CN215246511U

CN215246511U - Transfer device is used in lithium cell production

Info

Publication number: CN215246511U
Application number: CN202121409550.0U
Authority: CN
Inventors: 马丙吉
Original assignee: Tianjin Saineng New Energy Technology Co ltd
Current assignee: Tianjin Saineng New Energy Technology Co ltd
Priority date: 2021-06-24
Filing date: 2021-06-24
Publication date: 2021-12-21
Anticipated expiration: 2031-06-24

Abstract

The utility model relates to a lithium cell technical field just discloses a transfer device is used in lithium cell production, including the function bottom plate, the first universal wheel of the equal fixedly connected with in both sides of function bottom plate bottom, first tensile groove has all been seted up to the both sides of function bottom plate. Through first tensile board, the cooperation of removal backup pad and the tensile board of second is used, can decide whether tensile removal backup pad according to the amount of production, when the amount of production is too much, tensile removal backup pad, make first tensile board and the tensile board of second move to both sides, thereby can enlarge the inside volume of transfer device for lithium cell production, thereby quantity when can improving the lithium cell and transport, and when output is less, promote and remove the backup pad, make first tensile board and the tensile board of second inwards move, thereby can reduce the area of transfer device for lithium cell production, thereby lithium cell production has been improved with transfer device's work efficiency and practicality.

Description

Transfer device is used in lithium cell production

Technical Field

The utility model relates to a lithium cell technical field specifically is a transfer device is used in lithium cell production.

Background

Lithium batteries are a type of battery using a nonaqueous electrolyte solution and using lithium metal or a lithium alloy as a negative electrode material, and can be roughly classified into two types: the lithium ion battery does not contain metallic lithium and can be charged, and the fifth generation product of the rechargeable battery, namely the lithium metal battery, has better safety, specific capacity, self-discharge rate and cost performance than the lithium ion battery.

Present transfer device for lithium cell production's capacity is comparatively single, can not adjust according to how much of output, thereby lead to the transfer device that capacious is too take up an area of when output is less, and the promptness of carrying is guaranteed to the material when output angle to the transfer device that capacious, thereby lithium cell production's practicality has been reduced, and present transfer device for lithium cell production is after placing the lithium cell, most of use the rope to fix the lithium cell, but the rope is fixed and the rope dismantles needs too much time, thereby lithium cell production's work efficiency has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be not enough to prior art, the utility model provides a transfer device is used in lithium cell production possesses the high-efficient fixed advantage of steerable capacity size and festival, thereby solved the capacity comparatively single can not adjust according to how much of output thereby lead to the transfer device that capacity is big too take up an area of when output is less and the promptness of carrying is guaranteed to the transfer device that capacity is little to the material when output angle the practicality that has reduced transfer device is used in lithium cell production and use the rope to fix the lithium cell but the rope is fixed and the rope dismantles thereby the work efficiency problem that needs too much time to reduce transfer device is used in lithium cell production.

The utility model provides a following technical scheme: a transfer device for lithium battery production comprises a functional bottom plate, wherein first universal wheels are fixedly connected to two sides of the bottom of the functional bottom plate, first stretching grooves are formed in two sides of the functional bottom plate, first moving-assisting wheels are fixedly connected to output ends of the tops of the first stretching grooves, first stretching plates are movably connected to inner surfaces of the first stretching grooves, roller grooves are formed in output ends of the bottoms of the first stretching plates, rotating rods are movably connected to input ends of the roller grooves, second universal wheels are fixedly connected to outer surfaces of the rotating rods, moving support plates are fixedly connected to output ends of the first stretching plates, moving grooves are formed in the tops of output ends of the moving support plates, moving blocks are movably connected to the inner portions of the moving grooves, moving rods are fixedly connected to input ends of the moving blocks, and second stretching plates are fixedly connected to input ends of the moving rods, the utility model discloses a damping device, including first stretching plate, second stretching plate, first spring of bottom fixedly connected with of second, the internal surface swing joint of first spring has first shock attenuation pole, the first damping plate of output fixedly connected with of first shock attenuation pole, the tensile groove of second has been seted up at the center of second stretching plate input, the input end fixedly connected with second at the tensile groove top helps moves the wheel, the internal surface swing joint in the tensile groove of second has the function roof, the shock attenuation groove has been seted up at the center of function roof bottom, the top fixedly connected with second spring in shock attenuation groove, the internal surface swing joint of second spring has the second shock attenuation pole, the output fixedly connected with second damping plate of second shock attenuation pole.

Preferably, a first partition plate groove is formed in the center of the second stretching plate, a first filter screen is movably connected to the inner surface of the partition plate groove, a second partition plate groove is formed in the center of the function top plate, and a second filter screen is movably connected to the inner surface of the second partition plate groove.

Preferably, first joint groove has all been seted up to the positive top of function bottom plate and bottom, the internal surface in first joint groove and the surface looks adaptation of second filter screen output, second joint groove has all been seted up to the top and the bottom at first tensile board front center, the internal surface in second joint groove and the surface looks adaptation of first filter screen output.

Preferably, the top of the first stretching plate is provided with a first movement assisting groove, and the inner surface of the first movement assisting groove is matched with the outer surface of the output end of the first movement assisting wheel.

Preferably, the two sides of the function top plate are both provided with second movement assisting grooves, and the inner surfaces of the second movement assisting grooves are matched with the outer surfaces of the output ends of the second movement assisting wheels.

Preferably, the horizontal size of the outer surface of the second damper plate is smaller than the size of the opening of the damper groove.

Compared with the prior art, the utility model discloses possess following beneficial effect:

1. the transferring device for lithium battery production can determine whether to stretch the movable supporting plate or not according to the production quantity by matching the first stretching plate, the movable supporting plate and the second stretching plate before the transferring device for lithium battery production runs, when the production quantity is too large, the movable supporting plate is stretched to enable the first stretching plate and the second stretching plate to move towards two sides, so that the internal volume of the transferring device for lithium battery production can be enlarged, the quantity of lithium batteries during transferring can be improved, and when the production quantity is less, the movable supporting plate is pushed to enable the first stretching plate and the second stretching plate to move inwards, so that the occupied area of the transferring device for lithium battery production can be reduced, the working efficiency and the practicability of the transferring device for lithium battery production are improved, and the moving efficiency of the first stretching plate and the second stretching plate can be improved by matching the first shifting assisting wheel and the second shifting assisting wheel, thereby make the transfer device for lithium cell production use more convenient and fast, and the cooperation of roller groove, rotary rod and second universal wheel is used, can take out the second universal wheel from the roller inslot portion when removing the backup pad and tensile, thereby improve and make the first tensile board of second universal wheel pair carry out supporting role, thereby prevented that first tensile board from leading to the phenomenon of rupture because of the supporting effect is poor, thereby improved transfer device for lithium cell production's life.

2. The transfer device for lithium battery production can prevent the top of the lithium battery from being fixed on the functional bottom plate and the top of the first stretching plate through the matching use of the moving block, the moving rod, the second stretching plate and the functional top plate after the lithium battery is placed in the transfer device for lithium battery production, thereby not only reducing the time consumed by fixing the lithium battery by using a rope by a user, but also improving the fixity of the lithium battery, further improving the working efficiency of the transfer device for lithium battery production, and the matching use of the first damping plate and the second damping plate can perform damping action on the lithium battery on the top of the first stretching plate and the functional bottom plate, thereby preventing the second stretching plate and the functional top plate from damaging the lithium battery due to overlarge pressure, further prolonging the service life of the lithium battery, and the matching use of the first filter screen and the second filter screen can perform limiting action on the front and back positions of the lithium battery on the top of the functional bottom plate and the first stretching plate, can also prevent that the dust from getting into the inside of transfer device for lithium cell production around the transfer device for lithium cell production to lead to the dust to cause the erosion to the lithium cell, thereby improved transfer device for lithium cell production's practicality.

Drawings

FIG. 1 is a front sectional view of the structure of the present invention;

FIG. 2 is a partial front sectional view of a top tension structure of the present invention;

fig. 3 is a top view of the bottom stretching structure of the present invention.

In the figure: 1. a functional backplane; 2. a first universal wheel; 3. a first shift-assist wheel; 4. a first stretching plate; 5. Rotating the rod; 6. a second universal wheel; 7. moving the support plate; 8. a moving block; 9. a travel bar; 10. a second stretching plate; 11. a first spring; 12. a first shock-absorbing lever; 13. a first damper plate; 14. a second shift-assist wheel; 15. a functional top plate; 16. a second spring; 17. a second shock-absorbing lever; 18. a second damper plate; 19. A first filter screen; 20. a second filter.

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.

Referring to fig. 1-3, a transferring device for lithium battery production comprises a functional bottom plate 1, wherein the top and the bottom of the front surface of the functional bottom plate 1 are respectively provided with a first clamping groove, the inner surface of the first clamping groove is matched with the outer surface of the output end of a second filter screen 20, the top and the bottom of the center of the front surface of a first stretching plate 4 are respectively provided with a second clamping groove, the inner surface of the second clamping groove is matched with the outer surface of the output end of a first filter screen 19, two sides of the bottom of the functional bottom plate 1 are respectively and fixedly connected with a first universal wheel 2, two sides of the functional bottom plate 1 are respectively provided with a first stretching groove, the output end of the top of the first stretching groove is fixedly connected with a first shift-assisting wheel 3, the inner surface of the first stretching groove is movably connected with a first stretching plate 4, the top of the first stretching plate 4 is provided with a first shift-assisting groove, the inner surface of the first shift-assisting groove is matched with the outer surface of the output end of the first shift-assisting wheel 3, before the transferring device for lithium battery production runs, whether the movable supporting plate 7 is stretched or not can be determined according to the production quantity through the matching use of the first stretching plate 4, the movable supporting plate 7 and the second stretching plate 10, when the production quantity is excessive, the movable supporting plate 7 is stretched, the first stretching plate 4 and the second stretching plate 10 are moved towards two sides, the internal volume of the transferring device for lithium battery production can be enlarged, the quantity of lithium batteries during transferring can be improved, when the production quantity is low, the movable supporting plate 7 is pushed, the first stretching plate 4 and the second stretching plate 10 are moved inwards, the occupied area of the transferring device for lithium battery production can be reduced, the working efficiency and the practicability of the transferring device for lithium battery production are improved, the matching use of the first auxiliary moving wheel 3 and the second auxiliary moving wheel 14 can improve the moving efficiency of the first stretching plate 4 and the second stretching plate 10, thereby the transfer device for lithium battery production is more convenient and faster to use, and the roller groove, the rotary rod 5 and the second universal wheel 6 are matched for use, when the movable support plate 7 is stretched, the second universal wheel 6 is taken out from the inside of the roller groove, thereby the supporting effect of the second universal wheel 6 on the first stretching plate 4 is improved, the fracture phenomenon of the first stretching plate 4 caused by poor supporting effect is prevented, thereby the service life of the transfer device for lithium battery production is prolonged, the output end at the bottom of the first stretching plate 4 is provided with the roller groove, the input end of the roller groove is movably connected with the rotary rod 5, the outer surface of the rotary rod 5 is fixedly connected with the second universal wheel 6, the output end of the first stretching plate 4 is fixedly connected with the movable support plate 7, the top of the output end of the movable support plate 7 is provided with the movable groove, the inside of the movable groove is movably connected with the movable block 8, after the lithium battery is placed in the lithium battery production transfer device, the top parts of the lithium batteries on the top parts of the functional bottom plate 1 and the first stretching plate 4 can be prevented from being fixed through the matching use of the moving block 8, the moving rod 9, the second stretching plate 10 and the functional top plate 15, so that the time consumed by fixing the lithium batteries by using ropes by a user is reduced, and the fixity of the lithium batteries is also improved, thereby improving the working efficiency of the lithium battery production transfer device, the first damping plate 13 and the second damping plate 18 are matched for use, so that the lithium batteries on the top parts of the first stretching plate 4 and the functional bottom plate 1 can be damped, the phenomenon that the lithium batteries are damaged due to overlarge pressure by the second stretching plate 10 and the functional top plate 15 is prevented, the service life of the lithium batteries is further prolonged, and the first filter screen 19 and the second filter screen 20 are matched for use, the front and back positions of the lithium batteries on the tops of the functional bottom plate 1 and the first stretching plate 4 can be limited, dust can be prevented from entering the interior of the transferring device for lithium battery production from the front and back of the transferring device for lithium battery production, so that the dust erodes the lithium batteries, and the practicability of the transferring device for lithium battery production is improved, the input end of the moving block 8 is fixedly connected with the moving rod 9, the input end of the moving rod 9 is fixedly connected with the second stretching plate 10, the center of the second stretching plate 10 is provided with a first partition plate groove, the inner surface of the partition plate groove is movably connected with a first filter screen 19, the center of the functional top plate 15 is provided with a second partition plate groove, the inner surface of the second partition plate groove is movably connected with a second filter screen 20, the bottom of the second stretching plate 10 is fixedly connected with a first spring 11, and the inner surface of the first spring 11 is movably connected with a first shock absorption rod 12, the output end of the first shock absorption rod 12 is fixedly connected with a first shock absorption plate 13, the center of the input end of the second stretching plate 10 is provided with a second stretching groove, the input end of the top of the second stretching groove is fixedly connected with a second moving assisting wheel 14, the inner surface of the second stretching groove is movably connected with a function top plate 15, the two sides of the function top plate 15 are both provided with second moving assisting grooves, the inner surface of the second moving assisting groove is matched with the outer surface of the output end of the second moving assisting wheel 14, the center of the bottom of the function top plate 15 is provided with a shock absorption groove, the shock absorption groove can retract the second shock absorption plate 18 into the shock absorption groove when the second stretching plate 10 moves back, so that the moving back second stretching plate 10 cannot be blocked, the moving back efficiency is improved, the top of the shock absorption groove is fixedly connected with a second spring 16, the inner surface of the second spring 16 is movably connected with a second shock absorption rod 17, the output end of the second shock absorption rod 17 is fixedly connected with a second shock absorption plate 18, the horizontal size of the outer surface of the second damper plate 18 is smaller than the size of the opening of the damper groove.

The working principle is that before the transferring device for lithium battery production runs, whether the movable supporting plate 7 is stretched or not can be determined according to the production capacity by matching the first stretching plate 4, the movable supporting plate 7 and the second stretching plate 10, when the production capacity is excessive, the movable supporting plate 7 is stretched, the first stretching plate 4 and the second stretching plate 10 are moved to two sides, the internal volume of the transferring device for lithium battery production can be enlarged, the quantity of lithium batteries during transferring can be increased, when the production capacity is low, the movable supporting plate 7 is pushed, the first stretching plate 4 and the second stretching plate 10 are moved inwards, the occupied area of the transferring device for lithium battery production can be reduced, the working efficiency and the practicability of the transferring device for lithium battery production are improved, and the moving efficiency of the first stretching plate 4 and the second stretching plate 10 can be improved by matching the first auxiliary moving wheel 3 and the second auxiliary moving wheel 14, thereby the transfer device for lithium battery production is more convenient and faster to use, and the roller groove, the rotary rod 5 and the second universal wheel 6 are matched for use, when the movable support plate 7 is stretched, the second universal wheel 6 is taken out from the roller groove, thereby the second universal wheel 6 can support the first stretching plate 4, the phenomenon of fracture of the first stretching plate 4 caused by poor supporting effect is prevented, the service life of the transfer device for lithium battery production is prolonged, after the lithium battery is placed in the transfer device for lithium battery production, the tops of the lithium batteries on the tops of the functional bottom plate 1 and the first stretching plate 4 can be prevented from being fixed through the matching use of the movable block 8, the movable rod 9, the second stretching plate 10 and the functional top plate 15, the time consumed by a user for fixing the lithium batteries by using ropes is reduced, and the fixity of the lithium batteries is also improved, thereby the work efficiency of transfer device for lithium cell production has been improved, and the cooperation of first shock attenuation board 13 and second shock attenuation board 18 is used, can carry out the cushioning effect to the lithium cell at

first tensile board

4 and 1 top of function bottom plate, thereby prevented that tensile board 10 of second and function roof 15 from leading to the fact the damage phenomenon to the lithium cell because of pressure is too big, the life of lithium cell has further been improved, and the cooperation of first filter screen 19 and second filter screen 20 is used, both can carry out the limiting action to the fore-and-aft position of 4 top lithium cells of function bottom plate 1 and first tensile board, can also prevent that the dust from getting into the inside of transfer device for lithium cell production around the transfer device for lithium cell production, thereby lead to the dust to cause the erosion to the lithium cell, thereby the practicality of transfer device for lithium cell production has been improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a transfer device is used in lithium cell production, includes function bottom plate (1), its characterized in that: the two sides of the bottom of the functional bottom plate (1) are fixedly connected with first universal wheels (2), the two sides of the functional bottom plate (1) are respectively provided with a first stretching groove, the output end of the top of the first stretching groove is fixedly connected with a first moving assisting wheel (3), the inner surface of the first stretching groove is movably connected with a first stretching plate (4), the output end of the bottom of the first stretching plate (4) is provided with a roller groove, the input end of the roller groove is movably connected with a rotating rod (5), the outer surface of the rotating rod (5) is fixedly connected with a second universal wheel (6), the output end of the first stretching plate (4) is fixedly connected with a movable supporting plate (7), the top of the output end of the movable supporting plate (7) is provided with a moving groove, the inner part of the moving groove is movably connected with a moving block (8), and the input end of the moving block (8) is fixedly connected with a moving rod (9), the input end of the moving rod (9) is fixedly connected with a second stretching plate (10), the bottom of the second stretching plate (10) is fixedly connected with a first spring (11), the inner surface of the first spring (11) is movably connected with a first shock absorption rod (12), the output end of the first damping rod (12) is fixedly connected with a first damping plate (13), a second stretching groove is arranged in the center of the input end of the second stretching plate (10), a second shifting wheel (14) is fixedly connected with the input end of the top of the second stretching groove, the inner surface of the second stretching groove is movably connected with a functional top plate (15), the center of the bottom of the functional top plate (15) is provided with a damping groove, the top of the damping groove is fixedly connected with a second spring (16), the inner surface of the second spring (16) is movably connected with a second damping rod (17), the output end of the second damping rod (17) is fixedly connected with a second damping plate (18).

2. The transfer device for lithium battery production of claim 1, characterized in that: first baffle groove has been seted up at the center of second stretching plate (10), the internal surface swing joint in baffle groove has first filter screen (19), the second baffle groove has been seted up at the center of function roof (15), the internal surface swing joint in second baffle groove has second filter screen (20).

3. The transfer device for lithium battery production of claim 2, characterized in that: first joint groove has all been seted up to positive top and bottom of function bottom plate (1), the internal surface in first joint groove and the surface looks adaptation of second filter screen (20) output, second joint groove has all been seted up to the top and the bottom at first tensile board (4) positive center, the internal surface in second joint groove and the surface looks adaptation of first filter screen (19) output.

4. The transfer device for lithium battery production of claim 1, characterized in that: the top of the first stretching plate (4) is provided with a first moving assisting groove, and the inner surface of the first moving assisting groove is matched with the outer surface of the output end of the first moving assisting wheel (3).

5. The transfer device for lithium battery production of claim 1, characterized in that: and second movement assisting grooves are formed in two sides of the functional top plate (15), and the inner surfaces of the second movement assisting grooves are matched with the outer surfaces of the output ends of the second movement assisting wheels (14).

6. The transfer device for lithium battery production of claim 1, characterized in that: the horizontal size of the outer surface of the second damping plate (18) is smaller than the size of the opening of the damping groove.