CN218849567U

CN218849567U - Automatic device of borduring of battery electricity core

Info

Publication number: CN218849567U
Application number: CN202223125271.9U
Authority: CN
Inventors: 喻世民; 刘添瑞; 陈新临; 黄耿忠; 李志雄
Original assignee: Guangdong Honbro Science & Technology Co ltd
Current assignee: Guangdong Honbro Science & Technology Co ltd
Priority date: 2022-11-23
Filing date: 2022-11-23
Publication date: 2023-04-11
Anticipated expiration: 2032-11-23

Abstract

The utility model discloses an automatic device of borduring of battery electricity core, the test platform comprises a support, be equipped with the gluey mechanism of putting that is used for placing the electric core location platform of electric core and is used for emitting the sticky tape on the frame, one side of electric core location platform is equipped with the station of borduring, be equipped with the rubberizing station under the station of borduring, the rubberizing station is equipped with and is used for carrying the gluey mechanism of drawing of rubberizing station with the sticky tape on putting gluey mechanism, be equipped with on the frame and be used for absorbing the sticky tape from the rubberizing station and paste the rubberizing mechanism of sticky tape to electric core lateral wall at the station of borduring, the station of borduring is equipped with the mechanism of borduring that is used for making the edge of sticky tape paste in electric core upper and lower surface. By arranging the adhesive tape sticking mechanism capable of moving at the adhesive feeding station and the edge covering station, edge covering can be directly carried out through the edge covering mechanism after an adhesive tape is stuck, the transfer process is reduced, the condition that the adhesive tape falls off in the transfer process is avoided, and the production quality of the lithium battery is improved; meanwhile, the whole structure of the taping machine can be more compact.

Description

Automatic device of borduring of battery electricity core

Technical Field

The utility model relates to a battery production facility technical field, concretely relates to automatic device of borduring of battery electricity core.

Background

A lithium ion battery is a type of secondary battery that mainly operates by movement of lithium ions between a positive electrode and a negative electrode. In the production process of lithium cell, the phenomenon of kick-backing can appear in soft packet of lithium cell's electric core after folding scalding, need bordure in order to prevent to kick-back at the side rubberizing of electric core to guarantee that the subsequent equipment of battery is smooth.

In the traditional production process, the manual gluing and edge covering of the lithium battery cell are needed, the consistency of edge covering is difficult to guarantee, and even the phenomenon of glue falling after manual gluing leakage or gluing occurs, therefore, an automatic edge covering machine is generated, the existing automatic edge covering machine is provided with a glue placing mechanism, a glue feeding mechanism, a gluing mechanism and an edge covering mechanism in sequence along the conveying direction of a conveyor belt, so that automatic edge covering operation is realized, then, the cell needs to be conveyed to the next station through the conveyor belt after gluing to carry out edge covering, the adhesive tape is only contacted with the side surface with a small area of the cell during gluing, the adhesive tape is easy to fall off from the cell when the cell moves, the phenomenon of gluing leakage is caused, and the production quality of the lithium battery is influenced; and the existing automatic covering machine is arranged in a long line manner, so that the occupied transverse space is large, and the production cost of enterprises is high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the disappearance that prior art exists, provide an automatic device of borduring of battery electricity core, its condition that can avoid the sticky tape to drop improves the quality of borduring of electric core and the efficiency of borduring, makes the device structure of borduring compacter simultaneously, is favorable to reducing the horizontal space that equipment occupy.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an automatic device of borduring of battery electricity core, includes the frame, be equipped with the gluey mechanism of putting that is used for placing the electric core location platform of electric core and is used for emitting the sticky tape on the frame, one side of electric core location platform is equipped with the station of borduring, be equipped with the rubberizing station under the station of borduring, the rubberizing station is equipped with and is used for putting the sticky tape in gluey mechanism and carry the drawing of rubberizing station and glue the mechanism, be equipped with on the frame and be used for absorbing the sticky tape from the rubberizing station and paste the rubberizing mechanism of electric core lateral wall with the sticky tape at the station of borduring, the station of borduring is equipped with the mechanism of borduring that is used for making the edge of sticky tape paste in electric core upper and lower surface. By arranging the adhesive tape sticking mechanism which can move between the adhesive tape feeding station and the edge covering station, edge covering can be directly carried out through the edge covering mechanism after the adhesive tape is stuck, the transfer process is reduced, the condition that the adhesive tape falls off in the transfer process is avoided, the problem of adhesive tape leakage is prevented, and the production quality of the lithium battery is improved; meanwhile, the glue pulling mechanism, the glue sticking mechanism and the edge covering mechanism can be arranged on the same side of the battery cell positioning platform, so that the overall structure of the edge covering machine is more compact, the occupation of transverse space is reduced, and the miniaturization development of equipment is facilitated.

As a preferred scheme, the rubberizing mechanism comprises a rubberizing head, a rubberizing driving element for controlling the left and right movement of the rubberizing head, and a lifting driving element for controlling the up and down movement of the rubberizing head, wherein a plurality of first air suction holes for sucking the adhesive tape are distributed on the surface of one side, facing the battery core, of the rubberizing head.

As a preferred scheme, be equipped with the rubberizing riser on the frame, one side of rubberizing riser is equipped with the lift slide rail, lift slide rail sliding connection has the lift seat, lift drive element is connected with the lift seat to control lift seat along lift slide rail activity from top to bottom, the upper end of lift seat is equipped with the rubberizing slide rail of horizontal extension, rubberizing slide rail sliding connection has the rubberizing seat, rubberizing drive element is connected with the rubberizing seat, and controls the rubberizing seat along the activity of rubberizing slide rail, the rubberizing head is installed on the rubberizing seat to can be along with the activity of rubberizing seat.

As a preferable scheme, the gluing station is further provided with a glue pressing mechanism for fixing the end of the adhesive tape pulled out by the glue pulling mechanism on the gluing head, and one side of the glue pulling mechanism, which is close to the glue pressing mechanism, is provided with a glue cutting mechanism for cutting off the adhesive tape.

As a preferred scheme, the glue pulling mechanism comprises a glue pulling seat, a glue pulling driving element for controlling the front and back movement of the glue pulling seat, a glue pulling clamp arranged on the glue pulling seat and a glue clamping cylinder for controlling the glue pulling clamp to close, the glue cutting mechanism is arranged on the glue pulling seat and can move back and forth along with the glue pulling seat, and the glue cutting mechanism comprises a cutter and a glue cutting cylinder for controlling the movement of the cutter.

As a preferred scheme, the mechanism of borduring includes the seat of borduring, the seat of control is bordured and is controlled bordure drive element, two parallel arrangement's compression roller, locate the locating plate that is used for supporting the sticky tape of pressing the electric core lateral wall between two compression rollers, be equipped with two adjustable shelves on the seat of borduring, two compression rollers are rotatable the installing respectively on the adjustable shelf that corresponds, be equipped with the first canceling release mechanical system that makes two compression rollers have the trend of clamp all the time between two adjustable shelves, be equipped with the second canceling release mechanical system that makes the locating plate have the trend of stretching out to electric core one side all the time on the seat of borduring.

As an optimal scheme, the middle parts of the two movable frames are respectively connected with the upper end and the lower end of the edge covering base in a rotating mode through rotating shafts, the compression roller is arranged at one end, close to the electric core positioning platform, of the movable frame, and the adjusting mechanism used for adjusting the separation distance of the two compression rollers is further arranged at one end, far away from the electric core positioning platform, of the movable frame. Through setting up adjustment mechanism to can adjust the separation distance of two compression rollers according to the thickness of different electric cores, the dynamics of roll-in when guaranteeing to bordure improves the quality of borduring.

As an optimal scheme, still be equipped with the transverse positioning cylinder that location base and control location base removed to the mechanism direction of borduring on the frame, be equipped with the transverse positioning slide rail on the frame, location base and transverse positioning slide rail sliding connection, electric core location platform locates on the location base to can be along with the activity of location base, be equipped with the extension frame that is located the top of the station of borduring on the frame, be equipped with location flange mechanism on the extension frame, location flange mechanism is including being used for keeping off the flange cylinder of flat baffle and the control baffle of the side that bordures with electric core, the flange cylinder is located on the extension frame to the movable rod of flange cylinder stretches out downwards and baffle fixed connection, be equipped with a plurality of second suction holes that are used for inhaling electric core on the electric core location platform.

As a preferable scheme, a pressing mechanism used for fixing the battery cell during edge covering is further arranged on the extension frame, the pressing mechanism comprises a pressing plate used for pressing the upper surface of the battery cell and a pressing cylinder used for controlling the pressing plate to move up and down, the pressing cylinder is arranged on the extension frame, and a movable rod of the pressing cylinder extends downwards to be fixedly connected with the pressing plate.

As a preferred scheme, a longitudinal positioning slide rail with an extending direction perpendicular to the transverse positioning slide rail is arranged on the positioning base, the battery cell positioning platform is slidably connected with the longitudinal positioning slide rail, and a longitudinal positioning cylinder for controlling the battery cell positioning platform to slide along the longitudinal positioning slide rail is arranged on the positioning base.

The utility model discloses the working process as follows:

firstly, a battery core is placed on a battery core positioning platform, a second air suction hole on the battery core positioning platform works to enable the battery core to be adsorbed on the battery core positioning platform, the side edge of the battery core to be covered is exposed out of the battery core positioning platform, a rubberizing head of a rubberizing mechanism is controlled by a lifting driving element to move to a rubberizing station, then a tape pulling mechanism pulls a tape on a tape releasing mechanism out of the rubberizing station, the pulled tape is located right ahead of the rubberizing head and parallel to the length direction of the rubberizing head, then a tape pressing mechanism presses an end head of the tape onto the rubberizing head, the tape pulling mechanism releases the tape and then returns towards the rubberizing mechanism, then a first air suction hole on the rubberizing head works to enable the tape to be adsorbed on the rubberizing head, then the tape cutting mechanism cuts the tape, then the rubberizing head of the lifting driving element controls the rubberizing head to move to the rubberizing station, the rubberizing driving element controls the rubberizing head to move towards the battery core positioning platform, the side wall of the battery core, then the rubberizing head is controlled by the rubberizing driving element to move back under the rubberizing driving element, and the side wall of the battery core, and the tape is moved to make the side wall of the battery core move to the side wall of the battery core to be covered side wall of the battery core, and the battery core to be covered by the positioning platform. The utility model discloses still need to fix a position the electric core of placing on electric core positioning platform before borduring, during the location, the baffle of flange mechanism moves downwards under the control of flange cylinder, then horizontal location cylinder control electric core positioning platform moves to the baffle, make the lateral wall of electric core and the corresponding surface conflict of baffle to make the lateral wall of electric core and the length direction of rubberizing head parallel; when borduring, hold-down mechanism's clamp plate is pressed down the control of compressing tightly the cylinder down the activity laminating compress tightly in electric core upper surface to electric core removal when preventing the laminating and borduring.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, specifically speaking, through setting up the rubberizing mechanism that can move between the rubberizing station and the taping station, thereby can realize directly taping through the taping mechanism after the sticky tape is pasted, reduce the transfer process, avoid the sticky tape situation that drops in the transfer process, thereby prevent the problem of leaking and pasting, improve the production quality of lithium cell; meanwhile, the glue pulling mechanism, the glue pasting mechanism and the edge covering mechanism can be arranged on the same side of the battery cell positioning platform, so that the whole structure of the edge covering machine is more compact, the occupation of a transverse space is reduced, and the miniaturization development of equipment is facilitated.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:

drawings

FIG. 1 is an assembly diagram of an embodiment of the present invention;

FIG. 2 is a structural diagram of a gluing mechanism according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view at A in FIG. 1;

FIG. 4 is a cross-sectional view of an embodiment of the present invention;

FIG. 5 is a structural diagram of the edge covering mechanism of the embodiment of the present invention;

fig. 6 is an enlarged schematic view at B in fig. 4.

The attached drawings indicate the following:

10. base 11, positioning base 12, horizontal positioning cylinder

13. Battery cell positioning platform 14, longitudinal positioning cylinder 15 and extension frame

20. Glue placing mechanism 21, glue placing disc 22 and guide cylinder

30. Glue drawing mechanism 31, glue drawing base 32 and glue drawing clamp

33. Doubling cylinder 40, rubberizing mechanism 41, rubberizing riser

42. Lifting seat 43, lifting driving element 44 and rubberizing seat

45. Rubberizing driving element 46, rubberizing head 47, first air suction hole

50. Edge covering mechanism 51, edge covering support frame 52 and edge covering seat

53. Edge covering driving element 54, press roller 55 and positioning plate

56. Movable frame 57, first reset mechanism 59 and adjusting mechanism

60. Moulding mechanism 70, positioning flange mechanism 71 and baffle

72. Flange cylinder 80, hold-down mechanism 81, clamp plate

82. A pressing cylinder 90 and a glue cutting mechanism.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the indicated position or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

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

As shown in fig. 1-6, an automatic device of borduring of battery electricity core, including frame 10, be equipped with on the frame 10 and be used for placing the electric core location platform 13 of electric core and be used for emitting the gluey mechanism 20 of putting of sticky tape, one side of electric core location platform 13 is equipped with the station of borduring, be equipped with the rubberizing station under the station of borduring, the rubberizing station is equipped with and is used for carrying the sticky tape on putting gluey mechanism 20 and carry the gluey mechanism 30 that draws of rubberizing station, be equipped with on the frame 10 and be used for absorbing the sticky tape from the rubberizing station and paste the rubberizing mechanism 40 of sticky tape to electric core lateral wall at the station of borduring, the station of borduring is equipped with the mechanism 50 of borduring that is used for making the edge of sticky tape paste in electric core upper and lower surfaces. The adhesive tape unwinding mechanism 20 comprises an adhesive tape unwinding disc 21 and a plurality of guide cylinders 22, when the adhesive tape is unwound, the adhesive tape passes through the peripheral side surfaces of the guide cylinders 22, and the peripheral side surfaces of part of the guide cylinders 22 are provided with anti-skid lines, so that the situation that the adhesive tape is deviated in the unwinding process is avoided.

As shown in fig. 2, the tape attaching mechanism 40 includes a tape attaching head 46, a tape attaching driving element 45 for controlling the tape attaching head 46 to move left and right, and a lifting driving element 43 for controlling the tape attaching head 46 to move up and down, in this embodiment, the tape attaching head 46 is arranged in a horizontal strip shape, and a plurality of first air suction holes 47 for sucking an adhesive tape are distributed on a surface of one side of the tape attaching head 46 facing the battery cell. Specifically, be equipped with rubberizing riser 41 on the frame 10, one side of rubberizing riser 41 is equipped with the lift slide rail, lift slide rail sliding connection has lift seat 42, lift drive element 43 is connected with lift seat 42 to control lift seat 42 along the activity from top to bottom of lift slide rail, the upper end of lift seat 42 is equipped with the rubberizing slide rail of level extension, rubberizing slide rail sliding connection has rubberizing seat 44, rubberizing drive element 45 is connected with rubberizing seat 44, and controls rubberizing seat 44 along the activity of rubberizing slide rail, rubberizing head 46 is installed on rubberizing seat 44, and can follow rubberizing seat 44 activity. The lifting driving element 43 is a lifting cylinder, and the rubberizing driving elements 45 are rubberizing driving cylinders. In practical use, the lifting driving element 43 and the rubberizing driving element 45 may also be motors.

As shown in fig. 1 and 3, the gluing station is further provided with a glue pressing mechanism 60 for fixing the end of the adhesive tape pulled out by the glue pulling mechanism 30 on the gluing head 46, and one side of the glue pulling mechanism 30 close to the glue pressing mechanism 60 is provided with a glue cutting mechanism 90 for cutting the adhesive tape. The glue pulling mechanism 30 comprises a glue pulling seat 31, a glue pulling driving element (not shown) for controlling the glue pulling seat 31 to move back and forth, a glue pulling clamp 32 arranged on the glue pulling seat 31 and a glue clamping cylinder 33 for controlling the glue pulling clamp 32 to move together, the glue cutting mechanism 90 is arranged on the glue pulling seat 31 and can move back and forth along with the glue pulling seat 31, and the glue cutting mechanism 90 comprises a cutter and a glue cutting cylinder (not shown) for controlling the cutter to move. The glue pulling driving element can be a stepping motor or an air cylinder. The glue pressing mechanism 60 includes a glue pressing head and a glue pressing cylinder for controlling the movement of the glue pressing head towards the glue pasting head.

As shown in fig. 4-6, the edge covering mechanism 50 includes an edge covering base 52, an edge covering driving element 53 for controlling the edge covering base 52 to move left and right, two parallel pressing rollers 54, and a positioning plate 55 disposed between the two pressing rollers 54 and used for pressing an adhesive tape against a side wall of the battery cell, the base 10 is provided with an edge covering supporting frame 51, the edge covering driving element 53 is fixedly disposed on the edge covering supporting frame 51, the edge covering base 52 is provided with two parallel extending guide rods, the edge covering supporting frame 51 is provided with a guide sleeve adapted to the guide rods, the edge covering base 52 is movably connected to the edge covering supporting frame 51 through the guide rod guide sleeve, the edge covering base 52 is provided with two movable frames 56, the two pressing rollers 54 are respectively rotatably mounted on the corresponding movable frames 56, a first resetting mechanism 57 for enabling the two pressing rollers 54 to always have a clamping tendency is disposed between the two movable frames 56, and the edge covering base 52 is provided with a second resetting mechanism 58 for enabling the positioning plate 55 to always have a tendency of extending out to one side of the battery cell. Specifically, the middle parts of the two movable frames 56 are rotatably connected with the upper end and the lower end of the edge covering seat 52 through rotating shafts respectively, the compression roller 54 is arranged at one end of the movable frame 56 close to the battery cell positioning platform 13, and an adjusting mechanism 59 for adjusting the separation distance of the two compression rollers 54 is further arranged at one end of the movable frame 56 far away from the battery cell positioning platform 13. Through setting up adjustment mechanism 59 to can adjust the separation distance of two compression rollers 54 according to the thickness of different electric cores, guarantee the dynamics of roll-in when borduring, improve the quality of borduring. The first reset mechanism 57 and the second reset mechanism 58 are both compression springs, and the adjusting mechanism 59 is an adjusting cylinder, and the number of the adjusting cylinders is two. The edge-covering driving element 53 is an edge-covering driving cylinder. It will be appreciated that the tipping drive element 53 may alternatively be a motor, as well as other components having a driving function.

As shown in fig. 1 and 4, the base 10 is further provided with a positioning base 11 and a transverse positioning cylinder 12 for controlling the positioning base 11 to move towards the edge-covering mechanism 50, the base 10 is provided with a transverse positioning slide rail, the positioning base 11 is slidably connected with the transverse positioning slide rail, the positioning base 11 is provided with a longitudinal positioning slide rail perpendicular to the transverse positioning slide rail in the extending direction, the battery cell positioning platform 13 is slidably connected with the longitudinal positioning slide rail, and the positioning base 11 is provided with a longitudinal positioning cylinder 14 for controlling the battery cell positioning platform 13 to slide along the longitudinal positioning slide rail. Be equipped with the extension frame 15 that is located the top of the station of borduring on the frame 10, be equipped with location flange mechanism 70 on the extension frame 15, location flange mechanism 70 is including being used for treating the electric core that the side of borduring keeps off the flange cylinder 72 of flat baffle 71 and control baffle 71 activity from top to bottom, flange cylinder 72 is located and is extended on frame 15 to the movable rod of flange cylinder 72 stretches out downwards and baffle 71 fixed connection, be equipped with a plurality of second suction holes that are used for holding the electric core on the electric core location platform 13. The extension frame 15 is further provided with a pressing mechanism 80 for fixing the battery cell during edge covering, the pressing mechanism 80 comprises a pressing plate 81 for pressing the upper surface of the battery cell and a pressing cylinder 82 for controlling the pressing plate 81 to move up and down, the pressing cylinder 82 is arranged on the extension frame 15, and a movable rod of the pressing cylinder 82 extends downwards to be fixedly connected with the pressing plate 81.

The utility model discloses the working process is as follows:

firstly, a battery core is placed on a battery core positioning platform 13, a second air suction hole on the battery core positioning platform 13 works to enable the battery core to be adsorbed on the battery core positioning platform 13, the side edge of the battery core to be covered is exposed out of the battery core positioning platform 13, an adhesive head 46 of an adhesive mechanism 40 is controlled by a lifting driving element 43 to move to an adhesive applying station, then an adhesive tape on an adhesive releasing mechanism 20 is pulled out to the adhesive applying station by an adhesive pulling mechanism 30, the pulled adhesive tape is positioned right in front of the adhesive head 46 and is parallel to the length direction of the adhesive head 46, then an end head of the adhesive tape is pressed on the adhesive head 46 by an adhesive pressing mechanism 60, the adhesive pulling mechanism 30 retreats towards the adhesive releasing mechanism 20 after releasing the adhesive tape, then a first air suction hole 47 on the adhesive head 46 works, the adhesive tape is adsorbed on the adhesive tape head 46, then the adhesive tape is cut off by the adhesive tape cutting mechanism 90, then the lifting driving element 43 controls the adhesive tape head 46 to move to the edge covering station, the adhesive tape driving element 45 controls the adhesive tape head 46 to move towards the cell positioning platform 13 and adheres the adhesive tape to the side wall of the cell, then the adhesive tape head 46 returns under the control of the adhesive tape driving element 45, the adhesive station is moved again under the control of the lifting driving element 43 to take adhesive next time, then the edge covering seat 52 is controlled by the edge covering driving element 53 to move towards the cell positioning platform 13, the positioning plate 55 is made to abut against the adhesive tape at the side wall of the cell, then the two press rollers 54 are made to roll over the upper surface and the lower surface of the cell respectively, and the edge of the adhesive tape is made to wrap the upper surface and the lower surface of the cell respectively. The utility model also needs to position the battery cell placed on the battery cell positioning platform 13 before edge covering, during positioning, the baffle 71 of the edge blocking mechanism moves downwards under the control of the edge blocking cylinder 72, and then the transverse positioning cylinder 12 controls the battery cell positioning platform 13 to move towards the baffle 71, so that the side wall of the battery cell is butted with the corresponding surface of the baffle 71, and the side wall of the battery cell is parallel to the length direction of the rubberizing head 46; when the edge is covered, the pressing plate 81 of the pressing mechanism 80 is downwards movably attached and pressed on the upper surface of the battery cell under the control of the pressing cylinder 82, so that the battery cell is prevented from moving when the adhesive is attached and the edge is covered.

To sum up, the utility model can realize that the edge is covered directly through the edge covering mechanism after the adhesive tape is pasted by arranging the adhesive tape pasting mechanism which can move between the adhesive tape feeding station and the edge covering station, thereby reducing the transfer process, avoiding the condition that the adhesive tape drops in the transfer process, preventing the problem of adhesive tape leakage and improving the production quality of the lithium battery; meanwhile, the glue pulling mechanism, the glue sticking mechanism and the edge covering mechanism can be arranged on the same side of the battery cell positioning platform, so that the overall structure of the edge covering machine is more compact, the occupation of transverse space is reduced, and the miniaturization development of equipment is facilitated.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, so any modifications, equivalent replacements, improvements, etc. made to the above embodiments by the technology of the present invention are all within the scope of the technical solution of the present invention.

Claims

1. The utility model provides an automatic device of borduring of battery electricity core, a serial communication port, which comprises a frame, be equipped with the gluey mechanism of putting that is used for placing the electric core location platform of electric core and is used for emitting the sticky tape on the frame, one side of electric core location platform is equipped with the station of borduring, be equipped with the rubberizing station under the station of borduring, the rubberizing station is equipped with and is used for carrying the gluey mechanism of drawing of rubberizing station with the sticky tape on putting gluey mechanism, be equipped with on the frame and be used for absorbing the sticky tape from the rubberizing station and paste the rubberizing mechanism of electric core lateral wall with the sticky tape at the station of borduring, the station of borduring is equipped with the mechanism of borduring that is used for making the edge of sticky tape paste in electric core upper and lower surface.

2. The automatic edge covering device for the battery cells according to claim 1, wherein the adhesive applying mechanism comprises an adhesive applying head, an adhesive applying driving element for controlling the adhesive applying head to move left and right, and a lifting driving element for controlling the adhesive applying head to move up and down, and a plurality of first air suction holes for sucking adhesive tapes are distributed on the surface of one side of the adhesive applying head facing the battery cells.

3. The automatic edge covering device for the battery cells according to claim 2, wherein a rubberizing vertical plate is arranged on the machine base, a lifting slide rail is arranged on one side of the rubberizing vertical plate, the lifting slide rail is slidably connected with a lifting seat, the lifting driving element is connected with the lifting seat and controls the lifting seat to move up and down along the lifting slide rail, a rubberizing slide rail extending horizontally is arranged at the upper end of the lifting seat, the rubberizing slide rail is slidably connected with a rubberizing seat, the rubberizing driving element is connected with the rubberizing seat and controls the rubberizing seat to move along the rubberizing slide rail, and the rubberizing head is mounted on the rubberizing seat and can move along with the rubberizing seat.

4. The automatic edge covering device for the battery cells according to claim 2, wherein the gluing station is further provided with a glue pressing mechanism for fixing the end of the adhesive tape pulled out by the glue pulling mechanism on the gluing head, and one side of the glue pulling mechanism, which is close to the glue pressing mechanism, is provided with a glue cutting mechanism for cutting off the adhesive tape.

5. The automatic battery cell edge covering device according to claim 4, wherein the glue drawing mechanism comprises a glue drawing base, a glue drawing driving element for controlling the glue drawing base to move back and forth, a glue drawing clamp arranged on the glue drawing base, and a glue clamping cylinder for controlling the glue drawing clamp to close, the glue cutting mechanism is arranged on the glue drawing base and can move back and forth along with the glue drawing base, and the glue cutting mechanism comprises a cutter and a glue cutting cylinder for controlling the movement of the cutter.

6. The automatic battery cell edge covering device according to claim 1, wherein the edge covering mechanism comprises an edge covering seat, an edge covering driving element for controlling the edge covering seat to move left and right, two compression rollers arranged in parallel, and a positioning plate arranged between the two compression rollers and used for pressing an adhesive tape on the side wall of the battery cell, the edge covering seat is provided with two movable frames, the two compression rollers are respectively rotatably mounted on the corresponding movable frames, a first reset mechanism for enabling the two compression rollers to always have a clamping trend is arranged between the two movable frames, and the edge covering seat is provided with a second reset mechanism for enabling the positioning plate to always have a trend of extending out of one side of the battery cell.

7. The automatic battery cell edge covering device according to claim 6, wherein the middle parts of the two movable frames are rotatably connected with the upper and lower ends of the edge covering base through rotating shafts, the press rollers are arranged at one ends of the movable frames close to the cell positioning platform, and an adjusting mechanism for adjusting the separation distance of the two press rollers is further arranged at one ends of the movable frames far away from the cell positioning platform.

8. The automatic battery cell edge covering device according to claim 1, wherein a positioning base and a transverse positioning cylinder for controlling the positioning base to move towards the edge covering mechanism are further arranged on the base, a transverse positioning slide rail is arranged on the base, the positioning base is connected with the transverse positioning slide rail in a sliding manner, the cell positioning platform is arranged on the positioning base and can move along with the positioning base, an extending frame located above the edge covering station is arranged on the base, a positioning flange mechanism is arranged on the extending frame, the positioning flange mechanism comprises a baffle for blocking the side edge of the cell to be covered with the edge and a flange cylinder for controlling the baffle to move up and down, the flange cylinder is arranged on the extending frame, a movable rod of the flange cylinder extends downwards and is fixedly connected with the baffle, and a plurality of second air suction holes for sucking the cell are formed in the cell positioning platform.

9. The automatic battery cell edge covering device according to claim 8, wherein a pressing mechanism for fixing the battery cell during edge covering is further arranged on the extending frame, the pressing mechanism comprises a pressing plate for pressing the upper surface of the battery cell and a pressing cylinder for controlling the pressing plate to move up and down, the pressing cylinder is arranged on the extending frame, and a movable rod of the pressing cylinder extends downwards to be fixedly connected with the pressing plate.

10. The automatic battery cell edge covering device according to claim 8, wherein a longitudinal positioning slide rail is arranged on the positioning base, the extending direction of the longitudinal positioning slide rail is perpendicular to the transverse positioning slide rail, the battery cell positioning platform is slidably connected with the longitudinal positioning slide rail, and a longitudinal positioning cylinder for controlling the battery cell positioning platform to slide along the longitudinal positioning slide rail is arranged on the positioning base.