CN217306573U - Battery cell packaging and film-coating integrated machine - Google Patents

Abstract

The utility model provides an electric core packaging and film coating integrated machine, which comprises a frame, and an electric core feeding and conveying device, an electric core top side sealing device, an electric core angular position sealing device and an electric core film coating device which are respectively arranged on the frame; the battery cell film coating device comprises a film coating rack, and a film feeding mechanism, a film drawing mechanism, a film cutting mechanism, a film coating mechanism and a battery cell conveying mechanism which are respectively arranged on the film coating rack; the coating mechanism comprises a coating base arranged on the coating frame, a coating power part arranged on the coating base and a coating manipulator arranged at the output end of the coating power part, wherein a coating roller is arranged at one end of the coating manipulator connected with a film. The utility model discloses an electricity core material loading conveyor carries out material loading, fixed and transport to electric core, then carries out the top side seal through electric core top side seal device, carries out the angular position through electric core angular position seal device and seals, carries out the pad pasting through electric core diolame device, full automation can effectively improve the little efficiency of processing, and is simple convenient.

Description

Battery cell packaging and film-coating integrated machine

Technical Field

The utility model relates to a battery electricity core encapsulation technical field especially relates to an electricity core encapsulation diolame all-in-one.

Background

The development and popularization of lithium batteries are driven by the rapid development of new energy industries, and along with the increasing requirements of markets on the energy density of battery cores, the investment of research and development of the lithium battery cores is increased by various lithium battery manufacturers. The outer packaging shell of the battery at present is generally divided into a metal outer shell and a flexible package, and compared with the battery prepared by using the flexible package, the manufacturing cost of the battery can be obviously reduced, and the energy density and the power density of the battery are improved. Most of the existing battery cell film coating procedures adopt manual operation, so that the efficiency is low and the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the lower technical problem of current electric core diolame efficiency, provide an electric core encapsulation diolame all-in-one.

The utility model provides an electric core packaging and film coating integrated machine, which comprises a frame, and an electric core feeding and conveying device, an electric core top side sealing device, an electric core angular position sealing device and an electric core film coating device which are respectively arranged on the frame; the battery cell film coating device comprises a film coating rack, and a film feeding mechanism, a film pulling mechanism, a film cutting mechanism, a film coating mechanism and a battery cell conveying mechanism which are respectively arranged on the film coating rack; the film coating mechanism comprises a film coating base arranged on the film coating frame, a film coating power part arranged on the film coating base and a film coating manipulator arranged at the output end of the film coating power part, and a film coating roller is arranged at one end of the film coating manipulator connected with a film; the film coating mechanism is at least provided with two groups which are arranged up and down.

Further, the battery cell top side sealing device comprises a packaging frame body, a packaging linear guide rail arranged on the packaging frame body, a packaging sliding block arranged on the packaging linear guide rail, a packaging mold arranged on the packaging sliding block, and a packaging power part used for driving the packaging sliding block to move directionally along the packaging linear guide rail.

Furthermore, the film cutting mechanism comprises a film cutting base arranged on the film coating frame, a film cutting power part arranged on the film cutting base and a film cutting knife arranged at the output end of the film cutting power part; the film cutting base is provided with a through groove for the film to pass through.

Furthermore, draw membrane mechanism including install in drawing the membrane base on the diolame frame, install in drawing membrane power piece on drawing the membrane base and install in drawing the membrane manipulator of drawing membrane power piece output.

Further, the cell conveying mechanism comprises a cell input assembly and a cell output assembly; the battery cell input assembly comprises a battery cell input manipulator; the battery cell output assembly comprises a battery cell output base, a battery cell output guide rail arranged on the battery cell output base, a battery cell output slide seat arranged on the battery cell output guide rail and a battery cell output mechanical arm arranged on the battery cell output slide seat.

Furthermore, the battery cell angle position sealing device comprises an angle position sealing base, an angle position sealing linear guide rail arranged on the angle position sealing base, an angle position sealing sliding block arranged on the angle position sealing linear guide rail, an angle position sealing mould arranged on the angle position sealing sliding block, an angle position sealing power part used for driving the angle position sealing sliding block to move along the angle position sealing linear guide rail, and an angle position sealing moving component used for driving the angle position sealing base to move in two dimensions on a horizontal plane.

Further, the battery cell loading and conveying device comprises a battery cell clamp arranged on a station of the turntable and a conveying power part for driving the turntable to rotate; the electricity core anchor clamps include the anchor clamps base, install blowing platform, one end on the anchor clamps base and rotate the material pole of pressing that connects on the anchor clamps base and be used for driving the material pole of pressing and compress tightly or loosen the material power part of pressing of electricity core.

Furthermore, a film wrapping guide rail is arranged on the film wrapping base, and a film wrapping sliding block is arranged between the film wrapping mechanical hand and the film wrapping guide rail.

Furthermore, the cell packaging and film coating integrated machine also comprises a cell detection device arranged on the frame, wherein the cell detection device comprises a detection base, a cell voltage tester arranged on the detection base, and a test arm which is connected with the cell voltage tester and is used for driving the test line to be connected with a lug of a cell; and the detection base is also provided with a detection power part for driving the test arm to move.

The utility model has the advantages that: the utility model discloses an electricity core material loading conveyor carries out material loading, fixed and transport to electric core, then carries out the top side seal through electric core top side seal device, carries out the angular position through electric core angular position seal device and seals, carries out the pad pasting through electric core diolame device, full automation can effectively improve the little efficiency of processing, and is simple convenient. The electric core film coating device carries out automatic feeding to the membrane through membrane feed mechanism, pull the membrane from film cutting mechanism through drawing film mechanism, carry out automatic film cutting to the membrane through film cutting mechanism, after the size that forms suitable diolame, carry electric core from the middle of the film coating mechanism through electric core conveying mechanism past, utilize diolame power spare to promote the diolame manipulator and carry out the butt towards electric core upper and lower both sides, thereby utilize the diolame roller to make the membrane after the cutting to coat in electric core upper and lower both sides, full automation, can effectual improvement diolame efficiency, and is more convenient for use.

Drawings

Fig. 1 is a perspective view of an embodiment of the battery cell packaging and film-coating integrated machine of the present invention.

Fig. 2 is a top view of an embodiment of the electric core packaging and enveloping all-in-one machine of the present invention.

Fig. 3 is a side view of an embodiment of the cell coating device of the cell packaging and coating all-in-one machine of the present invention.

Fig. 4 is a perspective view of an embodiment of the electric core film coating device of the electric core packaging and film coating integrated machine of the present invention.

Fig. 5 is a perspective view of another embodiment of the electric core film wrapping device of the electric core packaging and film wrapping integrated machine of the present invention.

Fig. 6 is a perspective view of another embodiment of the cell coating device of the cell packaging and coating all-in-one machine of the present invention.

Fig. 7 is a perspective view of an embodiment of the electric core conveying mechanism of the electric core packaging and film-coating all-in-one machine of the utility model.

Fig. 8 is a top view of the battery cell feeding and conveying device according to an embodiment of the battery cell packaging and film-coating all-in-one machine of the present invention.

Fig. 9 is a perspective view of a battery cell feeding and conveying device according to an embodiment of the battery cell packaging and film-coating all-in-one machine of the present invention.

Fig. 10 is a perspective view of the cell fixture according to an embodiment of the electrical core packaging and film-coating all-in-one machine of the present invention.

Fig. 11 is a perspective view of a cell clamp according to another embodiment of the cell packaging and film-coating all-in-one machine of the present invention.

Fig. 12 is a perspective view of a cell clamp according to yet another embodiment of the cell packaging and enveloping all-in-one machine of the present invention.

Figure 13 is the utility model discloses the electricity core anchor clamps of electricity core encapsulation diolame all-in-one still another embodiment's stereogram.

Fig. 14 is a perspective view of the material pressing limiting part according to an embodiment of the electric core packaging and film coating all-in-one machine of the present invention.

Fig. 15 is a perspective view of an embodiment of a cell top side sealing device of the cell encapsulation and film coating all-in-one machine of the present invention.

Fig. 16 is a perspective view of another embodiment of a cell top side sealing device of the cell packaging and film-coating all-in-one machine of the present invention.

Fig. 17 is a perspective view of an embodiment of the electric core angle sealing device of the electric core packaging and film-coating all-in-one machine of the present invention.

Fig. 18 is a perspective view of another embodiment of the electric core angle sealing device of the electric core packaging and film-coating all-in-one machine of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 18, the utility model provides an electric core packaging and film-coating integrated machine, which comprises a frame 10, and an electric core feeding and conveying device 12, an electric core top side sealing device 13, an electric core angular position sealing device 14 and an electric core film-coating device 15 which are respectively arranged on the frame 10; the battery cell film coating device 15 comprises a film coating rack 1, and a film feeding mechanism, a film drawing mechanism 4, a film cutting mechanism 3, a film coating mechanism 5 and a battery cell conveying mechanism which are respectively arranged on the film coating rack 1; the film coating mechanism 5 comprises a film coating base 551 arranged on the film coating rack 1, a film coating power part 552 arranged on the film coating base 551 and a film coating manipulator 553 arranged at the output end of the film coating power part 552, wherein a film coating roller 554 is arranged at one end of the film coating manipulator 553 connected with a film; the film coating mechanism 5 is at least provided with two groups which are arranged up and down.

The utility model discloses a membrane feed mechanism carries out automatic feeding to the membrane, through drawing membrane mechanism 4 to follow membrane cutting mechanism 3 with membrane 11 and pull, carry out automatic membrane cutting through membrane cutting mechanism 3 to the membrane, form the size back that is fit for the diolame, through electric core conveying mechanism with electric core 40 from the middle transport past of membrane coating mechanism 5, utilize diolame power piece 552 to promote diolame manipulator 553 to carry out the butt towards electric core 40 upper and lower both sides, thereby utilize diolame roller 554 to make the 11 cladding of membrane after the cutting both sides about electric core 40, full automation, can effectual improvement diolame efficiency, more convenient to use.

In an alternative embodiment, the film feeding mechanism includes a winding roller 521 mounted on the film wrapping frame 1 and a plurality of adjusting rollers 22 for adjusting the tension of the film 11. In this embodiment, set up winding up roller 521 and can carry out automatic feeding to membrane 11, through the effect of dancer rools 22, can adjust the tension size of membrane 11 to be favorable to drawing the membrane and cutting the membrane operation.

In an alternative embodiment, the film cutting mechanism 3 includes a film cutting base 531 mounted on the envelope frame 1, a film cutting power member 532 mounted on the film cutting base 531, and a film cutting knife (not shown) mounted at the output end of the film cutting power member 532; the film cutting base 531 is provided with a through groove for the film to pass through. The film drawing mechanism 4 comprises a film drawing base 541 arranged on the film coating rack 1, a film drawing power piece 542 arranged on the film drawing base 541, and a film drawing manipulator 543 arranged at the output end of the film drawing power piece 542.

In the embodiment, after the film 11 passes through the through groove, the film pulling power piece 542 drives the film pulling manipulator 543 to pull the film downwards, and when the film is pulled to a preset size, the film cutting power piece 532 drives the film cutting knife to cut the film 11, so that the film cutting device is simple and convenient; and set up logical groove, can inject the position of membrane, avoid the membrane to take place the skew.

In an alternative embodiment, the cell delivery mechanism includes a cell input assembly and a cell output assembly. The battery cell input assembly comprises a battery cell input manipulator. The cell output assembly comprises a cell output base 561, a cell output guide rail 563 arranged on the cell output base 561, a cell output slide 563 arranged on the cell output guide rail 563, and a cell output manipulator 565 arranged on the cell output slide 563. In this embodiment, after the cell input manipulator grabs the cell 40 and abuts against the membrane, the cell output manipulator 565 on the other side of the membrane clamps the cell 40; at this moment, the coating manipulator 553 drives the coating power piece 552 to move towards the battery cell 40, so that the rollers 554 abut against the upper side and the lower side of the battery cell 40, the battery cell 40 is pulled by the battery cell output manipulator 565, and the coating can be arranged on the upper side and the lower side of the battery cell 40, which is simple and convenient. Specifically, a battery cell output power part 562 connected with the battery cell output slider 564 is further disposed on the battery cell output base 561.

In an alternative embodiment, an envelope guide 555 is arranged on the envelope base 551, and an envelope slide 556 is arranged between the envelope manipulator 553 and the envelope guide 555. The film coating slide block 556 and the film coating guide rail 55 are arranged, so that the motion stability of the film coating manipulator 553 can be effectively improved, the oscillation of the film coating manipulator is avoided, and the film 11 can be better coated on the two sides of the battery core 40; the outside cladding of diolame roller 554 has the buffer layer, sets up the buffer layer, can make better butt in diolame roller 554 and electric core 40 both sides, further improves the stability of membrane 11 cladding in electric core 40 both sides.

As shown in fig. 8 to 14, the present invention provides a battery cell feeding and conveying device, which includes a turntable 41 provided with a plurality of stations, a battery cell fixture 42 installed on the stations, and a conveying power member for driving the turntable 41 to rotate; the cell clamp 42 includes a clamp base 43, a discharging table installed on the clamp base 43, a pressing rod 44 with one end rotatably connected to the clamp base 43, and a pressing power component 45 for driving the pressing rod 44 to compress or loosen the cell 40.

According to the invention, a plurality of stations are arranged on the turntable 41, the battery cell clamp 42 is arranged on each station, the battery cell 40 is fixed through the battery cell clamp 42, and then the turntable 41 is driven to rotate by utilizing a power transmission part, so that the subsequent packaging in a testing procedure is facilitated; in addition, the battery core 40 is placed on the discharging table, and then the material pressing rod 44 is driven by the material pressing power piece 45 to fix the battery core 40, so that the battery core 40 can be effectively fixed on a station, the accuracy of subsequent packaging in testing is improved, the structure is simple, and the use is convenient; full automation, more convenient to use can effectively improve electric core 40's machining efficiency.

In an alternative embodiment, a clamp support rod 46 is arranged on the clamp base 43, and one end of the swaging rod 44 is rotatably connected to one end of the clamp support rod 46 connected with the clamp base 43; one end of the pressing power part 45 is rotatably connected to one end of the pressing rod 44 far away from the clamp base 43, and the other end of the pressing power part is rotatably connected to the middle part of the pressing rod 44.

In this embodiment, the swaging rod 44 and the swaging power member 45 are respectively installed at two ends of the fixture supporting rod 46, and the swaging rod 44 can be effectively driven to rotate along one end of the fixture supporting rod 46 by the extension and retraction of the swaging power member 45, so as to complete swaging or loosening of the battery cell; is simple and convenient.

In an alternative embodiment, a pressing block 48 is rotatably connected to the end of the pressing rod 44 connected to the discharge table.

In this embodiment, the swaging block 48 can rotate along one end of the swaging rod 44, so that when the swaging block 48 contacts with the battery cell 40, the whole contact surface can be slowly crimped with the battery cell 40, thereby avoiding scratches on the surface of the battery cell and effectively protecting the battery cell.

In an optional embodiment, a material pressing limiting portion 431 for limiting the position of the material pressing rod 44 is arranged on the clamp base 43; the pressing limiting portion 431 is provided with a pressing limiting groove 4311 for accommodating the pressing rod 44.

In this embodiment, set up and press material spacing portion 431, be convenient for press material pole 44 to press the tight electric core 40 after, through the effect of pressing material spacing groove 4311, fix pressing material pole 44, avoid pressing material pole 44 to rock, effectively ensure the stability of pressing the material.

In an optional embodiment, the clamp base 43 is further provided with a tab fixing assembly, which includes a tab fixing power member 471 mounted on the clamp base 43, a tab fixing rod 472 mounted at an output end of the tab fixing power member 471, and a tab fixing arm 473 mounted on the tab fixing rod 472 and configured to be connected to the tab 401 of the electric core 40.

In this embodiment, the tab fixing arm 473 is arranged, so that the tab 401 of the electrical core 40 can be effectively fixed, and the tab 401 can be protected to prevent the tab 401 from being bent; and through the effect of the fixed power piece 471 of utmost point ear, can drive utmost point ear dead lever 472 to the direction motion of keeping away from utmost point ear 401 to make utmost point ear 401 and utmost point ear fixed arm 473 separate, be convenient for going on of follow-up test procedure.

In an alternative embodiment, the tab fixing bar 472 is provided with a fixing plate sliding groove 4721; the tab fixing arm 473 is slidable along the fixing plate sliding groove 4721. A fixing plate sliding groove 4721 is provided to enable adjustment of the distance of the paper of the tab fixing arm 473, thereby being suitable for different types of electric cores 40.

In an optional embodiment, the discharge table is provided with a plurality of cell fixing blocks 432; and the battery cell fixing block 432 is fixedly connected with the discharging table through a screw. Through adjusting the position of electric core fixed block 432, can effectively adjust the size of blowing platform for the blowing platform is applicable to the battery electricity core 40 without the model.

In an alternative embodiment, the stations are arranged in an annular array about the central axis of carousel 41. The rotating disc 41 is convenient to rotate, so that the battery cell 40 on the battery cell clamp 42 is subjected to different processes.

As shown in fig. 15 to 16, the invention provides a battery cell top side sealing device, which includes a packaging frame body 21, a packaging linear guide rail 22 mounted on the packaging frame body 21, a packaging slider 23 mounted on the packaging linear guide rail 22, a packaging mold mounted on the packaging slider 23, and a packaging power component 24 for driving the packaging slider 23 to move along the packaging linear guide rail 22 in a directional manner.

According to the invention, the packaging linear guide rail 22 is arranged on the packaging frame body 21, and the packaging power part 24 drives the packaging sliding block 23 to directionally move along the packaging linear guide rail 22, so that the packaging mold is driven to directionally move along the packaging linear guide rail 22, the packaging stability and accuracy can be effectively improved, and meanwhile, the structure is simple and is more convenient for a user to use.

In an alternative embodiment, the encapsulating linear guides 22 are provided in two groups; each group of the encapsulation linear guide rails 22 comprises two encapsulation linear guide rails 22 which are arranged in parallel; the two groups of packaging linear guide rails 22 are respectively installed on the packaging frame body 21. The packaging mold comprises an upper packaging mold and a lower packaging mold, which are respectively arranged on the two groups of packaging linear guide rails 22.

In this embodiment, through two sets of encapsulation linear guide 22 about setting up on encapsulation support body 21, can make the encapsulation mould on two sets of encapsulation linear guide 22 be relative motion under the effect of encapsulation power part 24, when needs carry out the top side seal, only need with both butts in electric core both sides, can encapsulate simple convenient to this electric core. Specifically, the power packaging part 24 adopts a servo motor.

In an alternative embodiment, the housing body 21 includes a first housing body 211 and a second housing body 212; the two sets of the encapsulation linear guide rails 22 are respectively mounted on the first encapsulation frame body 211 and the second encapsulation frame body 212. Dismantle into first encapsulation support body 211 and second encapsulation support body 212 with encapsulation support body 21, be convenient for go up encapsulation mould and encapsulation mould's nimble location installation down, it is simple convenient.

As shown in fig. 17 to 18, the invention provides a battery cell angle sealing device, which includes an angle sealing base 31, an angle sealing linear guide rail 32 installed on the angle sealing base 31, an angle sealing sliding block 33 installed on the angle sealing linear guide rail 32, an angle sealing mold 35 installed on the angle sealing sliding block 33, an angle sealing power component 34 for driving the angle sealing sliding block 33 to move along the angle sealing linear guide rail 32, and an angle sealing moving component for driving the angle sealing base 31 to perform two-dimensional movement on a horizontal plane.

According to the invention, the angular position sealing linear guide rail 32 is arranged on the angular position sealing base 31, and the angular position sealing power part 34 drives the angular position sealing slide block 33 to directionally move along the angular position sealing linear guide rail 32, so that the angular position sealing mould 35 is driven to directionally move along the angular position sealing linear guide rail 32, the stability and the accuracy of angular position sealing can be effectively improved, meanwhile, the structure is simple, the whole process is automatic, and the use by a user is more convenient; in addition, set up the angle and seal the removal subassembly, can adjust the position that the angle sealed mould 35 to be applicable to the angle of different size battery electricity cores and seal, effectively provide the practicality of angle position sealing device. In addition, set up the angle and seal linear guide 32, can effectively improve the stability that the slider 33 moved is sealed to the angle, it is more stable than the mode that has adopted the screw rod.

In an alternative embodiment, the corner sealing linear guide rails 32 are provided with two sets and are respectively provided with the corner sealing bases 31; and each group of angle position sealing linear guide rails 32 is provided with an angle position sealing mould 35. The corner position sealing mold 35 comprises an upper corner position sealing mold 35 and a lower corner position sealing mold 35; the upper corner position sealing mold 35 and the lower corner position sealing mold 35 are respectively installed on the two sets of corner position sealing linear guide rails 32.

In this embodiment, when needs carry out the corner position and seal, the corner position through upper and lower both ends seals power part 34 and drives corner position and seals slider 33 relative movement to drive the corner position and seal mould 35 relative movement to the both sides of battery electricity core with lower corner position, then carry out the butt, thereby accomplish the corner position to battery electricity core and seal, it is simple convenient.

In an optional embodiment, the corner seal moving assembly comprises a corner seal transverse moving assembly and a corner seal vertical moving assembly arranged on the corner seal transverse moving assembly. The horizontal position of the angle position sealing device is convenient to adjust.

In an alternative embodiment, the angular position seal lateral moving component includes an angular position seal lateral moving guide 361, an angular position seal lateral sliding block 362 mounted on the angular position seal lateral moving guide 361, and an angular position seal lateral power component for driving the angular position seal lateral sliding block 362 to move directionally along the angular position seal lateral moving guide 361. The angle position sealing vertical moving component comprises an angle position sealing vertical moving guide rail 371 arranged on the angle position sealing transverse sliding block 362, an angle position sealing vertical sliding block 372 arranged on the angle position sealing vertical moving guide rail 371 and an angle position sealing vertical power part for driving the angle position sealing vertical sliding block 372 to move directionally along the angle position sealing vertical moving guide rail 371; the angle position sealing base 31 is installed on the angle position sealing vertical sliding block 372.

In this embodiment, through the effect that the horizontal migration subassembly is sealed to the angle and the vertical removal is sealed to the angle, can effectively adjust the horizontal position of angle sealing device to make angle sealing device can encapsulate not unidimensional electric core, improve angle sealing device's practicality.

In an alternative embodiment, the corner seal lateral slide 362 is further provided with a corner seal retainer 38 at one end of the corner seal vertical moving guide 371. The limiting part 38 is arranged, so that the moving distance of the corner sealing vertical sliding block 372 on the corner sealing vertical moving guide rail 371 can be effectively limited, and the corner sealing vertical sliding block 372 is placed to fall out of the corner sealing vertical moving guide rail 371.

In an alternative embodiment, the angular position sealing mold 31 includes an angular position sealing base 351 and an angular position sealing head 352 mounted on the angular position sealing base 351; the angular sealing head 352 is provided with one or more. When the two corner sealing heads 352 are arranged, the two corners of the battery cell can be synchronously sealed, and the corner sealing efficiency is effectively improved.

In an optional embodiment, the cell packaging and coating all-in-one machine further comprises a cell detection device mounted on the frame, wherein the cell detection device comprises a detection base, a cell voltage tester mounted on the detection base, and a test arm, connected with the cell voltage tester, and used for driving the test arm to connect the test line with a tab of a cell; and the detection base is also provided with a detection power part for driving the test arm to move.

In this embodiment, when the battery cell is conveyed to the position of the battery cell detection device, the detection power component drives the detection arm to connect with the tab of the battery cell, and meanwhile, the tab fixing rod 472 can be driven to move in a direction away from the tab 401 under the action of the tab fixing power component 471, so that the tab 401 is separated from the tab fixing arm 473, and short circuit between the tabs is avoided; through electric core detection device's effect, can effectively discern whether the battery short circuit, it is simple convenient.

In the description herein, references to the description of the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and it is not to be understood that the specific embodiments of the present invention are limited to these descriptions. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement.

Claims (9)

1. A cell packaging and film-coating integrated machine is characterized by comprising a rack, and a cell feeding and conveying device, a cell top side sealing device, a cell angular position sealing device and a cell film-coating device which are respectively arranged on the rack; the battery cell film coating device comprises a film coating rack, and a film feeding mechanism, a film drawing mechanism, a film cutting mechanism, a film coating mechanism and a battery cell conveying mechanism which are respectively arranged on the film coating rack; the film coating mechanism comprises a film coating base arranged on the film coating frame, a film coating power part arranged on the film coating base and a film coating manipulator arranged at the output end of the film coating power part, and a film coating roller is arranged at one end of the film coating manipulator connected with a film; the film coating mechanism is at least provided with two groups and is arranged up and down.

2. The cell encapsulation and encapsulation all-in-one machine of claim 1, wherein the cell top side encapsulation device comprises an encapsulation frame body, an encapsulation linear guide rail arranged on the encapsulation frame body, an encapsulation slider arranged on the encapsulation linear guide rail, an encapsulation mold arranged on the encapsulation slider, and an encapsulation power component for driving the encapsulation slider to move directionally along the encapsulation linear guide rail.

3. The integrated machine for packaging and coating a battery cell of claim 1, wherein the film cutting mechanism comprises a film cutting base arranged on the coating frame, a film cutting power part arranged on the film cutting base, and a film cutting knife arranged at an output end of the film cutting power part; the film cutting base is provided with a through groove for the film to pass through.

4. The electric core packaging and film-coating integrated machine of claim 1, wherein the film pulling mechanism comprises a film pulling base arranged on the film coating frame, a film pulling power part arranged on the film pulling base, and a film pulling manipulator arranged at an output end of the film pulling power part.

5. The cell encapsulation and coating all-in-one machine of claim 1, wherein the cell conveying mechanism comprises a cell input assembly and a cell output assembly; the battery cell input assembly comprises a battery cell input manipulator; the battery cell output assembly comprises a battery cell output base, a battery cell output guide rail arranged on the battery cell output base, a battery cell output slide seat arranged on the battery cell output guide rail and a battery cell output mechanical arm arranged on the battery cell output slide seat.

6. The integrated electrical core packaging and encapsulating machine of claim 1, wherein the electrical core angular position sealing device comprises an angular position sealing base, an angular position sealing linear guide rail arranged on the angular position sealing base, an angular position sealing slide block arranged on the angular position sealing linear guide rail, an angular position sealing mold arranged on the angular position sealing slide block, an angular position sealing power component for driving the angular position sealing slide block to move along the angular position sealing linear guide rail, and an angular position sealing moving component for driving the angular position sealing base to move in two dimensions on a horizontal plane.

7. The integrated machine for encapsulating and coating the battery cell of claim 1, wherein the battery cell loading and conveying device comprises a battery cell clamp arranged on a station of the turntable and a conveying power part for driving the turntable to rotate; the electricity core anchor clamps include the anchor clamps base, install blowing platform, one end on the anchor clamps base and rotate the material pole of pressing that connects on the anchor clamps base and be used for driving the material pole of pressing and compress tightly or loosen the material power part of pressing of electricity core.

8. The integrated machine for packaging and coating a battery cell according to claim 1, wherein a coating guide rail is arranged on the coating base, and a coating slider is arranged between the coating manipulator and the coating guide rail.

9. The cell packaging and coating integrated machine of claim 1, further comprising a cell detection device mounted on the frame, wherein the cell detection device comprises a detection base, a cell voltage tester mounted on the detection base, and a test arm, connected to the cell voltage tester, for driving the test line to connect with a tab of the cell; and the detection base is also provided with a detection power part for driving the test arm to move.

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