CN212303747U - Button type lithium battery top side sealing test all-in-one machine packaging device - Google Patents

Abstract

The utility model discloses a knot formula lithium cell top side seal test all-in-one packaging hardware, the device include external platform, workstation and locate the decollator carousel mechanism on this workstation mesa, six tool extension boards are installed to decollator carousel mechanism's periphery, and every tool extension board all is equipped with positioning jig on the surface, centers on decollator carousel mechanism and positioning jig still install utmost point ear fixing device, first top seal packaging mechanism, second top seal packaging mechanism, side seal packaging mechanism, survey short circuit mechanism and extracting mechanism respectively on this mesa, and the electricity core is placed on positioning jig, cuts apart the carousel through fixed point rotation, makes the electricity core rotate respectively to utmost point ear fixing device, first top seal packaging mechanism, second top seal packaging mechanism, side seal packaging mechanism, survey short circuit mechanism and on extracting mechanism, realizes self-heating, self-sealing, The automatic short circuit detection and automatic material discharge improve the packaging efficiency, improve the product quality and reduce the production cost.

Description

Button type lithium battery top side sealing test all-in-one machine packaging device

Technical Field

The utility model belongs to the technical field of knot formula lithium cell encapsulation, concretely relates to knot formula lithium cell top side seal test all-in-one packaging hardware.

Background

New forms of energy knot formula soft packet of lithium cell encapsulation equipment, because production needs, soft packet of lithium cell housing plastic-aluminum membrane and electric core need top seal, side seal, survey short circuit, finished product defective products are categorised. In the traditional production process, the equipment efficiency is low, the product package is grasped manually, the efficiency is low, the labor intensity is high, and safety accidents are easy to happen.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a button type lithium battery top side seal test all-in-one packaging device.

The utility model provides a technical scheme that its technical problem adopted is: a packaging device for a button type lithium battery top side sealing test all-in-one machine comprises an external platform, a workbench and a divider turntable mechanism arranged on the workbench surface of the workbench, wherein six jig extension plates are arranged on the outer periphery of the divider turntable mechanism, and a positioning jig is arranged on the surface of each jig extension plate;

the decollator tray loading mechanism comprises a decollator turntable, a decollator induction sheet, a speed regulating motor, a first synchronizing wheel, a DF060 step speed reducer, a rotary connecting shaft, a second synchronizing wheel, a support and an EE-SX671 photoelectric switch;

the positioning jig comprises a base, an upturning block and a rotating jig;

around the turntable mechanism of the divider and the positioning jig, a tab fixing device, a first top sealing and packaging mechanism, a second top sealing and packaging mechanism, a side sealing and packaging mechanism, a short circuit measuring mechanism and a material taking mechanism are respectively arranged on the table board;

the tab fixing device comprises a lifting seat, a connecting seat, an L-shaped fixing base plate and a cylinder;

the first top sealing packaging mechanism comprises a first slide rail plate, a top sealing vertical plate, a top sealing cylinder fixing plate, an upper top sealing cylinder, a first upper linear guide rail, an upper top sealing seat slide block, an upper top sealing slide seat, a first upper floating connecting block, a top sealing packaging mechanism bottom plate, a lower top sealing cylinder, a first lower linear guide rail, a lower top sealing seat slide block, a lower top sealing slide seat, a first lower floating connecting block, a first lower adjusting rod and a first upper adjusting rod;

the parts and the structure of the second top sealing packaging mechanism are consistent with those of the first top sealing packaging mechanism;

the side sealing packaging mechanism comprises a second slide rail plate, a side sealing air cylinder fixing plate, a side sealing plate, an upper side sealing air cylinder, a second upper linear guide rail, an upper side sealing seat sliding block, an upper side sealing sliding seat, a second upper floating connecting block, an upper side sealing seat base plate, an upper side sealing heat insulation plate, an upper side end socket upper die, a side sealing packaging mechanism bottom plate, a lower side sealing air cylinder, a second lower linear guide rail, a lower side sealing seat sliding block, a lower side sealing sliding seat, a second lower floating connecting block, a lower side sealing seat base plate, a lower side sealing heat insulation plate, a lower side end socket and a lower side end socket lower die;

the short circuit detection mechanism comprises a mechanism bottom plate, a fulcrum shaft, an upper lifting cylinder, a lower lifting cylinder, a left supporting block, a right supporting block, a rear supporting block, a first sliding plate, a second sliding plate, a first test moving seat, a second test moving seat, a membrane puncturing moving seat, a first probe top pressing block, a first glass fiber base plate, a first probe glass fiber cover plate, a first forward copper probe, a second probe top pressing block, a second glass fiber base plate, a second probe glass fiber cover plate, a second forward copper probe, a third probe top pressing block, an edge voltage supporting block, an inclined blade and a fixing plate;

the material taking mechanism comprises a support, a cross beam, a linear module, an ACQS cylinder, a TR16 cylinder, a blanking sliding plate, an Xin sucker support plate and a vacuum generator.

Preferably, the buncher is installed in the workstation, and the output and the first synchronizing wheel of buncher are connected, DF060 step-by-step speed reducer is installed in the workstation equally, and the output and the second synchronizing wheel of DF060 step-by-step speed reducer are connected, first synchronizing wheel passes through the belt with the second synchronizing wheel and is connected, cut apart the other end that DF060 step-by-step speed reducer was located to the response piece cover, SX671 photoelectric switch locates the support upper surface and is located under the response piece of cutting apart, DF060 step-by-step speed reducer still is connected with the swivelling joint axle, swivelling joint axle and division carousel fastening connection.

Preferably, the base is located the tool and stretches out the upper surface of board, and is located the base still to be equipped with two first lugs on the surface, the one end of turning over the piece on is arranged in between two first lugs and through pivot swing joint, and the other end of turning over the piece on then is equipped with two second lugs, the rotatory tool be equipped with the fixed block on the surface, the fixed block is arranged in between two second lugs and through pivot swing joint, is located the below of rotatory tool, and circle bluetooth electricity core tool is still installed to the upper surface that the tool stretches out the board, the end of circle bluetooth electricity core tool is equipped with the constant head tank that is used for fixing a position electric core.

Preferably, the lifting seat is installed on the workbench, the cylinder is installed on the side face of the lifting seat, the output end of the cylinder is connected to the bottom face of the connecting seat, the lifting moving seat is arranged right above the connecting seat, the two L-shaped fixing base plates are arranged at intervals and installed above the lifting moving seat, and the two L-shaped fixing base plates are provided with lug positioning grooves and hollow semi-long circular limiting grooves on the upper surfaces.

Preferably, the top seal packaging mechanism bottom plate is arranged on the workbench, the first slide rail plate and the top seal vertical plate are arranged on the surface of the top seal packaging mechanism bottom plate, the lower top sealing cylinder is arranged on the bottom surface of the bottom plate of the top sealing packaging mechanism, the output end of the lower top sealing cylinder penetrates through the bottom plate of the top sealing packaging mechanism and is connected with the first lower adjusting rod, the first lower linear guide rails are totally provided with two lower linear guide rails which are arranged on the inner surface of the first slide rail plate at intervals, the two lower top seal seat sliding blocks matched with the two lower top seal seat sliding blocks are also arranged on the left side and the right side of the bottom surface of the lower top seal sliding seat respectively, the first lower floating block is arranged on the bottom surface of the lower top seal sliding seat, the lower top sealing seat cushion plate, the lower top sealing heat insulation plate, the lower top sealing head and the lower top sealing head die are sequentially arranged above the lower top sealing sliding seat;

the top seal cylinder fixing plate is tightly installed on the side surface of the top end of the first slide rail plate, the upper top seal cylinder is installed on the upper surface of the top seal cylinder fixing plate, the output end of the upper top seal cylinder penetrates through the top seal cylinder fixing plate and is connected with the first upper adjusting rod, the first upper linear guide rails are also provided with two first lower linear guide rails which are respectively arranged above the two first upper linear guide rails, the two upper top seal seat sliding blocks matched with the upper top seal seat sliding block are also arranged, the two upper top seal seat sliding blocks are respectively arranged at the left side and the right side of the surface of the upper top seal sliding seat, the first upper floating connecting block is arranged on the surface of the upper top seal sliding seat, and is positioned right below the first upper adjusting rod, an upper top sealing seat backing plate, an upper top sealing heat insulation plate, an upper top sealing head and an upper top sealing head upper die are sequentially arranged below the upper top sealing sliding seat, and a soft seal head and two seal head locking blocks for locking the soft seal head are also arranged between the upper top seal head upper die and the lower top seal head lower die.

Preferably, the bottom plate of the side sealing packaging mechanism is arranged on the workbench, the second slide rail plate and the side sealing vertical plate are arranged on the surface of the bottom plate of the side sealing packaging mechanism, the lower side sealing cylinder is arranged on the bottom surface of the bottom plate of the side sealing packaging mechanism, the output end of the lower side sealing cylinder penetrates through the bottom plate of the side sealing packaging mechanism and is connected with the second lower adjusting rod, the second lower linear guide rails are totally provided with two lower linear guide rails which are arranged on the inner surface of the second slide rail plate at intervals, the two lower side sealing seat sliding blocks matched with the lower side sealing seat sliding blocks are also arranged, the two lower side sealing seat sliding blocks are respectively arranged at the left side and the right side of the bottom surface of the lower side sealing sliding seat, the second lower floating block is arranged at the bottom surface of the lower side sealing sliding seat, the lower sealing slide seat is positioned right above the second lower adjusting rod, and a lower sealing seat base plate, a lower sealing heat insulation plate, a lower sealing head and a lower sealing head lower die are sequentially arranged above the lower sealing slide seat;

side seal cylinder fixed plate fastening is installed on the side on second slide rail board top, the upper side seal cylinder then is installed in the upper surface of side seal cylinder fixed plate, and the output of upper side seal cylinder passes side seal cylinder fixed plate and adjusts the pole connection on with the second, linear guide is equipped with two equally on the second, installs respectively in two linear guide's top under the second, matched with upside seal seat slider is equipped with two equally, two upside seal seat slider installs respectively in the left and right sides on upside seal slide surface, the second come-up splice block is installed in the surface of upside seal slide, and is located the second and adjusts the pole under, and the below of upside seal slide is equipped with in proper order on upside seal seat backing plate, the upside seals heat insulating board, the mould on upside head and the upside head.

Preferably, the mechanism bottom plate is mounted on the workbench, the number of the support shafts is two, the lower ends of the two support shafts are arranged on the mechanism bottom plate at intervals, the upper ends of the two support shafts respectively penetrate through the first sliding plate and the second sliding plate, a first linear bearing is arranged at the joint of the support shaft and the first sliding plate and fixedly connected through a flange, a second linear bearing is arranged at the joint of the support shaft and the second sliding plate and fixedly connected through a flange, the fixing plate is mounted at the top end of the support shaft, the lower lifting cylinder is mounted on the surface of the mechanism bottom plate, the output end of the lower lifting cylinder is in contact with the bottom surface of the first sliding plate, the upper lifting cylinder is mounted on the surface of the fixing plate, and the output end of the upper lifting;

the first sliding plate is provided with three oblong through holes, the left support block, the right support block and the rear support block are respectively fixed on the first sliding plate through locking screws and the oblong through holes correspondingly, the second sliding plate is provided with a sliding chute, the first test moving seat, the second test moving seat and the membrane puncturing moving seat can slide left and right through the sliding chute, the first probe top pressing block is sleeved on the first test moving seat, the first glass fiber base plate is arranged on the right side surface of the first probe top pressing block, the first probe glass fiber cover plate is arranged on the right side surface of the first glass fiber base plate, the first forward copper probe is arranged between the first glass fiber base plate and the first probe glass fiber cover plate, the second probe top pressing block is sleeved on the second test moving seat, the second probe glass fiber base plate is arranged on the right side surface of the second probe top pressing block, the second probe cover plate is arranged on the right side surface of the second glass fiber base plate, the second forward copper probe is installed between the second glass fiber base plate and the second probe glass fiber cover plate, the third probe ejection pressing block is also sleeved on the second test moving seat, the edge voltage supporting block is installed on the left side face of the third probe ejection pressing block, and the inclined blade is tightly installed on the side face of the edge voltage supporting block.

Preferably, the support is mounted on the workbench, the cross beam is mounted on the side surface of the top end of the support, the linear module is mounted on the side surface of the cross beam and located at the left end and the right end of the cross beam, the side surfaces of the linear module are further respectively provided with a first guide rail seat and a second guide rail seat, the blanking sliding plate is mounted on the outer surface of the linear module, a material taking upper and lower adjusting plate is further arranged on the outer surface of the blanking sliding plate, the TR16 cylinder is mounted on the outer surface of the material taking upper and lower adjusting plate, the output end of the TR16 cylinder is connected with the Xin sucker support plate, and the;

the ACQS cylinder is arranged on the lower surface of the extension plate, and the output end of the ACQS cylinder is in contact with the upper turning block.

Compared with the prior art, the beneficial effects of the utility model are that: the electric core is placed on the positioning jig, and the rotary table is cut through fixed-point rotation, so that the electric core is respectively rotated to the polar lug fixing device, the first top sealing packaging mechanism, the second top sealing packaging mechanism, the side sealing packaging mechanism, the short circuit measuring mechanism and the material taking mechanism, automatic heating, automatic packaging, automatic short circuit measuring and automatic material discharging are realized, the packaging efficiency is improved, the product quality is improved, and the production cost is reduced.

Drawings

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

FIG. 2 is a schematic structural diagram of the turntable mechanism of the decollator of the present invention;

fig. 3 is a schematic structural diagram of the DF060 step reducer of the present invention;

fig. 4 is a schematic structural view of the positioning jig of the present invention;

FIG. 5 is a schematic structural view of the side sealing and packaging mechanism of the present invention;

FIG. 6 is another schematic structural view of the side sealing mechanism of the present invention;

fig. 7 is a schematic structural view of a first top sealing and packaging mechanism of the present invention;

fig. 8 is another schematic structural view of the first top sealing and packaging mechanism of the present invention;

fig. 9 is a schematic structural diagram of the short circuit measuring mechanism of the present invention;

fig. 10 is a schematic structural view of the material taking mechanism of the present invention;

fig. 11 is a schematic structural view of the tab fixing device of the present invention.

Reference numbers in the figures:

the device comprises a workbench 1, an external platform 2, a divider turntable mechanism 3, a dividing turntable 31, a dividing induction sheet 32, a speed regulating motor 33, a first synchronous wheel 34, a DF060 step speed reducer 35, a rotary connecting shaft 36, a support 37, an EE-SX671 photoelectric switch 38, a jig extension plate 39, a base 300, an upper turning block 301, a side sealing and packaging mechanism 4, a second slide rail plate 41, a side sealing plate 42, a side sealing cylinder fixing plate 43, an upper sealing cylinder 44, a second upper adjusting rod 45, an upper sealing seat slide block 46, a second upper floating connecting block 47, an upper sealing heat insulation plate 48, an upper sealing head 49, a second upper linear guide rail 400, an upper sealing slide seat 401, an upper sealing seat cushion plate 402, an upper sealing head upper die 403, a lower sealing cylinder 404, a side sealing and packaging mechanism bottom plate 405, a second slide rail plate 406, a side sealing plate 407, a second lower linear guide rail 408, a lower sealing seat cushion plate 409, a lower sealing seat cushion 410, a rotary table 31, a lower head lower die 411, a lower head 412, a lower heat-insulating sealing plate 413, a second lower floating block 414, a lower seat-sealing slider 415, a second lower adjusting rod 416, a first top-sealing packaging mechanism 5, a first slide rail plate 51, a top-sealing vertical plate 52, a top-sealing cylinder fixing plate 53, an upper top-sealing cylinder 54, a first upper linear guide rail 55, an upper top-sealing seat slider 56, an upper top-sealing sliding seat 57, a first upper floating block 58, a first upper adjusting rod 59, an upper top head 500, an upper top-sealing heat-insulating sealing plate 501, an upper top-sealing seat backing plate 502, an upper top-sealing head upper die 503, a top-sealing structure bottom plate 504, a lower top-sealing cylinder 505, a first lower linear guide rail 506, a lower top-sealing seat slider 507, a lower top-sealing seat backing plate 508, a lower top-sealing heat-insulating plate 509, a first lower floating block 510, a first lower adjusting rod 511, a lower top-sealing sliding seat 512, a lower top-sealing head 513, a lower top-sealing head 514, a second top, The device comprises a fixing plate 71, an ascending and descending cylinder 72, a first testing moving seat 73, a side voltage supporting block 74, an inclined blade 75, a first positive copper probe 76, a first glass fiber base plate 77, a first probe jacking block 78, a sliding chute 79, a second linear bearing 700, a left supporting block 701, a right supporting block 702, a rear supporting block 703, a first linear bearing 704, a supporting shaft 705, a mechanism bottom plate 706, a lower ascending and descending cylinder 707, a material taking mechanism 8, a support 81, a material taking upper and lower adjusting plate 82, a first guide rail seat 83, a cross beam 84, a linear module 85, a blanking sliding plate 86, a second guide rail seat 87, an electric Xin suction cup supporting plate 88, a vacuum generator 89, a TR16 cylinder 800, an ACQS cylinder 801, an extending plate 802, a lug fixing device 9, an ascending and descending seat 91, a cylinder 92, a connecting seat 93, an ascending and descending moving seat 94, an L-shaped fixing base plate 95, a lug positioning groove 96 and a.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-11, the utility model provides a button-type lithium battery top side seal test all-in-one packaging device, which comprises an external platform 2, a workbench 1 and a turntable mechanism 3 of a splitter arranged on the table-board of the workbench 1, six jig extension plates 39 are arranged on the periphery of the turntable mechanism 3 of the splitter, and a positioning jig is arranged on the surface of each jig extension plate 39;

the decollator tray loading mechanism comprises a decollator rotary disc 31, a decollator induction sheet 32, a speed regulating motor 33, a first synchronous wheel 34, a DF060 step speed reducer 35, a rotary connecting shaft 36, a second synchronous wheel (not shown), a support 37 and an EE-SX671 photoelectric switch 38, the speed regulating motor 33 is arranged in the workbench 1, the output end of the speed regulating motor 33 is connected with the first synchronous wheel 34, the DF060 step-by-step speed reducer 35 is also arranged in the workbench 1, the output end of the DF060 step-by-step speed reducer 35 is connected with a second synchronous wheel, the first synchronizing wheel 34 is connected with the second synchronizing wheel through a belt, the dividing induction sheet 32 is sleeved at the other end of the DF060 step reducer 35, the SX671 photoelectric switch 38 is disposed on the upper surface of the support 37 and located right below the division sensing sheet 32, the DF060 step reducer 35 is further connected to a rotary connecting shaft 36, and the rotary connecting shaft 36 is fastened to the dividing turntable 31;

the positioning jig comprises a bottom 300, an upturning block 301 and a rotating jig 304, the base 300 is arranged on the upper surface of the jig extension plate 39, two first convex blocks 302 are further arranged on the surface of the base 300, one end of the upturning block 301 is arranged between the two first convex blocks 302 and movably connected through a rotating shaft, the other end of the upturning block 301 is provided with two second convex blocks 302, a fixed block 305 is arranged on the surface of the rotating jig 304, the fixed block 305 is arranged between the two second convex blocks 303 and movably connected through the rotating shaft and is positioned below the rotating jig 304, a round Bluetooth battery cell jig 306 is further mounted on the upper surface of the jig extension plate 39, and a positioning groove 307 for positioning a battery cell is arranged at the tail end of the round Bluetooth battery cell jig 306;

around the turntable mechanism 3 of the divider and the positioning jig, a tab fixing device 9, a first top sealing and packaging mechanism 5, a second top sealing and packaging mechanism 6, a side sealing and packaging mechanism 4, a short circuit measuring mechanism 7 and a material taking mechanism 8 are further respectively installed on the table board;

the tab fixing device comprises a lifting seat 91, a lifting moving seat 94, a connecting seat 93, L-shaped fixing base plates 95 and air cylinders 92, wherein the lifting seat 91 is installed on the workbench 1, the air cylinders 92 are installed on the side surfaces of the lifting seat 91, the output ends of the air cylinders 92 are connected to the bottom surface of the connecting seat 93, the lifting moving seat 94 is arranged right above the connecting seat 93, the two L-shaped fixing base plates 95 are installed above the lifting moving seat 94 at intervals, and tab positioning grooves 96 and hollow semi-long circular limiting grooves 97 are formed in the upper surfaces of the two L-shaped fixing base plates 95;

the first top seal packaging mechanism 5 comprises a first sliding rail plate 51, a top seal plate 52, a top seal cylinder fixing plate 53, an upper top seal cylinder 54, a first upper linear guide rail 55, an upper top seal seat sliding block 56, an upper top seal sliding seat 57, a first upper floating connecting block 58, a top seal packaging mechanism bottom plate 504, a lower top seal cylinder 505, a first lower linear guide rail 506, a lower top seal seat sliding block 507, a lower top seal sliding seat 512, a first lower floating connecting block 510, a first lower adjusting rod 511 and a first upper adjusting rod 59, the top seal packaging mechanism bottom plate 504 is arranged on the workbench 1, the first sliding rail plate 51 and the top seal plate 52 are arranged on the surface of the top seal packaging mechanism bottom plate 504, the lower top seal cylinder 505 is arranged on the bottom surface of the top seal packaging mechanism bottom plate 504, the output end of the lower top seal cylinder 505 penetrates through the top seal packaging mechanism bottom plate 504 and is connected with the first lower adjusting rod 511, the first lower linear guide rail 506 is totally provided with two, the two lower top seal seat sliding blocks 507 are respectively arranged at the left side and the right side of the bottom surface of the lower top seal sliding seat 512, the first lower floating block 510 is arranged at the bottom surface of the lower top seal sliding seat 512 and is positioned right above the first lower adjusting rod 511, and a lower top seal seat backing plate 508, a lower top seal heat insulation plate 509, a lower top seal head 513 and a lower top seal head lower die 514 are sequentially arranged above the lower top seal sliding seat 512;

the top seal air cylinder fixing plate 53 is tightly installed on the side face of the top end of the first sliding rail plate 51, the upper top seal air cylinder 54 is installed on the upper surface of the top seal air cylinder fixing plate 53, the output end of the upper top seal air cylinder 54 penetrates through the top seal air cylinder fixing plate 53 and is connected with the first upper adjusting rod 59, two upper linear guide rails 55 are arranged on the upper surface of the two lower linear guide rails 506 respectively, two upper top seal seat sliding blocks 56 matched with the two upper top seal air cylinder fixing plates are arranged on the left side and the right side of the surface of the upper top seal sliding seat 57 respectively, the first upper floating connecting block 58 is installed on the surface of the upper top seal sliding seat 57 and is located under the first upper adjusting rod 59, an upper top seal seat cushion plate 502, an upper top seal heat insulation plate 501, an upper top seal head 500 and an upper top seal head upper mold 503 are sequentially arranged below the upper top seal head mold 503 and a lower top seal head mold 514, and two upper seal heads for locking the soft seal head mold are further arranged between the upper top seal head mold A seal head locking block of the seal head;

the parts and the structure of the second top sealing and packaging mechanism 6 are consistent with those of the first top sealing and packaging mechanism 5;

the side seal packaging mechanism 4 comprises a second slide rail plate 406, a side seal cylinder fixing plate 43, a side seal plate 42, an upper side seal cylinder 44, a second upper linear guide rail 400, an upper side seal seat slider 46, an upper side seal sliding seat 401, a second upper floating joint block 47, an upper side seal seat cushion plate 402, an upper side seal heat insulation plate 48, an upper side seal head 49, an upper side seal head upper die 403, a side seal packaging mechanism bottom plate 405, a lower side seal cylinder 404, a second lower linear guide rail 408, a lower side seal seat slider 415, a lower side seal sliding seat 409, a second lower floating joint block 414, a lower side seal seat cushion plate 410, a lower side seal heat insulation plate 413, a lower side seal head 412 and a lower side seal head lower die 411, the side seal packaging mechanism bottom plate 405 is arranged on a workbench, the second slide rail plate 406 and the side seal plate 407 are arranged on the surface of the side seal mechanism bottom plate 405, the lower side seal cylinder 404 is arranged on the bottom surface of the side seal packaging mechanism, the output end of the lower side sealing cylinder 404 penetrates through a bottom plate 405 of the side sealing packaging mechanism and is connected with a second lower adjusting rod 416, two lower linear guide rails 408 are arranged, the two lower linear guide rails are arranged on the inner surface of a second slide rail plate 406 at intervals, two lower side sealing seat sliders 415 matched with the second lower linear guide rails are also arranged, the two lower side sealing seat sliders 415 are respectively arranged on the left side and the right side of the bottom surface of the lower side sealing seat 409, the second lower floating block 414 is arranged on the bottom surface of the lower side sealing seat 409 and is positioned right above the second lower adjusting rod 416, and a lower side sealing seat cushion plate 410, a lower side sealing heat insulation plate 413, a lower side end enclosure 412 and a lower end enclosure lower die 411 are sequentially arranged above the lower side sealing seat 409;

the side seal cylinder fixing plate 43 is fixedly mounted on the side surface of the top end of the second sliding rail plate 41, the upper side seal cylinder 44 is mounted on the upper surface of the side seal cylinder fixing plate 43, the output end of the upper side seal cylinder 44 penetrates through the side seal cylinder fixing plate 43 and is connected with a second upper adjusting rod 45, two upper second linear guide rails 400 are also arranged and are respectively mounted above two lower second linear guide rails 408, two upper side seal seat sliders 46 matched with the upper side seal seat sliders are also arranged, the two upper side seal seat sliders 46 are respectively mounted on the left side and the right side of the surface of the upper side seal sliding seat 401, the second upper floating connecting block 47 is mounted on the surface of the upper side seal sliding seat 401 and is located right below the second upper adjusting rod 45, and an upper side seal seat cushion plate 402, an upper side seal heat insulation plate 48, an upper side seal head 49 and an upper side seal head upper mold 403 are sequentially arranged below the;

the short circuit measuring mechanism 7 comprises a mechanism bottom plate 706, two fulcrum shafts 705, an upper lifting cylinder 72, a lower lifting cylinder 707, a left support block 701, a right support block 702, a rear support block 703, a first sliding plate, a second sliding plate, a first test moving seat 73, a second test moving seat, a membrane puncturing moving seat, a first probe jacking pressing block 78, a first glass fiber base plate 77, a first probe glass fiber cover plate, a first forward copper probe 76, a second probe jacking pressing block, a second glass fiber base plate, a second probe glass fiber cover plate, a second forward copper probe, a third probe jacking pressing block, an edge voltage support block 74, an inclined blade 75 and a fixing plate 71, wherein the mechanism bottom plate is arranged on a workbench, the lower ends of the two fulcrum shafts 705 are arranged on the mechanism bottom plate 706 at intervals, the upper ends of the two fulcrum shafts respectively penetrate through the first sliding plate and the second sliding plate 705, a first linear bearing 704 is arranged at the joint of the fulcrum shafts 705 and the first sliding plate, the support shaft is fixedly connected with a second sliding plate through a flange, a second linear bearing 700 is arranged at the joint of the support shaft and the second sliding plate and is fixedly connected with the support shaft through the flange, the fixed plate 71 is installed at the top end of the support shaft 705, the lower lifting cylinder 707 is installed on the surface of the mechanism bottom plate 706, the output end of the lower lifting cylinder is contacted with the bottom surface of the first sliding plate, the upper lifting cylinder 72 is installed on the surface of the fixed plate 71, and the output end of the upper lifting cylinder penetrates through the fixed plate 71 and is contacted with the;

the first sliding plate is provided with three oblong through holes, the left support block 701, the right support block 702 and the rear support block 703 are respectively fixed on the first sliding plate through locking screws and the oblong through holes correspondingly, the second sliding plate is provided with a sliding groove 79, the first test moving seat 73, the second test moving seat and the membrane puncturing moving seat can slide left and right through the sliding groove 79, the first probe top pressing block 78 is sleeved on the first test moving seat 73, the first glass fiber base plate 77 is arranged on the right side surface of the first probe top pressing block 78, the first probe glass fiber cover plate is arranged on the right side surface of the first glass fiber base plate 77, the first forward copper probe 76 is arranged between the first glass fiber base plate 77 and the first probe glass fiber cover plate, the second probe top pressing block is sleeved on the second test moving seat, the second probe top pressing block is arranged on the right side surface of the second probe top pressing block, the second probe glass fiber cover plate is arranged on the right side surface of the second probe top pressing block, the second forward copper probe is arranged between a second glass fiber base plate and a second probe glass fiber cover plate, the third probe pressing block is also sleeved on the second test moving seat, the edge voltage supporting block 74 is arranged on the left side surface of the third probe pressing block, and the inclined blade 75 is fixedly arranged on the side surface of the edge voltage supporting block 74;

the material taking mechanism comprises a support 81, a cross beam 84, a linear module 85, an ACQS cylinder 801, a TR16 cylinder 800, a blanking sliding plate 86, an Xin sucking disc support plate 88 and a vacuum generator 89, wherein the support 81 is installed on the workbench 1, the cross beam 84 is installed on the side surface of the top end of the support 81, the linear module 85 is installed on the side surface of the cross beam 84 and is positioned at the left end and the right end of the cross beam 84, the side surface of the linear module is also provided with a first guide rail seat 83 and a second guide rail seat 87, the blanking sliding plate 86 is installed on the outer surface of the linear module 85, a material taking upper and lower adjusting plate 82 is also arranged on the outer surface of the blanking sliding plate 86, the TR16 cylinder 800 is installed on the outer surface of the material taking upper and lower adjusting plate 82, the output end of the TR cylinder is connected with the;

the left end of the beam 84 is provided with an extension plate 802 on the upper surface, the ACQS cylinder 801 is arranged on the lower surface of the extension plate 802, and the output end of the ACQS cylinder 801 is in contact with the upturned block 301.

The electric core is placed on the positioning jig, and the rotary table is cut through fixed-point rotation, so that the electric core is respectively rotated to the polar lug fixing device, the first top sealing packaging mechanism, the second top sealing packaging mechanism, the side sealing packaging mechanism, the short circuit measuring mechanism and the material taking mechanism, automatic heating, automatic packaging, automatic short circuit measuring and automatic material discharging are realized, the packaging efficiency is improved, the product quality is improved, and the production cost is reduced.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The packaging device of the button type lithium battery top side sealing test all-in-one machine is characterized by comprising an external platform, a workbench and a divider turntable mechanism arranged on the workbench surface of the workbench, wherein six jig extension plates are arranged on the periphery of the divider turntable mechanism, and a positioning jig is arranged on the surface of each jig extension plate;

the decollator tray loading mechanism comprises a decollator turntable, a decollator induction sheet, a speed regulating motor, a first synchronizing wheel, a DF060 step speed reducer, a rotary connecting shaft, a second synchronizing wheel, a support and an EE-SX671 photoelectric switch;

the positioning jig comprises a base, an upturning block and a rotating jig;

around the turntable mechanism of the divider and the positioning jig, a tab fixing device, a first top sealing and packaging mechanism, a second top sealing and packaging mechanism, a side sealing and packaging mechanism, a short circuit measuring mechanism and a material taking mechanism are respectively arranged on the table board;

the tab fixing device comprises a lifting seat, a connecting seat, an L-shaped fixing base plate and a cylinder;

the first top sealing packaging mechanism comprises a first slide rail plate, a top sealing vertical plate, a top sealing cylinder fixing plate, an upper top sealing cylinder, a first upper linear guide rail, an upper top sealing seat slide block, an upper top sealing slide seat, a first upper floating connecting block, a top sealing packaging mechanism bottom plate, a lower top sealing cylinder, a first lower linear guide rail, a lower top sealing seat slide block, a lower top sealing slide seat, a first lower floating connecting block, a first lower adjusting rod and a first upper adjusting rod;

the parts and the structure of the second top sealing packaging mechanism are consistent with those of the first top sealing packaging mechanism;

the side sealing packaging mechanism comprises a second slide rail plate, a side sealing air cylinder fixing plate, a side sealing plate, an upper side sealing air cylinder, a second upper linear guide rail, an upper side sealing seat sliding block, an upper side sealing sliding seat, a second upper floating connecting block, an upper side sealing seat base plate, an upper side sealing heat insulation plate, an upper side end socket upper die, a side sealing packaging mechanism bottom plate, a lower side sealing air cylinder, a second lower linear guide rail, a lower side sealing seat sliding block, a lower side sealing sliding seat, a second lower floating connecting block, a lower side sealing seat base plate, a lower side sealing heat insulation plate, a lower side end socket and a lower side end socket lower die;

the short circuit detection mechanism comprises a mechanism bottom plate, a fulcrum shaft, an upper lifting cylinder, a lower lifting cylinder, a left supporting block, a right supporting block, a rear supporting block, a first sliding plate, a second sliding plate, a first test moving seat, a second test moving seat, a membrane puncturing moving seat, a first probe top pressing block, a first glass fiber base plate, a first probe glass fiber cover plate, a first forward copper probe, a second probe top pressing block, a second glass fiber base plate, a second probe glass fiber cover plate, a second forward copper probe, a third probe top pressing block, an edge voltage supporting block, an inclined blade and a fixing plate;

the material taking mechanism comprises a support, a cross beam, a linear module, an ACQS cylinder, a TR16 cylinder, a blanking sliding plate, an Xin sucker support plate and a vacuum generator.

2. The encapsulation device of claim 1, wherein the adjustable speed motor is installed in the workbench, an output end of the adjustable speed motor is connected with the first synchronizing wheel, the DF060 step reducer is also installed in the workbench, an output end of the DF060 step reducer is connected with the second synchronizing wheel, the first synchronizing wheel is connected with the second synchronizing wheel through a belt, the division sensing piece is sleeved at the other end of the DF060 step reducer, the SX671 photoelectric switch is arranged on an upper surface of the support and is located right below the division sensing piece, the DF060 step reducer is further connected with a rotation connecting shaft, and the rotation connecting shaft is fastened with the division rotating disc.

3. The packaging device of claim 1, wherein the base is disposed on an upper surface of the jig extension plate, two first protruding blocks are further disposed on the surface of the base, one end of the upturning block is disposed between the two first protruding blocks and movably connected through a rotating shaft, two second protruding blocks are disposed at the other end of the upturning block, a fixed block is disposed on the surface of the rotating jig, the fixed block is disposed between the two second protruding blocks and movably connected through a rotating shaft, the fixed block is disposed below the rotating jig, a round bluetooth battery cell jig is further mounted on the upper surface of the jig extension plate, and a positioning groove for positioning a battery cell is disposed at the end of the round bluetooth battery cell jig.

4. The packaging device of claim 1, wherein the lifting seat is mounted on the workbench, the cylinder is mounted on the side surface of the lifting seat, the output end of the cylinder is connected to the bottom surface of the connecting seat, a lifting moving seat is arranged right above the connecting seat, two L-shaped fixing base plates are arranged above the lifting moving seat at intervals, and the upper surfaces of the two L-shaped fixing base plates are provided with a tab positioning groove and a hollow semi-long circular limiting groove.

5. The packaging device of claim 1, wherein the top-sealing packaging mechanism bottom plate is disposed on a workbench, the first sliding rail plate and the top-sealing plate are mounted on the surface of the top-sealing packaging mechanism bottom plate, the lower top-sealing cylinder is mounted on the bottom surface of the top-sealing packaging mechanism bottom plate, the output end of the lower top-sealing cylinder penetrates through the top-sealing packaging mechanism bottom plate and is connected with the first lower adjusting rod, the first lower linear guide rails are arranged in two numbers and are mounted on the inner surface of the first sliding rail plate at intervals, the two lower top-sealing seat sliders matched with the first sliding rail plate are also arranged in two numbers, the two lower top-sealing seat sliders are respectively mounted on the left side and the right side of the bottom surface of the lower top-sealing slide, the first lower floating blocks are mounted on the bottom surface of the lower top-sealing slide and are located right above the first lower adjusting rod, and the lower top-sealing slide is sequentially provided with the lower top-sealing seat cushion plate, The lower top seal heat insulation plate, the lower top seal head and the lower top seal head die;

the top seal cylinder fixing plate is tightly installed on the side surface of the top end of the first slide rail plate, the upper top seal cylinder is installed on the upper surface of the top seal cylinder fixing plate, the output end of the upper top seal cylinder penetrates through the top seal cylinder fixing plate and is connected with the first upper adjusting rod, the first upper linear guide rails are also provided with two first lower linear guide rails which are respectively arranged above the two first upper linear guide rails, the two upper top seal seat sliding blocks matched with the upper top seal seat sliding block are also arranged, the two upper top seal seat sliding blocks are respectively arranged at the left side and the right side of the surface of the upper top seal sliding seat, the first upper floating connecting block is arranged on the surface of the upper top seal sliding seat, and is positioned right below the first upper adjusting rod, an upper top sealing seat backing plate, an upper top sealing heat insulation plate, an upper top sealing head and an upper top sealing head upper die are sequentially arranged below the upper top sealing sliding seat, and a soft seal head and two seal head locking blocks for locking the soft seal head are also arranged between the upper top seal head upper die and the lower top seal head lower die.

6. The packaging device of claim 1, wherein the bottom plate of the side-sealing packaging mechanism is disposed on the worktable, the second slide rail plate and the side-sealing plate are mounted on the surface of the bottom plate of the side-sealing packaging mechanism, the lower side-sealing cylinder is mounted on the bottom surface of the bottom plate of the side-sealing packaging mechanism, the output end of the lower side-sealing cylinder penetrates through the bottom plate of the side-sealing packaging mechanism and is connected with the second lower adjusting rod, the second lower linear guide rails are provided with two lower linear guide rails and mounted on the inner surface of the second slide rail plate at intervals, the two lower side-sealing sliders matched with the second lower linear guide rails are also provided, the two lower side-sealing sliders are respectively mounted on the left side and the right side of the bottom surface of the lower side-sealing slide, the second lower floating block is mounted on the bottom surface of the lower side-sealing slide and is located right above the second lower adjusting rod, and the lower side-sealing slide is sequentially provided with lower side-sealing cushion, The lower side heat insulation plate, the lower side end enclosure and the lower side end enclosure die are arranged on the lower side of the lower side heat insulation plate;

side seal cylinder fixed plate fastening is installed on the side on second slide rail board top, the upper side seal cylinder then is installed in the upper surface of side seal cylinder fixed plate, and the output of upper side seal cylinder passes side seal cylinder fixed plate and adjusts the pole connection on with the second, linear guide is equipped with two equally on the second, installs respectively in two linear guide's top under the second, matched with upside seal seat slider is equipped with two equally, two upside seal seat slider installs respectively in the left and right sides on upside seal slide surface, the second come-up splice block is installed in the surface of upside seal slide, and is located the second and adjusts the pole under, and the below of upside seal slide is equipped with in proper order on upside seal seat backing plate, the upside seals heat insulating board, the mould on upside head and the upside head.

7. The packaging device of claim 1, wherein the mechanism base plate is mounted on a workbench, two fulcrum shafts are arranged, the lower ends of the two fulcrum shafts are arranged on the mechanism base plate at intervals, the upper ends of the two fulcrum shafts respectively penetrate through a first sliding plate and a second sliding plate, a first linear bearing is arranged at the joint of the fulcrum shaft and the first sliding plate and fixedly connected through a flange, a second linear bearing is arranged at the joint of the fulcrum shaft and the second sliding plate and fixedly connected through a flange, the fixing plate is mounted at the top end of the fulcrum shaft, the lower lifting cylinder is mounted on the surface of the mechanism base plate, the output end of the lower lifting cylinder is in contact with the bottom surface of the first sliding plate, the upper lifting cylinder is mounted on the surface of the fixing plate, and the output end of the upper lifting cylinder penetrates through the fixing plate and is in contact with the surface of the second sliding plate;

the first sliding plate is provided with three oblong through holes, the left support block, the right support block and the rear support block are respectively fixed on the first sliding plate through locking screws and the oblong through holes correspondingly, the second sliding plate is provided with a sliding chute, the first test moving seat, the second test moving seat and the membrane puncturing moving seat can slide left and right through the sliding chute, the first probe top pressing block is sleeved on the first test moving seat, the first glass fiber base plate is arranged on the right side surface of the first probe top pressing block, the first probe glass fiber cover plate is arranged on the right side surface of the first glass fiber base plate, the first forward copper probe is arranged between the first glass fiber base plate and the first probe glass fiber cover plate, the second probe top pressing block is sleeved on the second test moving seat, the second probe glass fiber base plate is arranged on the right side surface of the second probe top pressing block, the second probe cover plate is arranged on the right side surface of the second glass fiber base plate, the second forward copper probe is installed between the second glass fiber base plate and the second probe glass fiber cover plate, the third probe ejection pressing block is also sleeved on the second test moving seat, the edge voltage supporting block is installed on the left side face of the third probe ejection pressing block, and the inclined blade is tightly installed on the side face of the edge voltage supporting block.

8. The packaging device of the button type lithium battery top-side sealing test all-in-one machine according to claim 1, wherein the support is mounted on a workbench, the cross beam is mounted on the side surface of the top end of the support, the linear modules are mounted on the side surface of the cross beam and positioned at the left end and the right end of the cross beam, a first guide rail seat and a second guide rail seat are further mounted on the side surfaces of the cross beam respectively, the blanking sliding plate is mounted on the outer surface of the linear modules, a material taking upper and lower adjusting plate is further arranged on the outer surface of the blanking sliding plate, the TR16 cylinder is mounted on the outer surface of the material taking upper and lower adjusting plate, the output end of the TR16 cylinder is connected with the Xin electric sucker support;

the ACQS cylinder is arranged on the lower surface of the extension plate, and the output end of the ACQS cylinder is in contact with the upper turning block.

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