CN114950824A - Battery cell cleaning and gluing integrated device and method - Google Patents

Abstract

The invention discloses a battery cell cleaning and gluing integrated device and method. The device comprises a feeding mechanism, a gluing mechanism and a cleaning and gluing mechanism, wherein the feeding mechanism is used for intermittently conveying a plurality of battery cell units to a cleaning and gluing station, and the battery cell units are continuously placed along a first direction at intervals of a first gap; the plasma cleaning head is used for ejecting plasma for cleaning; the glue spreading nozzle is used for spraying glue solution to spread glue; the mounting seat is used for fixedly supporting the plasma cleaning head and the gluing nozzle side by side at intervals of a first gap along a first direction; and the first moving mechanism is used for moving the mounting seat along the first direction. Through the relative electric core unit's of plasma cleaning head removal and the relative electric core unit's of rubber coating nozzle removal when the rubber coating each other unified when will wasing, realize when wasing an electric core unit, carry out the rubber coating to just accomplishing abluent electric core unit, the ingenious will wash and the rubber coating technology is integrated, saves production facility occupation space, shortens the latency between single electric core washing and the rubber coating.

Description

Battery cell cleaning and gluing integrated device and method

Technical Field

The invention relates to the technical field of battery module production, in particular to a battery core cleaning and gluing integrated device and method.

Background

The battery module is combined by a plurality of electric cores and is formed by a protection circuit and a protection shell. The production process from a simple electric core to a battery pack is quite complicated, and comprises a plasma cleaning station for cleaning the surface of each electric core and a gluing station for gluing the surface of the electric core, wherein the gluing of the surface of the electric core is performed before the electric core is assembled, so that the purposes of insulation and heat dissipation can be achieved in addition to the mutual connection and fixation effect.

The existing battery module production process mainly comprises the steps of firstly carrying out battery cell plasma cleaning at a first station, then transferring a battery cell to a second station to carry out battery cell surface gluing, and needing to occupy two stations. This kind of electricity core plasma washs and electric core rubber coating mode, has occupied the great space area of production line, has increased factory building space cost, needs latency between two stations simultaneously, and the electric core of just wasing the completion can not in time the rubber coating, influences the rubber coating quality, also influences the production beat, and production efficiency is lower.

Disclosure of Invention

The invention aims to solve the technical problem of providing an integrated device and method for cleaning and gluing a battery cell, wherein plasma cleaning and gluing of the battery cell are integrated at the same station, so that the gluing quality is improved, the production beat is accelerated, and the occupied space of production line equipment is reduced.

In order to solve the technical problem, the battery cell cleaning and gluing integrated device comprises a feeding mechanism, a gluing mechanism and a gluing mechanism, wherein the feeding mechanism is used for intermittently conveying a plurality of battery cell units to a cleaning and gluing station, and the battery cell units are continuously placed on the cleaning and gluing station along a first direction at intervals of a first gap; the plasma cleaning head is used for spraying plasma to the surface to be cleaned of the battery cell unit for cleaning; the gluing nozzle is used for spraying glue solution to the cleaned surface of the battery cell unit for gluing; the mounting seat is arranged at the top of the cleaning and gluing station and used for fixedly supporting the plasma cleaning head and the gluing nozzle side by side at intervals of the first gap along the first direction, so that when the plasma cleaning head cleans one battery cell unit, the gluing nozzle glues the previous cleaned battery cell unit; and the first moving mechanism is used for moving the mounting seat along the first direction so that the plasma cleaning head and the gluing nozzle synchronously move from the top of the battery cell unit.

In the battery cell cleaning and gluing integrated device, the plasma cleaning head and the gluing nozzle are fixedly supported by the mounting seat at the same time, and the distance between the plasma cleaning head and the gluing nozzle is the same as the placement distance of the battery cell units on the feeding mechanism, so that the movement of the plasma cleaning head relative to the battery cell units during cleaning and the movement of the gluing nozzle relative to the battery cell units during gluing are mutually unified and unified into synchronous linear movement along a first direction, the gluing nozzle can clean one battery cell unit while gluing the battery cell unit which is just cleaned, namely, the cleaning and gluing of two battery cell units with bells are finished simultaneously, each battery cell unit is cleaned and glued sequentially along the first direction under the driving of the first moving mechanism, the cleaning and gluing process is skillfully integrated, the equipment structure is optimized, and the occupied space of production equipment is saved, the cost is saved, the waiting time between the cleaning and the gluing of a single electric core unit can be shortened, the gluing quality is improved, the production beat is accelerated, and the production efficiency is improved.

As an improvement of the integrated device for cleaning and gluing the battery cell, the feeding mechanism comprises a horizontal linear conveying belt arranged on the cleaning and gluing station, and the first direction is along the arrangement direction of the horizontal linear conveying belt. The first direction is the arrangement direction of the horizontal linear conveying belt, namely, the horizontal linear direction parallel to the conveying belt, and the first moving mechanism moving installation seat is in reciprocating linear motion.

As another improvement of the integrated device for cleaning and gluing the battery cell, the first moving mechanism comprises a first lead screw sliding block mechanism and a first driving assembly which are arranged at the top of the cleaning and gluing station, the first lead screw sliding block mechanism comprises a first lead screw arranged along the first direction and a first sliding block connected to the first lead screw in a threaded manner, and the first sliding block drives the mounting base to move. The linear movement of the mounting seat is realized through the screw rod sliding block mechanism, the thread transmission is stable and reliable, the movement precision is high, and the controllability is strong; the first screw rod sliding block mechanism drives the mounting seat to linearly move in the horizontal direction.

As a further improvement of the integrated apparatus for cleaning and gluing a battery cell of the invention, a second moving mechanism is arranged between the mounting base and the first moving mechanism, and the second moving mechanism is used for moving the mounting base to drive the plasma cleaning head and the gluing nozzle to synchronously approach or depart from the battery cell unit. Preferably, the second moving mechanism is used for moving the mounting base in a direction perpendicular to the first direction, and the second moving mechanism drives the mounting base to move linearly in a vertical direction.

The second moving mechanism is arranged at the output end of the first moving mechanism, and the mounting seat is arranged at the output end of the second moving mechanism, so that the horizontal linear movement of the mounting seat is realized, and the mounting seat can move in the vertical direction, therefore, the distance between the plasma cleaning head and the gluing nozzle and the surface of the battery cell unit can be adjusted, and the plasma cleaning head and the gluing nozzle can be adjusted according to corresponding process requirements to adapt to various thickness battery cell units. In addition, when the last battery cell unit on the cleaning and gluing station is processed, the mounting seat can be adjusted to be far away from the battery cell unit, and the phenomenon that the plasma cleaning head or the gluing nozzle interferes with the battery cell unit and other parts of the feeding mechanism when the mounting seat returns to the starting position process of the cleaning and gluing station is avoided.

In order to solve the technical problem, the invention provides an integrated method for cleaning and gluing a battery cell, which comprises the following steps:

the method comprises the following steps: conveying a plurality of battery cell units to a cleaning and gluing station, wherein the battery cell units are continuously placed on the cleaning and gluing station along a first direction at intervals of a first gap;

step two: resetting the mounting base to a top set position at one end of the cleaning and gluing station;

step three: moving the mounting base from one end of the cleaning and gluing station to the other end of the cleaning and gluing station, enabling the plasma cleaning head and the gluing nozzle to sequentially pass through the tops of the cell units, sequentially completing cleaning and gluing, and gluing the cell unit cleaned previously by the gluing nozzle when the plasma cleaning head cleans one cell unit;

step four: and after the last cell unit on the cleaning and gluing station is glued by the gluing nozzle, the first step is switched to for circulation until the required number of cell units are processed.

In the above-mentioned electric core washs rubber coating integration method, take plasma cleaning head and rubber coating nozzle to walk away from the top of electric core unit in proper order through the mount pad, accomplish washing and rubber coating respectively, the latency between the washing that significantly reduces and the rubber coating process, the rubber coating is of high quality, and plasma cleaning head and rubber coating nozzle are handled two adjacent electric core units simultaneously moreover, and production efficiency is high, and technology integration is reasonable.

Further, in the second step, the resetting of the top setting position of the mounting base to one end of the cleaning and gluing station includes resetting the mounting base, so that the plasma cleaning head moves to a first top setting position of the battery cell unit at one end of the cleaning and gluing station;

in the third step, when the plasma cleaning head cleans the first cell unit and the gluing nozzle moves to the top of the gap between the cell units, the gluing nozzle is kept closed;

in the second step, when the mounting seat is reset, the plasma cleaning head and the gluing nozzle are kept closed.

And cleaning the first battery cell unit, gluing, and conveying the battery cell unit on each cleaning and gluing station to the next station after the battery cell unit is processed.

Further, in the second step, the resetting of the mounting base to the top setting position of one end of the cleaning and gluing station includes resetting the mounting base, so that the plasma cleaning head moves to the first top setting position of the battery cell unit at one end of the cleaning and gluing station.

When feeder mechanism adopted horizontal linear conveyor, if wash the rubber coating station and keep the same straight state with anterior conveyer belt, and the first clearance in interval is also followed to the electric core unit of higher authority, then can make the mount pad back that resets, the plasma cleaning head begins to wash from second electric core unit, when the rubber coating nozzle is to washing last electric core unit rubber coating on the rubber coating station, the plasma cleaning head accomplishes the washing of next row's first electric core unit promptly, thereby it is more reasonable to make whole course of work link up, further improve production efficiency.

In conclusion, by adopting the integrated device and the method for cleaning and gluing the battery core, two processes of cleaning and gluing the battery core unit can be completed at the same station, so that the integration level of battery production equipment is improved, and the workshop space and the equipment cost are saved; the waiting time between the cleaning and gluing processes is reduced, the external influence is reduced, the gluing quality is improved, and the production efficiency is improved.

Drawings

In the drawings:

fig. 1 is an overall structure diagram of the battery cell cleaning and gluing integrated device of the invention.

Fig. 2 is a structural diagram of a first moving mechanism and a second moving mechanism of the integrated device for cleaning and gluing the battery cell.

Fig. 3 is a partially cutaway view of a first moving mechanism of the integrated device for cleaning and gluing the battery core.

Fig. 4 is a first slide block structure diagram of the integrated device for cleaning and gluing the battery cell of the invention.

In the figure, 1, a feeding mechanism; 2. a gluing station; 3. a cell unit; 4. a plasma cleaning head; 5. a glue spreading nozzle; 6. a mounting base; 7. a first moving mechanism; 71. a first lead screw slider mechanism; 711. a first lead screw; 712. a first slider; 713. a first base plate; 714. a first bearing housing; 715. a first slide rail; 716. a first chute; 717. a shielding plate; 72. a first drive assembly; 73. a support column; 74. mounting a plate; 8. a second moving mechanism; 81. a second screw slider mechanism; 82. a second drive assembly; 83. and (7) fixing the plate.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

Fig. 1-4 show an integrated device for cleaning and gluing a battery cell. As shown in fig. 1, the integrated device for cleaning and gluing the battery core comprises: the feeding mechanism 1 is used for intermittently conveying a plurality of cell units 3 to the cleaning and gluing station 2, and the cell units 3 are continuously placed on the cleaning and gluing station 2 along a first direction at intervals of a first gap; the plasma cleaning head 4 is used for spraying plasma to the surface to be cleaned of the battery cell unit 3 for cleaning; the gluing nozzle 5 is used for spraying glue solution to the cleaned surface of the battery cell unit 3 for gluing; the mounting base 6 is arranged at the top of the cleaning and gluing station 2 and used for fixedly supporting the plasma cleaning head 4 and the gluing nozzle 5 side by side at intervals of a first gap along a first direction, so that when the plasma cleaning head 4 cleans one cell unit 3, the gluing nozzle 5 glues the previous cleaned cell unit 3; and a first moving mechanism 7 for moving the mounting base 6 in a first direction so that the plasma cleaning head 4 and the glue applying nozzle 5 are moved from the top of the cell unit 3 in synchronization.

Optionally, the feeding mechanism 1 includes a horizontal linear conveyor belt disposed on the cleaning and gluing station 2, and the first direction is along the arrangement direction of the horizontal linear conveyor belt. The plasma cleaning head 4 and the gluing nozzle 5 are respectively communicated with corresponding work and control systems, the plasma cleaning head 4 sprays plasma when moving to the surface of the battery cell unit 3, and the gluing nozzle 5 sprays glue when moving to the surface of the cleaned battery cell unit 3, so that a linear adhesive tape is finally formed.

When the device is used, a horizontal linear conveyer belt forms a production line as a feeding mechanism 1, the production line enables intermittent work, and firstly, the conveyer belt conveys a plurality of unprocessed electric core units 3 which are arranged at equal intervals to a cleaning and gluing station 2 each time; then the first moving mechanism 7 drives the mounting base 6 to move from one end of the cleaning and gluing station 2 to the other end, in the moving process, the plasma cleaning head 4 is in front of the first cell unit 3, the first cell unit 3 is cleaned firstly, after the cleaning is finished, the plasma cleaning head 4 continues to move forward to clean the next cell unit, the gluing nozzle 5 just moves to the just cleaned cell unit 3 for gluing, the integration and connection of the cleaning and gluing are realized, and the last cell unit 3 at the other end is glued by the gluing nozzle 5, namely the cleaning and gluing of each cell unit 3 on the current station are finished; then the first moving mechanism 7 is reset to the initial end, and simultaneously the feeding mechanism 1 acts to move the row of processed cell units 3 to the next station and convey a row of unprocessed cell units 3 on the cleaning and gluing station 2; and finally, the first moving mechanism 7 repeatedly drives the plasma cleaning head 4 and the gluing nozzle 5 to move from one end to the other end, and each cell unit 3 is cleaned and glued on the cleaning and gluing station 2 in a circulating reciprocating mode, so that redundant station occupation space is saved, waiting time is shortened, gluing quality is improved, and production efficiency is greatly improved.

The plurality of the cell units 3 to be processed which are sent to the cleaning and gluing station 2 by the feeding mechanism 1 each time are called a row of cell units 3. Optionally, if the conveying lines on the two sides of the cleaning and gluing station 2 are also horizontal linear conveying belts and are kept in straight connection with the cleaning and gluing station 2, and the cell units 3 are also uniformly arranged at intervals, the connection process of the treatment of each row of cell units 3 can be optimized. For example, the plasma cleaning head 4 starts to clean from the second cell unit 3 each time until the first cell unit of the next row of cell units 3 is cleaned, so that the whole treatment process is perfectly connected, the efficiency is higher, and the plasma cleaning head is suitable for batch production.

Since the ports corresponding to both the cleaning and the glue application are linearly moved from the surface of the electric core unit 3 at a time, in order to have better cleaning and glue application effects, the moving tracks of the plasma cleaning head 4 and the glue application nozzle 5 are both located on the center line of the electric core unit 3, and the center line is also along the first direction. In addition, the minimum distance between the end part of the plasma cleaning head 4 and the cleaned surface of the cell unit 3 is a first set value, the first set value is set according to the cleaning process of the plasma cleaning head 4, and the first set value is the height between the plasma cleaning head 4 and the surface of the cell unit 3 during cleaning and is matched with process parameters such as the moving speed of the plasma cleaning head 4, so that a better cleaning effect is realized; similarly, the minimum distance between the end of the gluing nozzle 5 and the surface to be cleaned of the electric core unit 3 is a second set value, the second set value is set according to the gluing process of the gluing nozzle 5, and the second set value is the height of the gluing nozzle 5 during gluing and is matched with the process parameters such as speed and the like, so that a better gluing effect is realized.

As shown in fig. 2 and fig. 3, the first moving mechanism 7 includes a first lead screw slider mechanism 71 and a first driving assembly 72, which are disposed at the top of the cleaning and gluing station 2, the first lead screw slider mechanism 71 includes a first lead screw 711 arranged along a first direction and a first slider 712 screwed on the first lead screw 711, and the first slider 712 drives the mounting base 6 to move. The first moving mechanism 7 further comprises two support columns 73 arranged at intervals and a mounting plate 74 arranged on the top ends of the two support columns 73, the support columns 73 are fixed at two ends of the cleaning and gluing station 2, and the mounting plate 74 is in a vertically arranged plate shape and is used for fixedly supporting the first lead screw slider mechanism 71 on the top of the feeding mechanism 1.

Optionally, the first lead screw slider mechanism 71 further includes a first bottom plate 713 disposed on the surface of the mounting plate 74, two ends of the first bottom plate 713 are respectively provided with a first bearing seat 714, the two first bearing seats 714 are used for rotatably supporting the first lead screw 711, and the first driving assembly 72 is disposed on one side of one of the first bearing seats 714 and drives the first lead screw 711 to rotate.

The first base plate 713 is vertically disposed in a plate shape like the mounting plate 74, so that the first slider 712 horizontally slides on the side of the first base plate 713, and sufficient arrangement space is provided for the mounting base 6 fixed to the first slider 712 and the second moving mechanism 8. The first base plate 713 fixes the first bearing seat 714 at two ends, rotatably supports the first lead screw 711, and the horizontal first lead screw 711 rotates under the driving of the first driving assembly 72, so that the first slider 712 reciprocates in the horizontal direction, thereby forming a horizontally moving lead screw slider mechanism. The first drive assembly 72 may employ a motor assembly.

As shown in fig. 3 and 4, two sides of the first base plate 713 corresponding to the first lead screw 711 are respectively provided with a first slide rail 715, and the first slider 712 is provided with a first sliding slot 716 adapted to the first slide rail 715. The horizontal movement of the first slider 712 is guided, so that the movement of the mounting seat 6 is more accurate and reliable.

Optionally, as shown in fig. 4, a first sliding slot 716 is disposed on the back surface of the first sliding block 712, and a horizontal groove is disposed on the front surface for providing a placement space for the shielding plate 717. As shown in fig. 3, the shielding plate 717 is disposed outside the first screw 711, and serves to protect the screw slider mechanism, and both ends of the shielding plate are fixed to the first bearing seat 714.

As shown in fig. 2, a second moving mechanism 8 is disposed between the mounting seat 6 and the first moving mechanism 7, and the second moving mechanism 8 is configured to move the mounting seat 6 to drive the plasma cleaning head 4 and the glue applying nozzle 5 to synchronously approach or leave the cell unit 3.

Optionally, the second moving mechanism 8 includes a second lead screw sliding block mechanism 81 and a second driving assembly 82, the second lead screw sliding block mechanism 81 is fixed on the output end of the first moving mechanism 7, the lead screws of the second lead screw sliding block mechanism 81 are arranged along a first direction perpendicular to the first direction, and the sliding blocks of the second lead screw sliding block mechanism 81 are fixedly connected with the mounting base 6.

The specific second lead screw slider mechanism 81 is similar to the first lead screw slider mechanism 71 in structure, except that the second lead screw slider mechanism 81 is a vertically arranged lead screw slider mechanism, drives the mounting base 6 to move in the vertical direction, and is integrally fixed on the first slider 712 through a fixing plate 83. In addition, a cable drag chain of the second lead screw sliding block mechanism 81 is arranged at the top of the first lead screw sliding block mechanism 71, and a cable drag chain of the plasma cleaning head 4 and the gluing nozzle 5 is arranged on a fixing plate 83 of the second lead screw sliding block mechanism 81.

The invention discloses an integrated method for cleaning and gluing a battery cell, which comprises the following steps:

the method comprises the following steps: conveying a plurality of battery cell units 3 to a cleaning and gluing station 2, wherein the battery cell units 3 are continuously placed on the cleaning and gluing station 2 along a first direction at intervals of a first gap;

step two: resetting the mounting seat 6 to a top set position at one end of the cleaning and gluing station 2;

step three: moving the mounting seat 6 from one end of the cleaning and gluing station 2 to the other end, enabling the plasma cleaning head 4 and the gluing nozzle 5 to sequentially pass through the tops of the cell units 3, sequentially completing cleaning and gluing, and when the plasma cleaning head 4 cleans one cell unit 3, gluing the previous cleaned cell unit 3 by the gluing nozzle 5;

step four: and after the last cell unit 3 on the cleaning and gluing station 2 is glued by the gluing nozzle 5, the first step is carried out to circulate until the required number of cell units 3 are processed.

In the above-mentioned electric core washs rubber coating integration method, take plasma cleaning head 4 and rubber coating nozzle 5 to walk away from the top of electric core unit 3 in proper order through mount pad 6, accomplish washing and rubber coating respectively, the latency between the washing that significantly reduces and the rubber coating process, the rubber coating is of high quality, and plasma cleaning head 4 and rubber coating nozzle 5 handle two adjacent electric core units 3 simultaneously moreover, and production efficiency is high, and the technology is integrated rationally.

Optionally, in the second step, the reset mounting seat 6 is included in the set position from the reset mounting seat 6 to the top of the end of the cleaning and gluing station 2, so that the plasma cleaning head 4 moves to the set position from the top of the first cell unit 3 at the end of the cleaning and gluing station 2;

in the third step, when the plasma cleaning head 4 cleans the first cell unit 3 and the glue coating nozzle 5 moves to the top of the gap between the cell units 3, the glue coating nozzle 5 is kept closed;

in step two, when the mounting seat 6 is reset, the plasma cleaning head 4 and the gluing nozzle 5 are kept closed.

And cleaning the first battery cell unit 3, gluing, and conveying the battery cell units 3 on each cleaning and gluing station 2 to the next station after the battery cell units are processed.

Optionally, in the second step, the reset mounting seat 6 is included in the set position of the top of the end of the cleaning and gluing station 2, so that the plasma cleaning head 4 moves to the set position of the top of the first cell unit 3 at the end of the cleaning and gluing station 2.

When feeding mechanism 1 adopts horizontal linear conveyor, if wash rubber coating station 2 and anterior conveyer belt and keep the same straight state, and above-mentioned electric core unit 3 also places in succession along the first direction and the first clearance in interval, then can make mount pad 6 back that resets, plasma cleaning head 4 begins to wash from second electric core unit 3, at rubber coating nozzle 5 to wash last electric core unit 3 rubber coating on rubber coating station 2 simultaneously, plasma cleaning head 4 accomplishes the washing of next row of first electric core unit 3 promptly, thereby make whole course of work link up more rationally, further improve production efficiency.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the scope of protection thereof, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: after reading this disclosure, those skilled in the art will be able to make various changes, modifications and equivalents to the embodiments of the invention, which fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a battery core washs rubber coating integrated device which characterized in that includes:

the feeding mechanism (1) is used for intermittently conveying a plurality of battery cell units (3) to the cleaning and gluing station (2), and the battery cell units (3) are continuously placed on the cleaning and gluing station (2) along a first direction at intervals of a first gap;

the plasma cleaning head (4) is used for spraying plasma to the surface to be cleaned of the battery cell unit (3) for cleaning;

the gluing nozzle (5) is used for spraying glue solution to the cleaned surface of the battery cell unit (3) for gluing;

the mounting seat (6) is arranged at the top of the cleaning and gluing station (2) and used for fixedly supporting the plasma cleaning head (4) and the gluing nozzle (5) side by side at intervals of the first gap along the first direction, so that when the plasma cleaning head (4) cleans one battery cell unit (3), the gluing nozzle (5) glues the battery cell unit (3) which is cleaned before;

a first moving mechanism (7) for moving the mounting seat (6) along the first direction to enable the plasma cleaning head (4) and the gluing nozzle (5) to synchronously move on the top of the battery cell unit (3).

2. The integrated device for cleaning and gluing the battery cells according to claim 1, wherein the feeding mechanism (1) comprises a horizontal linear conveyor belt arranged on the cleaning and gluing station (2), and the first direction is along the arrangement direction of the horizontal linear conveyor belt.

3. The integrated device for battery cell cleaning and gluing according to claim 1 or 2, wherein the first moving mechanism (7) comprises a first lead screw slider mechanism (71) and a first driving assembly (72) which are arranged at the top of the cleaning and gluing station (2), the first lead screw slider mechanism (71) comprises a first lead screw (711) arranged along the first direction and a first slider (712) which is screwed on the first lead screw (711), and the first slider (712) drives the mounting seat (6) to move.

4. The integrated battery cell cleaning and gluing device according to claim 3, wherein the first moving mechanism (7) further comprises two support columns (73) arranged at intervals and a mounting plate (74) arranged at the top ends of the two support columns (73), the support columns (73) are fixed at two ends of the cleaning and gluing station (2), and the mounting plate (74) is vertically arranged and is used for fixedly supporting the first lead screw slider mechanism (71) at the top of the feeding mechanism (1).

5. The integrated device for cleaning and gluing the battery cell of claim 1, wherein a second moving mechanism (8) is arranged between the mounting seat (6) and the first moving mechanism (7), and the second moving mechanism (8) is used for moving the mounting seat (6) to drive the plasma cleaning head (4) and the gluing nozzle (5) to synchronously approach or separate from the battery cell unit (3).

6. The integrated device for battery core cleaning and gluing according to claim 5, wherein the second moving mechanism (8) comprises a second lead screw slider mechanism (81) and a second driving assembly (82), the second lead screw slider mechanism (81) is fixed on the output end of the first moving mechanism (7), the lead screw of the second lead screw slider mechanism (81) is arranged in the first direction, and the slider of the second lead screw slider mechanism (81) is fixedly connected with the mounting seat (6).

7. The integrated device for cleaning and gluing the battery cells according to claim 1 or 6, wherein the distance between the end of the plasma cleaning head (4) and the cleaned surface of the battery cell unit (3) is at least a first set value, and the first set value is set according to the cleaning process of the plasma cleaning head (4).

8. A battery core cleaning and gluing integrated method based on the battery core cleaning and gluing integrated device of any one of claims 1 to 7 is characterized by comprising the following steps:

the method comprises the following steps: conveying a plurality of battery cell units (3) to a cleaning and gluing station (2), wherein the battery cell units (3) are continuously placed on the cleaning and gluing station (2) along a first direction at intervals of a first gap;

step two: resetting the mounting seat (6) to a top set position at one end of the cleaning and gluing station (2);

step three: moving the mounting seat (6) from one end of the cleaning and gluing station (2) to the other end, enabling the plasma cleaning head (4) and the gluing nozzle (5) to sequentially pass through the tops of the cell units (3), sequentially completing cleaning and gluing, and when the plasma cleaning head (4) cleans one cell unit (3), gluing the previously cleaned cell unit (3) by the gluing nozzle (5);

step four: and after the last battery cell unit (3) on the cleaning and gluing station (2) is glued by the gluing nozzle (5), the first step is carried out to circulate until the battery cell units (3) in required number are processed.

9. The integrated battery cell cleaning and gluing method according to claim 8, wherein in the second step, the resetting of the mounting seat (6) to the top setting position at one end of the cleaning and gluing station (2) comprises resetting the mounting seat (6) to move the plasma cleaning head (4) to the first top setting position of the battery cell unit (3) at one end of the cleaning and gluing station (2);

in the third step, when the plasma cleaning head (4) cleans the first cell unit (3) and the gluing nozzle (5) moves to the top of the gap between the cell units (3), the gluing nozzle (5) is kept closed.

10. The integrated method for cleaning and gluing the battery cells, according to claim 8, wherein in the second step, the resetting of the mounting seat (6) to the top setting position at one end of the cleaning and gluing station (2) comprises resetting the mounting seat (6) and moving the plasma cleaning head (4) to a second top setting position of the battery cell units (3) at one end of the cleaning and gluing station (2).

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