CN116072951A - Blue membrane all-in-one of package - Google Patents

Abstract

The invention discloses a blue film wrapping all-in-one machine, which belongs to the technical field of battery processing and comprises a processing bin, a processing table, a blue film winding machine, a film pulling mechanism, a battery core conveying mechanism, a film wrapping mechanism, a film cutting mechanism, a detecting mechanism and a top die hot stamping mechanism.

Description

Blue membrane all-in-one of package

Technical Field

The invention relates to the technical field of battery processing, in particular to a blue film wrapping integrated machine.

Background

In battery production, one of them process is the blue membrane of package, and the purpose of blue membrane of package is in order to wrap whole soft packet of battery electric core, and makes it put on the coat and become a whole to protect electric core better in transportation and circulation, in order to reach dustproof, waterproof effect, also prepare for subsequent hot pressing encapsulation simultaneously.

Most of blue film wrapping equipment in the prior art is in a through type layout, occupies a large area, is inconvenient to operate, and meanwhile, when the battery cell is coated, manual equipment is mostly adopted to carry out discharging and receiving operations of a plurality of positions, so that the processing can be completed only by the combined force operation of a plurality of people, the operation is complex, and a large amount of labor force is consumed.

Disclosure of Invention

The embodiment of the invention provides a blue film wrapping integrated machine, which aims to solve the technical problems.

The embodiment of the invention adopts the following technical scheme: including processing storehouse, processing platform, blue membrane rolling machine, draw membrane mechanism, electric core conveying mechanism, diolame mechanism, cut membrane mechanism, detection mechanism and top mould and heat and scald the mechanism, processing platform sets up in processing storehouse, electric core conveying mechanism and diolame mechanism all set up on processing platform, blue membrane rolling machine is located the top of diolame mechanism, it sets up on the diolame mechanism to cut the membrane mechanism, it is located the below of processing platform to draw the membrane mechanism, detection mechanism and top mould heat all set up the side at electric core conveying mechanism to scald the mechanism.

Further, electric core conveying mechanism includes bottom plate, pay-off frame, pushes away work or material rest, locating piece and carries the lead screw slip table, the bottom plate mounting is on the processing bench, the pay-off frame is fixed to be set up on the bottom plate, and is equipped with a plurality of cylinders on the pay-off frame, it is located the top of pay-off frame to push away the work or material rest, and should push away the both sides of work or material rest and all with bottom plate sliding fit, the locating piece is fixed to be set up on pushing away the work or material rest, carry the lead screw slip table to install in one side of pushing away the work or material rest, and should carry the output of lead screw slip table and be fixed connection with pushing away the work or material rest.

Further, the side of locating piece is equipped with fixed subassembly, every fixed subassembly all includes dog, clamp splice and biax cylinder, dog and clamp splice set up respectively at the both ends of locating piece, and the dog is fixed connection with pushing away the work or material rest, biax cylinder is installed on pushing away the work or material rest, and the output and the clamp splice of this biax cylinder are fixed connection.

Further, the coating mechanism comprises a coating support frame, silica gel rollers, a coating screw sliding table, a support plate, a two-way sliding table and clamping jaws, wherein the coating support frame is arranged on the bottom plate, two adjusting cylinders are arranged on two sides of the coating support frame, the silica gel rollers are arranged in two groups, one group of silica gel rollers are rotatably arranged at the bottom end of the coating support frame, the other group of silica gel rollers are rotatably arranged between output ends of the two adjusting cylinders, the support plate is slidably arranged on the bottom plate, the coating screw sliding table is arranged on the bottom plate, the output end of the coating screw sliding table is fixedly connected with the support plate, the clamping jaws are arranged on two sides, which are symmetrically arranged on the support plate and are close to the coating support frame, the two-way sliding table is arranged on the support plate, and the two output ends of the two-way sliding table are fixedly connected with the two clamping jaws respectively.

Further, the both sides of two-way slip table all are equipped with minor face coating subassembly, every the minor face coating subassembly all includes cutting drive cylinder, alignment jig, blade, coating cylinder, gyro wheel frame and minor face gyro wheel, cutting drive cylinder installs on the bottom plate and is located one side of two-way slip table, the alignment jig is fixed to be set up on cutting drive cylinder's output, the blade is equipped with two and symmetrical the installing on the alignment jig, the coating cylinder is installed in the backup pad, the gyro wheel frame is fixed to be set up on the output of coating cylinder, the minor face gyro wheel rotates and sets up on the gyro wheel frame.

Further, be equipped with two sets of hem subassemblies between two-way slip table and the diolame support frame, two sets of hem subassemblies are the symmetry setting, and every group hem subassembly all includes upper flap, lower flap, hem assembly jig and hem cylinder, upper flap and lower flap are the symmetry setting, and upper flap and lower flap are fixed connection with blue membrane rolling machine and bottom plate respectively, the hem cylinder is equipped with two and installs respectively on upper flap and lower flap, and the output of two hem cylinders is the setting in opposite directions, the hem assembly jig also is equipped with two and fixes the setting respectively on the output of two hem cylinders, every all fixedly on the hem assembly jig be provided with the hem square roll.

Further, the surface of the silica gel roller is in a drum shape.

Further, a hot air gun is arranged between the blue film winding machine and the film coating mechanism.

The above at least one technical scheme adopted by the embodiment of the invention can achieve the following beneficial effects:

firstly, a battery core can be conveyed to a coating mechanism through a battery core conveying mechanism, a blue film is wrapped on the surface of the battery core through the coating mechanism, after the battery core is wrapped by the blue film, a film cutting mechanism cuts off the blue film between a blue film winding machine and the battery core, then the battery core with the blue film wrapped is retracted to the battery core conveying mechanism through the coating mechanism, at the moment, the battery core is placed on a detection mechanism and matched with the detection mechanism and a top mold hot stamping mechanism to carry out top film coating heat sealing and automatic quality detection on the battery core;

the invention can realize the automatic blue film coating and detection process of the battery core, has compact overall structure layout, small occupied area and convenient operation, and can avoid the condition that the operation can be completed by adopting the manual equipment in the prior art through the cooperation of multiple persons by adopting the battery core film coating mode of entering and exiting at the same position, thereby effectively saving labor force.

Secondly, the surface of the silica gel roller is in a drum shape, most of industries adopt cylindrical silica gel rollers, bubbles are easy to occur during coating, and bubbles can be prevented from occurring in the coating process by arranging the surface of the silica gel roller in a drum shape, so that the coating quality of the battery cell can be effectively improved.

Thirdly, a hot air gun is arranged between the blue film winding machine and the film coating mechanism, most of the industry uses a normal temperature mode, if the non-setting adhesiveness of the blue film is insufficient, risks of easy degumming, bubble occurrence and the like exist, the blue film can be heated through the arranged hot air gun, so that the adhesiveness of the non-setting adhesive is improved, and the battery cell is more easily adhered.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic perspective view of a cell conveying mechanism according to the present invention;

FIG. 4 is a schematic perspective view of a fixing assembly according to the present invention;

FIG. 5 is a schematic perspective view of a coating mechanism according to the present invention;

FIG. 6 is a schematic perspective view of a short-side envelope assembly according to the present invention;

FIG. 7 is a schematic diagram showing a second perspective view of a short-side envelope assembly according to the present invention;

FIG. 8 is a schematic view of a partial structure of the present invention;

fig. 9 is a schematic perspective view of a hemming assembly according to the present invention.

Reference numerals

The film forming machine comprises a processing bin 1, a processing table 2, a blue film winding machine 3, a film pulling mechanism 4, a battery core conveying mechanism 5, a bottom plate 51, a feeding frame 52, a material pushing frame 53, a positioning block 54, a conveying screw sliding table 55, a fixing component 56, a stop 561, a clamping block 562, a double-shaft air cylinder 563, a film coating mechanism 6, a film coating supporting frame 61, a silica gel roller 62, a film coating screw sliding table 63, a supporting plate 64, a double-direction sliding table 65, a clamping jaw 66, an adjusting air cylinder 67, a short-side film coating component 68, a cutting driving air cylinder 681, an adjusting frame 682, a blade 683, a film coating air cylinder 684, a roller frame 685, a short-side roller 686, a folding component 69, an upper folding plate 691, a lower folding plate 692, a folding assembly frame 693, a folding air cylinder 694, a folding square roller 695, a film cutting mechanism 7, a detecting mechanism 8 and a top mold hot stamping mechanism 9.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present invention and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The following describes in detail the technical solutions provided by the embodiments of the present invention with reference to the accompanying drawings.

The embodiment of the invention provides a blue film wrapping integrated machine, which comprises a processing bin 1, a processing table 2, a blue film winding machine 3, a film pulling mechanism 4, a battery core conveying mechanism 5, a film wrapping mechanism 6, a film cutting mechanism 7, a detection mechanism 8 and a top die ironing mechanism 9, wherein the processing table 2 is arranged in the processing bin 1, the battery core conveying mechanism 5 and the film wrapping mechanism 6 are both arranged on the processing table 2, the blue film winding machine 3 is positioned above the film wrapping mechanism 6, the film cutting mechanism 7 is arranged on the film wrapping mechanism 6, the film pulling mechanism 4 is positioned below the processing table 2, the detection mechanism 8 and the top die ironing mechanism 9 are both arranged at the side ends of the battery core conveying mechanism 5,

when the film pulling device is used, a blue film on the blue film winding machine 3 passes through the processing table 2 to be pulled towards the film pulling mechanism 4, one end of the blue film is fixed on the film pulling mechanism 4, then the battery core is transversely placed on the battery core conveying mechanism 5 and the bottom end of the battery core faces the film coating mechanism 6, then the battery core conveying mechanism 5 is started to drive the battery core to move towards the film coating mechanism 6, when the battery core moves, the bottom end of the battery core contacts with the blue film and drives the blue film to synchronously move towards the film coating mechanism 6, the film coating mechanism 6 clamps the battery core with the bottom covered with the blue film, and drags the battery core to continuously move, at the moment, the blue film is gradually wrapped with the surface of the battery core under the interaction of the film coating mechanism 6 and the blue film winding machine 3, the film cutting mechanism 7 immediately cuts the wrapped blue film with the battery core, and after the battery core is completely coated with the blue film, the film coating mechanism 6 is started to transfer the battery core to the battery core conveying mechanism 5, so that the material returning process of the battery core is completed;

and finally, placing the battery cell wrapped with the blue film on a detection mechanism 8, installing a protective film on the top end of the battery cell, and finally, carrying out heat sealing processing and automatic quality detection on the top end protective film of the battery cell through the detection mechanism 8 and a top mold blanching mechanism 9.

Preferably, the electric core conveying mechanism 5 includes a bottom plate 51, a feeding frame 52, a pushing frame 53, a positioning block 54 and a conveying screw sliding table 55, the bottom plate 51 is installed on the processing table 2, the feeding frame 52 is fixedly arranged on the bottom plate 51, a plurality of rollers are arranged on the feeding frame 52, the pushing frame 53 is located above the feeding frame 52, both sides of the pushing frame 53 are in sliding fit with the bottom plate 51, the positioning block 54 is fixedly arranged on the pushing frame 53, the conveying screw sliding table 55 is installed on one side of the pushing frame 53, and an output end of the conveying screw sliding table 55 is fixedly connected with the pushing frame 53.

Preferably, the side ends of the positioning block 54 are provided with fixing assemblies 56, each fixing assembly 56 comprises a stop block 561, a clamping block 562 and a double-shaft air cylinder 563, the stop blocks 561 and the clamping blocks 562 are respectively arranged at two ends of the positioning block 54, the stop blocks 561 are fixedly connected with the pushing frame 53, the double-shaft air cylinders 563 are arranged on the pushing frame 53, the output ends of the double-shaft air cylinders 563 are fixedly connected with the clamping blocks 562, when a battery cell needs to be coated with a blue film, the battery cell can be transversely placed on a plurality of rollers, the bottom end of the battery cell faces the coating mechanism 6, then the top end of the battery cell is aligned with the positioning block 54, meanwhile, one side, close to the top end, of the battery cell is close to the stop blocks 561, the double-shaft air cylinders 563 are started to drive the clamping blocks 562 to clamp the other side, close to the top end, and then the conveying screw sliding table 55 is started to drive the pushing frame 53 to move towards the coating mechanism 6, so that the positioning block 54 is driven to push the battery cell towards the inside of the coating mechanism 6.

Preferably, the coating mechanism 6 includes a coating support frame 61, silica gel rollers 62, a coating screw sliding table 63, a support plate 64, a bidirectional sliding table 65 and clamping jaws 66, the coating support frame 61 is installed on the bottom plate 51, two sides of the coating support frame 61 are respectively provided with an adjusting cylinder 67, the silica gel rollers 62 are provided with two groups, one group of silica gel rollers 62 are rotatably arranged at the bottom end of the coating support frame 61, the other group of silica gel rollers 62 are rotatably arranged between output ends of the two adjusting cylinders 67, the support plate 64 is slidably arranged on the bottom plate 51, the coating screw sliding table 63 is installed on the bottom plate 51, the output end of the coating screw sliding table 63 is fixedly connected with the support plate 64, the clamping jaws 66 are provided with two and symmetrically arranged on one side, close to the coating support frame 61, of the bidirectional sliding table 65 is installed on the support plate 64, and the two output ends of the bidirectional sliding table 65 are fixedly connected with the two clamping jaws 66 respectively.

Preferably, the two sides of the bidirectional sliding table 65 are respectively provided with a short-side film coating assembly 68, each short-side film coating assembly 68 comprises a cutting driving cylinder 681, an adjusting frame 682, a blade 683, a film coating cylinder 684, a roller frame 685 and a short-side roller 686, the cutting driving cylinder 681 is installed on the bottom plate 51 and located at one side of the bidirectional sliding table 65, the adjusting frame 682 is fixedly arranged at the output end of the cutting driving cylinder 681, the blades 683 are provided with two blades and symmetrically installed on the adjusting frame 682, the film coating cylinder 684 is installed on the supporting plate 64, the roller frame 685 is fixedly arranged at the output end of the film coating cylinder 684, and the short-side roller 686 is rotatably arranged on the roller frame 685.

Preferably, two sets of edge folding assemblies 69 are arranged between the bidirectional sliding table 65 and the film coating supporting frame 61, the two sets of edge folding assemblies 69 are symmetrically arranged, each set of edge folding assemblies 69 comprises an upper folded plate 691, a lower folded plate 692, an edge folding assembly rack 693 and an edge folding cylinder 694, the upper folded plate 691 and the lower folded plate 692 are symmetrically arranged, the upper folded plate 691 and the lower folded plate 692 are respectively and fixedly connected with the blue film winding machine 3 and the bottom plate 51, the edge folding cylinders 694 are provided with two edge folding cylinders 691 and the lower folded plate 692, the output ends of the two edge folding cylinders 694 are oppositely arranged, the edge folding assembly rack 693 is also provided with two edge folding square rollers 695 respectively and fixedly arranged on the output ends of the two edge folding cylinders 694, each edge folding assembly rack 693 is fixedly provided with edge folding square rollers 695,

when the positioning block 54 pushes the battery cell to the inside of the coating support frame 61, the bottom end of the battery cell is contacted with the blue film, and along with the continuous movement of the battery cell, the two sides of the battery cell can drive the blue film to gradually contact with the two groups of silica gel rollers 62, at this time, the two groups of silica gel rollers 62 wrap the blue film along the surface of the battery cell and towards the top end direction of the battery cell, then the coating screw sliding table 63 is started again to drive the support plate 64 to move towards the direction of the positioning block 54, so that the two clamping jaws 66 can be just positioned at the two sides of the battery cell, then the two clamping jaws 66 are driven to move towards each other and clamp and fix the battery cell, at this time, the coating screw sliding table 63 is started again to drive the support plate 64 to retract, so that the two clamping jaws 66 drive the battery cell to continuously move backwards, and the two groups of silica gel rollers 62 are matched to wrap the blue film on the upper surface and the lower surface of the battery cell, and then the blue film at the top end part of the battery cell is cut off through the film cutting mechanism 7;

after the battery cell is wrapped by the primary blue film, the blue film in the two short side directions of the battery cell extends out of the redundant parts, at this time, a cutting driving cylinder 681 in all short side film wrapping assemblies 68 is started to drive two corresponding blades 683 on an adjusting frame 682 to cut the blue film extending out of the two short side directions of the battery cell, so that the blue film extending out of the two short side directions of the battery cell is divided into three bendable sheet bodies, and then each film wrapping cylinder 684 is started to drive a corresponding short side roller 686 on the roller frame 685 to move towards the battery cell, and the corresponding short side roller 686 wraps the blue film sheet bodies with smaller volumes at two sides of the bottom end of the battery cell to two short side sides of the battery cell;

after the two blue film pieces with smaller volumes in the short side directions of the battery cell are wrapped, each wrapping cylinder 684 can be driven again to drive the corresponding short side roller 686 on the roller frame 685 to return and far away from the battery cell, the corresponding folding cylinder 694 on each upper folded plate 691 is started again to drive the corresponding folding square roller 695 on the folding assembly frame 693 to push and wrap the blue film pieces extending in the two short side directions of the battery cell downwards on the surface of the battery cell, then the folding cylinder 694 on each upper folded plate 691 is started again to drive the folding assembly frame 693 to return, at this time, the folding cylinder 694 on each lower folded plate 692 is started again to drive the corresponding folding square roller 695 on the folding assembly frame 693 to push and wrap the blue film pieces extending in the two short side directions of the battery cell upwards on the surface of the battery cell, so as to complete the blue film wrapping processing process of the whole battery cell, and finally the wrapping screw 63 is started again to drive the supporting plate 64 to move towards the pushing frame 53, so that the two clamping jaws 66 can complete the transfer of the blue film to the battery cell again.

Preferably, the surface of the silica gel roller 62 is configured in a drum shape.

Preferably, a heat gun is arranged between the blue film winding machine 3 and the film coating mechanism 6, and the blue film can be heated through the arranged heat gun.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are to be included in the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a package blue membrane all-in-one, its characterized in that, including processing storehouse (1), processing platform (2), blue membrane rolling machine (3), draw membrane mechanism (4), electric core conveying mechanism (5), diolame mechanism (6), cut membrane mechanism (7), detection mechanism (8) and top mould scalding mechanism (9), processing platform (2) set up in processing storehouse (1), electric core conveying mechanism (5) and diolame mechanism (6) all set up on processing platform (2), blue membrane rolling machine (3) are located the top of diolame mechanism (6), cut membrane mechanism (7) set up on diolame mechanism (6), draw membrane mechanism (4) to be located the below of processing platform (2), detection mechanism (8) and top mould scalding mechanism (9) all set up the side at electric core conveying mechanism (5).

2. The blue film packaging integrated machine according to claim 1, wherein the electric core conveying mechanism (5) comprises a bottom plate (51), a feeding frame (52), a pushing frame (53), a positioning block (54) and a conveying screw rod sliding table (55), the bottom plate (51) is installed on the processing table (2), the feeding frame (52) is fixedly arranged on the bottom plate (51), a plurality of rollers are arranged on the feeding frame (52), the pushing frame (53) is located above the feeding frame (52), two sides of the pushing frame (53) are in sliding fit with the bottom plate (51), the positioning block (54) is fixedly arranged on the pushing frame (53), the conveying screw rod sliding table (55) is installed on one side of the pushing frame (53), and an output end of the conveying screw rod sliding table (55) is fixedly connected with the pushing frame (53).

3. The blue film wrapping all-in-one machine according to claim 2, wherein the side end of the positioning block (54) is provided with a fixing component (56), each fixing component (56) comprises a stop block (561), a clamping block (562) and a double-shaft air cylinder (563), the stop blocks (561) and the clamping blocks (562) are respectively arranged at two ends of the positioning block (54), the stop blocks (561) are fixedly connected with the pushing frame (53), the double-shaft air cylinders (563) are arranged on the pushing frame (53), and the output ends of the double-shaft air cylinders (563) are fixedly connected with the clamping blocks (562).

4. The film coating all-in-one machine according to claim 2, wherein the film coating mechanism (6) comprises a film coating support frame (61), a silica gel roller (62), a film coating screw sliding table (63), a support plate (64), a bidirectional sliding table (65) and clamping jaws (66), the film coating support frame (61) is installed on the bottom plate (51), two sides of the film coating support frame (61) are respectively provided with an adjusting cylinder (67), the silica gel roller (62) is provided with two groups, one group of silica gel rollers (62) is rotationally arranged at the bottom end of the film coating support frame (61), the other group of silica gel rollers (62) is rotationally arranged between the output ends of the two adjusting cylinders (67), the support plate (64) is slidingly arranged on the bottom plate (51), the film coating screw sliding table (63) is installed on the bottom plate (51), the output ends of the film coating screw sliding table (63) are fixedly connected with the support plate (64), the two clamping jaws (66) are symmetrically arranged on one side, close to the film coating support frame (61), and the bidirectional sliding table (65) is installed on the support plate (64), and the two output ends of the two clamping jaws (65) are fixedly connected with the two clamping jaws (66).

5. The blue film coating all-in-one machine according to claim 4, wherein two sides of the bidirectional sliding table (65) are respectively provided with a short side coating assembly (68), each short side coating assembly (68) comprises a cutting driving cylinder (681), an adjusting frame (682), a blade (683), a coating cylinder (684), a roller frame (685) and a short side roller (686), the cutting driving cylinder (681) is installed on the bottom plate (51) and located at one side of the bidirectional sliding table (65), the adjusting frame (682) is fixedly arranged on the output end of the cutting driving cylinder (681), the blade (683) is provided with two symmetrically installed on the adjusting frame (682), the coating cylinder (684) is installed on the supporting plate (64), the roller frame (685) is fixedly arranged on the output end of the coating cylinder (684), and the short side roller (686) is rotatably arranged on the roller frame (685).

6. The blue film wrapping integrated machine according to claim 4, characterized in that two sets of edge folding assemblies (69) are arranged between the two-way sliding table (65) and the film wrapping supporting frame (61), the two sets of edge folding assemblies (69) are symmetrically arranged, each set of edge folding assemblies (69) comprises an upper folded plate (691), a lower folded plate (692), an edge folding assembly frame (693) and an edge folding air cylinder (694), the upper folded plate (691) and the lower folded plate (692) are symmetrically arranged, the upper folded plate (691) and the lower folded plate (692) are respectively fixedly connected with the blue film winding machine (3) and the bottom plate (51), the edge folding air cylinders (694) are provided with two edge folding rolling cylinders and are respectively arranged on the upper folded plate (691) and the lower folded plate (692), the output ends of the two edge folding air cylinders (694) are oppositely arranged, and the edge folding assembly frame (693) is also provided with two edge folding rolling cylinders (694) respectively fixedly arranged on the output ends of the two edge folding air cylinders (694), and each edge folding assembly frame (693) is fixedly provided with an edge folding rolling plate (695).

7. The blue film all-in-one machine according to claim 4, wherein the surface of the silica gel roller (62) is in a drum shape.

8. The blue film wrapping integrated machine according to claim 1, wherein a heat gun is arranged between the blue film winding machine (3) and the film wrapping mechanism (6).

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