CN115332396A - Diaphragm for preparing battery string, positioning tool conveying device and method - Google Patents

Abstract

The invention discloses a membrane for preparing a battery string, a positioning tool conveying device and a method, wherein a membrane supplying mechanism provides a membrane for preparing the battery string, a membrane cutting mechanism cuts the membrane into N front membranes and N back membranes simultaneously, a first conveying mechanism bears and conveys the back membranes, a first carrying hand moves the N cut back membranes to the first conveying mechanism, a second conveying mechanism bears and conveys the battery string, a membrane transferring mechanism transfers the back membranes on the first conveying mechanism to the second conveying mechanism, a tool supplying mechanism is used for providing positioning tools, a preset platform is used for bearing the front membranes and the positioning tools, a second carrying hand is used for transferring the N cut front membranes to the preset platform, a laying mechanism stacks the front membranes and the positioning tools on welding belts on the upper parts of the battery sheets, all execution structures in the device can simultaneously carry out the front membranes and the positioning tools and the front membranes and the back membranes are mutually avoided and simultaneously distributed, and therefore the preparation efficiency of the battery string is improved.

Description

Diaphragm for preparing battery string, positioning tool conveying device and method

Technical Field

The invention relates to the technical field of solar cells, in particular to a membrane, a positioning tool conveying device and a method for preparing a cell string.

Background

In the battery cluster preparation process, the grid line welding of area and battery piece will be welded to the mode that uses infrared heating usually, but the grid line on the battery piece is many for the shading area increase of battery piece leads to the low-usage of battery piece, and the silver thick liquid cost of grid line printing is also higher moreover, then adopts low temperature solder strip and battery piece glue mode to fix the solder strip and establish ties into the battery cluster on the battery piece.

Above battery cluster needs to use the battery piece point to glue or the mode that the polymer membrane will weld the area and bond on the battery piece, however, in the prior art, need some earlier the battery piece glue and then with weld the area bonding interconnection, or bond the polymer membrane and weld the area earlier and fix and then bond the interconnection with the battery piece, above all will make an intermediate product earlier and then participate in laying of battery cluster, the efficiency of this kind of system cluster mode is lower.

Disclosure of Invention

In order to solve the technical problems, the invention provides a diaphragm for preparing a battery string, a positioning tool conveying device and a method, wherein front and back diaphragms are used for respectively bonding welding strips on the front and back surfaces of a battery piece in the battery string with the battery piece, and simultaneously preparing a back diaphragm for fixing the welding strips below the battery string and a front diaphragm for fixing the welding strips above the battery string. The fixed welding strip of diaphragm is all laid on the two sides of battery cluster to use location frock to compress tightly positive facial mask and welding strip and battery piece on the membrane of back of the body, make the battery cluster carry out fixed stable welding to between diaphragm, welding strip and the battery piece in carrying the heating process, improved the welding quality of battery cluster. In addition, in the process of laying the battery string, the welding strips and the battery pieces which form the battery string are positioned together, the welding strips, the membranes or the intermediate products formed by bonding the colloid and the battery pieces in the battery string are not needed to be finished firstly, the positioning tool and the membranes are used for positioning the welding strips to finish laying and fixing the battery string at one time, the combination times and the carrying times of laying the battery string are reduced, and the laying efficiency of the battery string is improved.

The utility model provides a diaphragm, location frock conveyor includes that first aspect, this application provide one kind:

the film supply mechanism is used for supplying a film for fixing the welding strip and the battery piece, the welding strip is covered and fixed on the surface of the battery piece by the film, and the battery pieces are connected in series two by two;

the film cutting mechanism is arranged at one end of the film supply mechanism and is used for simultaneously cutting the film provided by the film supply mechanism into N front diaphragms and N back diaphragms with preset widths, the front diaphragms are used for attaching and fixing welding strips on the upper surfaces of the battery pieces, and the back diaphragms are used for attaching and fixing welding strips on the lower surfaces of the battery pieces;

the first transmission mechanism is horizontally arranged at one end of the film cutting mechanism and is used for bearing and conveying the back membrane;

the first carrying hand can move to and fro and is arranged at the upper parts of the film cutting mechanism and the first transmission mechanism and used for moving the N back film sheets cut on the film cutting mechanism to the first transmission mechanism along a first direction;

the second transmission mechanism is horizontally arranged on the film cutting mechanism and the side edge of the first transmission mechanism and used for bearing and conveying the battery strings, and the conveying direction of the second transmission mechanism is opposite to that of the first transmission mechanism;

the membrane transferring mechanism is arranged at one end of the first conveying mechanism and one end of the second conveying mechanism and is used for transferring the back membrane on the first conveying mechanism to the second conveying mechanism;

the tool supply mechanism is used for providing a positioning tool for preparing the battery string;

the pre-placing table is arranged above the input end of the second transmission mechanism and used for receiving the front diaphragm and a positioning tool correspondingly stacked on the front diaphragm;

the second carrying hand is arranged above the film cutting mechanism and the presetting table in a reciprocating manner and used for synchronously moving the N front film sheets cut on the film cutting mechanism to the presetting table along a second direction, and the second direction is vertical to the first direction in a horizontal plane;

and the laying mechanism is arranged at the adjacent side close to the preset table and used for placing the front membrane and the positioning tool on the preset table together at the input end of the second transmission mechanism, so that the front membrane and the positioning tool are stacked on the upper part of the battery piece, and the welding strip is attached to the battery piece by the front membrane.

Further, frock supply mechanism includes location frock recovery mechanism, location frock transfer mechanism and location frock stacks the mechanism, location frock recovery mechanism locates the rear end of second transmission device for to retrieve the location frock on the battery cluster after linking firmly extremely on the location frock transfer mechanism, location frock transfer mechanism sets up location frock recovery mechanism with between the preset platform, and will the location frock is followed location frock transfer mechanism rear end transmits to the front end, location frock stacks the mechanism and establishes preset platform with the outside of location frock transfer mechanism, be used for with location frock front end in location frock transfer mechanism puts to preset bench on the positive membrane piece.

Further, the middle part of second transmission device is equipped with the heater block, the heater block is used for the heating the front diaphragm with the back diaphragm with will weld the area with the battery piece links firmly for the battery cluster, the heater block is in form the zone of heating on the second transmission device, the zone of heating is located lay the mechanism with between the mechanism is retrieved to the location frock, lay the mechanism and place front diaphragm and location frock before the zone of heating, location frock is retrieved the mechanism and is in snatch the recovery behind the zone of heating location frock extremely on the location frock transfer mechanism.

Further, location frock recovery mechanism includes elevating system, linking arm and fixes two centre gripping drives on the linking arm, two centre gripping driven drive end is connected with the rule board respectively, two the rule board sets up relatively, the rule board centre gripping two opposite sides of location frock can be in the transport when the location frock is right the location frock carries out the position and reforms.

Furthermore, the first transmission mechanism comprises a first transmission section and a second transmission section, the second transmission section extends to the lower part of one end of the first transmission section, adsorption holes are formed in the first transmission section and the second transmission section, and the first transmission section transmits the back membrane to the second transmission section;

the second transmission mechanism comprises three sections of transmission sections and four sections of transmission sections, the four sections of transmission sections extend to the lower part of one end of the three sections of transmission sections, adsorption holes are formed in the three sections of transmission sections and the four sections of transmission sections, the three sections of transmission sections are used for bearing and transmitting the battery strings, and the four sections of transmission sections are used for caching the back diaphragm and transmitting the back diaphragm to the front end of the three sections of transmission sections;

and the diaphragm transfer mechanism transfers the back diaphragm on the two-section transmission section to the four-section transmission section in a reciprocating manner.

Further, first delivery hand is including fixed plate and a plurality of film grabbing hand, film grabbing hand is including roll adjustment cylinder and absorption piece, absorb the piece through long guide rail with fixed plate sliding connection, the one end of roll adjustment cylinder with fixed plate fixed connection, the other end with absorb a drive connection, the drive of roll adjustment cylinder is adjacent absorb the distance between the positive diaphragm on the piece.

Further, still be equipped with limiting plate and perpendicular to on the absorption piece the reference column that the limiting plate set up, be equipped with rectangular hole on the limiting plate, the reference column cover is established adjacently adsorb on the piece the rectangular downthehole of limiting plate.

Further, the film cutting mechanism comprises a cutting platform, a traction assembly and a cutter group, wherein the traction assembly is arranged above the cutting platform and can be used for dragging one end of the film to be laid on the cutting platform along the horizontal reciprocating motion of one side of the cutting platform, and the cutter group can be arranged below the cutting platform in a lifting mode and can move in the moving direction of the traction assembly along the vertical direction.

The positioning tool stacking mechanism comprises: the device comprises a translation guide rail and a plurality of transfer hands which are connected to the translation guide rail in a sliding mode, each transfer hand is connected with a driving part, the driving parts independently drive the transfer hands to enable the transfer hands to be close to or far away from each other, and the distance between the positioning tools is adjusted to adapt to the position of a front diaphragm on the preset table.

In a second aspect, the present application further provides a method for conveying a membrane and a positioning tool, including any one of the foregoing feeding devices, wherein the laid battery string further includes a front membrane laid on a welding strip above the battery piece and a back membrane laid on a welding strip below the battery piece, and the method includes the following steps:

s10, cutting N front side membranes and N back side membranes simultaneously;

s20, sequentially transferring the N back diaphragms to three sections of transmission sections, and paving welding strips on the back diaphragms; synchronously transferring the N front side diaphragms to the preset table and correspondingly placing the N positioning tools on the N front side diaphragms;

s30, simultaneously placing the front diaphragm on the preset table, the corresponding positioning tool and the corresponding battery piece on the welding strip;

s40, the back membrane, the welding strip, the battery piece, the front membrane and the positioning tool are transferred to a heating part to be heated together, so that the front membrane and the back membrane are heated simultaneously to enable the battery piece and the welding strip to be glued and fixed;

wherein, the step S10, the step S20, the step S30 and the step S40 are simultaneously carried out at different stations.

The invention completes the simultaneous preparation of N front diaphragms and N back diaphragms, and simultaneously lays a battery string, the front diaphragms and a positioning tool on the back diaphragms so as to improve the preparation efficiency of the battery string.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of a front view of a battery string with a positioning tool disposed therein according to the present invention;

FIG. 2 is a schematic diagram of a positioning tandem device according to the present invention;

FIG. 3 is a schematic view of the front diaphragm, the back diaphragm and the positioning fixture of the positioning tandem device of the present invention in a conveying state;

FIG. 4 is a schematic structural view of a recovery mechanism of the positioning tool shown in FIG. 2;

FIG. 5 is a schematic structural view of the first carrier and the film cutting mechanism in FIG. 2;

FIG. 6 is a schematic top view of the film grasping hand of the first carrier hand of FIG. 5;

FIG. 7 is a schematic front view of a film cutting mechanism according to the present invention;

fig. 8 is a schematic structural view of a positioning tool recovery mechanism according to the present invention.

Wherein the reference numerals are:

100. positioning a tool; 110. welding a strip; 130. a battery piece; 140. a front diaphragm; 150. a back side membrane;

1. a film supply mechanism; 2. a film cutting mechanism; 21. a cutting platform; 22. a traction assembly; 221. a support plate; 222. a film clamping cylinder; 223. a first drive motor; 224. a moving guide rail; 23. a cutter set; 231. a cutter; 232. a tool apron; 233. a connecting plate; 234. a second drive motor; 235. lifting the cylinder; 3. a first transmission mechanism; 4. a first carrier hand; 41. a fixing plate; 42. a film grabbing hand; 421. a distance adjusting cylinder; 422. an adsorbing member; 423. a long guide rail; 424. a limiting plate; 425. a positioning column; 426. a spring; 5. a second transmission mechanism; 6. a membrane transfer mechanism; 7. a tool supply mechanism; 71. a positioning tool recovery mechanism; 711. a lifting mechanism; 712. a connecting arm; 713. clamping and driving; 714. a plate is regulated; 72. positioning a tool transfer mechanism; 73. positioning a tool stacking mechanism; 731. a translation guide rail; 732. transferring hands; 733. a drive member; 8. a pre-placing table; 9. a second carrier hand; 10. and a laying mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used based on the orientations and positional relationships shown in the drawings only for convenience of description and simplification of operation, and do not indicate or imply that the referred device or element must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Firstly, referring to fig. 1, a battery string uses a welding strip 110 to connect two adjacent battery plates 130 in series, a positioning tool 100 provided by the present application is placed above the battery string, at least one positioning tool 100 is disposed above each battery plate 130, a front diaphragm 140, the welding strip 110, the battery plates 130 and a back diaphragm 150 are pressed together, the front diaphragm 140, the welding strip 110, the battery plates 130 and the back diaphragm 150 are positioned and transferred to a heating station along with the battery string, so that the front diaphragm 140 and the back diaphragm 150 are bonded to the battery plates 130 together, and the welding strip 110 is fixed between the diaphragm and the battery plates 130.

As shown in fig. 2, the diaphragm, location frock conveyor that this application provided includes: the film feeding mechanism 1, the film cutting mechanism 2, the first conveying mechanism 3, the first carrying hand 4, the second conveying mechanism 5, the film transferring mechanism 6, the tooling supplying mechanism 7, the pre-placing table 8, the second carrying hand 9 and the laying mechanism 10; wherein: the film supply mechanism 1 is used for providing a film for laying battery strings, the film cutting mechanism 2 is arranged at one end of the film supply mechanism 1 and is used for drawing and cutting the film on the film supply mechanism 1 into N front side films 140 and N back side films 150, wherein N is a natural number not less than 1, the front side films 140 in the application are films attached and fixed to welding belts 110 on the upper surfaces of the battery pieces 130, the back side films 150 are films attached and fixed to welding belts 110 on the lower surfaces of the battery pieces 130, the first conveying mechanism 3 is horizontally arranged at one end of the film cutting mechanism 2 and is used for carrying and conveying the back side films 150, the first carrying hand 4 can be arranged at the upper parts of the film cutting mechanism 2 and the first conveying mechanism 3 in a reciprocating mode and is used for moving the N back side films 150 cut on the film cutting mechanism 2 onto the first conveying mechanism 3 together, the second conveying mechanism 5 is horizontally arranged at one side of the film cutting mechanism 2 and the first conveying mechanism 3 and is used for carrying and conveying the battery strings, the direction of conveying the battery strings of the second conveying mechanism 5 is opposite to the conveying direction of the first conveying mechanism 3, the conveying mechanism is used for conveying the battery pieces 6 arranged at one end of the first conveying mechanism and the second conveying mechanism 150, the second conveying mechanism 5 is used for conveying mechanism and is used for conveying the film sheets 130 and is combined with the second conveying mechanism 150, and is used for conveying mechanism 130 and is used for conveying the second conveying mechanism 150, and is used for conveying the second conveying mechanism 130. The tool supply mechanism 7 is used for providing all positioning tools 100 for laying the battery strings; the pre-placing table 8 is arranged at the upper part of the conveying front end of the second conveying mechanism 5 and used for receiving the front film sheet 140 and the positioning tool 100 correspondingly stacked on the front film sheet 140, the second carrier hand 9 is arranged above the film cutting mechanism 2 and the pre-placing table 8 in a reciprocating manner and used for synchronously sending the N front film sheets 140 cut by the film cutting mechanism 2 to the pre-placing table 8 along the second direction, the second direction and the first direction in the embodiment are vertical in the horizontal plane, and the laying mechanism 10 is arranged at the adjacent side of the pre-placing table 8 close to the front end of the second conveying mechanism 5.

Preferably, the tooling supply mechanism 7 in the present application includes a positioning tooling recovery mechanism 71, a positioning tooling transfer mechanism 72 and a positioning tooling stacking mechanism 73, and the positioning tooling recovery mechanism 71 is disposed at the rear end of the second transmission mechanism 5, and is configured to recover the positioning tooling 100 on the battery string after the battery string is connected to the rear end of the positioning tooling transfer mechanism 72, the positioning tooling transfer mechanism 72 is disposed between the positioning tooling recovery mechanism 71 and the preset table 8, and transmits the positioning tooling 100 at the rear end of the positioning tooling transfer mechanism 72 to the front end of the positioning tooling transfer mechanism 72, that is, the end close to the preset table 8, and the positioning tooling stacking mechanism 73 is disposed outside the preset table 8 and the positioning tooling transfer mechanism 72, and is configured to transfer the positioning tooling 100 at the front end of the positioning tooling transfer mechanism 72 to the preset table 8, combine with the front face diaphragms 140 on the preset table 8, and stack the positioning tooling 100 on the front faces 140 in a one-to-one correspondence manner, so that the laying mechanism 10 can grasp and lay on the welding strips 110 on the upper portions of the battery sheets 130 on the second transmission mechanism 5.

Referring to two conveying states of the front diaphragm 140, the back diaphragm 150 and the positioning tool 100 in the upper and lower dashed frames shown in fig. 3, the film cutting mechanism 2 draws the film on the film supplying mechanism 1 to the film cutting mechanism 2, and simultaneously cuts the film into N front diaphragms 140 and N back diaphragms 150, wherein the front diaphragms 140 and the back diaphragms 150 have different use positions in the battery string and have the same other characteristics. Taking simultaneous cutting of 6 films as an example in the drawing, firstly, 3 films arranged in parallel on the left side of the film cutting mechanism 2 are defined as front films 140, 3 films arranged in parallel on the right side of the film cutting mechanism 2 are defined as back films 150, then, the first carrier hand 4 and the second carrier hand 9 simultaneously capture 3 back films 150 and 3 front films 140, the second carrier hand 9 captures 3 front films 140 above the moving range of the first carrier hand 4, and transfers the front films 140 to the preset table 8 along the second direction, meanwhile, the first carrier hand 4 transfers 3 back films 150 to the position of the first conveying mechanism 3 along the first direction, arrows in an upper dotted frame in the drawing respectively indicate the position where the 3 front films 140 are placed on the preset table 8 and the position where the 3 back films 150 are placed on the first conveying mechanism 3, then, the positioning tool 100 on the positioning tool transfer mechanism 72 is placed on the preset table 8 by referring to the lower dotted frame tool stacking mechanism 73 in the drawing, and the first conveying mechanism 100 and the front films 140 are fixedly connected to the front film conveying mechanism 130 of the battery, and the front film 140, and the front film 100 are fixedly connected to the front film 130 of the battery, and the battery conveying mechanism 130, and the battery 100, and the battery conveying belt 130 which are fixedly connected in the front film 140, and the battery.

It should be noted that, an external device for supplying the battery sheet 130 and the solder ribbon 110 is further connected to the front end of the second conveying mechanism 5, so as to provide the battery sheet 130 and the solder ribbon 110 required for laying the battery string, so as to participate in the laying work of the battery string, the solder ribbon 110 is laid on the back membrane sheet 150, the battery sheet 130 is laid on the solder ribbon 110, the second section of solder ribbon 110 is further laid on the battery sheet 130, and the laying mechanism 10 grasps the front membrane sheet 140 and the positioning tool 100 to be placed above the second section of solder ribbon 110, so as to continuously lay the battery string. And the illustration is only for explaining the conveying positions of the front film sheet 140, the back film sheet 150 and the positioning tool 100, in the actual equipment, after the film cutting mechanism 2 cuts the film sheet and is conveyed to be separated from the film cutting mechanism 2, the next set of front film sheet 140 and the next set of back film sheet 150 are continuously cut, and the positioning tool 100 recovered by the plurality of positioning tool recovery mechanisms 71 is cached on the positioning tool transfer mechanism 72 so as to continuously supply the positioning tool 100 to the pre-placing table 8.

Preferably, a heating component is arranged in the middle of the second transmission mechanism 5, the heating component forms a heating zone on the second transmission mechanism 5, the heating zone is located between the laying mechanism 10 and the positioning tool recovery mechanism 71, the laying mechanism 10 places the front side membrane 140 and the positioning tool 100 before the heating zone, the positioning tool recovery mechanism 71 grabs and recovers the positioning tool 100 conveyed out of the heating zone onto the positioning tool transfer mechanism 72, the positioning tool 100 is recycled and combined with the front side membrane 140 to cover and press the welding strip 110 in the battery string, the second transmission mechanism 5 synchronously transfers the battery sheet 130 with the front side membrane 140 and the positioning tool 100 and the welding strip 110 to the heating zone, the heating component in the heating zone simultaneously heats the back side membrane 150 at the bottom of the battery sheet 130 and the front side membrane 140 on the battery sheet 130, the welding strip 110 is covered and glued on the upper surface of the battery sheet 130 by the front side membrane 140, and the welding strip 110 at the bottom of the battery sheet 130 is covered and glued on the lower surface of the battery sheet 130 by the back side membrane 150 to form a battery string which is fixedly connected.

Specifically, in this embodiment, as shown in fig. 4, the positioning tool recycling mechanism 71 includes a lifting mechanism 711, a connecting arm 712, and two clamping drivers 713 fixed on the connecting arm 712, driving ends of the two clamping drivers 713 are respectively connected with a leveling plate 714, the two leveling plates 714 are oppositely disposed and clamp two opposite sides of the positioning tool 100, so that the positioning tool 100 can be aligned in position while carrying the positioning tool 100, and are correspondingly stacked on the front diaphragm 140 on the preset table 8, the positioning tool 100 and the front diaphragm 140 are vertically aligned to meet the distribution position of the front diaphragm 140 in the battery string, the positioning tool 100 presses the front diaphragm 140 and the solder strip 110 on the upper portion of the battery sheet 130 against the battery sheet 130, and presses the battery sheet 130 in the battery string against the solder strip 110 below the battery sheet 130, so as to fix the battery sheet 130 and the solder strip 110 in the battery string that is not fixedly connected, three transmission sections synchronously transfer the battery sheet 130, the solder strip 110, the front diaphragm 150, the back diaphragm 150, the battery sheet 150, and the battery sheet 130 and the battery string 130 that are connected in series and the battery sheet 130 are connected by the solder strip that the battery sheet 130 and the battery sheet 130 are connected in series.

In order to sequentially and continuously transfer the N back film pieces 150 on the first transfer mechanism 3 onto the second transfer mechanism 5 for laying under the battery pieces 130, the first transfer mechanism 3 in the present application includes: the battery string comprises a first transmission section and a second transmission section, wherein the first transmission section is horizontally arranged and extends to the position below one end of the first transmission section, adsorption holes are formed in the first transmission section and the second transmission section, the second transmission mechanism 5 comprises a third transmission section and a fourth transmission section, the third transmission section is horizontally arranged, the fourth transmission section extends to the position below one end of the third transmission section, adsorption holes are formed in the third transmission section and the fourth transmission section, the first carrier hand 4 conveys the N front diaphragms 140 to the first transmission section, the first transmission section conveys the N front diaphragms 140 to the second transmission section in sequence, the diaphragm transfer mechanism 6 sequentially transfers the single back diaphragms 150 on the second transmission section to the fourth transmission section, the fourth transmission section is used for caching the multiple back diaphragms 150 and sequentially transmits the single back diaphragms 150 to the third transmission section, the battery string 130 and the welding string 110 are laid on the back diaphragms 150 on the third transmission section, the front diaphragm 140 and the positioning tool 100 are placed on the welding string on the upper surface of the battery string 110 together by the front transfer mechanism 10 after the laying is completed, and the three transmission sections move and fixedly bear the battery string.

Specifically, as shown in fig. 5 and 6, the first carrier hand 4 includes a fixing plate 41 and a plurality of film grasping hands 42, wherein the film grasping hands 42 include a distance adjusting cylinder 421 and an adsorbing member 422, the adsorbing member 422 is slidably connected to the fixing plate 41 through a long guide rail 423, one end of the distance adjusting cylinder 421 is fixedly connected to the fixing plate 41, the other end of the distance adjusting cylinder 421 is drivingly connected to the adsorbing member 422, and the distance adjusting cylinder 421 drives the distance between the front diaphragms 140 on the adsorbing member 422, so that the front diaphragms 140 on the adsorbing member 422 are separated from each other, the diaphragms do not interfere with each other, and whether the diaphragms are completely separated and cut is fed back through the distance separation. The adsorption piece 422 is further provided with a limiting plate 424 and a positioning column 425 perpendicular to the limiting plate 424, the limiting plate 424 is provided with a long hole, the length direction of the long hole is consistent with the extending direction of the guide rail, the positioning column 425 is sleeved in the long hole of the limiting plate 424 on the adjacent adsorption piece 422, the length direction of the long hole limits the position of the moving stroke of the positioning column 425, meanwhile, the moving distance between the adjacent adsorption pieces 422 is limited, a spring 426 is further connected between every two adsorption pieces 422, when the distance adjusting cylinder 421 pushes the adsorption pieces 422 to move, the spring 426 is stretched, the positioning column 425 is located at the first limit position of the long hole, when the distance adjusting cylinder 421 returns, the spring 426 also restores to the original length, and the positioning column 425 is located at the second limit position of the long hole.

In some embodiments, as shown in fig. 5 and 7, the film cutting mechanism 2 includes a cutting platform 21, a pulling component 22 and a cutter set 23, wherein the pulling component 22 is disposed above the cutting platform 21 and can pull one end of the film to be laid on the cutting platform 21 along one side of the cutting platform in a horizontally reciprocating manner, the cutter set 23 is disposed below the cutting platform 21 in a lifting manner and can translate along a direction perpendicular to the moving direction of the pulling component 22, when the pulling component 22 pulls the stretched film, the cutter set 23 is disposed below the cutting platform 21, after the film is laid on the cutting platform 21, the cutter set 23 is lifted and translates along the direction perpendicular to the moving direction of the pulling component 22 to cut the film into a plurality of film pieces.

Specifically, the pulling assembly 22 includes: the backup pad 221, fix the film clamping cylinder 222 on the backup pad 221, the tip of film clamping cylinder 222 is equipped with the splint of two relative settings from top to bottom, a driving motor 223 drive connection is in one side of backup pad 221, backup pad 221 sliding connection is on the removal guide rail 224 of cutting platform 21 both sides, driving motor drive backup pad 221 draws the whole membrane from the one end of cutting platform 21, film clamping cylinder 222 drive is located the one end of the splint centre gripping membrane on upper portion, press from both sides the membrane end, and to the other end translation of cutting platform 21 under driving motor's drive effect, the membrane tiling of whole strip has been on cutting platform 21. The cutter group 23 includes: cutter 231, blade holder 232, connecting plate 233, second driving motor 234 and lifting cylinder 235, wherein cutter 231 rotates to be connected on blade holder 232, blade holder 232 sliding connection is on connecting plate 233, the second drive plate is connected with blade holder 232 drive, with drive blade holder 232 along the translation of perpendicular to drive mechanism moving direction, the both ends sliding mounting of connecting plate 233 is in cutting platform 21 both sides, the drive end and the connecting plate 233 drive of lifting cylinder 235 are connected, when laying the membrane on the platform, lifting cylinder 235 drive connecting plate 233 shifts up, make the blade be higher than the top surface of cutting platform 21 upper membrane, second driving motor 234 drive blade holder 232 removes, will lay the membrane on the platform and cut into a plurality of diaphragm.

In some embodiments, as shown in fig. 8, the positioning tool stacking mechanism 73 includes a translation guide rail 731 and a plurality of transfer hands 732 slidably connected to the translation guide rail 731, the transfer hands 732 are used for gripping the positioning tools 100, the transfer hands 732 are disposed in one-to-one correspondence with the positioning tools 100, each transfer hand 732 is connected to a driving part 733, the driving parts 733 drive the transfer hands 732 to move closer to or away from each other for adjusting the distance between the positioning tools 100 on the transfer hands 732 to correspond to the position of the front film 140 on the pre-stage 8, because the front films 140 on the pre-stage 8 are disposed at intervals, the positioning tools 100 need to be disposed at intervals corresponding to the intervals of the front films 140, one front film 140 is placed with one positioning tool 100, and the positions of each positioning tool 100 relative to the front film 140 are the same, in this embodiment, a plurality of suction cups are disposed at the bottoms of the transfer hands 732, and suck the top surfaces of the positioning tools 100 to grip the positioning tools 100.

Based on the above-mentioned membrane and positioning tool conveying device, the present application further provides a membrane and positioning tool conveying method, the method uses any one of the above-mentioned membranes and positioning tool conveying device, the battery string further includes a front membrane 140 laid on the welding strip 110 above the battery piece 130 and a back membrane 150 laid on the welding strip 110 below the battery piece 130, for clearly explaining the solution of the present application, in the battery string, each section of welding strip 110 extends to the front and back sides of two adjacent battery pieces 130 respectively, and the welding strips 110 on the front and back sides of the battery piece 130 are adhered and fixed on the surface of the battery piece 130 through the membrane, for distinguishing, the membrane on the side where the battery string contacts the transmission belt 1 is the back membrane 150, the membrane on the outer side above the battery string is called as the front membrane 140, and the specific laying steps are as follows:

s10, cutting N front diaphragms 140 and N back diaphragms 150 simultaneously;

s20, sequentially transferring the N back diaphragms 150 to three sections of transmission sections, and paving the welding strips 110 on the back diaphragms 150; synchronously transferring the N front diaphragms 140 to the pre-placing table 8 and correspondingly placing the N positioning tools 100 on the N front diaphragms 140;

s30, simultaneously placing the front diaphragm 140 on the pre-placing table 8, and the corresponding one of the positioning tool 100 and the battery piece 130 on the welding strip 110;

s40, the back membrane 150, the battery piece 130, the welding strip 110, the front membrane 140 and the positioning tool 100 are transferred to a heating part to be heated together, so that the front membrane 140 and the back membrane 150 are simultaneously heated to be fixedly adhered to the battery piece 130 and the welding strip 110;

wherein, step S10, step S20, step S30 and step S40 are carried out at different stations simultaneously.

Specifically, the film cutting mechanism 2 cuts the whole pulled film strip into N front films 140 and N back films 150, the first carrier hand 4 transports the N back films 150 on the film cutting mechanism 2 to the upper part of one section of the first transmission section, the one section of the transmission section sequentially transmits the back films 150 to the two sections of the transmission section, the film transfer mechanism 6 sequentially adsorbs and transports the single back films 150 to the surface of the four sections of the second transmission mechanism 5, the four sections of the transmission section continuously transmit the back films 150 to the upper surface of the three sections of the transmission section, and the welding strips 110 and the battery pieces 130 are laid on the back films 150 on the three sections of the transmission section to provide the back films 150 below the battery strings. Meanwhile, the second carrier hand 9 transfers the N front side membranes 140 on the film cutting mechanism 2 to the pre-placing table 8, the positioning tool stacking mechanism 73 carries and stacks the N positioning tools 100 on the positioning tool transfer mechanism 72 on the N front side membranes 140 on the pre-placing table 8, the laying mechanism 10 carries a group of front side membranes 140 stacked up and down on the pre-placing table 8 and a corresponding positioning tool 100 to the top of the battery sheet 130 laid in the three-section transmission section together, the front side membranes 140 and the positioning tools 100 are used for pressing the solder strip 110 above the battery sheet 130, meanwhile, the solder strip 110 at the bottom of the battery sheet 130 is pressed and fixed to the lower surface of the battery sheet 130, the three-section transmission section then transfers the back side membrane 150, the battery sheet 130, the solder strip 110, the front side membrane 140 and the positioning tools 100 to the heating area of the heating component together, and heats the front side membrane 140 and the back side membrane 150 to be glued and fixed with the battery sheet 130 and the solder strip 110, wherein any transfer step can be carried out synchronously, the execution structures of the corresponding steps are avoided, and the efficient battery string preparation and the positioning of the battery string 110 and the battery sheet 130 in the string preparation process are completed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not to be construed as limiting the claims.

The principle and the implementation mode of the invention are explained by applying a specific example, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the foregoing, the description is not to be taken in a limiting sense.

Claims (10)

1. The utility model provides a diaphragm, location frock conveyor for preparing battery cluster which characterized in that includes:

the film supply mechanism (1) is used for providing a film for fixing the welding strip and the battery piece, and the film covers and fixes the welding strip (110) on the surface of the battery piece (130);

the film cutting mechanism (2) is arranged at one end of the film supply mechanism (1), the film provided by the film supply mechanism (1) is simultaneously cut into N front side films (140) and N back side films (150) with preset widths by the film cutting mechanism (2), the front side films (140) are used for attaching and fixing welding strips (110) on the upper surface of the battery piece (130), and the back side films (150) are used for attaching and fixing welding strips (110) on the lower surface of the battery piece (130);

the first conveying mechanism (3) is horizontally arranged at one end of the film cutting mechanism (2) and is used for bearing and conveying the back film (150);

the first carrying hand (4) is arranged on the upper parts of the film cutting mechanism (2) and the first transmission mechanism (3) in a reciprocating manner and used for moving the N cut back film sheets (150) on the film cutting mechanism (2) to the first transmission mechanism (3) along a first direction;

the second transmission mechanism (5) is horizontally arranged on the side edges of the film cutting mechanism (2) and the first transmission mechanism (3) and used for bearing and conveying the battery strings, and the conveying direction of the second transmission mechanism (5) is opposite to that of the first transmission mechanism (3);

the membrane transferring mechanism (6) is arranged at one end of the first conveying mechanism (3) and one end of the second conveying mechanism (5), and is used for transferring the back membrane (150) on the first conveying mechanism (3) to the second conveying mechanism (5);

a tool supply mechanism (7) for providing a positioning tool (100) for preparing the battery string;

the pre-placing table (8) is arranged above the input end of the second conveying mechanism (5) and is used for receiving the front diaphragm (140) and the positioning tool (100) correspondingly stacked on the front diaphragm (140);

the second carrying hand (9) is arranged above the film cutting mechanism (2) and the presetting table (8) in a reciprocating manner and is used for synchronously moving the N front film sheets (140) cut on the film cutting mechanism (2) to the presetting table (8) along a second direction, and the second direction is vertical to the horizontal plane of the first direction;

the laying mechanism (10) is arranged at the adjacent side close to the pre-placing table (8) and used for placing the front membrane (140) and the positioning tool (100) on the pre-placing table (8) at the input end of the second transmission mechanism (5) together, so that the front membrane (140) and the positioning tool (100) are stacked on the upper portion of the battery piece (130), and the welding strips (110) are attached to the battery piece (130) by the front membrane (140).

2. The membrane and positioning tool conveying device according to claim 1, wherein the tool supply mechanism (7) comprises a positioning tool recovery mechanism (71), a positioning tool transfer mechanism (72) and a positioning tool stacking mechanism (73), the positioning tool recovery mechanism (71) is arranged at the rear end of the second transmission mechanism (5) and is used for recovering the positioning tools (100) on the fixedly connected battery strings to the positioning tool transfer mechanism (72), the positioning tool transfer mechanism (72) is arranged between the positioning tool recovery mechanism (71) and the pre-positioning table (8) and transmits the positioning tools (100) from the rear end to the front end of the positioning tool transfer mechanism (72), and the positioning tool stacking mechanism (73) is arranged outside the pre-positioning table (8) and the positioning tool transfer mechanism (72) and is used for placing the positioning tools (100) at the front end of the positioning tool transfer mechanism (72) on the front membrane (140) on the pre-positioning table (8).

3. The film and positioning tool conveying device according to claim 2, wherein a heating component is arranged in the middle of the second conveying mechanism (5), the heating component is used for heating the front film (140) and the back film (150) to fixedly connect the welding strip (110) and the battery piece (130) into a battery string, the heating component forms a heating zone on the second conveying mechanism (5), the heating zone is located between the laying mechanism (10) and the positioning tool recycling mechanism (71), the laying mechanism (10) places the front film (140) and the positioning tool (100) before the heating zone, and the positioning tool recycling mechanism (71) captures and recycles the positioning tool (100) to the positioning tool transferring mechanism (72) after the heating zone.

4. The film and positioning tool conveying device according to claim 3, wherein the positioning tool recovery mechanism (71) comprises a lifting mechanism (711), a connecting arm (712) and two clamping drives (713) fixed on the connecting arm (712), the driving ends of the two clamping drives (713) are respectively connected with a leveling plate (714), the two leveling plates (714) are arranged oppositely, the two leveling plates (714) clamp two opposite sides of the positioning tool (100), and the positioning tool (100) can be subjected to position correction while the positioning tool (100) is conveyed.

5. The membrane and positioning tool conveying device according to claim 1, wherein the first conveying mechanism (3) comprises a first conveying section and a second conveying section, the second conveying section extends to a position below one end of the first conveying section, adsorption holes are formed in the first conveying section and the second conveying section, and the first conveying section conveys the back membrane (150) to the second conveying section;

the second transmission mechanism (5) comprises three sections of transmission sections and four sections of transmission sections, the four sections of transmission sections extend to the lower part of one end of each of the three sections of transmission sections, adsorption holes are formed in the three sections of transmission sections and the four sections of transmission sections, the three sections of transmission sections are used for bearing and transmitting battery strings, and the four sections of transmission sections are used for caching the back membrane (150) and transmitting the back membrane to the front end of the three sections of transmission sections;

and the membrane transferring mechanism (6) transfers the back membrane (150) on the two-section transmission section to the four-section transmission section in a reciprocating manner.

6. The membrane and positioning tool conveying device according to claim 1, wherein the first carrier hand (4) comprises a fixing plate (41) and a plurality of membrane grasping hands (42), each membrane grasping hand (42) comprises a distance adjusting cylinder (421) and an adsorbing piece (422), each adsorbing piece (422) is connected with the fixing plate (41) in a sliding mode through a long guide rail (423), one end of each distance adjusting cylinder (421) is fixedly connected with the fixing plate (41), the other end of each distance adjusting cylinder is connected with the adsorbing piece (422) in a driving mode, and each distance adjusting cylinder (421) drives the distance between the front membranes (140) on the adjacent adsorbing pieces (422).

7. The membrane and positioning tool conveying device according to claim 6, wherein a limiting plate (424) and a positioning column (425) perpendicular to the limiting plate (424) are further arranged on the adsorbing member (422), a long hole is formed in the limiting plate (424), and the positioning column (425) is sleeved in the long hole of the limiting plate (424) adjacent to the adsorbing member (422).

8. The membrane and positioning tool conveying device according to claim 1, wherein the membrane cutting mechanism (2) comprises a cutting platform (21), a traction assembly (22) and a cutter set (23), the traction assembly (22) is arranged above the cutting platform (21), one end of the membrane can be horizontally moved back and forth along one side of the cutting platform (21) to be pulled and laid on the cutting platform (21), and the cutter set (23) can be arranged below the cutting platform (21) in a lifting manner and can be translated along a direction perpendicular to the moving direction of the traction assembly (22).

9. The film, positioning tool conveying device according to claim 2, wherein the positioning tool stacking mechanism (73) comprises: the device comprises a translation guide rail (731) and a plurality of transfer hands (732) which are connected to the translation guide rail (731) in a sliding mode, wherein each transfer hand (732) is connected with a driving part (733), the driving parts (733) independently drive the transfer hands (732), so that the plurality of transfer hands (732) are close to or far away from each other, and the distance between positioning tools is adjusted to be suitable for the position of a front membrane (140) on the pre-placing table (8).

10. A method for conveying a membrane and a positioning tool, which is applied to the membrane and positioning tool conveying device of any one of claims 1 to 9, and comprises the following steps:

s10, cutting N front surface membranes (140) and N back surface membranes (150) at the same time;

s20, sequentially transferring the N back diaphragms (150) to three sections of transmission sections, and paving welding strips (110) on the back diaphragms (150); synchronously transferring the N front diaphragms (140) to the pre-placing table (8) and correspondingly placing N positioning tools (100) on the N front diaphragms (140);

s30, simultaneously placing the front membrane (140) on the pre-placing table (8) and the corresponding positioning tool and battery piece (130) on the welding strip (110);

s40, the back membrane (150), the welding strip (110), the battery piece (130), the front membrane (140) and the positioning tool (100) are transferred to a heating part to be heated together, so that the front membrane (140) and the back membrane (150) are heated simultaneously, and the battery piece (130) is glued with the welding strip (110);

wherein, the step S10, the step S20, the step S30 and the step S40 are simultaneously carried out at different stations.

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