CN217405501U - Cutting, folding and ironing integrated machine and battery cell processing equipment - Google Patents

Abstract

The application provides a cut book boiling hot all-in-one and electric core processing equipment. Foretell cut roll over scalds all-in-one includes side cut module, hem module, scalds limit module, frame and carries the module. Carry the module to include conveying platform and push away and keep off the mechanism, conveying platform is connected with the frame, transfer passage has been seted up to one side of conveying platform, the side cut module, the hem module is arranged along transfer passage with boiling hot limit module in proper order, and the side cut module, the hem module all corresponds the setting with transfer passage with boiling hot limit module, it includes fixed subassembly and sliding assembly to push away and keep off the mechanism, fixed subassembly keeps away the vacancy in transfer passage department formation joint with the relative setting of sliding assembly, fixed subassembly connects in conveying platform, sliding assembly and conveying platform sliding connection, sliding assembly slides towards the direction of keeping away from or being close to fixed subassembly, the vacancy is kept away to the joint is used for setting up electric core, fixed subassembly is used for containing one side butt of side banding with electric core. The cutting, folding and ironing integrated machine can ensure accurate positioning of the battery cell and has a simple structure.

Description

Cutting, folding and ironing integrated machine and battery cell processing equipment

Technical Field

The utility model relates to a battery processing technology field especially relates to a cut a book boiling hot all-in-one and electric core processing equipment.

Background

Because the need of the shape and size of the battery core requires the folding processing of the side seal edges at both sides of the battery core to meet the requirement of the appearance of the finished battery, the folding process of the side seal edges of the battery core generally comprises trimming, folding and hot pressing, generally, a manipulator is adopted to perform corresponding transfer of the battery core in the trimming, folding and hot pressing processes, and the manipulator is utilized to fix the battery core and sequentially perform trimming, folding and hot pressing on the side seal edges of the battery core, so that the control of the manipulator on the position of the battery core is related to the folding dimension of the side seal edges of the battery core, if the positioning precision of the manipulator is poor, the dimension deviation of the side seal edges of the battery core is large, namely, the problem that the side seal edge dimension of the battery core is too large exists, the shape and size of the battery core is influenced, the side seal edge folding edges of the battery core are easy to warp outward, and the aluminum plastic film at the folding edge of the side seal edges is broken, especially when hot pressing, if the positioning accuracy of manipulator is relatively poor and cause the location to electric core inaccurate, there is the problem that makes electric core by the hot pressing, then can cause electric core to be destroyed, greatly reduced the qualification rate of electric core, if make the removal positioning accuracy of manipulator better, and higher to the requirement of manipulator, greatly increased the structural complexity of the hem equipment of the side banding of electric core, and increased the hem cost of the side banding of electric core.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing one kind and can ensure electric core accurate positioning, and simple structure surely roll over boiling hot all-in-one and electric core processing equipment.

The purpose of the utility model is realized through the following technical scheme:

a cutting, folding and ironing all-in-one machine comprises:

an edge cutting module;

a flanging die set;

an edge ironing module;

the frame is respectively connected with the edge cutting module, the edge folding module and the edge ironing module;

the conveying module comprises a conveying platform and a pushing and blocking mechanism, the conveying platform is connected with the rack, a conveying channel is arranged on one side of the conveying platform, the edge cutting module, the edge folding module and the edge ironing module are sequentially arranged along the conveying channel, and the edge cutting module, the edge folding module and the edge ironing module are all arranged corresponding to the conveying channel, the pushing mechanism comprises a fixed component and a sliding component, the fixed component and the sliding component are oppositely arranged at the conveying channel to form a clamping and avoiding space, the fixed component is connected with the conveying platform, the sliding component is connected with the conveying platform in a sliding way, the sliding assembly slides towards the direction far away from or close to the fixing assembly, the joint clearance is used for setting the battery cell, and the fixing assembly is used for abutting against one side of the battery cell containing the side sealing edge.

In one embodiment, the conveying platform is further provided with a sliding hole, and the sliding hole is communicated with the conveying channel;

the sliding assembly comprises a sliding piece and a driving piece, the sliding piece and the fixing assembly are arranged relatively, the conveying channel is formed in the position of the clamping joint, the sliding piece is connected with the sliding hole in a sliding mode, the driving piece is connected with the rack, the power output end of the driving piece is connected with the sliding piece, and the driving piece drives the sliding piece to move away from or approach the direction of the fixing assembly to slide.

In one of them embodiment, the slider includes sliding part and transmission portion, the sliding part with fixed subassembly sets up relatively transfer passage department forms the vacancy is kept away to the joint, just the sliding part is located sliding hole department, transmission portion wears to locate the sliding hole and with the sliding part is connected, transmission portion with the power take off end of driving piece is connected, the driving piece drives the driving piece is towards keeping away from or being close to the direction slip of fixed subassembly.

In one embodiment, the conveying module further comprises a lifting mechanism, the lifting mechanism is connected with the rack in a sliding manner, the lifting mechanism is connected with the sliding assembly, and the lifting mechanism drives the sliding assembly to slide towards a direction away from or close to the conveying platform.

In one embodiment, the lifting mechanism comprises a lifting slide rail, a lifting slider and a power part, the lifting slide rail and the power part are connected with the rack, the lifting slide rail is connected with the lifting slider in a sliding manner, the lifting slider is connected with the sliding assembly, the lifting slider is connected with a power output end of the power part, and the power part drives the lifting slider to slide on the lifting slide rail in a direction away from or close to the conveying platform, so that the lifting slider drives the sliding assembly to slide in a direction away from or close to the conveying platform.

In one embodiment, the conveying module further includes an auxiliary sliding mechanism, the auxiliary sliding mechanism includes an auxiliary sliding rail and an auxiliary sliding block, the auxiliary sliding rail is connected to the lifting mechanism, the auxiliary sliding rail is connected to the auxiliary sliding block in a sliding manner, the auxiliary sliding block slides on the auxiliary sliding rail in a direction away from or close to the fixing assembly, and the auxiliary sliding block is connected to the sliding assembly.

In one embodiment, the number of the conveying modules is three, the three conveying platforms are sequentially arranged on the rack, and the three conveying platforms are respectively arranged in one-to-one correspondence with the trimming module, the flanging module and the edge ironing module.

In one embodiment, three conveying platforms are of an integrally formed structure.

In one embodiment, the securing assembly is a baffle.

In one embodiment, the securing assembly is removably coupled to the delivery platform.

In one embodiment, the cutting, folding and ironing integrated machine further comprises a shaping module, the shaping module is arranged corresponding to the conveying channel, and the trimming module, the flanging module, the ironing module and the shaping module are sequentially arranged along the conveying channel.

A battery core processing device comprises the cutting, folding and ironing integrated machine in any one of the embodiments.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses a cut a book boiling hot all-in-one, make the side cut module, the hem module is arranged along transfer passage with boiling hot limit module in proper order, and the side cut module, the hem module all corresponds the setting with transfer passage with boiling hot limit module, furthermore, make fixed subassembly and the relative setting of sliding assembly keep away the vacancy in transfer passage department formation joint, the vacancy is kept away to the joint is used for setting up electric core, fixed subassembly is used for containing one side butt of side banding with electric core, make sliding assembly to contain one side that the side banding was pushed to and fixed subassembly butt the location of having accomplished electric core with electric core of electric core, and then can realize the accurate positioning of the side banding of electric core through the position of the fixed subassembly of disposable single accurate control, moreover, the steam generator is simple in structure, the processing qualification rate of electric core has been ensured effectively and the processing cost of electric core has been reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a cutting, folding and ironing integrated machine according to an embodiment of the present invention;

FIG. 2 is a partial enlarged view of the cutting, folding and ironing integrated machine shown in FIG. 1 at A;

fig. 3 is a partial view of the cutting, folding and ironing all-in-one machine shown in fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The application provides a cut book boiling hot all-in-one. Foretell cut roll over scalds all-in-one includes side cut module, hem module, scalds limit module, frame and carries the module. The frame is connected with the trimming module, the flanging module and the edge ironing module respectively. Carry the module to include conveying platform and push away and keep off the mechanism, conveying platform is connected with the frame, transfer passage has been seted up to one side of conveying platform, the side cut module, the hem module is arranged along transfer passage with boiling hot limit module in proper order, and the side cut module, the hem module all corresponds the setting with transfer passage with boiling hot limit module, it includes fixed subassembly and sliding assembly to push away and keep off the mechanism, fixed subassembly keeps away the vacancy in transfer passage department formation joint with the relative setting of sliding assembly, fixed subassembly connects in conveying platform, sliding assembly and conveying platform sliding connection, sliding assembly slides towards the direction of keeping away from or being close to fixed subassembly, the vacancy is kept away to the joint is used for setting up electric core, fixed subassembly is used for containing one side butt of side banding with electric core.

Foretell cut a book boiling hot all-in-one, make the side cut module, the hem module is arranged along transfer passage with boiling hot limit module in proper order, and the side cut module, the hem module all corresponds the setting with transfer passage with boiling hot limit module, further, make fixed subassembly and the relative setting of slip subassembly form the joint in transfer passage department and keep away the vacancy, the joint is kept away the vacancy and is used for setting up electric core, fixed subassembly is used for containing one side butt of side banding with electric core, make the slip subassembly with the electric core that is in conveying platform contain one side of side banding push to the location that has accomplished electric core with fixed subassembly butt, and then can realize the accurate location of the side banding of electric core through the position of disposable single accurate control fixed subassembly, moreover, the steam generator is simple in structure, the processing qualification rate of electric core has been ensured effectively and the processing cost of electric core has been reduced.

For better understanding of the cutting, folding and ironing all-in-one machine of the present application, the cutting, folding and ironing all-in-one machine of the present application is further explained as follows:

referring to fig. 1, 2 and 3, a cutting, folding and ironing all-in-one machine 10 according to an embodiment includes a trimming module 100, a hemming module 200, an ironing module 300, a frame 400 and a conveying module 500. The frame 400 is connected to the trimming module 100, the hemming module 200, and the hemming module 300, respectively. Conveying module 500 includes conveying platform 510 and pushes away and keeps off mechanism 520, conveying platform 510 is connected with frame 400, conveying channel 501 has been seted up to one side of conveying platform 510, side cut module 100, hem module 200 and boiling hot limit module 300 are arranged along conveying channel 501 in proper order, and side cut module 100, hem module 200 and boiling hot limit module 300 all correspond the setting with conveying channel 501, it includes fixed subassembly 521 and sliding component 522 to push away fender mechanism 520, fixed subassembly 521 sets up relatively at conveying channel 501 department with sliding component 522 and forms the joint and keep away vacancy 523, fixed subassembly 521 connects in conveying platform 510, sliding component 522 and conveying platform 510 sliding connection, sliding component 521 slides towards the direction of keeping away from or being close to fixed subassembly 521, the joint keeps away vacancy 523 and is used for setting up the electric core, fixed subassembly is used for containing one side butt of side banding with the electric core.

The cutting, folding and ironing integrated machine 10 enables the trimming module 100, the hemming module 200 and the ironing module 300 to be arranged in sequence along the conveying channel 501, and the trimming module 100, the hemming module 200 and the ironing module 300 are disposed corresponding to the conveying passage 501, and further, the fixed component 521 and the sliding component 522 are oppositely arranged at the conveying channel 501 to form a clamping vacancy-avoiding position 523, the clamping vacancy-avoiding position 523 is used for arranging a battery cell, the fixed component 521 is used for abutting against one side of the battery cell with a side edge seal, so that the slide assembly 522 pushes the side of the cell containing the side sealing edge of the cell on the conveying platform 510 to abut against the fixing assembly 521 to complete the positioning of the cell, and then can realize the accurate positioning of the side seal of electric core through the position of disposable single accurate control fixed subassembly 521, simple structure has ensured the processing qualification rate of electric core effectively and has reduced the processing cost of electric core.

Referring to fig. 1, fig. 2 and fig. 3, in one embodiment, the conveying platform 510 further defines a slide hole 502, and the slide hole 502 is communicated with the conveying channel 501. Further, the sliding assembly 522 includes a sliding member 524 and a driving member 525, the sliding member 524 and the fixing assembly 521 are disposed opposite to each other at the conveying channel 501 to form a clamping avoidance space 523, the sliding member 524 is slidably connected to the conveying platform 510 at the sliding hole 502, the driving member 525 is connected to the frame 400, a power output end of the driving member 525 is connected to the sliding member 524, and the driving member 525 drives the sliding member 524 to slide in a direction away from or close to the fixing assembly 521. It can be understood that, make slider 524 in slide opening 502 department and conveying platform 510 sliding connection, driving piece 525 is connected with frame 400, the power take off end of driving piece 525 is connected with slider 524, driving piece 525 drives slider 524 and slides towards the direction of keeping away from or being close to fixed subassembly 521, that is to say, make driving piece 525 drive slider 524 slide in slide opening 502 on conveying platform 510, make slider 524 slide towards the direction of keeping away from or being close to fixed subassembly 521, realized better that contain one side butt on fixed subassembly 521 of side banding with the electric core, and then realized the accurate location of batch electric core simultaneously under the condition of once only having ensured the location accuracy of fixed subassembly 521 effectively, and then ensured the effective control of the hem size of electric core side banding effectively, improved the processing qualification rate of electric core.

Referring to fig. 1, fig. 2 and fig. 3, in one embodiment, the sliding member 524 includes a sliding portion 5241 and a transmission portion 5242, the sliding portion 5241 and the fixing component 521 are disposed opposite to each other at the conveying channel 501 to form a clamping space 523, the sliding portion 5241 is located at the sliding hole 502, the transmission portion 5242 is inserted into the sliding hole 502 and connected to the sliding portion 5241, the transmission portion 5242 is connected to the power output end of the driving component 525, and the driving component 525 drives the driving component 525 to slide in a direction away from or close to the fixing component 521. It can be understood that the sliding portion 5241 and the fixing component 521 are oppositely arranged at the conveying channel 501 to form the clamping space 523, and the sliding portion 5241 is located at the sliding hole 502, that is, the sliding portion 5241 slides at the sliding hole 502 on the conveying platform 510 to enable one side of the battery cell including the side sealing edge to abut against the fixing component 521, and the transmission portion 5242 is inserted into the sliding hole 502 and connected with the sliding portion 5241, the transmission portion 5242 is connected with the power output end of the driving member 525, and the driving member 525 drives the driving member 525 to slide in the direction away from or close to the fixing component 521, so that the stable sliding connection of the sliding portion 5241 at the sliding hole 502 of the conveying platform 510 is effectively achieved without adding any locking structure, that is, that the sliding stability of the sliding portion 5241 on the conveying platform 510 is effectively improved, and the transmission stability of the transmission portion 5242 on the conveying platform 510 is improved without adding any locking structure, the battery cell is favorable for the stability of the battery cell in the abutting on the fixing component 521, namely the structure of the cutting, folding and ironing integrated machine 10 is simplified under the condition that the stability of the battery cell in the abutting and fixing is ensured.

Referring to fig. 1, fig. 2 and fig. 3, in one embodiment, the conveying module 500 further includes a lifting mechanism 530, the lifting mechanism 530 is slidably connected to the frame 400, the lifting mechanism 530 is connected to the sliding element 522, and the lifting mechanism 530 drives the sliding element 522 to slide in a direction away from or close to the conveying platform 510. It can be understood that the thickness distribution range of a general battery cell is wide, when the thickness of the battery cell is large, if the sliding assembly 522 abuts only a small portion of the battery cell close to the conveying platform 510, especially only abuts against a rounded corner of the battery cell, the battery cell is easily caused to slip from the clamping clearance 523, and the folding edge size of the side sealing edge of the battery cell is further uncontrollable, and if the height of the sliding assembly 522 is increased, for the battery cell with a small thickness, the battery cell cannot be abutted and fixed, and further the folding edge size of the side sealing edge of the battery cell is also uncontrollable, and if the contact surface between the sliding assembly 522 and the battery cell is increased, even if the size of the sliding assembly 522 is increased to simultaneously realize the abutting and fixing of the battery cell with a large thickness range, the weight of the sliding assembly 522 is increased, and further the friction resistance of the sliding assembly 522 when the conveying platform 510 slides is large, then, the driving horsepower of the driving part 525 of the sliding assembly 522 is required to be increased, and if the driving horsepower of the driving assembly is increased, the impact on the battery cell is increased, and then the battery cell is easily damaged, and in order to reduce the damage of the battery cell, and in order to improve the butt fixing stability of the battery cell, in the present application, the lifting mechanism 530 is slidably connected to the rack 400, and the lifting mechanism 530 is connected to the sliding assembly 522, the lifting mechanism 530 drives the sliding assembly 522 to slide towards the direction away from or close to the conveying platform 510, so that the contact surface between the sliding assembly 522 and the battery cell is effectively smaller, and the condition that the sliding friction resistance between the sliding assembly 522 and the conveying platform 510 is smaller is realized, the butt fixing stability of the battery cell is ensured, and the damage of the battery cell is reduced, and further, the qualification rate of battery cell processing is improved.

Referring to fig. 1, fig. 2 and fig. 3, in one embodiment, the lifting mechanism 530 includes a lifting slide track 531, a lifting slider 532 and a power element (not shown), the lifting slide track 531 and the power element are both connected to the frame 400, the lifting slide track 531 is slidably connected to the lifting slider 532, the lifting slider 532 is connected to the sliding assembly 522, the lifting slider 532 is connected to a power output end of the power element, and the power element drives the lifting slider 532 to slide on the lifting slide track 531 toward a direction away from or close to the conveying platform 510, so that the lifting slider 532 drives the sliding assembly 522 to slide toward a direction away from or close to the conveying platform 510. It can be understood that, lift slide rail 531 and power spare all are connected with frame 400, and lift slide rail 531 and lift slider 532 sliding connection, lift slider 532 is connected with slip subassembly 522, and lift slider 532 is connected with the power take off end of power spare, even make slip subassembly 522 pass through lift slide rail 531 and lift slider 532 and be connected with frame 400, and then realized slip subassembly 522 towards keeping away from or being close to the direction slip of conveying platform 510 when making lift slider 532 take place relative movement on lift slide rail 531, and then the contact surface of slip subassembly 522 and electric core is less effectively, and realized the less condition of slip friction resistance of slip subassembly 522 and conveying platform 510, the butt fixed stability of electric core has been realized. It can also be understood that, make lift slide rail 531 and power spare all be connected with frame 400, and lift slide rail 531 and lift slider 532 sliding connection, lift slider 532 is connected with slip subassembly 522, and lift slider 532 is connected with the power take off of power spare, cooperate the mode that sets up of slip subassembly 522, cooperation sliding part 5241 is located slide opening 502 promptly, transmission part 5242 wears to locate slide opening 502 and is connected with sliding part 5241, transmission part 5242 is connected with the power take off of driving piece 525, driving piece 525 drives driving piece 525 and slides towards the direction of keeping away from or being close to fixed subassembly 521, effectively ensured cutting folding under the condition of scalding the structure of all-in-one 10, realized the lift slip or the translation slip stability of sliding part 522, and then realized the butt fixed stability to electric core.

Referring to fig. 1, fig. 2 and fig. 3, in one embodiment, the conveying module 500 further includes an auxiliary sliding mechanism 540, the auxiliary sliding mechanism 540 includes an auxiliary sliding rail 541 and an auxiliary sliding block 542, the auxiliary sliding rail 541 is connected to the lifting mechanism 530, the auxiliary sliding rail 541 is slidably connected to the auxiliary sliding block 542, the auxiliary sliding block 542 slides on the auxiliary sliding rail 541 in a direction away from or close to the fixing element 521, and the auxiliary sliding block 542 is connected to the sliding element 522. It can be understood, make supplementary slide rail 541 be connected with elevating system 530, supplementary slider 542 is connected with sliding assembly 522, and make supplementary slider 542 drive sliding assembly 522 on supplementary slide rail 541 and slide towards the direction of keeping away from or being close to fixed subassembly 521, be favorable to sliding assembly 522's slip, realized under the condition that has reduced the drive horsepower of driving piece 525, the stable slip of slider 524 has been ensured, and then the impact force that electric core received when the butt is fixed has been reduced, the butt fixed stability of electric core has been realized effectively, and the damage of electric core has been reduced effectively, and then the qualification rate of electric core processing has been improved.

In one embodiment, the number of the conveying modules is three, the three conveying platforms are sequentially arranged on the rack, and the three conveying platforms are respectively arranged in one-to-one correspondence with the edge cutting module, the edge folding module and the edge ironing module, so that the side edge sealing of the plurality of battery cells can be simultaneously and sequentially subjected to edge cutting, edge folding and edge ironing.

In one embodiment, the three transfer platforms are of one-piece construction. It can be understood that the three conveying platforms are of an integrally formed structure, so that the connection stability and the connection compactness of the three conveying platforms are effectively improved, and the conveying of the battery cell is facilitated.

In one of them embodiment, fixed subassembly is the baffle, has ensured the fixed stability of butt of electric core effectively.

In one embodiment, the securing assembly is removably connected to the delivery platform. It can be understood that, because the interval of the thickness of electric core is great, in order to realize the effective control of the hem size of the side banding of electric core, need to make electric core contain the side of side banding and the connecting portion and the fixed subassembly butt of this side banding, need to control the crossing portion of the adjacent both sides face of fixed subassembly and the connecting portion butt that the electric core contains the side of side banding and this side banding promptly, and then make the part of the side banding butt of fixed subassembly and electric core of control can realize the control of the hem size of the side banding of electric core, the control of the hem size of the side banding of electric core has been improved effectively, the processing qualification rate of electric core has been improved.

Referring to fig. 1, fig. 2 and fig. 3, in one embodiment, the cutting, folding and ironing all-in-one machine 10 further includes a shaping module 600, the shaping module 600 is disposed corresponding to the conveying channel 501, and the trimming module 100, the hemming module 200, the edge ironing module 300 and the shaping module 600 are sequentially arranged along the conveying channel 501, so as to further ensure the hemming flatness of the side sealing edges of the battery cells.

The application also provides a battery core processing device. The battery core processing equipment comprises the cutting, folding and ironing integrated machine in any one of the embodiments. Referring to fig. 1, fig. 2 and fig. 3, in the present embodiment, the cutting, folding and ironing all-in-one machine 10 includes a trimming module 100, a hemming module 200, an ironing module 300, a frame 400 and a conveying module 500. The frame 400 is connected to the trimming module 100, the hemming module 200, and the hemming module 300, respectively. Conveying module 500 includes conveying platform 510 and pushes away and keep off mechanism 520, conveying platform 510 is connected with frame 400, conveying channel 501 has been seted up to one side of conveying platform 510, side cut module 100, hem module 200 and boiling hot limit module 300 are arranged along conveying channel 501 in proper order, and side cut module 100, hem module 200 and boiling hot limit module 300 all correspond the setting with conveying channel 501, it includes fixed subassembly 521 and sliding component 522 to push away fender mechanism 520, fixed subassembly 521 sets up at conveying channel 501 department relatively with sliding component 522 and forms the joint and keep away vacancy 523, fixed subassembly 521 connects in conveying platform 510, sliding component 522 and conveying platform 510 sliding connection, sliding component 522 slides towards the direction of keeping away from or being close to fixed subassembly 521, the joint is kept away vacancy 523 and is used for setting up electric core, fixed subassembly 521 is used for containing the one side butt of side banding with electric core.

Foretell electric core processing equipment, adopted and cut a book boiling hot all-in-one 10 and carried out the hem to the side banding of electric core and handled, the effective control of the hem size of the side banding of electric core has been ensured effectively, that is to say, slide assembly 522 will be in the electric core of conveying platform 510 and contain one side of side banding and push away to the location of having accomplished electric core promptly with fixed subassembly 521 butt, and then can realize the accurate positioning of the side banding of electric core through the position of disposable single accurate control fixed subassembly 521, moreover, the steam generator is simple in structure, the processing qualification rate of the electric core of electric core processing equipment has been improved effectively and the processing cost of the electric core of electric core processing equipment has been reduced.

Compared with the prior art, the utility model discloses at least, following advantage has:

the cutting, folding and ironing integrated machine 10 of the utility model enables the trimming module 100, the flanging module 200 and the ironing module 300 to be arranged in sequence along the conveying channel 501, the trimming module 100, the hemming module 200, and the edge ironing module 300 are disposed corresponding to the conveying path 501, and further, the fixed component 521 and the sliding component 522 are oppositely arranged at the conveying channel 501 to form a clamping vacancy-avoiding position 523, the clamping vacancy-avoiding position 523 is used for arranging a battery cell, the fixed component 521 is used for abutting against one side of the battery cell with a side edge seal, so that the sliding assembly 522 pushes the side of the battery cell containing the side edge sealing edge at the conveying platform 510 to abut against the fixing assembly 521 to complete the positioning of the battery cell, and then can realize the accurate positioning of the side seal limit of electric core through the position of the fixed subassembly 521 of disposable single accurate control, simple structure has ensured the processing qualification rate of electric core effectively and has reduced the processing cost of electric core.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a cut a book boiling hot all-in-one which characterized in that includes:

a trimming module;

a flanging die set;

ironing the edge module;

the frame is respectively connected with the edge cutting module, the edge folding module and the edge ironing module;

the conveying module comprises a conveying platform and a pushing and blocking mechanism, the conveying platform is connected with the rack, a conveying channel is arranged on one side of the conveying platform, the edge cutting module, the edge folding module and the edge ironing module are sequentially arranged along the conveying channel, and the edge cutting module, the edge folding module and the edge ironing module are all arranged corresponding to the conveying channel, the pushing mechanism comprises a fixed component and a sliding component, the fixed component and the sliding component are oppositely arranged at the conveying channel to form a clamping and avoiding space, the fixed component is connected with the conveying platform, the sliding component is connected with the conveying platform in a sliding way, the sliding assembly slides towards the direction far away from or close to the fixing assembly, the joint clearance is used for setting the battery cell, and the fixing assembly is used for abutting against one side of the battery cell containing the side sealing edge.

2. The cutting, folding and ironing integrated machine according to claim 1, wherein the conveying platform is further provided with a sliding hole, and the sliding hole is communicated with the conveying channel;

the sliding assembly comprises a sliding piece and a driving piece, the sliding piece and the fixing assembly are arranged relatively, the conveying channel is formed in the position of the clamping joint, the sliding piece is connected with the sliding hole in a sliding mode, the driving piece is connected with the rack, the power output end of the driving piece is connected with the sliding piece, and the driving piece drives the sliding piece to move away from or approach the direction of the fixing assembly to slide.

3. The cutting, folding and ironing integrated machine as claimed in claim 2, wherein the sliding part comprises a sliding part and a transmission part, the sliding part and the fixing assembly are oppositely arranged at the conveying passage to form the clamping and vacancy avoiding position, the sliding part is located at the sliding hole, the transmission part penetrates through the sliding hole and is connected with the sliding part, the transmission part is connected with a power output end of the driving part, and the driving part drives the driving part to slide in a direction away from or close to the fixing assembly.

4. The cutting, folding and ironing integrated machine according to claim 1, wherein the conveying module further comprises a lifting mechanism, the lifting mechanism is connected with the rack in a sliding manner, the lifting mechanism is connected with the sliding assembly, and the lifting mechanism drives the sliding assembly to slide towards a direction away from or close to the conveying platform.

5. The cutting, folding and ironing integrated machine according to claim 4, wherein the lifting mechanism comprises a lifting slide rail, a lifting slide block and a power part, the lifting slide rail and the power part are connected with the rack, the lifting slide rail is connected with the lifting slide block in a sliding manner, the lifting slide block is connected with the sliding assembly, the lifting slide block is connected with a power output end of the power part, and the power part drives the lifting slide block to slide on the lifting slide rail in a direction away from or close to the conveying platform, so that the lifting slide block drives the sliding assembly to slide in a direction away from or close to the conveying platform.

6. The cutting, folding and ironing all-in-one machine according to claim 4, wherein the conveying module further comprises an auxiliary sliding mechanism, the auxiliary sliding mechanism comprises an auxiliary sliding rail and an auxiliary sliding block, the auxiliary sliding rail is connected with the lifting mechanism and is in sliding connection with the auxiliary sliding block, the auxiliary sliding block slides on the auxiliary sliding rail in a direction away from or close to the fixing assembly, and the auxiliary sliding block is connected with the sliding assembly.

7. The cutting, folding and ironing integrated machine according to claim 1, wherein the number of the conveying modules is three, the three conveying platforms are sequentially arranged on the frame, and the three conveying platforms are respectively arranged in one-to-one correspondence with the trimming module, the flanging module and the ironing module.

8. The cutting, folding and ironing integrated machine according to claim 7, wherein the three conveying platforms are of an integrally formed structure.

9. The cutting, folding and ironing integrated machine according to any one of claims 1-8, wherein the fixing component is a baffle; and/or the presence of a catalyst in the reaction mixture,

the fixed assembly is detachably connected with the conveying platform; and/or the presence of a catalyst in the reaction mixture,

the cutting, folding and ironing integrated machine further comprises a shaping module, the shaping module is arranged corresponding to the conveying channel, and the trimming module, the flanging module, the ironing module and the shaping module are sequentially arranged along the conveying channel.

10. The battery cell processing equipment is characterized by comprising the cutting, folding and ironing integrated machine as claimed in any one of claims 1 to 9.

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