CN111824500B

CN111824500B - Device for sticking adhesive tape on side surface of battery

Info

Publication number: CN111824500B
Application number: CN202010688548.5A
Authority: CN
Inventors: 赵小军; 宾建军; 陈福; 叶凯; 罗光; 赵顺昌; 张菊花; 王军
Original assignee: Shenzhen Betterpower Battery Co ltd
Current assignee: Shenzhen Betterpower Battery Co ltd
Priority date: 2020-07-16
Filing date: 2020-07-16
Publication date: 2022-08-19
Anticipated expiration: 2040-07-16
Also published as: CN111824500A

Abstract

The invention discloses a device for sticking adhesive tapes on the side surfaces of batteries, which comprises an electric box, a battery fixing module, an adhesive feeding module, an adhesive sticking module, an adhesive pressing module and a supporting frame, wherein the adhesive feeding module, the adhesive sticking module, the adhesive pressing module and the supporting frame are positioned on the same side surface of the electric box; the transmission frame drives the adhesive tape to extend out towards the limiting rod, when the adhesive tape is contacted with the limiting rod, the sucker moves to the upper surface of the adhesive tape in the transmission frame and adsorbs the adhesive tape, meanwhile, the transmission frame retracts, and the adhesive tape is cut off by the adhesive tape cutting unit; the adhesive tape is placed on the side face of the battery by the sucking disc, the adhesive pressing unit moves downwards, and the adhesive tape is fixed on the side face of the battery through the roller; the width of the adhesive tape is larger than that of the side face of the battery, and the adhesive tape is L-shaped or U-shaped and fixed on the side face of the battery. The invention realizes the rubberizing process automatically, so that the rubberizing efficiency of the side surface of the battery is higher, the precision is higher, and the packaging cost of the battery is further reduced.

Description

Device for sticking adhesive tape on side surface of battery

Technical Field

The invention relates to the field of battery packaging, in particular to a device for pasting an adhesive tape on the side surface of a battery.

Background

Lithium cell surface rubberizing is the important process in the lithium cell production process, and lithium cell rubberizing includes top surface rubberizing, two-sided rubberizing, side rubberizing etc. and the top surface rubberizing, two-sided rubberizing is convenient relatively, all adopts automated operation at present, and the side rubberizing then is difficult to realize automated operation, this is because the side of lithium cell is thinner, and it is thinner than the sticky tape width usually, leads to the accuracy of side rubberizing to be difficult to control.

Among the automatic lithium cell rubberizing equipment of current, material loading manipulator or unloading manipulator generally adopt sucking disc subassembly to absorb electric core, but at the side rubberizing in-process, if adopt material loading manipulator or unloading manipulator to absorb electric core positive and negative operation, can not accomplish the process of side rubberizing yet, because absorb electric core face and rubberizing side and form 90 degrees angles, two faces produce and interfere, lead to can not paste the side and glue, how to realize that battery side rubberizing is the important content of perfecting battery packaging process.

Most of the existing procedures related to side rubberizing adopt manual operation, so that the efficiency of the battery packaging process is extremely low; the manual rubberizing is not accurate enough, is easy to be partially rubberized, has high reject ratio of 2 to 3 percent, and causes the waste of raw materials; before manual rubberizing, the adhesive tape needs to be cut by a mold, so that the purchase cost and the labor cost are increased;

disclosure of Invention

In view of the shortcomings of the prior art, the present invention is directed to a battery side taping device.

In order to achieve the purpose, the invention adopts the following technical scheme: a device for pasting adhesive tape on the side surface of a battery comprises an electric box, a battery fixing module, an adhesive feeding module, an adhesive pasting module, an adhesive pressing module and a supporting frame, wherein the adhesive feeding module, the adhesive pasting module, the adhesive pressing module and the supporting frame are positioned on the same side surface of the electric box; the glue feeding module comprises a transmission frame and a transmission shaft I fixed on the surface of the front end of the transmission frame, the transmission frame is movably connected to the side surface of the electric box, and the transmission frame can move along the horizontal direction parallel to the side surface of the electric box;

the adhesive tape sticking module comprises an adhesive tape adjusting unit, an adhesive tape cutting unit and a sucker, the sucker is movably connected below the supporting frame, and the sucker can move along the horizontal direction and the vertical direction which are perpendicular to the side surface of the electric box; the adhesive tape adjusting unit comprises a limiting bracket fixed on the side surface of the electric box and a limiting rod positioned on the limiting bracket, and the limiting rod is parallel to the side surface of the electric box and positioned below the sucking disc; the glue cutting unit is positioned between the limiting rod and the transmission frame;

the glue pressing module comprises a glue pressing unit which can move along the vertical direction, the glue pressing unit is positioned right above the battery fixing module, and the side surface of the battery is exposed on the upper surface of the battery fixing module; the glue pressing unit comprises two supporting plates movably connected to the front end of the supporting frame, the two supporting plates are parallel to the side face of the electric box, the connecting line direction of the two supporting plates is perpendicular to the side face of the electric box, rollers are movably connected below the supporting plates, and the central shafts of the rollers are fixedly connected below the supporting plates; the distance between the two rollers is less than or equal to the width of the side face of the battery;

the conveying frame drives the adhesive tape to extend out towards the limiting rod, when the adhesive tape is contacted with the limiting rod, the sucker moves to the upper surface of the adhesive tape in the conveying frame and adsorbs the adhesive tape, meanwhile, the conveying frame retracts, and the adhesive tape is cut off by the adhesive tape cutting unit; the adhesive tape is placed on the side face of the battery by the sucking disc, the adhesive pressing unit moves downwards, and the adhesive tape is fixed on the side face of the battery through the roller; the width of the adhesive tape is larger than that of the side face of the battery, and the adhesive tape is L-shaped or U-shaped and fixed on the side face of the battery.

Further, the glue feeding module further comprises a glue pulling unit and a circular glue discharging wheel, and a central shaft of the glue discharging wheel is fixed on the side surface of the electric box; the glue pulling unit comprises at least three transmission shafts II, and the central shafts of the transmission shafts II are movably connected to the side surface of the electric box; the rubber releasing wheel and the transmission shaft II are both positioned above the transmission frame.

Furthermore, at least three transmission shafts II are located on different heights of the side face of the electric box, and the adhesive tapes on the adhesive tape placing wheels are sequentially transmitted to the adhesive tape sticking module through the transmission shafts II and the transmission shafts I.

Furthermore, the limiting rod penetrates through the top end of the limiting support and is movably connected with the limiting support through threads.

Furthermore, the sticky tape regulating unit still includes spacing knot, locking screw and length adjustment screw, length adjustment screw fixed connection be in the one side that the transmission frame was kept away from to the gag lever post, spacing knot is located one side of length adjustment screw, locking screw swing joint in spacing knot for fixed spacing knot.

Furthermore, the rubber cutting unit comprises a cutter movably connected to the side face of the electric box, and the cutter can move in the vertical direction.

Further, the sucking disc is hollow structure, and lower surface evenly distributed gas pocket, the hollow internal connection air pump of sucking disc.

Further, the battery fixing module comprises a piezoelectric battery cylinder, an L-shaped baffle connected to the piezoelectric battery cylinder, a piezoelectric battery plate, a battery supporting plate and a bottom positioning plate, wherein the L-shaped baffle comprises a vertical horizontal plate and a vertical plate, the horizontal plate is parallel to the piezoelectric battery plate, the battery supporting plate is movably connected to the piezoelectric battery plate, the battery supporting plate is located below the horizontal plate, the bottom positioning plate is perpendicular to the piezoelectric battery plate, and the battery supporting plate is movably connected to the piezoelectric battery plate.

Furthermore, the distance between the piezoelectric battery plate and the battery is 3-5 mm.

Further, the exposed side of the battery is located at a distance of 7-9mm from the upper surface of the piezoelectric plate.

The invention has the beneficial effects that: according to the invention, the positional relation among the sucking disc, the adhesive tape adjusting unit, the adhesive tape cutting unit and the transmission frame is set, so that the length adjustment of the adhesive tape and the adhesive tape cutting process are automated, and then the U-shaped adhesive tape sticking or the L-shaped adhesive tape sticking on the side surface of the battery is realized by adjusting the relative position of the sucking disc and the battery fixing module; the whole rubberizing process is automatically realized, so that the rubberizing efficiency of the side face of the battery is higher, the precision is higher, and the packaging cost of the battery is further reduced.

Drawings

FIG. 1 is a schematic view of a battery side tape application apparatus according to the present invention;

fig. 2 is a front view of a battery side taping device of the present invention;

FIG. 3 is a schematic structural view of a battery mounting module;

FIG. 4 is a schematic view of a U-shaped tape;

FIG. 5 is a schematic view of an L-shaped tape;

in the figure: 11 rubber placing wheels, 12 rubber pulling units, 13 transmission frames, 15 rubber belts, 21 suckers, 22 rubber cutting units, 23 limiting supports, 24 rubber belt adjusting units, 31 rubber pressing units, 4 air source switch adjusting valves, 5 electric boxes, 6 battery fixing modules, 7 touch screens, 8 power switches, 121 transmission shafts II, 131 transmission shafts I, 241 limiting rods, 242 length adjusting screws and 243 limiting buckles; 61 batteries, 62 piezoelectric battery plates, 63 adjusting screws, 64 bottom positioning plates, 65 battery supporting plates, 66 horizontal plates, 67 piezoelectric battery cylinders and 68 vertical plates.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

as shown in fig. 1-3, a device for applying an adhesive tape to a side surface of a battery includes an electrical box 5, a battery fixing module 6, a glue feeding module, a glue applying module, a glue pressing module and a support frame, which are located on the same side surface of the electrical box. The electric box is composed of a machine host, an integrated communication circuit and other components, and the electric box and the integrated communication circuit provide power support for the main body part so as to achieve the purpose of gluing the side surface of the machine. Because send gluey module, rubberizing module, moulding module and support frame to be located the same side of electronic box, consequently, the electronic box side that the following all indicates this side.

The glue feeding module comprises a transmission frame 13 and a transmission shaft I131 fixed on the surface of the front end of the transmission frame 13, wherein the front end of the transmission frame refers to one end of the transmission frame, which is far away from the side face of the electric box; the conveying frame 13 is movably connected to the side face of the electric box, the conveying frame 13 can move in the horizontal direction parallel to the side face of the electric box under the driving of the air source switch pressure regulating valve, the glue conveying module further comprises a glue pulling unit 12 and a circular glue discharging wheel 11, the glue discharging wheel is made of rubber materials, a glue belt is fixed on the glue discharging wheel, and a central shaft of the glue discharging wheel is fixed on the side face of the electric box; the glue pulling unit comprises at least three transmission shafts II 121, and the central shafts of the transmission shafts II are movably connected to the side face of the electric box; the rubber discharging wheel 11 and the transmission shaft II 121 are both positioned above the transmission frame, wherein the upper side refers to the upper side of the side face of the electric box. At least three transmission shaft II is located the co-altitude of electronic box side, as shown in fig. 2, if transmission shaft II is three, then two transmission shafts II are located the top, and another transmission shaft II is located the below, and when transmission frame horizontal migration, transmission shaft II of below can be vertical slip on the electronic box side, and then realizes putting the drawing of rubber belt on the rubber tyer. The central shaft of the transmission shaft I is fixed on the transmission frame, the adhesive tape on the adhesive tape placing wheel sequentially penetrates through the transmission shafts II to be transmitted to the transmission shaft I on the transmission frame, and then penetrates through the lower portion of one of the transmission shafts I and the upper portion of the other transmission shaft I, so that the adhesive tape is transmitted to the adhesive tape cutting unit 22 from the adhesive tape placing wheel.

With continuing reference to fig. 1-2, the tape adhering module includes a tape adjusting unit 24, a tape cutting unit 22 and a suction cup 21, the suction cup 21 is movably connected below the supporting frame, and the suction cup 21 can move along the horizontal direction and the vertical direction perpendicular to the side surface of the electronic box; the sucking disc 21 is hollow structure, and lower surface evenly distributed gas pocket, and the scope that distributes the gas pocket needs to be greater than the scope of rubberizing area, is greater than the scope that the sucking disc adsorbs the sticky tape promptly, to unnecessary gas pocket, can stick up with the sticky tape at the rubberizing area in-process, avoids leaking gas, increases the energy consumption. The hollow inner part of the sucker 21 is connected with an air pump, the air pump vacuumizes the inner part of the sucker in the working process so as to generate suction force on the adhesive tape, the back surface of the adhesive tape, namely the non-adhesive surface, is adsorbed on the sucker, the adhesive surface faces downwards, and the adhesive tape can be adhered to the side surface of a battery in the later period under the driving of the sucker. The suction cup is movably connected with the lower part of the support frame, the front and back positions of the suction cup moving outwards are adjusted, and the position of the adhesive tape attached to the side edge of the battery can be adjusted. Because the side face of the battery is narrow, the width of the adhesive tape is greater than that of the side face of the battery, and the adhesive tape can be simultaneously adhered to the side face and two faces adjacent to the side face aiming at the side face of the battery, specifically, the adhesive tape and the side edge of the battery can be centered to form a U-shaped adhesive tape with two symmetrical sides, namely, the adhesive tape 15 is simultaneously adhered to two faces adjacent to the side face of the battery 61; as shown in fig. 4; or the adhesive tape and the side edge can be deviated to be pasted into an L-shaped adhesive tape, namely the adhesive tape 15 is pasted on only one adjacent surface of the side surface of the battery 61; as shown in fig. 5. So that the adhesive tape is pressed on the two sides of the battery by the adhesive pressing device for adhesive tape pasting.

The adhesive tape adjusting unit comprises a limiting bracket 23 fixed on the side surface of the electric box and a limiting rod 241 positioned on the limiting bracket 23, and the limiting rod 241 is parallel to the side surface of the electric box and positioned below the sucking disc 21; the rubber cutting unit 22 is positioned between the limiting rod 241 and the transmission frame 13; the adhesive tape adjusting unit further comprises a limiting buckle 243, a locking screw and a length adjusting screw 242, the limiting rod 241 penetrates through the top end of the limiting support 23 and is movably connected with the limiting support 23 through threads, the length adjusting screw 242 is fixedly connected to one side, far away from the transmission frame 13, of the limiting rod 241, the limiting buckle 243 is located on one side of the length adjusting screw 242, and the locking screw is located on the limiting buckle and used for fixing the limiting buckle; specifically, the limiting buckle can be a rectangular or annular structure nested on the limiting rod, the locking screw penetrates through one surface of the limiting buckle and is in contact with the limiting rod, and the locking screw is connected with the limiting buckle through threads. It is worth mentioning that the limiting rod penetrates through the top of the limiting support, the movement position of the transmission frame is limited, and when the transmission frame moves to the position contacting with the limiting rod, the transmission frame stops extending and then retracts; the transmission frame is extended to drive the adhesive tape ends to extend together, and when the transmission frame retracts, the adhesive tape ends are fixed below the suckers, so that the extended length of the transmission frame is the length of the adhesive tape to be pasted; according to the invention, the distance between the limiting rod and the transmission frame is adjusted through the rotation of the length adjusting screw, when the length of the adhesive tape needs to be increased, the locking screw is loosened, and the length adjusting screw is rotated in the forward direction, so that the limiting rod is close to the transmission frame; when the length of the adhesive tape needs to be shortened, the locking screws are loosened, and the length adjusting screws are rotated reversely, so that the limiting rods are far away from the transmission frame.

The rubber cutting unit 22 comprises a cutter movably connected to the side face of the electric box, the cutter can move vertically, the height of the cutter is lower than that of the limiting rod 241, the transmission frame 13 drives the rubber belt to move towards the limiting rod 241, the cutter is located below the rubber belt, the rubber belt is adsorbed on the sucker, and when the transmission frame retracts, the cutter moves upwards to cut off the rubber belt.

The glue pressing module comprises a glue pressing unit 31 capable of moving along the vertical direction, the glue pressing unit 31 is positioned right above the battery fixing module, and the side surface of the battery is exposed on the upper surface of the battery fixing module; the glue pressing unit comprises two supporting plates movably connected to the front end of the supporting frame, the two supporting plates are parallel to the side face of the electric box, the connecting line direction is perpendicular to the side face of the electric box, a roller is movably connected below the supporting plates, and a central shaft of the roller is fixedly connected below the supporting plates; the distance between the two rollers is less than or equal to the width of the side face of the battery; when the adhesive tape is placed on the side surface of the battery by the sucking disc, the adhesive tape can be stuck on the side surface of the battery due to the fact that the lower surface of the adhesive tape is an adhesive-containing surface, and the adhesive force between the front surface of the adhesive tape and the battery is larger than the adsorption force of the sucking disc on the back surface of the adhesive tape; at the moment, the sucker returns to the initial position, the glue pressing unit moves downwards, and the rollers continue to move downwards when contacting the side face of the battery due to the fact that the distance between the rollers is smaller than the width of the side face of the battery until the adhesive tape is fixed to the side face of the battery in an L shape or a U shape.

As shown in fig. 3, the battery fixing module includes a piezoelectric battery cylinder 67, an L-shaped baffle connected to the piezoelectric battery cylinder, a piezoelectric battery plate 62, a battery supporting plate 65 and a bottom positioning plate 64, wherein the L-shaped baffle includes a vertical horizontal plate 66 and a vertical plate 68, the horizontal plate 66 is parallel to the piezoelectric battery plate 62, the front and the back of the battery 61 are respectively fixed by the horizontal plate 66 and the piezoelectric battery plate 62, the battery supporting plate 65 is movably connected to the piezoelectric battery plate 62, and the battery supporting plate 65 is located below the horizontal plate 66, specifically, the battery supporting plate 65 can be fixed to the piezoelectric battery plate 62 by an adjusting screw 63, and by screwing and loosening the adjusting screw, the battery supporting plate can move up and down, thereby determining the height of the side surface of the battery. The bottom positioning plate 64 is perpendicular to the piezoelectric plate 62 and movably connected to the piezoelectric plate 62. The distance between the piezoelectric battery plate 62 and the battery 61 is 3-5mm, and the distance also reflects the difference between the lateral width of the battery and the distance between the piezoelectric battery plate and the horizontal plate, so that the battery is inconvenient to place if the distance is too narrow, and the battery is seriously inclined if the distance is too wide, thereby influencing the positioning precision of the discharge battery. Through the height of adjustment battery layer board for the upper side that exposes in the battery is 7-9mm apart from the distance of the last surface of volt panel, and here the battery can not be higher than too much, otherwise can be pressed by the sucking disc and warp, also can not be higher than too little, otherwise the gyro wheel package can not the sticky tape.

In addition, the power switch 8 of the present invention is composed of a switch button and its switch components, and the power switch controls the sum of the power-on driving motor and the power-off cutting motor of the whole machine. The touch screen 7 is composed of a touch detection part and a touch screen controller, and when a graphic button on the screen is touched, the tactile feedback system on the screen can drive various link devices according to a pre-programmed program, so that the mechanical button panel can be replaced. The air source switch pressure regulating valve 4 is arranged on the other side face of the electric box, the air source switch pressure regulating valve is connected with an air compressor, compressed air is used as a power source, an air cylinder is used as an actuator, and the valve is driven by accessories such as a valve positioner, a converter, an electromagnetic valve, a position retaining valve, an air storage tank, an air filter and the like. The air source switch pressure regulating valve has the following functions: the compressed air switch and the pressure regulating valve are used for regulating air pressure and driving the transmission frame, the sucking disc and the glue pressing unit. The surface of the electric box is also provided with a starting button, a speed adjusting button and a pressure adjusting button, and the starting button controls the starting and stopping of the rotation of the transmission shaft I; the speed adjusting button adjusts the rotating speed of the transmission shaft I; the pressure between two transmission shafts I is adjusted by the pressure adjusting button.

The adhesive tape on the adhesive tape placing wheel is conveyed to a position, close to the adhesive tape cutting unit, of the transmission frame through the transmission shaft II and the transmission shaft I, the transmission frame drives the adhesive tape to extend out towards the limiting rod, when the adhesive tape contacts the limiting rod, the sucker moves to the upper surface of the adhesive tape in the transmission frame and adsorbs the adhesive tape, the transmission frame retracts, and the adhesive tape cutting unit cuts off the adhesive tape; the adhesive tape is placed on the side face of the battery by the sucking disc, the adhesive pressing unit moves downwards, and the adhesive tape is fixed on the side face of the battery through the roller; the width of the adhesive tape is larger than that of the side face of the battery, and the adhesive tape is L-shaped or U-shaped and is fixed on the side face of the battery.

According to the invention, the positional relation among the sucking disc, the adhesive tape adjusting unit, the adhesive tape cutting unit and the transmission frame is set, so that the length adjustment of the adhesive tape and the adhesive tape cutting process are automated, and the U-shaped adhesive tape sticking or the L-shaped adhesive tape sticking on the side surface of the battery is realized by adjusting the relative position of the sucking disc and the battery fixing module; the whole rubberizing process is automatically realized, so that the rubberizing efficiency of the side face of the battery is higher, the precision is higher, and the packaging cost of the battery is further reduced.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims

1. A device for pasting adhesive tape on the side surface of a battery is characterized by comprising an electric box, a battery fixing module, an adhesive feeding module, an adhesive pasting module, an adhesive pressing module and a supporting frame, wherein the adhesive feeding module, the adhesive pasting module, the adhesive pressing module and the supporting frame are positioned on the same side surface of the electric box; the glue feeding module comprises a transmission frame and a transmission shaft I fixed on the surface of the front end of the transmission frame, the transmission frame is movably connected to the side surface of the electric box, and the transmission frame moves along the horizontal direction parallel to the side surface of the electric box;

the adhesive tape sticking module comprises an adhesive tape adjusting unit, an adhesive tape cutting unit and a sucker, the sucker is movably connected below the supporting frame, and the sucker moves along the horizontal direction and the vertical direction which are perpendicular to the side surface of the electric box; the adhesive tape adjusting unit comprises a limiting bracket fixed on the side surface of the electric box and a limiting rod positioned on the limiting bracket, and the limiting rod is parallel to the side surface of the electric box and positioned below the sucking disc; the glue cutting unit is positioned between the limiting rod and the transmission frame;

the battery fixing module comprises a battery fixing module and a battery pressing module, wherein the battery fixing module is arranged on the battery fixing module, and the battery pressing module comprises a pressing unit moving along the vertical direction; the glue pressing unit comprises two supporting plates movably connected to the front end of the supporting frame, the two supporting plates are parallel to the side face of the electric box, the connecting line direction of the two supporting plates is perpendicular to the side face of the electric box, rollers are movably connected below the supporting plates, and the central shafts of the rollers are fixedly connected below the supporting plates; the distance between the two rollers is less than or equal to the width of the side face of the battery;

the conveying frame drives the adhesive tape to extend out towards the limiting rod, when the adhesive tape is contacted with the limiting rod, the sucker moves to the upper surface of the adhesive tape in the conveying frame and adsorbs the adhesive tape, meanwhile, the conveying frame retracts, and the adhesive tape is cut off by the adhesive tape cutting unit; the adhesive tape is placed on the side face of the battery by the sucking disc, the adhesive pressing unit moves downwards, and the adhesive tape is fixed on the side face of the battery through the roller; the width of the adhesive tape is larger than that of the side face of the battery, and the adhesive tape is fixed on the side face of the battery in an L shape or a U shape;

the battery fixing module comprises a piezoelectric battery cylinder, an L-shaped baffle connected to the piezoelectric battery cylinder, a piezoelectric battery plate, a battery supporting plate and a bottom positioning plate, wherein the L-shaped baffle comprises a vertical horizontal plate and a vertical plate, the horizontal plate is parallel to the piezoelectric battery plate, the battery supporting plate is movably connected to the piezoelectric battery plate, the battery supporting plate is positioned below the horizontal plate, and the bottom positioning plate is perpendicular to the piezoelectric battery plate and is movably connected to the piezoelectric battery plate;

the glue feeding module further comprises a glue pulling unit and a circular glue releasing wheel, and a central shaft of the glue releasing wheel is fixed on the side surface of the electric box; the glue pulling unit comprises at least three transmission shafts II, and the central shafts of the transmission shafts II are movably connected to the side face of the electric box; the rubber releasing wheel and the transmission shaft II are both positioned above the transmission frame;

the at least three transmission shafts II are positioned on different heights of the side surface of the electric box, and when the transmission frame moves horizontally, the transmission shafts II below slide vertically on the side surface of the electric box, so that the rubber belt on the rubber discharging wheel is stretched;

the central shaft of the transmission shaft I is fixed on the transmission frame, and the adhesive tape on the adhesive tape placing wheel sequentially passes through the transmission shafts II to be transmitted to the transmission shafts I on the transmission frame and then passes through the lower part of one transmission shaft I and the upper part of the other transmission shaft I, so that the adhesive tape is transmitted to the adhesive tape cutting unit from the adhesive tape placing wheel;

the surface of the electric box is also provided with a starting button, a speed adjusting button and a pressure adjusting button, and the starting button controls the starting and stopping of the rotation of the transmission shaft I; the speed adjusting button is used for adjusting the rotating speed of the transmission shaft I; the pressure between two transmission shafts I is adjusted by the pressure adjusting button.

2. The device for attaching adhesive tape to the side surface of a battery as claimed in claim 1, wherein the limiting rod penetrates through the top end of the limiting bracket and is movably connected with the limiting bracket through a thread.

3. The device for attaching adhesive tape to the side surface of a battery according to claim 2, wherein the adhesive tape adjusting unit further comprises a limiting buckle, a locking screw and a length adjusting screw, the length adjusting screw is fixedly connected to one side of the limiting rod away from the transmission frame, the limiting buckle is located on one side of the length adjusting screw, and the locking screw is movably connected to the limiting buckle and used for fixing the limiting buckle.

4. The device for sticking the adhesive tape on the side surface of the battery as claimed in claim 1, wherein the adhesive cutting unit comprises a cutter movably connected to the side surface of the electrical box, and the cutter moves along a vertical direction.

5. The device for attaching adhesive tape to the side surface of a battery as claimed in claim 1, wherein the suction cup is of a hollow structure, air holes are uniformly distributed on the lower surface of the suction cup, and an air pump is connected to the hollow inside of the suction cup.

6. The battery-side taping apparatus of claim 1, wherein the distance between the piezoelectric plate and the battery is 3-5 mm.

7. The battery side taping apparatus of claim 1, wherein the side exposed in the battery is at a distance of 7-9mm from the upper surface of the piezoelectric plate.