is connected with the independent rotor (34) and driven by the independent rotor (34); symmetrical rotating shells (43) are fixedly connected to two lateral sides of the shaft rod protruding out of the grooving roller (41), and a plurality of air outlet holes are formed in the upper surface and the lower surface of the symmetrical rotating shells (43); the side part of the symmetrical rotating shell (43) is inserted with a built-in sliding plate (45), the outer surface of the built-in sliding plate (45) is connected with a plurality of fixed push rods (42) which are arranged on the inner wall of the switching cutting groove in a surrounding mode, and the inner side of the built-in sliding plate (45) is fixedly connected with a shaft rod of the cutting groove roller (41) through a spring belt (44); the grooving roller (41) rotates to drive the built-in sliding plate (45) to rotate, the built-in sliding plate (45) retracts inwards under the propping action of the fixed push rod (42) and is driven to extend by the spring belt (44) after the propping action of the fixed push rod (42) is lost, and the stretching action of the built-in sliding plate (45) enables the air pressure in the symmetrical rotating shell (43) to change so as to spray air.

2. The winding and unwinding device for lithium copper composite tape according to claim 1, wherein:

the side frame shell (5) is provided with a middle chamber (001) and two side chambers (002) positioned on two sides of the middle chamber (001), the built-in cylinder shell (67) is positioned inside the side chambers (002), and the threaded rotary cylinder (69) and the air extraction rotor (68) connected to the threaded rotary cylinder (69) are positioned inside the side chambers (002).

3. The winding and unwinding device for lithium copper composite tape according to claim 2, wherein: the butt joint part (7) comprises an adherence cylinder shell (71), one side, far away from the axis inserted rod (66), of the inner cavity of the adherence cylinder shell (71) is connected with a pressing push rod (72) in a sliding mode, and the pressing push rod (72) is abutted to the inner wall of the side cavity (002);

the bottom end of the push rod (72) is fixedly connected with a closed inner cylinder (74), the top of the inner cavity of the wall-attached cylinder shell (71) is fixedly connected with a dislocation sealing disc (73), and the bottom end of the closed inner cylinder (74) is in sliding connection with the bottom of the inner cavity of the wall-attached cylinder shell (71) through an internal spring.

4. A lithium copper composite tape winding and unwinding device according to claim 3, characterized in that: the movable part (2) comprises a filling shell (21), a guide sliding block (22) is slidably connected to the bottom of an inner cavity of the filling shell (21), a buffer pressing block (23) is slidably connected to the bottom of the inner cavity of the guide sliding block (22), an elastic pressing rod (24) is fixedly connected to the top of the buffer pressing block (23), an inner roller (25) is rotatably connected to the top of the inner cavity of the elastic pressing rod (24), and a movable rotor (26) is rotatably connected to the axis of the inner cavity of the inner roller (25).

5. The winding and unwinding device for lithium copper composite tape according to claim 4, wherein: the surface of filling shell (21) and the inner chamber fixed connection of introducing shell (1), the quantity of filling shell (21) is two, one side that elastic depression bar (24) was kept away from on buffering briquetting (23) surface evenly is provided with the elastic gasket, one side that elastic depression bar (24) was kept away from on built-in gyro wheel (25) surface and the inner chamber roll connection of filling shell (21), the surface and the inner chamber sliding connection of filling shell (21) of movable rotor (26).

6. The winding and unwinding device for lithium copper composite tape according to claim 5, wherein: both ends of introduction shell (1) are all fixedly connected with moment of torsion bull stick (11), the surface rotation of moment of torsion bull stick (11) is connected with arc clamp plate (12), one side roll connection that is close to side position frame shell (5) in arc clamp plate (12) inner chamber has buffering roller (13), the surface of buffering roller (13) is connected with the surface roll of side position frame shell (5).

7. The winding and unwinding device for lithium copper composite tape according to claim 6, wherein:

one side of the inner cavity of the parallel clamping plate (3) far away from the side frame shell (5) is fixedly connected with a regulating pull rod (31), and the regulating pull rod (31) is connected with the inner wall of the introduction shell (1).