CN218476792U - Membrane area processing apparatus and battery string equipment - Google Patents

Abstract

The utility model provides a membrane area processing apparatus and battery cluster equipment, membrane area processing apparatus include membrane area feed mechanism, cut and bear the weight of the mechanism and cut the mechanism, wherein: the film tape feeding mechanism feeds the film tape to be cut to the cutting bearing mechanism along a first horizontal direction; the cutting and bearing mechanism comprises a guide part and a plurality of film tape adsorption plates, wherein the film tape adsorption plates are arranged side by side and extend along a second horizontal direction perpendicular to the first horizontal direction; the guide part is used for guiding the film tapes onto the film tape adsorption plates, and the film tape adsorption plates are used for adsorbing the film tapes; the cutting mechanism is arranged above the film strip adsorption plates and configured to cut the film strips along gaps between the adjacent film strip adsorption plates. The utility model discloses a membrane area processing apparatus, it cuts and bears the weight of the mechanism and comprises a plurality of membrane area adsorption plates, cuts the mechanism and cuts the membrane area along the gap between each adjacent membrane area adsorption plate, and the action is cut once carrying out, can obtain many membrane strips to promote and cut membrane efficiency.

Description

Membrane area processing apparatus and battery string equipment

Technical Field

The utility model belongs to the technical field of battery production and specifically relates to a membrane area processing apparatus and battery string equipment.

Background

The battery pieces are welded into a string by the welding strips, and finally laminated to form the battery assembly through a series of post-treatment processes. In the process, the superposed position of the battery piece and the welding strip in the battery string is easy to crack and damage in the production process. In order to protect the battery pieces, a cut film strip with a preset width is put on the adjacent battery pieces, and then the battery string after the film strip is put on is heated to realize the melting and solidification of the film strip.

The traditional film tape cutting is generally finished manually, and the manual cutting has the obvious defect of low efficiency. In view of this, film tape cutting devices have been used in the industry to automatically cut film tapes into film strips. The cutting process of the film tape cutting device is approximately, the film tape to be cut is sent to the cutting bearing plate, and then the cutting mechanism is controlled to be pressed downwards to the cutting bearing plate so as to cut the film tape. The existing film strip cutting device cuts one film strip from the film strip every time, the film cutting efficiency is low, and the film strip batch supply in the production process is not facilitated.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an aspect provides a membrane area processing apparatus, its concrete technical scheme as follows:

the utility model provides a membrane area processing apparatus, includes membrane area feed mechanism, cuts and bears the weight of the mechanism and cut the mechanism, wherein:

the film tape feeding mechanism is arranged in the front of the cutting bearing mechanism and is configured to feed the film tape to be cut to the cutting bearing mechanism along a first horizontal direction;

the cutting and bearing mechanism comprises a guide part and a plurality of film tape adsorption plates, wherein the film tape adsorption plates are arranged side by side and extend along a second horizontal direction perpendicular to the first horizontal direction; the guide part is used for guiding the film tapes fed by the film tape feeding mechanism to the film tape adsorption plates, and the film tape adsorption plates are used for adsorbing the film tapes;

the cutting mechanism is arranged above the film belt adsorption plates and is configured to cut the film belts along gaps between the adjacent film belt adsorption plates, and after the cutting mechanism finishes cutting the film belts, the film belts are correspondingly adsorbed on the film belt adsorption plates.

It can be seen that, the utility model discloses a membrane area processing apparatus, it cuts and bears the weight of the mechanism and comprises a plurality of membrane area adsorption plates, cuts the mechanism and cuts the membrane area along the gap between each adjacent membrane area adsorption plate, and the action is cut once carrying out, can obtain many membrane strips to promote and cut membrane efficiency. In particular, the film strip to be cut enters the film strip adsorption plates under the guidance of the guide part, and the end parts of the film strip are prevented from being clamped at the gaps between the adjacent film strip adsorption plates.

In some embodiments, a groove is arranged at a corresponding position of each film strip adsorption plate; the guide part comprises a guide rod extending along a first horizontal direction, the guide rod is arranged at a groove corresponding to each film strip adsorption plate, and the guide rod is configured to lift between a support high position and an avoidance low position; when the guide rod rises to the support high position, the film belt is guided, and the guide rod falls to the avoidance low position and enters the groove.

The utility model provides a simple structure, the convenient guide part of control, it rises in order to implement the direction to the film tape through the control guide bar in the recess of film tape adsorption plate to and shift the film tape to the film tape adsorption plate, descend in the recess of film tape adsorption plate through the control guide bar and realize dodging the film tape and cut.

In some embodiments, the cutting and carrying mechanism further comprises a guide rod lifting driving assembly, one end of the guide rod is connected to a driving end of the guide rod lifting driving assembly, and the guide rod lifting driving assembly is used for driving the guide rod to lift.

Through setting up guide bar lift drive assembly, realized the lift drive to the guide bar.

In some embodiments, the cutting and carrying mechanism further comprises a spacing mechanism for driving the film strip suction plates apart to adjust the spacing between the cut film strips sucked on the film strip suction plates to a predetermined value.

Through setting up the minute distance mechanism, realized the minute distance to the membrane strip to make and separate completely between the adjacent membrane strip, prevent to produce the adhesion between the membrane strip.

In some embodiments, the spacing mechanism comprises a sliding guide mechanism and an adsorption plate drive assembly, wherein: among the film tape adsorption plates, the film tape adsorption plate closest to the film tape feeding mechanism is limited at a preset position of the sliding guide mechanism, the other film tape adsorption plates are connected to the sliding guide mechanism in a sliding manner, and the adjacent film tape adsorption plates are connected through a connecting piece; the drive end of the adsorption plate drive assembly is connected with the film belt adsorption plate farthest from the film belt feeding mechanism, and the adsorption plate drive assembly is used for driving the film belt adsorption plate farthest from the film belt feeding mechanism to slide along the sliding guide mechanism, so that the plurality of film belt adsorption plates are driven to be separated.

Through will dividing apart from the mechanism setting to including slide guide mechanism and adsorption plate drive assembly to set up the mounting means of film tape adsorption plate, realized, only need the drive to slide along slide guide mechanism apart from the film tape adsorption plate that film tape feed mechanism is farthest, can drive all film tape adsorption plates separately, thereby realize the interval adjustment between the membrane strip.

In some embodiments, the film strip processing apparatus further comprises a position adjusting mechanism, the cutting mechanism is connected to a driving end of the position adjusting mechanism, and the position adjusting mechanism is used for driving the cutting mechanism to translate and/or lift.

The film belt cutting mechanism is arranged on the position adjusting mechanism, and the cutting bearing mechanism can be adjusted to a cutting position, so that the film belt feeding mechanism can accurately feed the film belt to the cutting bearing mechanism, and the cutting mechanism can smoothly complete the film belt cutting action. In addition, after the film strip is cut, the cutting bearing mechanism is controlled to move to the position of the blanking position far away from the cutting mechanism, so that the blanking of the film strip is facilitated.

In some embodiments, the cutting mechanism comprises a moving mechanism and a cutter, wherein: the cutter is connected at moving mechanism's drive end, and moving mechanism is used for driving the cutter and removes for the cutter cuts the film tape along the gap between the adjacent film tape adsorption plate.

The moving mechanism drives the cutter to cut the film strips along the gaps between the adjacent film strip adsorption plates, so that the film strips are smoothly cut off.

In some embodiments, the cutting mechanism further comprises a film strip pressing mechanism arranged below the cutter, and the film strip pressing mechanism is used for pressing the film strip onto the film strip adsorption plates before the cutter cuts the film strip.

In the cutting process, the film belt is pressed through the film belt pressing mechanism, so that the film belt can be prevented from shifting in the cutting process, and the edge of the cut film strip is ensured to be neat.

In some embodiments, the film strip pressing mechanism comprises a plurality of pressing strips which are arranged side by side and correspond to the film strip adsorption plates one by one, each pressing strip is used for pressing the film strip onto the corresponding film strip adsorption plate, and a cutting gap for the cutter to penetrate through is formed between every two adjacent pressing strips; or the film tape pressing mechanism comprises a pressing plate, the pressing plate is used for pressing the film tape to the film tape adsorption plates, and a plurality of cutting seams for the cutter to penetrate through are formed in the pressing plate.

Through setting up the film tape hold-down mechanism, can guarantee the effect that compresses tightly of film tape hold-down mechanism to the film tape on the one hand, and can implement dodging to the cutter for the cutter can be implemented smoothly and cut the film tape that the film tape hold-down mechanism compressed tightly.

The utility model also provides a battery bunching equipment, it includes above-mentioned arbitrary membrane area processing apparatus, and battery bunching equipment still includes battery piece loading attachment, conveyor, handling device and tandem arrangement, wherein: the battery piece feeding device is used for placing the battery pieces on the conveying device; the film strip processing device is used for providing a film strip; the conveying device is used for stacking the film strips and the welding strips on the battery pieces according to a preset sequence, the conveying device integrally conveys the stacked battery pieces, the film strips and the welding strips to the serial connection device, and the serial connection device connects the battery pieces, the film strips and the welding strips into a battery string.

Through the cooperation of membrane area processing apparatus, battery piece loading attachment, conveyor, handling device and tandem connection device, the utility model provides a battery bunching equipment has realized that the automation of battery piece, membrane strip and solder strip stacks and automatic bunching, has promoted the production efficiency of battery bunching.

Drawings

Fig. 1 is a schematic structural view of a film tape processing apparatus provided by the present invention at a first viewing angle;

fig. 2 is a schematic structural diagram of a film strip processing device provided by the present invention at a second viewing angle;

fig. 3 is a schematic structural diagram of a film strip processing device provided by the present invention at a third viewing angle;

fig. 4 is a schematic structural diagram of a part of the components of the film strip processing device provided by the present invention at a viewing angle;

fig. 5 is a schematic structural diagram of a part of the components of the film strip processing device provided by the present invention at another viewing angle;

fig. 6 is a schematic structural diagram of a part of the components of the film strip processing device provided by the present invention at a further viewing angle;

fig. 1 to 6 include:

film tape feed mechanism 1:

a first feed roller 11;

a second feed roller 12;

cutting and bearing mechanism 2:

the guide portion 21: a guide bar 211;

a film tape adsorption plate 22;

the pitch division mechanism 23: a slide guide mechanism 231 and an adsorption plate drive unit 232;

cutting mechanism 3:

the moving mechanism 31: a lifting component 311 and a translation component 312;

the cutting knife 32: a rotary driving assembly 321, a rotary cutter shaft 322 and a rotary blade 323;

a film tape pressing mechanism 33;

the elastic guide rod 34: linear bearings 341, guide rods 342;

position adjustment mechanism 4:

support 41, lift drive cylinder 42, connecting plate 43, translation guide rail 44, installation piece 45.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the following detailed description.

As shown in fig. 1 to 3, the film strip processing device of the present invention includes a film strip feeding mechanism 1, a cutting bearing mechanism 2 and a cutting mechanism 3, wherein:

a film tape feed mechanism 1 is provided in the front of the cutting support mechanism 2, and the film tape feed mechanism 1 feeds a film tape to be cut onto the cutting support mechanism 2 in a first horizontal direction (X-axis direction in the figure).

As shown in fig. 2, the film tape feed mechanism 1 may alternatively include a first feed roller 11, a second feed roller 12, and a rotation drive motor. The film tape passes between the first feed roller 11 and the second feed roller 12, and is pressed between the first feed roller 11 and the second feed roller 12. The rotary driving motor is used for driving the first feeding roller 11 or the second feeding roller 12 to rotate, so that the film strip is pushed towards the cutting and bearing mechanism 2.

The cutting and carrying mechanism 2 includes a guide portion 21 and a plurality of film tape suction plates 22, wherein the film tape suction plates 22 are arranged side by side and extend along a second horizontal direction (e.g., a Y-axis direction in the figure) perpendicular to the first horizontal direction. The guiding portion 21 is used for guiding the film tape fed by the film tape feeding mechanism 1 to the film tape absorbing plates 22 along the first horizontal direction, and the film tape absorbing plates 22 are used for absorbing the film tape.

The cutting mechanism 3 is disposed above the plurality of film tape suction plates 22, and the cutting mechanism 3 is configured to cut the film tapes along the gaps between the respective adjacent film tape suction plates 22, thereby obtaining a plurality of film strips. After the cutting mechanism 3 finishes cutting the film strips, each film strip adsorption plate 22 correspondingly adsorbs one cut film strip.

It can be seen that, the utility model discloses a membrane area processing apparatus, it cuts bears mechanism 2 and comprises a plurality of membrane area adsorption plates 22, cuts mechanism 3 and cuts the membrane area along the gap between each adjacent membrane area adsorption plate 22, so, cuts mechanism 3 and once carries out the action of cutting, can obtain many membrane strips to promote and cut membrane efficiency.

Specifically, the film tape to be cut is guided by the guide portion 21 to enter each of the tape suction plates 22, thereby preventing the end portion of the film tape from being caught at the gap between the adjacent tape suction plates 22.

As shown in fig. 5 and 6, optionally, a groove is provided at a corresponding position of each film tape suction plate 22. The guide part 2 comprises a plurality of guide rods 211 extending along the first horizontal direction, each guide rod 211 is arranged at a groove at the corresponding position of each film strip adsorption plate, and the guide rods 211 are configured to be capable of ascending and descending between a support high position and an avoidance low position. Optionally, the cutting and carrying mechanism 2 further includes a guide rod lifting driving assembly, one end of the guide rod 211 is connected to a driving end of the guide rod lifting driving assembly, and the guide rod lifting driving assembly is used for driving the guide rod 211 to lift.

The guiding process of the film tape by the guide bar 211 is as follows:

first, the guide bar elevation driving assembly drives the guide bar 211 to ascend to the supporting high position such that the guide bar 211 protrudes upward out of the groove. At this time, the film tape feeding mechanism 1 may push the film tape to the guide bar 211, and push the film tape to move in the first horizontal direction under the guidance of the guide bar 211 until the film tape with a predetermined length is pushed above the film tape suction plates 22.

Then, the guide rod lifting driving assembly drives the guide rod 211 to descend to a low position, so that the guide rod 211 enters the groove, and the film tapes on the guide rod 211 fall onto the film tape adsorption plates 22 and are adsorbed by the film tape adsorption plates 22. Subsequently, the cutting mechanism 3 cuts the film tape adsorbed on the plurality of film tape adsorbing plates 22.

The guide bars 211 may also be provided at both ends of the film tape suction plate 22, thereby achieving elevation and guide of the sucked film tape without a groove.

As shown in fig. 1, optionally, the cutting support 2 further comprises a pitch mechanism 23. After the cutting mechanism 3 finishes cutting the film strips, the spacing mechanism 23 is used for driving each film strip adsorption plate 22 to separate so as to adjust the distance between the cut film strips adsorbed on each film strip adsorption plate 22 to a preset value, so that the adjacent film strips are completely separated, and adhesion between the adjacent film strips is prevented.

Optionally, the distance separating mechanism 23 includes a sliding guide mechanism 231 and an adsorption plate driving assembly 232, wherein, among the plurality of film belt adsorption plates 22, the film belt adsorption plate 22 closest to the film belt feeding mechanism 1 is defined at a predetermined position of the sliding guide mechanism 231, the rest film belt adsorption plates 22 are all slidably connected to the sliding guide mechanism 231, and adjacent film belt adsorption plates 22 are all connected through a connecting member.

Adsorption plate drive assembly 232's drive end is connected with the furthest's of distance film tape feed mechanism 1 film tape adsorption plate 22, and adsorption plate drive assembly 232 is used for driving the farthest film tape adsorption plate of distance film tape feed mechanism and keeps away from film tape feed mechanism 1 along slide guide mechanism and slides to drive each film tape adsorption plate 22 and part, in order to accomplish the branch apart to each film tape adsorption plate 22.

Alternatively, as shown in fig. 4, the slide guide mechanism 231 includes a plurality of slide bars extending along the first horizontal direction, the film tape suction plate 22 closest to the film tape feeding mechanism 1 is fixed on the slide bars, and the rest of the film tape suction plates 22 are slidably sleeved on the slide bars.

The connecting member for connecting adjacent film tape suction plates 22 may be, for example, a connecting rod, wherein at least one end of the connecting rod is movably connected to the corresponding film tape suction plate 22 through a waist hole extending along the first horizontal direction, and when the suction plate driving assembly 232 drives the film tape suction plate 22 farthest from the film tape feeding mechanism to slide along the slide guiding mechanism 231 away from the film tape feeding mechanism 1, the end portion of each connecting rod provided with the waist hole moves in the first horizontal direction relative to the corresponding film tape suction plate 22, so as to separate the adjacent film tape suction plates 22.

The connecting piece can also adopt bendable connecting pieces such as a belt and a rope.

Optionally, the utility model discloses a membrane area processing apparatus still includes position adjustment mechanism 4, cuts bearing mechanism 2 and connects on position adjustment mechanism 4's drive end, and position adjustment mechanism 4 is used for the drive to cut bearing mechanism 2 translations and/or lift.

Through will cutting and bear mechanism 2 and set up on position guiding mechanism 4, can will cut and bear mechanism 2 and adjust to cutting position department to guarantee that film area feed mechanism 1 can accurately deliver the film area to cutting and bear mechanism 2, cut mechanism 3 can accomplish cutting the film area smoothly. In addition, after the film strip is cut, the adjusting mechanism 4 can drive the cutting bearing mechanism 2 to move to a position far away from the blanking position of the cutting mechanism 3, so that the blanking of the film strip on the cutting bearing mechanism 2 is conveniently implemented.

As shown in fig. 5, optionally, the position adjusting mechanism 4 includes a bracket 41, a lifting driving cylinder 42, a connecting plate 43, a translation guide rail 44, a mounting block 45, and a translation driving cylinder, wherein: the connecting plate 43 is slidably connected to the bracket 41 and connected to the driving end of the lifting driving cylinder 42, and the lifting driving cylinder 42 is used for driving the connecting plate 43 to lift. The translation guide rail 44 is arranged on the connecting plate 43 and extends along the second horizontal direction, and the mounting block 45 is slidably mounted on the translation guide rail 44 and connected with a driving end of a translation driving cylinder, and the translation driving cylinder is used for driving the mounting block 45 to slide along the translation guide rail 44. The cutting support 2 is connected to the mounting block 45.

It can be seen that the cutting and carrying mechanism 2 achieves translation in the second horizontal direction and lifting in the vertical direction by the cooperative driving of the lifting driving cylinder 42 and the translation driving cylinder.

Optionally, as shown in fig. 4, the cutting mechanism 3 includes a moving mechanism 31 and a cutting knife 32, wherein: the cutting knife 32 is connected to the driving end of the moving mechanism 31, and the moving mechanism 31 is used for driving the cutting knife 32 to move, so that the cutting knife cuts the film strip along the gap between the adjacent film strip adsorption plates 22.

Alternatively, as shown in fig. 4, the moving mechanism 31 includes a lifting assembly 311 and a translating assembly 312. The cutter 32 is a rotary cutter assembly, and includes a rotary driving assembly 321, a rotary cutter shaft 322, and a plurality of rotary blades 323. Specifically, the translation assembly 312 is connected to a driving end of the lifting assembly 311, the rotation driving assembly 321 is connected to the driving end of the translation assembly 312, the rotation knife shaft 322 is connected to the driving end of the rotation driving assembly 321 and extends along a first horizontal direction, and the rotation knife blades 323 are arranged on the rotation knife shaft 322 at intervals.

The cutting process of the belt of the cutting mechanism 3 in the embodiment of fig. 4 is as follows:

the translation assembly 312 drives each rotary blade 323 to translate to the first end of the film strip adsorption plate 22, and waits for the film strip pushing mechanism 1 to push the film strip onto the film strip adsorption plate 22.

After the film strip pushing mechanism 1 pushes the film strip onto the film strip adsorption plates 22, the lifting assembly 311 drives each rotary blade 323 to descend to a low position, so that each rotary blade 323 is tightly pressed at one end of the film strip and is located in a gap between two adjacent film strip adsorption plates 22.

Then, the translation assembly 312 drives each rotary blade 323 to translate from the first end of the film tape suction plate 22 to the second end of the film tape suction plate 22, and simultaneously, the rotary driving assembly 321 drives the rotary knife shaft 322 to rotate, thereby driving the plurality of rotary blades 323 to rotate at a high speed. The film strips are cut into film strips by each rotary blade 323.

Of course, the cutting knife may also adopt other cutting structures, for example, the cutting knife includes a plurality of metal wires in a tensioned state and along the second horizontal direction, and a heating assembly for heating the metal wires. After the film tape pushing mechanism 1 pushes the film tape to the film tape adsorption plate 22, the moving mechanism 31 drives each metal wire to a low position, so that each metal wire is tightly pressed on the film tape. Then, the heating assembly heats the metal wires, and the metal wires melt the film belt at the corresponding position so as to cut the film belt into a plurality of film strips.

Optionally, the cutting mechanism 3 further includes a film belt pressing mechanism 33 disposed below the cutter 32, and the film belt pressing mechanism 33 is configured to press the film belt onto the film belt adsorption plate 22 before the cutter 32 cuts the film belt. Compress tightly the membrane area through membrane area hold-down mechanism 33, can prevent that the membrane area from taking place to shift at the cutting in-process to guarantee that the edge of the membrane strip that downcuts is neat.

As shown in fig. 3 to 5, optionally, the film strip pressing mechanism 33 includes a plurality of pressing strips arranged side by side and corresponding to the film strip suction plates 22 one by one, each pressing strip is used for pressing the film strip onto the corresponding film strip suction plate 22, and a cutting gap for the cutter to pass through is formed between adjacent pressing strips. With this arrangement, after each pressing bar presses the film tape, the cutter 32 can cut the film tape pressed by the film tape pressing mechanism 33 through the cutting gap. Of course, the film tape pressing mechanism 33 may be an integrated pressing plate structure, the pressing plate is provided with a plurality of cutting slits for the cutter to pass through, and after the pressing plate presses the film tape, the cutter 32 can pass through the cutting slits on the pressing plate to cut the film tape pressed by the film tape pressing mechanism 3.

As shown in fig. 4, the film tape pressing mechanism 33 is optionally connected to the driving end of the moving mechanism 31 via an elastic guide 34, that is, the moving mechanism 31 synchronously drives the cutter 32 and the film tape pressing mechanism 33 to move.

When the moving mechanism 31 drives the cutter 32 and the film tape pressing mechanism 33 to synchronously descend, the film tape pressing mechanism 33 at the lower part is firstly elastically pressed on the film tape. As the moving mechanism 31 continues to be driven downward, the elastic guide bar 34 contracts or passes downward through the film strip pressing mechanism 33, so that the cutter 32 can continue to descend and finally pass through the film strip pressing mechanism 33 to perform cutting of the film strip.

As shown in fig. 4, the elastic guide 34 may optionally include a linear bearing 341, a guide 342, and a spring, wherein: the linear bearing 341 is provided on the film tape pressing mechanism 33; the upper end of the guide rod 342 is fixedly connected to the driving end of the moving mechanism 31, the lower end of the guide rod is slidably connected in the linear bearing 341 and penetrates out of the linear bearing 341 downwards, and the lower end of the guide rod 342 is provided with a limiting member. The spring is sleeved on the guide rod 34 and is abutted between the driving end of the moving mechanism 31 and the film tape pressing mechanism 33. After the film tape pressing mechanism 33 presses the film tape elastically onto the film tape, as the moving mechanism 31 continues to be driven downward, the lower end of the guide rod 342 further passes downward through the linear bearing 341, so that the cutter 32 can continue to descend.

As shown in fig. 1 to 3, optionally, the film tape processing apparatus of the present invention further includes a film tape feeding mechanism 6 disposed in the front of the film tape feeding mechanism 1, wherein the film tape feeding mechanism 6 is configured to fix the film tape roll and drive the film tape roll to rotate so as to feed the film tape.

The utility model also provides a battery bunching equipment, its membrane area processing apparatus that includes above-mentioned arbitrary one, battery bunching equipment still include battery piece loading attachment, conveyor, handling device and tandem connection device, wherein: the battery piece feeding device is used for placing the battery pieces on the conveying device; the film tape processing device is used for providing a film strip; the conveying device is used for stacking the film strips and the welding strips on the battery pieces according to a preset sequence, the conveying device integrally conveys the stacked battery pieces, the film strips and the welding strips to the serial connection device, and the serial connection device connects the battery pieces, the film strips and the welding strips into a battery string. Through the cooperation of membrane area processing apparatus, battery piece loading attachment, conveyor, handling device and tandem connection device, the utility model provides a battery bunching equipment has realized that the automation of battery piece, membrane strip and solder strip stacks and automatic bunching, has promoted the production efficiency of battery bunching.

The invention has been described above with a certain degree of particularity and detail. It will be understood by those of ordinary skill in the art that the descriptions of the embodiments are merely exemplary and that all changes and modifications made without departing from the true spirit and scope of the present invention are intended to be covered by the present invention. The scope of the invention is defined by the appended claims rather than by the foregoing description of the embodiments. Furthermore, the embodiments mentioned in the present application are not to be considered as single embodiments, but some embodiments can also be combined.

Claims (10)

1. The utility model provides a membrane area processing apparatus, its characterized in that, membrane area processing apparatus includes membrane area feed mechanism, cuts and bears the weight of mechanism and cut the mechanism, wherein:

the film tape feeding mechanism is arranged in the front of the cutting bearing mechanism and is configured to feed the film tape to be cut onto the cutting bearing mechanism along a first horizontal direction;

the cutting and bearing mechanism comprises a guide part and a plurality of film tape adsorption plates, wherein the film tape adsorption plates are arranged side by side and extend along a second horizontal direction perpendicular to the first horizontal direction; the guide part is used for guiding the film tapes fed by the film tape feeding mechanism to the film tape adsorption plates, and the film tape adsorption plates are used for adsorbing the film tapes;

the cutting mechanism is arranged above the film strip adsorption plates, the cutting mechanism is configured to cut the film strip along the gap between the film strip adsorption plates, the cutting mechanism finishes the cutting of the film strip, and each film strip adsorption plate is correspondingly adsorbed by one cut film strip.

2. The film strip processing apparatus of claim 1, wherein:

grooves are formed in the corresponding positions of the film tape adsorption plates;

the guide part comprises a guide rod extending along the first horizontal direction, the guide rod is arranged at the groove corresponding to each membrane strip adsorption plate, and the guide rod is configured to lift between a high supporting position and a low avoiding position; when the guide rod rises to the support high position, the film belt is guided, and the guide rod falls to the avoidance low position and enters the groove.

3. The film strip processing apparatus of claim 1, wherein the cutting carriage further comprises a guide rod elevation drive assembly, one end of the guide rod being connected to a drive end of the guide rod elevation drive assembly, the guide rod elevation drive assembly being configured to drive the guide rod to elevate.

4. The film strip processing apparatus of claim 1, wherein the cutting and carrying mechanism further comprises a separating mechanism for driving the respective film strip suction plates apart to adjust a distance between the cut film strips sucked on the respective film strip suction plates to a predetermined value.

5. The film strip processing apparatus of claim 4, wherein the spacing mechanism comprises a slide guide mechanism suction plate drive assembly, wherein:

among the film tape adsorption plates, the film tape adsorption plate closest to the film tape feeding mechanism is limited at a preset position of the sliding guide mechanism, the rest film tape adsorption plates are connected to the sliding guide mechanism in a sliding manner, and the adjacent film tape adsorption plates are connected through a connecting piece;

the drive end of the adsorption plate drive assembly is connected with the film belt adsorption plate farthest from the film belt feeding mechanism, and the adsorption plate drive assembly is used for driving the film belt adsorption plate farthest from the film belt feeding mechanism to slide along the sliding guide mechanism so as to drive the film belt adsorption plates to be separated.

6. The film strip processing apparatus of claim 1, wherein: the film tape processing device further comprises a position adjusting mechanism, the cutting bearing mechanism is connected to the driving end of the position adjusting mechanism, and the position adjusting mechanism is used for driving the cutting bearing mechanism to move horizontally and/or lift.

7. The film strip processing apparatus of claim 1, wherein: the cutting mechanism comprises a moving mechanism and a cutter, wherein:

the cutter is connected to the driving end of the moving mechanism, and the moving mechanism is used for driving the cutter to move, so that the cutter cuts the film strips along gaps between the adjacent film strip adsorption plates.

8. The film strip processing apparatus of claim 7, wherein: the cutting mechanism further comprises a film belt pressing mechanism arranged below the cutter, and the film belt pressing mechanism is used for pressing the film belt to a plurality of film belt adsorption plates before the cutter cuts the film belt.

9. The film strip processing apparatus of claim 8, wherein: the film strip pressing mechanism comprises a plurality of pressing strips which are arranged side by side and correspond to the film strip adsorption plates one by one, each pressing strip is used for pressing the film strip to the corresponding film strip adsorption plate, and a cutting gap for the cutter to penetrate through is formed between every two adjacent pressing strips; or

The film strip pressing mechanism comprises a pressing plate, the pressing plate is used for pressing the film strip to the film strip adsorption plates, and a plurality of cutting seams for the cutter to penetrate through are formed in the pressing plate.

10. A battery stringing apparatus comprising the film tape processing device according to any one of claims 1 to 9, the battery stringing apparatus further comprising a battery sheet feeding device, a conveying device, a carrying device, and a stringing device, wherein:

the battery piece feeding device is used for placing battery pieces on the conveying device;

the film strip processing device is used for providing a film strip;

the carrying device is used for stacking the membrane strips and the welding strips on the battery pieces according to a preset sequence,

the conveying device integrally conveys the stacked battery pieces, the membrane strips and the welding strips to the serial connection device, and the serial connection device connects the battery pieces, the membrane strips and the welding strips into a battery string.

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