CN116197452B

CN116197452B - Lithium belt calendaring and shearing mechanism

Info

Publication number: CN116197452B
Application number: CN202310474252.7A
Authority: CN
Inventors: 李曾谋; 姚耀春; 周会平; 蒋金余; 李增瑶
Original assignee: Kunming Tianmou Science & Technology Co ltd
Current assignee: Kunming Tianmou Science & Technology Co ltd
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-07-07
Anticipated expiration: 2043-04-28
Also published as: CN116197452A

Abstract

The invention belongs to the technical field of metal shearing devices, in particular to a lithium belt rolling shearing mechanism, which comprises a processing table, wherein guide baffles are fixedly connected to two sides of the top of the surface of the processing table, a side push plate is slidably connected to an inner cavity of the guide baffles, a threaded push rod is rotatably connected to the axis of the inner cavity of the side push plate, and a control rotating machine is fixedly connected to one end of the threaded push rod away from the side push plate. The device can cut the copper lithium composite strip by sections, then wind up again, because directly cut the copper lithium composite strip, its cutting cross section will expose in the outside to direct and air contact, and still need carry out follow-up film supplementing work, thereby increase the technological process, the device cuts the copper lithium composite strip, because the tectorial membrane has reserved one section length in advance because the decline of cutting board, so can also cover the cutting face of copper lithium composite strip left end, so can not appear above-mentioned problem, also need not carry out follow-up film supplementing work.

Description

Lithium belt calendaring and shearing mechanism

Technical Field

The invention belongs to the technical field of metal shearing devices, and particularly relates to a lithium belt calendaring shearing mechanism.

Background

At present, the domestic and foreign lithium battery industry has good development prospect, and the lithium ion battery has been widely applied to portable electrical appliances such as portable computers, cameras and mobile communication by the characteristic performance advantage. The large-capacity lithium ion battery developed at present is tried in electric automobiles, is expected to become one of main power supplies of the electric automobiles in the 21 st century, and is applied to artificial satellites, aerospace and energy storage. With the shortage of energy and the environmental protection pressure of the world, the lithium battery is widely applied to the electric vehicle industry, particularly the development and application of the lithium battery industry are promoted by the appearance of high-energy density material batteries.

After the copper-lithium composite belt is pressed (rolled), the strip belt needs to be sheared so as to be directly installed at the two pole parts of the battery, winding and carrying work is omitted, a layer of coating film is wrapped on the outer surface of the rolled copper-lithium composite belt, if the copper-lithium composite belt is directly cut, the cut cross section is exposed outside so as to be in direct contact with air, and subsequent film supplementing work is needed, so that the process flow is increased, and improvement is needed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the lithium belt calendaring and shearing mechanism comprises a processing table, wherein a guide baffle is fixedly connected to the top of the surface of the processing table, and a conveying channel of a lithium belt is arranged between the two guide baffles; the inner chamber sliding connection of guide baffle has the side push pedal, the side push pedal rotates and is connected with the screw thread push rod, and the one end fixedly connected with control rotation machine of side push pedal is kept away from to the screw thread push rod, includes:

the cutting component is positioned at the front end of the conveying channel and comprises a top cylinder shell, a film coating coiled material is accommodated in an inner cavity of the top cylinder shell, and a film coating outlet is formed in one side, close to the upstream, of the top cylinder shell; a cutting plate is fixedly connected below the top cylinder shell, one side, close to the downstream, of the cutting plate is connected with a guide sliding rail in a sliding manner, and one side, close to the tectorial membrane, of an inner cavity of the guide sliding rail is connected with a traction pull rod in a sliding manner;

the film pasting component is arranged below the shearing component, the film pasting component downwards extends to the film pasting component through the film pasting outlet, a suction hole is formed in one side, which is attached to the film pasting component, of the film pasting component, and after the end part of the lithium belt abuts against the film pasting component, the part, close to the film pasting component, of the film pasting component is driven to swing outwards;

the winding component can wind the cut lithium strip on the surface of the roller, and the surface of the winding component is in sliding connection with one end of the side push plate, which is far away from the shearing component;

an auxiliary member capable of helping the end of the lithium strip to be attached to the surface of the winding member;

and the air blowing module can enable the lithium strip to cling to the surface of the processing table and slide from left to right.

Still further, the method further comprises the steps of,

the film pasting component comprises a hollow rotating rod, the hollow rotating rod is fixedly connected with a hollow baffle, an air suction hole is formed in the side wall, close to the upstream, of the hollow baffle, and the air suction hole is connected with the hollow rotating rod through a side hole through pipe.

Still further, the method further comprises the steps of,

the device also comprises a traction connecting plate, wherein the traction connecting plate is connected with the hollow rotating rod, and the surface of one side of the hollow baffle close to the tectorial membrane is fixedly connected with the surface of the traction connecting plate through an arc spring belt; the two sides of the surface of the traction connecting plate are rotationally connected with friction rotating columns, and the friction rotating columns drive the traction connecting plate to move forwards or backwards.

Still further, the method further comprises the steps of,

the bottom of guide slide rail and the fixed surface connection of processing platform, the bottom and the guide slide rail sliding connection of traction pull rod.

Still further, the method further comprises the steps of,

the winding part comprises traction sliding blocks, a winding drum is connected between the traction sliding blocks, one end of the traction sliding block, which is far away from the winding drum, is slidably connected with an adjusting sliding block, the top of the adjusting sliding block is fixedly connected with a pressure rod, the top of the pressure rod is fixedly connected with a pressed disc, the surface of the pressed disc is fixedly connected with an internal push rod, and the internal push rod is fixedly connected with the top of the adjusting sliding block.

Still further, the method further comprises the steps of,

the auxiliary component comprises an embedded rotating plate, a rotating rod arranged at one end of the embedded rotating plate and a pressing meter positioned below the embedded rotating plate; one end of the embedded rotating plate, which is far away from the rotating rod, extends to the lower part of the winding drum;

the rotating rod rotates to drive one end, close to the winding drum, of the embedded rotating plate to tilt so as to compress the winding drum;

the embedded rotating plate is separated from the rotating rod to apply a pressure value to the pressing gauge, and the pressing gauge detects the pressure value and judges whether the embedded rotating plate is reset or not.

Still further, the method further comprises the steps of,

the air blowing module comprises a sliding air box, the sliding air box comprises a rotating motor arranged at the bottom, the top of an output shaft of the rotating motor is fixedly connected with a threaded rotating rod, the surface of the threaded rotating rod is rotationally connected with a three-way pipe, and the three-way pipe comprises a top nozzle with an upward output direction and two side nozzles with the output direction facing to two sides; an L-shaped shell is sleeved outside the three-way pipe, one side of the L-shaped shell is provided with a plurality of side butt joint holes which are butted with the side nozzles, and the top of the L-shaped shell is provided with a top butt joint hole which is butted with the top nozzle image;

the sliding bellows has a first working state and a second working state;

in the first working state, the L-shaped shell is opposite to the three-way pipe, at the moment, the top nozzle of the three-way pipe is in butt joint with the top butt joint hole of the L-shaped shell, the side nozzle of the three-way pipe is in butt joint with the side butt joint hole of the L-shaped shell, at the moment, the rotating motor is started, air is extracted from the top nozzle, and air is discharged from the side nozzle; the copper-lithium composite belt is attached to the surface of the processing table under the action of negative pressure, so that curling and tilting of copper-lithium composite during movement are avoided.

Under the second operating condition, the three-way pipe is shifted, the top nozzle is blocked due to the deviation from the air nozzle of the processing table, and air can be sprayed out only through two sides, so that the lower part of the processing table can be cleaned.

Still further, the method further comprises the steps of,

the blower module comprises a power component, wherein the power component comprises a traction plate positioned at the bottom and traction ropes positioned at two sides of the traction plate, the traction ropes used for pulling the L-shaped shell are positioned at one side of the L-shaped shell, and the traction ropes used for pulling the three-way pipe are positioned at the other side of the L-shaped shell.

Still further, the method further comprises the steps of,

the traction rope is sleeved with a sleeve spring, and the tail end of the sleeve spring is provided with a side opening stop block to limit the sleeve spring.

Still further, the method further comprises the steps of,

tension springs are also arranged on two sides of the inner cavity of the L-shaped shell.

The beneficial effects of the invention are as follows:

1. the device can cut the copper lithium composite strip by sections, then wind up again, because directly cut the copper lithium composite strip, its cutting cross section will expose in the outside to direct and air contact, and still need carry out follow-up film supplementing work, thereby increase the technological process, the device cuts the copper lithium composite strip, because the tectorial membrane has reserved one section length in advance because the decline of cutting board, so can also cover the cutting face of copper lithium composite strip left end, so can not appear above-mentioned problem, also need not carry out follow-up film supplementing work.

2. When the right end of the copper-lithium composite belt just begins to contact with the bottom end of the coating film, the coating film is easy to push away due to the fact that the thrust of the copper-lithium composite belt is large, and then the coating film is difficult to cover the surface of the copper-lithium composite belt.

3. The copper lithium composite belt wound by the winding reel is gradually increased, the thickness of the winding reel is also gradually increased, the copper lithium composite belt on the outer surface can be continuously extruded with the upper surface of the processing table, and further the problem of abrasion of the coating film on the outer surface is caused, the winding reel can be matched with the increase of the thickness of the winding reel to be increased under the action of the traction part, the copper lithium composite belt is ensured to be relatively parallel, and meanwhile the problem of abrasion between the coating film on the outer surface of the copper lithium composite belt and the upper surface of the processing table is avoided.

4. The device is through the mode of rotating embedded commentaries on classics board, lifts copper lithium composite tape on one side, extrudees copper lithium composite tape to the surface of winding reel through the top on one side, and then makes copper lithium composite tape can wind on the surface of winding reel, and in order to avoid the embedded commentaries on classics board to not put down and lead to copper lithium composite tape to be obstructed problem, the manometer can play the effect of buffering and proofreading embedded commentaries on classics board to guarantee that embedded commentaries on classics board can lay down.

5. The device can make the lower surface of copper lithium composite tape laminate the upper surface of processing platform relatively through the slip bellows at middle part, avoids copper lithium composite tape to appear the phenomenon of turn-up perk when the motion, and single copper lithium composite tape is after the coiling, and the slip bellows that pulls open can clear up the middle part region of processing platform through the three-way pipe spout of both sides, guarantees the smoothness of slide rail, reduces the wearing and tearing that produce when copper lithium composite tape moves.

Drawings

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

FIG. 2 is a cross-sectional view of a shear member of the present invention;

FIG. 3 is a cross-sectional view of a patch member of the present invention;

FIG. 4 is a schematic view of the structure of the winding member of the present invention;

FIG. 5 is a schematic view of the structure of the auxiliary component of the present invention;

FIG. 6 is a cross-sectional view of a blower module of the present invention;

FIG. 7 is a cross-sectional view of a sliding bellows of the present invention.

In the figure: 1. a processing table; 11. a guide baffle; 12. a side push plate; 13. controlling a rotating machine; 2. a shearing member; 21. a top cartridge; 22. coating a film; 23. a traction pull rod; 24. guiding the sliding rail; 25. cutting the plate; 5. a film pasting component; 51. attaching the inner shell; 52. traction connecting plate; 53. a hollow rotating rod; 54. a drainage tube; 55. a hollow baffle; 56. a side hole through pipe; 7. a winding part; 71. a traction section; 72. winding a winding drum; 73. adjusting the sliding block; 74. a pressure rod; 75. a pressure plate; 76. a push rod is arranged in the inner part; 4. an auxiliary member; 41. a side motor; 42. positioning a rotating rod; 43. a built-in rotating plate; 44. a push gauge; 3. a blower module; 31. a bottom traction plate; 32. a side opening stop block; 33. pulling a pull rope; 34. sleeving a spring; 6. a sliding bellows; 61. a rotating motor; 62. a three-way pipe; 63. a threaded rotating rod; 64. tension springs.

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.

In embodiment 1, referring to fig. 1 to 3, the present invention provides a technical solution: the lithium belt calendaring and shearing mechanism comprises a processing table 1, wherein both sides of the top of the surface of the processing table 1 are fixedly connected with guide baffle plates 11, an inner cavity of each guide baffle plate 11 is slidably connected with a side push plate 12, an inner cavity of each side push plate 12 is rotatably connected with a threaded push rod, and one end of each threaded push rod, far away from each side push plate 12, is fixedly connected with a control rotating machine 13;

the cutting component 2 can cut the lithium belt between the guide baffles 11, the cutting component 2 is provided with a top cylinder shell 21, the top of the inner cavity of the top cylinder shell 21 is rotationally connected with a film 22 through a roll shaft, the bottom end of the top cylinder shell 21 is fixedly connected with a bundling plate, one side of the bottom of the bundling plate is fixedly connected with a cutting plate 25, the surface of the cutting plate 25 is slidably connected with a guide sliding rail 24, one side of the inner cavity of the guide sliding rail 24, which is close to the film 22, is slidably connected with a traction pull rod 23, and one side of the inner cavity of the guide sliding rail 24, which is close to the cutting plate 25, is slidably connected with a film pasting component 5;

the winding component 7 can wind the cut copper-lithium composite belt on the surface of the roller, and the surface of the winding component 7 is in sliding connection with one end of the lateral push plate 12, which is far away from the shearing component 2;

the auxiliary component 4 can help the end head of the copper-lithium composite belt to be attached to the surface of the winding component 7, and the surface of the auxiliary component 4 is fixedly connected with the surface of the processing table 1;

and the blower module 3 can enable the copper-lithium composite belt to cling to the surface of the processing table 1 and slide from left to right through the blower module 3.

The film pasting component 5 comprises an inner pasting shell 51, a traction connecting plate 52 is slidably connected in the middle of the inner cavity of the inner pasting shell 51 through a penetrating cutting groove, one end of the traction connecting plate 52 is connected with a hollow rotating rod 53, one side, close to the cutting plate 25, of the inner cavity of the hollow rotating rod 53 is fixedly connected with a hollow baffle 55, one side, close to the hollow rotating rod 53, of the inner cavity of the hollow baffle 55 is uniformly provided with a side hole through pipe 56, and the bottom end of the hollow rotating rod 53 is fixedly connected with a drainage tube 54.

The number of the guide slide rails 24 is two, the bottom of the guide slide rails 24 is fixedly connected with the surface of the processing table 1, the left end of the guide baffle 11 is fixedly connected with the right end of the guide slide rails 24, a notch is formed in one side, close to the guide slide rails 24, of the inner cavity of the top cylinder shell 21, the surface of the coating film 22 is slidably connected with the notch of the top cylinder shell 21, the bottom end of the traction pull rod 23 is slidably connected with the inner cavity of the guide slide rails 24, and the top end of the traction pull rod 23 is fixedly connected with the inner cavity of the bundling plate.

The both sides on the surface of the traction link plate 52 are all rotationally connected with friction rotary columns, one-way suction openings are uniformly formed in one side, close to the tectorial membrane 22, of the surface of the hollow baffle plate 55, one side, close to the tectorial membrane 22, of the surface of the hollow baffle plate 55 is fixedly connected with the surface of the traction link plate 52 through an arc-shaped spring belt, the bottom end of the drainage tube 54 extends to the outside of the processing table 1, and an air pump is fixedly connected with the bottom end of the drainage tube 54.

Before the device is used for cutting the copper-lithium composite belt, the copper-lithium composite belt is conveyed rightward along the guide sliding rail 24 of the cutting component 2, at the moment, the right end of the copper-lithium composite belt is contacted with the bottom end of the right-side coating film 22 before passing through the bottom end of the cutting plate 25, then the coating film 22 is pushed to slide rightward and pass through the lower part of the cutting plate 25, at the moment, the coating film 22 rotates along with the movement of the copper-lithium composite belt, and then the upper surface of the copper-lithium composite belt is gradually covered.

When the copper-lithium composite belt slides along the guide baffle 11, the control rotating machines 13 on two sides push the side push plate 12 in a mode of rotating the threaded push rod, the movement track of the copper-lithium composite belt is adjusted to prevent deviation, the copper-lithium composite belt is clamped and limited, then the right end of the copper-lithium composite belt is wound inside the winding part 7, after a set length is reached, the bundling plate cuts the left end of the copper-lithium composite belt under the action of the pulling force of the pulling rod 23, and at the moment, a section of length is reserved in advance due to the fact that the covering film 22 descends due to the cutting plate 25, the cutting surface of the left end of the copper-lithium composite belt is also covered, and then the cut copper-lithium composite belt is completely wound by the winding part 7.

When the right end of the copper-lithium composite belt is contacted with the bottom end of the coating film 22 for the first time, the film pasting component 5 is required to be used for guiding and butting, at the moment, the air sucking pump at the bottom is used for sucking air from the hollow rotating rod 53 through the drainage tube 54, so that the hollow baffle plate 55 has the capability of adsorbing the side face of the coating film 22, the bottom end of the coating film 22 is further propped open through the hollow baffle plates 55 at the two sides, at the moment, the right end of the copper-lithium composite belt is attached to the bottom end of the coating film 22, the hollow baffle plates 55 are pushed open, then the hollow baffle plates 55 at the two sides pull the hollow rotating rod 53 to rotate, and then the hollow baffle plates 55 are separated from the surface of the coating film 22.

In embodiment 2, referring to fig. 1 to 7, the present invention provides a technical solution: on the basis of the first embodiment, the winding component 7 comprises a traction portion 71, the traction portion 71 is rotationally connected with a winding drum 72, one end, far away from the winding drum 72, of the traction portion 71 is slidably connected with an adjusting slide block 73, the top of the surface of the adjusting slide block 73 is fixedly connected with a pressure rod 74, the top of the pressure rod 74 is fixedly connected with a pressure disc 75, the surface of the pressure disc 75 is fixedly connected with a built-in push rod 76, and the bottom of the surface of the built-in push rod 76 is fixedly connected with the top of an inner cavity of the adjusting slide block 73.

The number of the traction parts 71 is two, one side of the surface of the adjusting slide block 73 far away from the traction parts 71 is fixedly connected with the right end of the guide baffle plate 11, the top end of the pressure rod 74 extends to the top of the inner cavity of the adjusting slide block 73, and the two ends of the winding drum 72 are both rotationally connected with the inner cavity of the traction parts 71.

The auxiliary component 4 comprises an embedded rotating plate 43, a rotating rod arranged at one end of the embedded rotating plate 43 and a pressing meter 44 positioned below the embedded rotating plate 43; the end of the embedded rotating plate 43 remote from the rotating rod extends below the winding drum 72;

the rotating rod rotates to drive one end, close to the winding drum 72, of the embedded rotating plate 43 to tilt so as to compress the winding drum 72;

the embedded rotating plate 43 is separated from the rotating rod and applies a pressure value to the pressing gauge 44, and the pressing gauge 44 detects the pressure value and judges whether the embedded rotating plate 43 is in a home position.

The air blowing module 3 comprises a sliding air box 6, the sliding air box 6 comprises a rotating motor 61 arranged at the bottom, the top of an output shaft of the rotating motor 61 is fixedly connected with a threaded rotating rod 63, the surface of the threaded rotating rod 63 is rotationally connected with a three-way pipe 62, the three-way pipe 62 comprises a top nozzle with an upward output direction, and two side nozzles with the output direction facing to two sides; the tee 62 is externally sleeved with an L-shaped shell, one side of the L-shaped shell is provided with a plurality of side butt joint holes for butt joint with side nozzles, and the top of the L-shaped shell is provided with a top butt joint hole for butt joint with a top nozzle.

The sliding bellows 6 has a first operating state and a second operating state.

In the first working state, the L-shaped shell is opposite to the three-way pipe 62, at the moment, the top nozzle of the three-way pipe 62 is in butt joint with the top butt joint hole of the L-shaped shell, the side nozzle of the three-way pipe 62 is in butt joint with the side butt joint hole of the L-shaped shell, at the moment, the rotating motor 61 is started, air is extracted from the top nozzle, and air is discharged from the side nozzle; the copper-lithium composite belt is attached to the surface of the processing table 1 under the action of negative pressure, so that curling and tilting of copper-lithium composite during movement are avoided.

In the second working state, the three-way pipe 62 is shifted, the top nozzle is blocked due to the deviation from the air nozzle of the processing table 1, and the air can be ejected only through two sides, so that the cleaning of the lower part of the processing table 1 can be realized.

In order to achieve the displacement of the L-shaped housing and the tee 62, the blower module 3 comprises a power part comprising a pulling plate at the bottom, pulling ropes 33 at both sides of the pulling plate, the pulling ropes 33 for pulling the L-shaped housing being located at one side of the L-shaped housing, the pulling ropes 33 for pulling the tee 62 being located at the other side of the L-shaped housing.

In order to realize the resetting of the L-shaped shell and the resetting of the three-way pipe 62, the pull rope 33 is sleeved with the sleeve spring 34, and the tail end of the sleeve spring 34 is provided with the side opening stop block 32 to realize the limiting of the sleeve spring 34.

In order to buffer the movement of the L-shaped shell and the paper of the tee 62, tension springs 64 are also arranged on two sides of the inner cavity of the L-shaped shell.

The right-hand member of copper lithium composite tape is after the side push pedal 12, can wind the surface at winding reel 72, and the copper lithium composite tape that winding reel 72 coiled increases gradually, and winding reel 72's thickness also increases gradually, and the traction part 71 can slide along the side of adjustment slider 73 through vertical spout this moment, then upwards promote pressure bar 74, and behind the top extrusion pressure disk 75 of pressure bar 74, pressure disk 75 is through built-in push rod 76 control adjustment slider 73 with its top rising to rise traction part 71, the top of pressure bar 74 and the lower surface of pressure disk 75 separation this moment, and then realize the height-adjusting work to traction part 71.

When the right end of the copper-lithium composite tape moves below the winding drum 72, the side motor 41 controls the positioning rotating rod 42 to rotate clockwise to tilt the embedded rotating plate 43 upwards, at this time, the embedded rotating plate 43 lifts the copper-lithium composite tape and presses the copper-lithium composite tape to the surface of the winding drum 72 through the top end, so that the copper-lithium composite tape can be wound on the surface of the winding drum 72, then the embedded rotating plate 43 is put down, and after the lower surface of the embedded rotating plate 43 contacts with the pressing gauge 44 right below, the pressing gauge 44 is pressed, and then the embedded rotating plate 43 is placed in the groove parallel to the processing table 1.

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 lithium belt rolling and shearing mechanism comprises a processing table (1), wherein a guide baffle plate (11) is fixedly connected to the top of the surface of the processing table (1), and a conveying channel of a lithium belt is arranged between the two guide baffle plates (11); the inner chamber sliding connection of guide baffle (11) has side push pedal (12), side push pedal (12) rotate and are connected with the screw thread push rod, and the one end fixedly connected with control rotation machine (13) that side push pedal (12) were kept away from to the screw thread push rod, a serial communication port, include:

the shearing component (2) is positioned at the front end of the conveying channel, the shearing component (2) comprises a top cylinder shell (21), a coating film (22) coiled material is contained in an inner cavity of the top cylinder shell (21), and a coating film (22) outlet is formed in one side, close to the upstream, of the top cylinder shell (21); a cutting plate (25) is fixedly connected below the top cylinder shell (21), a guide sliding rail (24) is connected to one side, close to the downstream, of the cutting plate (25), and a traction pull rod (23) is connected to one side, close to the tectorial membrane (22), of an inner cavity of the guide sliding rail (24) in a sliding manner;

the film pasting component (5) is arranged below the shearing component (2), the film pasting component (5) downwards extends to the film pasting component (22) through the outlet of the film pasting component (22), one side, which is attached to the film pasting component (5), of the film pasting component (22) is provided with a suction hole, and after the end part of a lithium belt abuts against the film pasting component (22), the part, close to the film pasting component (5), of the film pasting component (22) is driven to swing outwards;

the winding component (7) can wind the cut lithium strip on the surface of the roller, and the surface of the winding component (7) is in sliding connection with one end of the side push plate (12) far away from the shearing component (2);

an auxiliary component (4), wherein the auxiliary component (4) can help the end of the lithium strip to be attached to the surface of the winding component (7);

the air blowing module (3) can enable the lithium strip to cling to the surface of the processing table (1) and slide from left to right;

the film pasting component (5) comprises a hollow rotating rod (53), the hollow rotating rod (53) is fixedly connected with a hollow baffle plate (55), an air suction hole is formed in the side wall, close to the upstream, of the hollow baffle plate (55), and the air suction hole is connected with the hollow rotating rod (53) through a side hole through pipe (56);

the device also comprises a traction connecting plate (52), wherein the traction connecting plate (52) is connected with the hollow rotating rod (53), and the surface of one side of the hollow baffle (55) close to the tectorial membrane (22) is fixedly connected with the surface of the traction connecting plate (52) through an arc spring belt; friction rotating columns are rotatably connected to two sides of the surface of the traction connecting plate (52), and the friction rotating columns drive the traction connecting plate (52) to move forwards or backwards.

2. The lithium strip calendaring and shearing mechanism as in claim 1, wherein: the bottom of the guide slide rail (24) is fixedly connected with the surface of the processing table (1), and the bottom end of the traction pull rod (23) is in sliding connection with the guide slide rail (24).

3. The lithium strip calendaring and shearing mechanism as in claim 2, wherein: the winding part (7) comprises traction sliding blocks, a winding reel (72) is connected between the traction sliding blocks, one end of the traction sliding block, which is far away from the winding reel (72), is slidably connected with an adjusting sliding block (73), the top of the adjusting sliding block (73) is fixedly connected with a pressure rod (74), the top of the pressure rod (74) is fixedly connected with a pressed disc (75), the surface of the pressed disc (75) is fixedly connected with an internal push rod (76), and the internal push rod (76) is fixedly connected with the top of the adjusting sliding block (73).

4. A lithium strip calendaring and shearing mechanism as in claim 3, further characterized by: the auxiliary component (4) comprises an embedded rotating plate (43), a rotating rod arranged at one end of the embedded rotating plate (43) and a pressing gauge (44) positioned below the embedded rotating plate (43); an end of the embedded rotating plate (43) which is far away from the rotating rod extends to the lower part of the winding drum (72);

the rotating rod rotates to drive one end, close to the winding drum (72), of the embedded rotating plate (43) to tilt so as to press the winding drum (72);

the embedded rotating plate (43) is separated from the rotating rod to apply a pressure value to the pressing gauge (44), and the pressing gauge (44) detects the pressure value and judges whether the embedded rotating plate (43) is reset or not.

5. The lithium tape calendaring and shearing mechanism according to claim 4, wherein:

the air blowing module (3) comprises a sliding air box (6), the sliding air box (6) comprises a rotating motor (61) arranged at the bottom, a threaded rotating rod (63) is fixedly connected to the top of an output shaft of the rotating motor (61), a three-way pipe (62) is rotationally connected to the surface of the threaded rotating rod (63), and the three-way pipe (62) comprises a top nozzle with an upward output direction and two side nozzles with the output direction facing to two sides; an L-shaped shell is sleeved outside the three-way pipe (62), one side of the L-shaped shell is provided with a plurality of side butt joint holes which are butted with side nozzles, and the top of the L-shaped shell is provided with a top butt joint hole which is butted with a top nozzle image;

the sliding bellows (6) has a first working state and a second working state;

in the first working state, the L-shaped shell is opposite to the three-way pipe (62), at the moment, the top nozzle of the three-way pipe (62) is in butt joint with the top butt joint hole of the L-shaped shell, the side nozzle of the three-way pipe (62) is in butt joint with the side butt joint hole of the L-shaped shell, at the moment, the rotating motor (61) is started, air is pumped from the top nozzle, and air is discharged from the side nozzle; the copper-lithium composite belt is attached to the surface of the processing table (1) under the action of negative pressure, so that curling and tilting of copper-lithium composite during movement are avoided;

in the second working state, the three-way pipe (62) is shifted, the top nozzle is blocked due to the deviation from the air nozzle of the processing table (1), and air can be ejected only through two sides, so that the lower part of the processing table (1) can be cleaned.

6. The lithium tape calendaring and shearing mechanism according to claim 5, wherein: the blower module (3) comprises a power component, wherein the power component comprises a traction plate positioned at the bottom and traction ropes (33) positioned at two sides of the traction plate, the traction ropes (33) used for pulling the L-shaped shell are positioned at one side of the L-shaped shell, and the traction ropes (33) used for pulling the three-way pipe (62) are positioned at the other side of the L-shaped shell.

7. The lithium tape calendaring and shearing mechanism according to claim 6, wherein: the traction pull rope (33) is sleeved with a sleeve spring (34), and the tail end of the sleeve spring (34) is provided with a side opening stop block (32) to limit the sleeve spring (34).

8. The lithium tape calendaring and shearing mechanism according to claim 7, wherein: tension springs (64) are also arranged on two sides of the inner cavity of the L-shaped shell.