CN108161206B

CN108161206B - Pressure welding device for lithium battery cap

Info

Publication number: CN108161206B
Application number: CN201810011995.XA
Authority: CN
Inventors: 不公告发明人
Original assignee: Chuzhou Huinengxin New Energy Technology Co ltd
Current assignee: Chuzhou Huinengxin New Energy Technology Co ltd
Priority date: 2018-01-05
Filing date: 2018-01-05
Publication date: 2021-06-18
Anticipated expiration: 2038-01-05
Also published as: CN108161206A

Abstract

The invention discloses a pressure welding device for lithium battery caps, which structurally comprises a conveying table supporting leg, a lithium battery cap conveying table, a pressure welding box, an observation window, a material taking cabinet, a controller bracket and an alarm, wherein the conveying table supporting leg is uniformly and equidistantly connected to the lower end surface of the lithium battery cap conveying table, the pressure welding box is arranged at the other end of the lithium battery cap conveying table, the alarm is electrically connected to the upper end surface of the pressure welding box, the controller is connected with the pressure welding box through the controller bracket, the observation window is embedded in one side of the front end surface of the pressure welding box, the material taking cabinet is movably connected to the other side of the front end surface of the pressure welding box through a hinge, and the invention realizes that the pressure welding device for lithium battery caps can carry out dust removal treatment on finished lithium battery caps when in use and can automatically arrange the finished lithium battery caps, the inconvenience of manual arrangement is avoided, the working efficiency of the equipment is improved, and the practicability is high.

Description

Pressure welding device for lithium battery cap

Technical Field

The invention discloses a pressure welding device for a lithium battery cap, and belongs to the technical field of pressure welding of lithium battery caps.

Background

The cap serves as an important component in the conventional lithium battery, and the pressure welding between the top cap and the bottom cap of the cap is an important processing procedure.

However, in the prior art, after the lithium battery caps are processed, the processed finished lithium battery caps need to be arranged manually, so that the operation is inconvenient, the working efficiency of equipment is low, and the practicability is poor.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a pressure welding device for lithium battery caps, so as to solve the problems that in the prior art, after the lithium battery caps are machined, the machined finished lithium battery caps need to be arranged manually, the operation is inconvenient, the working efficiency of equipment is low, and the practicability is poor.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a pressure welding device for lithium cell block, its structure is including carrying platform stabilizer blade, lithium cell block to carry platform, pressure welding case, observation window, getting material cabinet, controller support, alarm, the lithium cell block carry the even equidistance in lower extreme surface of platform to be connected with and carry the platform stabilizer blade, the pressure welding case locate the other end that lithium cell block carried the platform, the alarm electricity connect on the upper end surface of pressure welding case, the controller pass through the controller support and be connected with the pressure welding case, one side of pressure welding case front end surface inlayed the observation window, get material cabinet through hinge swing joint in the opposite side of pressure welding case front end surface, the pressure welding case by pressure welding case shell body, feed inlet, guide device, guide drive arrangement, clamping device, elevating gear, pressure welding device, static-removing device, pay-off buffer, first feeding device, The automatic finished product arranging box for the lithium battery caps and the second conveying device are formed, the feeding hole is formed in one end of the outer shell of the pressure welding box, the material guiding device is arranged on the inner surface of the outer shell of the pressure welding box, the material guiding driving device is connected below the material guiding device, the lifting device is arranged at the other end of the material guiding driving device, the clamping device is connected to the upper end surface of the lifting device, the first conveying device is arranged at one end of the clamping device, the static removing device is arranged on the upper end surface of the first conveying device, the pressure welding device is arranged at one end of the static removing device, the feeding buffering device is arranged on the lower surface of the other end of the first conveying device, the second conveying device is arranged on the lower surface of one end of the first conveying device, and the second conveying device is connected to one end of the automatic finished product arranging box for the lithium battery caps, one end of the pressure welding case shell is provided with a lithium battery cap conveying platform.

Furthermore, the material guide device consists of a conveying roller, a material guide frame, a material guide roller and a movable bolt, wherein the conveying roller and the material guide roller are movably connected to the inner surface of the material guide frame through the movable bolt, the material guide roller is arranged at the other end of the conveying roller, and the lower end surface of the material guide roller is connected with a material guide driving device.

Furthermore, the material guiding driving device comprises a material guiding driving device outer shell, a driven turntable, a latch, a movable connecting rod, a latch shaft, a first transmission belt, a driving chuck, a movable disk driving rod, a first gear transmission seat, a driven gear, a gear driven rod, a transmission gear, a gear transmission rod, a driving gear, a gear driving rod, a first coupler and a material guiding driving motor, wherein the material guiding driving motor is arranged on the inner surface of the material guiding driving device outer shell, the gear driving rod is connected to one end of the material guiding driving motor through the first coupler, the driving gear penetrates through one end of the gear driving rod at equal intervals, the driving gear is connected with the driven gear through the transmission gear, the transmission gear penetrates through one end of the gear driving rod at equal intervals, and the driven gear penetrates through one end of the gear driven rod at equal intervals, the other end nested connection of gear driven lever have a gear drive seat, the expansion disc pass through the expansion disc actuating lever and connect on the upper end surface of gear drive seat, the card axle be connected with the expansion disc through first drive belt, the card axle weld in the front end surface of initiative chuck, initiative chuck and driven turntable be connected through the swing joint pole, driven turntable's upper end surface be connected with the latch, driven turntable's lower extreme surface inlay in the internal surface of guide drive arrangement shell body, driven turntable connect in the lower extreme surface of guide device through the latch.

Furthermore, the clamping device consists of a movable groove, a clamping block, a connecting block, a driving arm, a clamping device outer shell, a clamping device driving motor, a driving disc, a second driving belt and a clamping guide wheel, the inner surface of the outer shell of the clamping device is provided with a driving motor of the clamping device, the driving disc is nested and connected with one end of the driving motor of the clamping device, the driving disc is connected with the clamping guide wheel through a second transmission belt, the left side and the right side of the second transmission belt are both connected with driving arms, the lower end surface of the connecting block is connected with a driving arm, the connecting block is welded on the lower end surface of the clamping block, the upper end surface of the clamping block penetrates through the left side and the right side of the upper end surface of the movable groove respectively, the upper end surface of the clamping device outer shell is provided with the movable groove, and the clamping device outer shell is connected to the upper end surface of the lifting device.

Furthermore, the lifting device consists of a gear driven seat, a lifting device driving motor, a gear driven seat, a driving worm, a screw rod, a telescopic clamping seat, a lifting device outer shell, a telescopic frame and a push plate, the inner surface of the lifting device outer shell is provided with a lifting device driving motor, the other end of the lifting device driving motor is connected with a gear driving seat in an embedded manner, the gear driven seat is connected to the upper end surface of the gear driven seat, one end of the driving worm is nested and connected with the gear driven seat, the other end of the driving worm transversely penetrates through the telescopic clamping seat, the lower end surface of the screw rod longitudinally penetrates through the telescopic clamping seat and is connected with the driving worm, the upper end surface of lead screw run through the expansion bracket, the upper end surface of expansion bracket be connected with the push pedal, the lower extreme surface of push pedal inlay in the internal surface of elevating gear shell body upper end.

Further, the pressure welding device constitute by fixing support, pneumatic cylinder, flexible seat, pressure welding board, atmospheric pressure push pedal, atmospheric pressure push rod, atmospheric pressure jar, atmospheric pressure pipe, the atmospheric pressure jar pass through the atmospheric pressure pipe and be connected with the pneumatic cylinder, the pneumatic cylinder connect in fixing support's lower terminal surface, the internal surface of pneumatic cylinder be equipped with the atmospheric pressure push pedal, the upper end surface of atmospheric pressure push rod run through the pneumatic cylinder and be connected with the atmospheric pressure push pedal, the lower terminal surface of atmospheric pressure push rod be connected with the pressure welding board, flexible seat upper and lower both ends be connected with fixing support, pressure welding board respectively, the pressure welding board locate clamping device's upper end on the surface.

Furthermore, the static electricity removing device consists of a first transmission worm, a second coupler, a static electricity removing device driving motor, a second gear transmission seat, a second transmission worm, a connecting gear, an ion fan, a static electricity removing device outer shell and an air outlet filter screen, the inner surface of the static electricity eliminating device outer shell is provided with a static electricity eliminating device driving motor, the first transmission worm is connected with one end of the static electricity eliminating device driving motor through a second coupling, the first transmission worm is connected with the second transmission worm through a connecting gear, one end of the second transmission worm is connected with a second gear transmission seat in a nested manner, the upper end surface of the ion fan is connected with the second gear transmission seat in a nested mode, the air outlet filter screen is arranged on the lower end surface of the static electricity removing device shell, and a pressure welding device is arranged at one end of the static electricity removing device shell.

Further, pay-off buffer constitute by buffering cassette, fixed cassette, blotter, buffer spring, buffering depression bar, pay-off buffer shell body, the internal surface of pay-off buffer shell body be equipped with the blotter, the other end and the fixed cassette swing joint of blotter, the lower surface of blotter one end be connected with the buffering depression bar, buffering depression bar and buffer spring nested connection, the lower extreme surface of buffering depression bar run through in the internal surface of buffering cassette, the lower surface of pay-off buffer shell body one end be equipped with second feeding device.

Further, the bonding box is of a rectangular structure with the height of 1-2 m.

Furthermore, the telescopic seats are 2 and parallel to each other.

Advantageous effects

The invention relates to a pressure welding device for lithium battery caps, when a user uses the device, lithium battery caps to be subjected to pressure welding are fed onto a material guide device from a feed inlet through a battery cap conveying platform, the material guide device is driven by a material guide driving device to guide the lithium battery caps to be subjected to pressure welding to a clamping device, a lifting device drives the clamping device to ascend and clamp and fix the lithium battery caps to be subjected to pressure welding through the clamping device, the clamping device clamps and fixes the lithium battery caps, then the lithium battery caps to be subjected to pressure welding are pressed downwards through the pressure welding device, after the pressure welding of the lithium battery caps is finished, the pressure-welded lithium battery caps are conveyed to a first material conveying device, a static removing device starts to work and performs static removing treatment on the lithium battery caps to achieve the purpose of dust removal, after the dust removal is finished, the lithium battery caps are fed into a feeding buffer device through the first material conveying device, buffered and then fall onto a second material conveying device, the second feeding device sends lithium battery cap into automatic finished product range box of lithium battery cap and arranges automatically, when full finished product lithium battery cap in the automatic finished product range box of lithium battery cap, the staff accessible is got the material cabinet and is taken out the automatic finished product range box of lithium battery cap, the pressure welding device that has realized that the equipment is used for lithium battery cap can carry out dust removal treatment to finished product lithium battery cap when using, simultaneously can also carry out automatic range with finished product lithium battery cap automatically, the inconvenience of manual arrangement has been avoided, improve equipment's work efficiency, therefore, the clothes hanger is strong in practicability.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a bonding device for a lithium battery cap according to the present invention.

Fig. 2 is a first structural schematic diagram of the pressure welding box of the present invention.

FIG. 3 is a schematic structural diagram of a pressure welding chamber according to the present invention.

Fig. 4 is a schematic structural view of the material guiding driving device of the present invention.

Fig. 5 is a schematic structural view of the clamping device of the present invention.

Fig. 6 is a schematic structural diagram of the lifting device of the present invention.

FIG. 7 is a schematic structural diagram of a bonding apparatus according to the present invention.

FIG. 8 is a schematic structural diagram of the static discharge apparatus of the present invention.

In the figure: a conveying platform support foot-1, a lithium battery cap conveying platform-2, a pressure welding box-3, an observation window-4, a material taking cabinet-5, a controller-6, a controller bracket-7, an alarm-8, a pressure welding box outer shell-301, a material inlet-302, a material guide device-303, a material guide driving device-304, a clamping device-305, a lifting device-306, a pressure welding device-307, a static removing device-308, a material feeding buffer device-309, a first material conveying device-3010, a lithium battery cap automatic finished product arrangement box-3011, a second material conveying device-3012, a conveying roller-30301, a material guide frame-30302, a material guide roller-30303, a movable bolt-30304, a material guide driving device outer shell-30401, a driven rotary table-30402, a latch-30403, a material, a conveying roller-30301, a material conveying device-307 and a material, A movable connecting rod-30404, a clamping shaft-30405, a first transmission belt-30406, a driving chuck-30407, a movable disk-30408, a movable disk driving rod-30409, a first gear transmission seat-30410, a driven gear-30411, a gear driven rod-30412, a transmission gear-30413, a gear transmission rod-30414, a driving gear-30415, a gear driving rod-30416, a first coupler-30417, a material guide driving motor-30418, a movable groove-30501, a clamping block-30502, a connecting block-30503, a driving arm-30504, a clamping device outer shell-30505, a clamping device driving motor-30506, a driving disk-30507, a second transmission belt-30508, a clamping guide wheel-30509, a gear driven seat-30601, a lifting device driving motor-30602, a gear driving seat-30603, a gear driving seat-30408, A driving worm-30604, a screw rod-30605, a telescopic clamping seat-30606, a lifting device outer shell-30607, a telescopic frame-30608, a push plate-30609, a fixed support-30701, a pneumatic cylinder-30702, a telescopic seat-30703, a pressure welding plate-30704, a pneumatic push plate-30705, a pneumatic push rod-30706, a pneumatic tank-30707, a pneumatic conduit-30708, a first transmission worm-30801, a second coupler-30802, a static electricity removing device driving motor-30803, a second gear transmission seat-30804, a second transmission worm-30805, a connecting gear-30806, an ion fan-30807, a static electricity removing device outer shell-30808, an air outlet filter screen-30809, a buffer clamping seat-30901, a fixed clamping seat-30902, a buffer cushion-30903, a buffer spring-30904, a buffer pressure lever-30905 pressure lever, A feed buffer outer housing-3906.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 8, the present invention provides a technical solution of a pressure welding device for a lithium battery cap: the utility model provides a pressure welding device for lithium cell block, its structure is including carrying platform stabilizer blade 1, lithium cell block to carry platform 2, pressure welding case 3, observation window 4, getting material cabinet 5, controller 6, controller support 7, alarm 8, lithium cell block carry the even equidistance in lower extreme surface of platform 2 to be connected with and carry platform stabilizer blade 1, pressure welding case 3 locate the other end that lithium cell block carried platform 2, alarm 8 electricity connect on the upper end surface of pressure welding case 3, controller 6 be connected with pressure welding case 3 through controller support 7, one side of pressure welding case 3 front end surface inlayed observation window 4, get material cabinet 5 through hinge swing joint in the opposite side of pressure welding case 3 front end surface, pressure welding case 3 by pressure welding case shell body 301, feed inlet 302, guide device 303, guide drive arrangement 304, clamping device 305, Lifting device 306, pressure welding device 307, static electricity removing device 308, feeding buffer device 309, first feeding device 3010, lithium battery cap automatic finished product arrangement box 3011 and second feeding device 3012, feed inlet 302 is arranged at one end of pressure welding box shell 301, the inner surface of pressure welding box shell 301 is provided with feeding device 303, feeding driving device 304 is connected below feeding device 303, the other end of feeding driving device 304 is provided with lifting device 306, clamping device 305 is connected on the upper end surface of lifting device 306, one end of clamping device 305 is provided with first feeding device 3010, static electricity removing device 308 is arranged on the upper end surface of first feeding device 3010, pressure welding device 307 is arranged at one end of static electricity removing device 308, feeding buffer device 309 is arranged on the lower surface of the other end of first feeding device 3010, the lower surface of one end of the first material conveying device 3010 is provided with a second material conveying device 3012, the second material conveying device 3012 is connected to one end of the lithium battery cap automatic finished product arrangement box 3011, one end of the pressure welding box outer shell 301 is provided with a lithium battery cap conveying table 2, the material guiding device 303 is composed of a conveying roller 30301, a material guiding frame 30302, a material guiding roller 30303 and a movable bolt 30304, the conveying roller 30301 and the material guiding roller 30303 are movably connected to the inner surface of the material guiding frame 30302 through the movable bolt 30304, the material guiding roller 30303 is arranged at the other end of the conveying roller 30301, the lower end surface of the material guiding roller 30303 is connected with a material guiding driving device 304, and the material guiding driving device 304 is composed of a material guiding driving device outer shell 30401, a driven rotating disc 30402, a clamping tooth 30403, a movable connecting rod 30404, a clamping shaft 30405, a first driving belt driving rod 30406, a driving 30407, a movable disc 08, a movable disc 09 and a first gear transmission seat 10, The device comprises a driven gear 30411, a gear driven rod 30412, a transmission gear 30413, a gear transmission rod 30414, a driving gear 30415, a gear driving rod 30416, a first coupler 30417 and a material guiding driving motor 30418, wherein the inner surface of the outer shell 30401 of the material guiding driving device is provided with the material guiding driving motor 30418, the gear driving rod 30416 is connected with one end of the material guiding driving motor 30418 through the first coupler 30417, one end of the gear driving rod 30416 is uniformly and equidistantly penetrated with the driving gear 30415, the driving gear 30415 is connected with the driven gear 30411 through the transmission gear 30413, one end of the gear transmission rod 30414 is uniformly and equidistantly penetrated with the transmission gear 30413, the driven gear 30411 is uniformly and equidistantly penetrated through one end of the gear driven rod 30412, the other end of the driven gear 30412 is connected with a first gear seat 30410 in a nested manner, the movable disk 30408 is connected with the upper end surface of the first gear seat 10 through a movable disk driving rod 30409, the clamp shaft 30405 is connected with a movable disk 30408 through a first transmission belt 30406, the clamp shaft 30405 is welded on the front end surface of a driving chuck 30407, the driving chuck 30407 is connected with a driven rotating disk 30402 through a movable connecting rod 30404, the upper end surface of the driven rotating disk 30402 is connected with a latch 30403, the lower end surface of the driven rotating disk 30402 is embedded in the inner surface of a guide driving device outer shell 30401, the driven rotating disk 30402 is connected with the lower end surface of the guide device 303 through the latch 30403, the clamping device 305 is composed of a movable groove 30501, a clamping block 30502, a connecting block 03, a driving arm 30504, a clamping device outer shell 30505, a clamping device driving motor 30506, a driving disk 30507, a second transmission belt 30508 and a clamping guide wheel 30509, the inner surface of the clamping device outer shell 30505 is provided with a clamping device driving motor 30506, the driving disk 30507 is embedded in one end of the clamping device driving motor 30506, the driving disc 30507 is connected with the clamping guide wheel 30509 through a second driving belt 30508, the left side and the right side of the second driving belt 30508 are both connected with driving arms 30504, the lower end surface of the connecting block 30503 is connected with the driving arms 30504, the connecting block 30503 is welded on the lower end surface of the clamping block 30502, the upper end surface of the clamping block 30502 respectively penetrates through the left side and the right side of the upper end surface of the movable groove 30501, the upper end surface of the clamping device outer shell 30505 is provided with a movable groove 30501, the clamping device outer shell 30505 is connected on the upper end surface of the lifting device 306, the lifting device 306 is composed of a gear driven base 30601, a lifting device driving motor 30602, a gear driving base 30603, a driving worm 30604, a screw 30605, a telescopic clamping base 30606, a lifting device outer shell 30607, a telescopic frame 30608 and a push plate 30609, the inner surface of the lifting device outer shell 30607 is provided with a lifting device driving, the other end of the lifting device driving motor 30602 is connected with a gear driving seat 30603 in an embedded manner, the gear driving seat 30601 is connected with the upper end surface of the gear driving seat 30603, one end of the driving worm 30604 is connected with the gear driven seat 30601 in an embedded manner, the other end of the driving worm 30604 transversely penetrates through the telescopic clamping seat 30606, the lower end surface of the screw rod 30605 longitudinally penetrates through the telescopic clamping seat 30606 and is connected with the driving worm 30604, the upper end surface of the screw rod 30605 penetrates through the telescopic frame 30608, the upper end surface of the telescopic frame 30608 is connected with a push plate 30609, the lower end surface of the push plate 30609 is embedded in the inner surface of the upper end of the lifting device outer shell 30607, the pressure welding device 307 is composed of a fixed support 30701, a pneumatic cylinder 30702, a telescopic seat 30703, a pressure welding plate 30704, a pneumatic push plate 30705, a pneumatic push rod 30706, a pneumatic pressure tank 30707 and a pneumatic conduit 708, the pneumatic tank 707 is connected with the pneumatic cylinder 30702 through a pneumatic conduit 30701, the pneumatic cylinder 30702 is connected to the lower end surface of a fixed support 30701, an air pressure push plate 30705 is arranged on the inner surface of the pneumatic cylinder 30702, the upper end surface of the air pressure push rod 30706 penetrates through the pneumatic cylinder 30702 and is connected with the air pressure push plate 30705, the lower end surface of the air pressure push rod 30706 is connected with a pressure welding plate 30704, the upper end and the lower end of the telescopic seat 30703 are respectively connected with the fixed support 30701 and the pressure welding plate 30704, the pressure welding plate 30704 is arranged on the upper end surface of the clamping device 305, the static electricity removing device 308 is composed of a first transmission worm 30801, a second coupling 30802, a static electricity removing device driving motor 30803, a second gear transmission seat 30804, a second transmission worm 30805, a connecting gear 30806, an ion fan 30807, a static electricity removing device outer shell 30808 and an air outlet filter screen 30809, the inner surface of the static electricity removing device outer shell 808 is provided with the static electricity removing device driving motor 803, the first transmission worm 30801 is connected to one end of the static electricity removing device driving motor 803 through a second transmission coupling 36, the first transmission worm 30801 is connected with the second transmission worm 30805 through a connecting gear 30806, one end of the second transmission worm 30805 is connected with a second gear transmission seat 30804 in a nested manner, the upper end surface of the ion fan 30807 is connected with the second gear transmission seat 30804 in a nested manner, the air outlet filter screen 30809 is arranged on the lower end surface of the static electricity removing device outer shell 30808, one end of the static electricity removing device outer shell 30808 is provided with a pressure welding device 307, the feeding buffer device 309 is composed of a buffer clamping seat 30901, a fixed clamping seat 30902, a buffer cushion 30903, a buffer spring 30904, a buffer compression rod 30905 and a feeding buffer device outer shell 3906, the inner surface of the feeding buffer device outer shell 3906 is provided with a buffer cushion 30903, the other end of the buffer cushion 30903 is movably connected with the fixed clamping seat, the lower surface of one end of the buffer cushion 30903 is connected with a buffer compression rod 30905, and the buffer compression rod 30905 is connected with the buffer spring 904 in a, the lower end surface of the buffering pressure rod 30905 penetrates through the inner surface of the buffering clamping seat 30901, the lower surface of one end of the feeding buffering device outer shell 3906 is provided with a second material conveying device 3012, the pressure welding box 3 is of a rectangular structure with the height of 1-2m, and the telescopic seats 30703 are 2 and are parallel to each other.

The ion blower 30807 has antistatic effect, and can prevent electrostatic pollution and damage. The device is ideal equipment for personal electrostatic protection areas such as electronic production lines, maintenance platforms and the like. Is designed for local areas. Has the characteristics of small volume, light weight, convenient installation and the like. Can be installed in a building block mode and is suitable for various places.

When a user uses the device, lithium battery caps to be subjected to pressure welding are conveyed to the material guide device 303 through the material inlet 302 by the battery cap conveying platform 2, the material guide device 303 is driven by the material guide driving device 304 to guide the lithium battery caps to be subjected to pressure welding to the clamping device 305, the lifting device 306 drives the clamping device 305 to ascend and clamp and fix the lithium battery caps to be subjected to pressure welding through the clamping device 305, the lithium battery caps to be subjected to pressure welding are pressed downwards by the pressure welding device 307 after being clamped and fixed by the clamping device 305, after the pressure welding of the lithium battery caps is completed, the pressure-welded lithium battery caps are conveyed to the first material conveying device 3010, the static electricity removing device 308 starts to work and performs static electricity removing treatment on the lithium battery caps to achieve the purpose of dust removal, after the dust removal is completed, the lithium battery caps are conveyed into the buffering device 309 through the first material conveying device 3010 and fall onto the second material conveying device 3012 after buffering, second feeding device 3012 sends into lithium cell block automatic finished product arrangement case 3011 and arranges automatically, when full finished product lithium cell block is in lithium cell block automatic finished product arrangement case 3011, staff's accessible is got material cabinet 5 and is taken out lithium cell block automatic finished product arrangement case 3011, the pressure welding device that has realized that equipment is used for lithium cell block can remove dust when using finished product lithium cell block and handle, can also carry out automatic arrangement with finished product lithium cell block automatically simultaneously, the inconvenience of manual arrangement has been avoided, improve equipment's work efficiency, therefore, the clothes hanger is strong in practicability.

The invention solves the problems that in the prior art, after the lithium battery caps are processed, the processed finished lithium battery caps need to be manually arranged, the operation is inconvenient, the working efficiency of the equipment is low, and the practicability is poor.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics 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. 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

1. The utility model provides a pressure welding device for lithium cell block, its structure is including carrying platform stabilizer blade (1), lithium cell block to carry platform (2), pressure welding case (3), observation window (4), getting material cabinet (5), controller (6), controller support (7), alarm (8), its characterized in that: the surface of the lower end of the lithium battery cap conveying table (2) is uniformly and equidistantly connected with conveying table supporting feet (1), the press welding box (3) is arranged at the other end of the lithium battery cap conveying table (2), the alarm (8) is electrically connected to the upper end surface of the press welding box (3), the controller (6) is connected with the press welding box (3) through a controller support (7), an observation window (4) is embedded in one side of the front end surface of the press welding box (3), and the material taking cabinet (5) is movably connected to the other side of the front end surface of the press welding box (3) through a hinge; the pressure welding box (3) is composed of a pressure welding box outer shell (301), a feeding hole (302), a material guiding device (303), a material guiding driving device (304), a clamping device (305), a lifting device (306), a pressure welding device (307), a static removing device (308), a feeding buffering device (309), a first material conveying device (3010), a lithium battery cap automatic finished product arranging box (3011) and a second material conveying device (3012); the feed inlet (302) is arranged at one end of a pressure welding box outer shell (301), a material guide device (303) is arranged on the inner surface of the pressure welding box outer shell (301), a material guide driving device (304) is connected below the material guide device (303), a lifting device (306) is arranged at the other end of the material guide driving device (304), a clamping device (305) is connected to the upper end surface of the lifting device (306), a first material conveying device (3010) is arranged at one end of the clamping device (305), a static removing device (308) is arranged on the upper end surface of the first material conveying device (3010), the pressure welding device (307) is arranged at one end of the static removing device (308), a material feeding buffer device (309) is arranged on the lower surface of the other end of the first material conveying device (3010), a second material conveying device (3012) is arranged on the lower surface of one end of the first material conveying device (3010), the second material conveying device (3012) is connected to one end of the lithium battery cap automatic finished product arranging box (3011), and a lithium battery cap conveying platform (2) is arranged at one end of the pressure welding box outer shell (301); the material guide device (303) consists of a conveying roller (30301), a material guide frame (30302), a material guide roller (30303) and a movable bolt (30304), the conveying roller (30301) and the material guide roller (30303) are movably connected to the inner surface of the material guide frame (30302) through the movable bolt (30304), the material guide roller (30303) is arranged at the other end of the conveying roller (30301), and the lower end surface of the material guide roller (30303) is connected with a material guide driving device (304); the material guide driving device (304) comprises a material guide driving device outer shell (30401), a driven rotating disc (30402), a clamping tooth (30403), a movable connecting rod (30404), a clamping shaft (30405), a first transmission belt (30406), a driving chuck (30407), a movable disc (30408), a movable disc driving rod (30409), a first gear transmission seat (30410), a driven gear (30411), a gear driven rod (30412), a transmission gear (30413), a gear transmission rod (30414), a driving gear (30415), a gear driving rod (30416), a first coupler (30417) and a material guide driving motor (30418), wherein the inner surface of the material guide driving device outer shell (30401) is provided with the material guide driving motor (30418), the gear driving rod (30416) is connected to one end of the material guide driving motor (30418) through the first coupler (30417), one end of the gear driving rod (30416) is uniformly penetrated with the driving gear (30415) at equal intervals, the driving gear (30415) is connected with a driven gear (30411) through a transmission gear (30413), one end of a gear transmission rod (30414) is uniformly and equidistantly penetrated with the transmission gear (30413), the driven gear (30411) is uniformly and equidistantly penetrated through one end of a gear driven rod (30412), the other end of the gear driven rod (30412) is connected with a first gear transmission seat (30410) in a nested manner, a movable disk (30408) is connected with the upper end surface of the first gear transmission seat (30410) through a movable disk driving rod (30409), a clamping shaft (30405) is connected with the movable disk (30408) through a first transmission belt (30406), the clamping shaft (30405) is welded on the front end surface of the driving chuck (30407), the driving chuck (30407) is connected with a driven turntable (30402) through a movable connecting rod (30404), the upper end surface of the driven turntable (30402) is connected with a clamping tooth (30403), the lower end surface of the driven turntable (30402) is embedded in the inner surface of the guide driving device outer shell (30401), and the driven turntable (30402) is connected to the lower end surface of the guide device (303) through a latch (30403); the clamping device (305) consists of a movable groove (30501), a clamping block (30502), a connecting block (30503), a driving arm (30504), a clamping device outer shell (30505), a clamping device driving motor (30506), a driving disc (30507), a second transmission belt (30508) and a clamping guide wheel (30509), wherein the clamping device driving motor (30506) is arranged on the inner surface of the clamping device outer shell (30505), the driving disc (30507) is connected to one end of the clamping device driving motor (30506) in a nested mode, the driving disc (30507) is connected with the clamping guide wheel (30509) through the second transmission belt (30508), the driving arm (30504) is connected to the left side and the right side of the second 30508), the driving arm (30504) is connected to the lower end surface of the connecting block (30503), the connecting block (30503) is welded to the lower end surface of the clamping block (30502), and the upper end surface of the clamping block (30502) penetrates through the left side and the right side of the movable groove (30501) respectively, a movable groove (30501) is formed in the upper end surface of the clamping device outer shell (30505), and the clamping device outer shell (30505) is connected to the upper end surface of the lifting device (306); the lifting device (306) consists of a gear driven seat (30601), a lifting device driving motor (30602), a gear driven seat (30603), a driving worm (30604), a screw rod (30605), a telescopic clamping seat (30606), a lifting device outer shell (30607), a telescopic frame (30608) and a push plate (30609), wherein the lifting device driving motor (30602) is arranged on the inner surface of the lifting device outer shell (30607), the other end of the lifting device driving motor (30602) is connected with the gear driven seat (30603) in a nested manner, the gear driven seat (30601) is connected onto the upper end surface of the gear driven seat (30603), one end of the driving worm (30604) is connected with the gear driven seat (30601) in a nested manner, the other end of the driving worm (30604) transversely penetrates through the telescopic clamping seat (30606), the lower end surface of the screw rod (30605) longitudinally penetrates through the telescopic seat (30606) and is connected with the driving worm (30604), the upper end surface of the screw rod (30605) penetrates through an expansion bracket (30608), the upper end surface of the expansion bracket (30608) is connected with a push plate (30609), and the lower end surface of the push plate (30609) is embedded in the inner surface of the upper end of the lifting device outer shell (30607); the pressure welding device (307) consists of a fixed support (30701), a pneumatic cylinder (30702), a telescopic seat (30703), a pressure welding plate (30704), a pneumatic push plate (30705), a pneumatic push rod (30706), a pneumatic tank (30707) and a pneumatic conduit (30708), the pneumatic tank (30707) is connected with the pneumatic cylinder (30702) through a pneumatic conduit (30708), the pneumatic cylinder (30702) is connected to the lower end surface of the fixing support (30701), the inner surface of the pneumatic cylinder (30702) is provided with a pneumatic push plate (30705), the upper end surface of the pneumatic push rod (30706) penetrates through the pneumatic cylinder (30702) and is connected with the pneumatic push plate (30705), the lower end surface of the air pressure push rod (30706) is connected with a pressure welding plate (30704), the upper end and the lower end of the telescopic seat (30703) are respectively connected with the fixed support (30701) and the pressure welding plate (30704), the pressure welding plate (30704) is arranged on the upper end surface of the clamping device (305); the static electricity removing device (308) is composed of a first transmission worm (30801), a second coupler (30802), a static electricity removing device driving motor (30803), a second gear transmission seat (30804), a second transmission worm (30805), a connecting gear (30806), an ion fan (30807), a static electricity removing device outer shell (30808) and an air outlet filter screen (30809), wherein the static electricity removing device driving motor (30803) is arranged on the inner surface of the static electricity removing device outer shell (30808), the first transmission worm (30801) is connected to one end of the static electricity removing device driving motor (30803) through a second coupler (30802), the first transmission worm (30801) is connected with the second transmission worm (30805) through the connecting gear (30806), the second gear transmission seat (30804) is connected to one end of the second transmission worm (30805) in a nested manner, the upper end surface of the ion fan (807) is connected with the second gear transmission seat (30804) in a nested manner, the air outlet filter screen (30809) is arranged on the lower end surface of the static electricity removing device outer shell (30808), and one end of the static electricity removing device outer shell (30808) is provided with a pressure welding device (307); pay-off buffer (309) by buffering cassette (30901), fixed cassette (30902), blotter (30903), buffer spring (30904), buffering depression bar (30905), pay-off buffer shell body (3906) constitute, the internal surface of pay-off buffer shell body (3906) be equipped with blotter (30903), the other end and the fixed cassette (30902) swing joint of blotter (30903), the lower surface of blotter (30903) one end be connected with buffering depression bar (30905), buffering depression bar (30905) and buffer spring (30904) nested connection, the lower extreme surface of buffering depression bar (30905) run through in the internal surface of buffering cassette (30901), the lower surface of pay-off buffer shell body (3906) one end be equipped with second feeding device (3012).

2. A bonding apparatus for a lithium battery cap according to claim 1, wherein: when a user uses the device, lithium battery caps needing to be subjected to pressure welding are conveyed to the material guide device (303) from the material inlet (302) through the battery cap conveying platform (2), the material guide device (303) is driven by the material guide driving device (304) to guide the lithium battery caps needing to be subjected to pressure welding to the clamping device (305), the lifting device (306) drives the clamping device (305) to ascend and clamp and fix the lithium battery caps needing to be subjected to pressure welding through the clamping device (305), the clamping device (305) presses the lithium battery caps downwards through the pressure welding device (307) after clamping and fixing the lithium battery caps, the lithium battery caps needing to be subjected to pressure welding are subjected to pressure welding, after the pressure welding of the lithium battery caps is completed, the pressure-welded lithium battery caps are conveyed to the first material conveying device (3010), the static electricity removing device (308) starts to work and performs static electricity removing treatment on the lithium battery caps to achieve the purpose of dust removal, after the dust removal is finished, the lithium battery cap is fed into feeding buffer device (309) through first feeding device (3010) and drops on second feeding device (3012) after buffering, second feeding device (3012) send the lithium battery cap into automatic finished product arrangement case (3011) of lithium battery cap and arrange automatically, when full finished product lithium battery cap in automatic finished product arrangement case (3011) of lithium battery cap, staff's accessible is got material cabinet (5) and is taken out automatic finished product arrangement case (3011) of lithium battery cap, the pressure welding device that has realized that equipment is used for the lithium battery cap can carry out dust removal processing to finished product lithium battery cap when using, can also carry out automatic arrangement with finished product lithium battery cap simultaneously, the inconvenience of manual arrangement has been avoided, improve equipment's work efficiency, therefore, the clothes hanger is strong in practicability.