CN116550617A

CN116550617A - Solid-state lithium battery feeding equipment

Info

Publication number: CN116550617A
Application number: CN202310472824.8A
Authority: CN
Inventors: 孙先富
Original assignee: Shandong intelligent photoelectric new energy research institute
Current assignee: Tianke New Energy Co ltd
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-08-08

Abstract

The invention discloses solid lithium battery feeding equipment, which belongs to the technical field of lithium batteries and comprises a base, a feeding hole, a discharging hole, a rotary disc, a driving mechanism, an electrical detection assembly and an appearance detection assembly.

Description

Solid-state lithium battery feeding equipment

Technical Field

The invention belongs to the technical field of lithium batteries, and particularly relates to solid-state lithium battery feeding equipment.

Background

An all-solid-state lithium battery is a lithium battery which uses a solid electrode material and a solid electrolyte material and does not contain any liquid, and mainly comprises an all-solid-state lithium ion battery and an all-solid-state metal lithium battery, wherein the difference is that the cathode does not contain metal lithium, and the anode is metal lithium. In various novel battery systems at present, the solid-state battery adopts a brand new solid electrolyte to replace the current organic electrolyte and the diaphragm, has high safety and high volume energy density, and has wide adaptability.

In the production process of solid-state lithium batteries, the quality of single lithium batteries needs to be detected before being packaged in groups, most of the existing equipment at present is to send lithium batteries into a multi-section detection die for screening through a sorting machine, the time consumption of working procedures is long, more clamps are needed to be designed for loading and unloading, and the manufacturing cost is increased intangibly.

Disclosure of Invention

Aiming at the defects existing in the prior art, the embodiment of the invention aims to provide solid-state lithium battery feeding equipment so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the solid-state lithium battery feeding equipment comprises a shell member, wherein the shell member comprises a base, a feeding hole, a discharging hole, a fixing frame and a feeding groove, the feeding hole and the discharging hole are fixedly assembled at two ends of the base, damping clamping rings are further arranged on the inner walls of the feeding hole and the discharging hole, the fixing frame is fixedly arranged in the middle of the base, and the feeding groove is arranged on the fixing frame;

the rotary disc assembly comprises a rotary disc and top grooves, the rotary disc is rotationally assembled on the damping snap ring, a plurality of top grooves are circumferentially arranged on the rotary disc, and the top grooves are all arranged towards the circle center side of the rotary disc;

the driving mechanism comprises a driver, a cam, a connecting arm, a reciprocating arm, a column head, a first swing rod and a second swing rod, wherein the driver is fixedly assembled on a base, the cam is rotatably assembled on the driver, the connecting arm is rotatably assembled on the cam, the tail end of the connecting arm is rotatably assembled with the reciprocating arm, the reciprocating arm is slidably assembled in a fixed frame, the two sides of the tail end of the reciprocating arm are respectively rotatably assembled with the first swing rod and the second swing rod, the tail end of the first swing rod is rotatably assembled with a pushing block, the pushing block is slidably arranged in a feeding groove, and the tail end of the second swing rod is rotatably assembled with a discharging block;

the electrical property detection assembly is arranged on the feeding opening and the pushing block and is used for detecting the conductivity of the solid-state lithium battery; and

the transmission assembly is arranged between the rotary disc assembly and the driving mechanism and used for driving the rotary disc assembly to rotate in a linkage way with the driving mechanism.

As a further scheme of the invention, the shell member further comprises a material guiding pipe, a material storage channel and a discharge groove, wherein the material guiding pipe is arranged on one side of the feed groove, the material storage channel is arranged in the material guiding pipe and is communicated with the feed groove, and the discharge groove is arranged on one side of the feed opening and is used for subsequent charging and feeding of the battery.

As a further scheme of the invention, the rotary disc assembly further comprises a sectioning groove, a rolling wheel, a driving belt and a driving wheel, wherein the sectioning groove is arranged at the bottom of the top groove, the rolling wheel is rotatably assembled on the rotary disc and is arranged at one end of the sectioning groove, one side of the rolling wheel is also assembled and connected with the driving belt, and the driving belt is meshed and connected with the driving wheel and the base.

As a further scheme of the invention, the driving mechanism further comprises a ratchet piece, and the ratchet piece is elastically and movably assembled on one side of the reciprocating arm.

As a further scheme of the invention, the electrical detection assembly comprises an electrical detection module, a front electrode plate and a rear electrode plate, wherein the electrical detection module is fixedly assembled on a fixing frame, the front electrode plate and the rear electrode plate are respectively connected to two ends of the electrical detection module, the front electrode plate is fixedly assembled on one side of a pushing block, and the front electrode plate is arranged in a feeding opening and is elastically and movably assembled on the feeding opening and is used for movably abutting against a solid-state lithium battery to be detected.

As a further scheme of the invention, the transmission assembly comprises a first transmission tooth, a second transmission tooth, a third transmission tooth and an external tooth ring, wherein the first transmission tooth is arranged on one side of the ratchet piece and is meshed with the ratchet piece, the second transmission tooth is arranged at one end of the first transmission tooth and is linked with the first transmission tooth, the third transmission tooth is rotationally assembled at one end of the fixing frame, the external tooth ring is fixedly assembled on the inner wall of the rotary disc, one end of the third transmission tooth is meshed with the second transmission tooth, and the other end of the third transmission tooth is meshed with the external tooth ring.

As a further scheme of the invention, the solid-state lithium battery feeding device further comprises an appearance detection assembly, wherein the appearance detection assembly comprises a visual detection module, an inner ring frame and a discharger, the visual detection module is fixedly assembled on one side of a feeding hole and one side of a discharging hole and is arranged at the top of a rotary disc and used for visually detecting the characteristics of the solid-state lithium battery, the inner ring frame is arranged on the inner side of the rotary disc and is provided with a plurality of dischargers, and the dischargers are arranged towards one side of a top groove and are used for ejecting the unqualified solid-state lithium battery.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

according to the invention, the rotary disc is rotationally arranged on the base and matched with the driving mechanism capable of reciprocating, so that the sliding and rotation of the lithium battery are utilized to detect the electrical property and the appearance of the lithium battery in the continuous solid-state lithium battery feeding process, and the quality screening of the lithium battery is realized while the uniform feeding is performed, and the sorting efficiency of the lithium battery is improved.

Drawings

Fig. 1 is a schematic diagram of a solid-state lithium battery feeding device according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a solid-state lithium battery feeding device according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a schematic drawing of a symbol a in a solid-state lithium battery feeding device according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a material guiding pipe in a solid-state lithium battery feeding device according to an embodiment of the present invention.

Fig. 5 is a schematic top view of a solid-state lithium battery feeding device according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a rotary disc assembly in a solid-state lithium battery feeding device according to an embodiment of the present invention.

Reference numerals: 1-shell component, 101-base, 102-feed opening, 103-feed opening, 104-damping snap ring, 105-fixing frame, 106-feed chute, 107-feed guiding pipe, 108-storage channel, 109-discharge chute, 2-rotary disk assembly, 201-rotary disk, 202-top slot, 203-sectioning slot, 204-rolling wheel, 205-driving belt, 3-driving mechanism, 301-driver, 302-cam, 303-connecting arm, 304-reciprocating arm, 305-ratchet piece, 306-column head, 307-first swing rod, 308-pushing block, 309-second swing rod, 310-discharge block, 4-electrical detection assembly, 401-electrical detection module, 402-pre-electrode plate, 403-post electrode plate, 5-transmission assembly, 501-first transmission tooth, 502-second transmission tooth, 503-third transmission tooth, 504-outer tooth ring, 6-appearance detection assembly, 601-visual detection module, 602-inner ring frame, 603-discharger.

Description of the embodiments

In order to more clearly illustrate the structural features and efficacy of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and examples.

Referring to fig. 1-6, the solid-state lithium battery feeding device in an embodiment of the present invention includes a housing member 1, where the housing member 1 includes a base 101, a feed opening 102, a discharge opening 103, a fixing frame 105 and a feed chute 106, two ends of the base 101 are fixedly equipped with the feed opening 102 and the discharge opening 103, damping snap rings 104 are further arranged on inner walls of the feed opening 102 and the discharge opening 103, a fixing frame 105 is further fixedly arranged in the middle of the base 101, and the feed chute 106 is arranged on the fixing frame 105; the rotary disc assembly 2 comprises a rotary disc 201 and top grooves 202, wherein the rotary disc 201 is rotationally assembled on the damping snap ring 104, a plurality of top grooves 202 are circumferentially arranged on the rotary disc 201, and the top grooves 202 are all arranged towards the circle center side of the rotary disc 201; the driving mechanism 3, the driving mechanism 3 comprises a driver 301, a cam 302, a connecting arm 303, a reciprocating arm 304, a column head 306, a first swing rod 307 and a second swing rod 309, the driver 301 is fixedly assembled on the base 101, the cam 302 is rotatably assembled on the driver, the connecting arm 303 is rotatably assembled on the cam 302, the tail end of the connecting arm 303 is rotatably assembled with the reciprocating arm 304, the reciprocating arm 304 is slidably assembled in the fixed frame 105, the two sides of the tail end of the reciprocating arm 304 are respectively rotatably assembled with the first swing rod 307 and the second swing rod 309, the tail end of the first swing rod 307 is rotatably assembled with a pushing block 308, the pushing block 308 is slidably arranged in the feeding groove 106, and the tail end of the second swing rod 309 is rotatably assembled with a discharging block 310; the electrical property detection assembly 4 is arranged on the feeding opening 102 and the pushing block 308 and is used for detecting the conductivity of the solid-state lithium battery; and the transmission assembly 5 is arranged between the rotary disc assembly 2 and the driving mechanism 3 and is used for driving the rotary disc assembly 2 to rotate in linkage with the driving mechanism 3.

In practical application, when the solid lithium battery to be charged is charged through the device, the solid lithium battery to be charged is firstly fed into the material guiding pipe 107 through the external flow channel, and the lithium battery is stacked in the material storing channel 108 in a strip shape, and the notch at one side of the material storing channel 108 is communicated with the material feeding groove 106, so that the solid lithium battery can block the rest lithium batteries in the material guiding pipe 107 to roll out while rolling into the material feeding groove 106, at the moment, by driving the driver 301 to move, the cam 302 can be driven to rotate circumferentially through the rotation of the driver 301, and the tail end of the cam 302 is rotationally provided with the connecting arm 303, when the connecting arm 303 can drive the reciprocating arm 304 to slide back and forth in the fixing frame 105 in the rotation process, when the reciprocating arm 304 moves towards the side far away from the fixing frame 105, the first swing rod 307 and the second swing rod 309 can drive the pushing block 308 and the discharging block 310 to move towards the side close to the reciprocating arm 304, and slide to one end of the material guiding pipe 107 at one side of the pushing block 308, so that the lithium battery rolls into the feeding groove 106 from the inside, when the reciprocating arm 304 drives the column head 306 to move towards the side close to the fixing frame 105, the pushing block 308 can press the lithium battery on the feeding groove 106 towards the top groove 202 on the rotary disc 201, and slide the lithium battery along the feeding groove 106 onto the top groove 202 at one side, at this time, the electrical state of the lithium battery to be tested at present can be detected through the electrical detection assembly 4 arranged between the feeding opening 102 and the pushing block 308, meanwhile, the discharging block 310 can discharge the qualified lithium battery thereon towards the outside of the equipment for subsequent packaging operation when sliding towards the side of the discharging opening 103, and the rotary disc assembly 2 and the driving mechanism 3 are linked through the transmission assembly 5, when the electric detection is completed, the reciprocating arm 304 slides reversely, so that the lithium battery left on the top groove 202 can rotate along with the rotary disc 201, and the subsequent detection is performed through the appearance detection component 6 on one side, so that the quality detection of each group of solid lithium batteries is realized while the continuous feeding is performed.

In one case of the embodiment, the feeding device is only limited to feeding the cylindrical solid-state lithium battery, and is not suitable for feeding the sheet-like or strip-like solid-state lithium battery, and detailed description thereof is omitted herein.

Referring to fig. 4 and 5, in a preferred embodiment of the present invention, the housing member 1 further includes a feed pipe 107, a storage channel 108 and a discharge chute 109, wherein the feed pipe 107 is disposed on one side of the feed chute 106, and the storage channel 108 is disposed therein, the storage channel 108 is in communication with the feed chute 106, and the discharge chute 109 is disposed on one side of the discharge opening 103 for subsequent charging and feeding of the battery.

In practical application, the guiding tube 107 is disposed at one end of the fixing frame 105, and lithium batteries stacked therein can be guided into the feeding groove 106 through the material storage channel 108, and the pushing block 308 is in a complete conduction state when the pushing block 308 is retreated to the end of the feeding groove 106 in the sliding process, so that the lithium batteries therein can be rolled out into the feeding groove 106, and when the pushing block 308 is pushed towards the lithium batteries, the pushing block can be ejected out along the feeding groove 106, and meanwhile, the notch at one side of the material storage channel 108 can be closed to prevent the rest lithium batteries from rolling out, thereby realizing continuous feeding of the lithium batteries in the reciprocating motion process.

In one case of this embodiment, the discharge chute 109 is disposed at one end of the discharge opening 103, and can cooperate with the reciprocating motion of the discharge block 310 to drive the sliding of the lithium battery, and the detected lithium battery is detached from the apparatus through the discharge chute 109 for a subsequent packaging process.

Referring to fig. 2 and 6, in a preferred embodiment of the present invention, the rotary disc assembly 2 further includes a split groove 203, a rolling wheel 204, a driving belt 205 and a driving wheel 206, wherein the split groove 203 is disposed at the bottom of the top groove 202, the rolling wheel 204 is rotatably assembled on the rotary disc 201 and disposed at one end of the split groove 203, one side of the rolling wheel 204 is further assembled with the driving belt 205, and the driving belt 205 is engaged with the base 101 through the driving wheel 206.

In practical application, the driving belt 205 at one end of the rolling wheel 204 is meshed with the base 101 through the driving wheel 206, so that the rolling wheel 204 can be driven to rotate in the circumferential movement process of the rotary disc 201, and the rolling wheel 204 passes through the split groove 203 to drive the lithium battery thereon to rotate, thereby comprehensively detecting the circumferential direction of the outer shell of the lithium battery.

In one case of this embodiment, a gap is formed between the rotary disc 201 and the feeding hole 102 and the discharging hole 103, and a gap is formed between the rotary disc 201 and the feeding hole 102 and between the rotary disc 201 and the discharging hole 103, so that friction in the rotation process can be avoided, and meanwhile, the gap between the rotary disc 201 and the feeding hole 102 and between the rotary disc 201 and the discharging hole 103 can be reduced, so that the lithium battery is prevented from being blocked in the sliding process.

Referring to fig. 3, in a preferred embodiment of the present embodiment, the driving mechanism 3 further includes a ratchet piece 305, and the ratchet piece 305 is elastically movably mounted on one side of the reciprocating arm 304.

In practical application, the ratchet piece 305 is elastically limited and rotatably assembled on one side of the reciprocating arm 304, so that when the ratchet piece follows the reciprocating arm 304 to reciprocate in the vertical direction, the transmission assembly 5 on one side of the ratchet piece can be intermittently driven to move, so that the rotary disc 201 only synchronously moves along with the unidirectional movement of the reciprocating arm 304, and the rotary disc 201 remains stationary when the reciprocating arm 304 moves vertically downwards, and the rotary disc 201 synchronously rotates when the reciprocating arm 304 moves vertically upwards.

In one case of this embodiment, the turntable 201 rotates by default with a damping collar, and only follows the drive of the reciprocating arm 304 for a fixed angle of rotational movement, with negligible movement due to inertia.

Referring to fig. 3, in a preferred embodiment of the present invention, the electrical detection assembly 4 includes an electrical detection module 401, a front electrode plate 402 and a rear electrode plate 403, the electrical detection module 401 is fixedly mounted on the fixing frame 105, two ends of the electrical detection module 401 are respectively connected with the front electrode plate 402 and the rear electrode plate 403, the front electrode plate 402 is fixedly mounted on one side of the pushing block 308, and the front electrode plate 402 is disposed in the feeding opening 102 and is elastically movably mounted thereon for movably abutting against the solid-state lithium battery to be detected.

In practical application, the two ends of the electrical detection module 401 are connected with the front electrode plate 402 and the rear electrode plate 403, the front electrode plate 402 is fixedly assembled on one side of the pushing block 308, and the front electrode plate 402 is arranged in the feeding hole 102 and is elastically movably assembled on the pushing block, so that when the pushing block 308 drives the lithium battery to press towards one side of the feeding hole 102, two electrodes of the lithium battery are respectively pressed between the front electrode plate 402 and the rear electrode plate 403, and thus the electrical function of the lithium battery can be detected quickly, and the detection process and the pushing process are integrated, thereby not only omitting a separate detection structure, but also saving the process time required by the conventional detection process.

Referring to fig. 2 and 3, in a preferred embodiment of the present invention, the transmission assembly 5 includes a first transmission gear 501, a second transmission gear 502, a third transmission gear 503 and an external gear ring 504, wherein the first transmission gear 501 is disposed on one side of the ratchet plate 305 and is meshed with the ratchet plate 305, the second transmission gear 502 is disposed on one end of the first transmission gear 501 and is connected with the first transmission gear 501 in a linkage manner, the third transmission gear 503 is rotatably assembled on one end of the fixing frame 105, the external gear ring 504 is fixedly assembled on the inner wall of the rotary disc 201, one end of the third transmission gear 503 is meshed with the second transmission gear 502, and the other end is meshed with the external gear ring 504.

In practical application, since the first gear 501 is meshed with the ratchet piece 305, when the ratchet piece 305 slides in a vertical direction, the first gear 501 can be driven to rotate in a unidirectional manner, so as to drive the second gear 502 to rotate synchronously, and the third gear 503 meshed with the second gear 502 can be meshed with the third gear 503 to drive the external gear ring 504 on one side of the second gear 502 to rotate, so that the external gear ring 504 drives the rotary disc 201 to rotate in a unidirectional manner on the damping snap ring 104.

Referring to fig. 5, in a preferred embodiment of the present invention, the solid lithium battery feeding device further includes an appearance detecting assembly 6, the appearance detecting assembly 6 includes a visual detecting module 601, an inner ring frame 602 and a discharger 603, the visual detecting module 601 is fixedly mounted on one side of the feeding opening 102 and the discharging opening 103 and is disposed on the top of the rotating disc 201, and is used for visually detecting the characteristics of the solid lithium battery, the inner ring frame 602 is disposed on the inner side of the rotating disc 201, and a plurality of dischargers 603 are disposed thereon, and the discharger 603 is disposed towards the top groove 202 for ejecting the solid lithium battery that is not qualified for detection.

In practical application, the visual detection module 601 can be connected with a CCD camera to detect the shell size and the damage condition of the outer surface of the lithium battery, and cooperate with the electrical function detection of the electrical detection assembly 4, and the lithium battery unqualified in detection can be ejected and discharged by the inner ring frame 602 and the discharger 603, so that the screened lithium battery is discharged through the discharge chute 109.

In the above embodiment of the present invention, a rotary disc 201 is rotatably disposed on a base 101, and is matched with a driving mechanism 3 capable of reciprocating motion, so that electrical performance and appearance of a lithium battery can be detected by sliding and rotating the lithium battery in a continuous process of solid lithium battery feeding, and quality screening of the lithium battery is realized while uniform speed feeding is performed, and sorting efficiency of the lithium battery is improved.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. Solid-state lithium battery charging equipment, its characterized in that, solid-state lithium battery charging equipment includes:

the shell component comprises a base, a feeding hole, a discharging hole, a fixing frame and a feeding groove, wherein the feeding hole and the discharging hole are fixedly assembled at two ends of the base, damping clamping rings are further arranged on the inner walls of the feeding hole and the discharging hole, the fixing frame is fixedly arranged in the middle of the base, and the feeding groove is arranged on the fixing frame;

2. The solid state lithium battery charging equipment according to claim 1, wherein the shell member further comprises a material guiding pipe, a material storage channel and a discharge chute, the material guiding pipe is arranged on one side of the material feeding chute, the material storage channel is arranged in the material guiding pipe, the material storage channel is communicated with the material feeding chute, and the discharge chute is arranged on one side of the material discharging opening and is used for subsequent charging and feeding of the battery.

3. The solid state lithium battery feeding device according to claim 1, wherein the rotary disc assembly further comprises a cutting groove, a rolling wheel, a driving belt and a driving wheel, the cutting groove is arranged at the bottom of the top groove, the rolling wheel is rotatably assembled on the rotary disc and is arranged at one end of the cutting groove, the driving belt is further assembled and connected to one side of the rolling wheel, and the driving belt is meshed and connected with the base through the driving wheel.

4. The solid state lithium battery feeding device according to claim 1, wherein the driving mechanism further comprises a ratchet piece, and the ratchet piece is elastically movably assembled on one side of the reciprocating arm.

5. The solid-state lithium battery feeding device according to claim 1, wherein the electrical detection assembly comprises an electrical detection module, a front electrode plate and a rear electrode plate, the electrical detection module is fixedly assembled on a fixing frame, the front electrode plate and the rear electrode plate are respectively connected to two ends of the electrical detection module, the front electrode plate is fixedly assembled on one side of the pushing block, and the front electrode plate is arranged in the feeding hole and elastically movably assembled on the feeding hole and is used for movably abutting against the solid-state lithium battery to be detected.

6. The solid state lithium battery feeding device according to claim 4, wherein the transmission assembly comprises a first transmission tooth, a second transmission tooth, a third transmission tooth and an external tooth ring, the first transmission tooth is arranged on one side of the ratchet piece and is meshed with the ratchet piece, the second transmission tooth is arranged at one end of the first transmission tooth and is linked with the first transmission tooth, the third transmission tooth is rotatably assembled at one end of the fixed frame, the external tooth ring is fixedly assembled on the inner wall of the rotary disc, one end of the third transmission tooth is meshed with the second transmission tooth, and the other end of the third transmission tooth is meshed with the external tooth ring.

7. The solid state lithium battery feeding device according to claim 1, further comprising an appearance detection assembly, wherein the appearance detection assembly comprises a visual detection module, an inner ring frame and a discharger, the visual detection module is fixedly assembled on one side of a feeding hole and a discharging hole and is arranged on the top of a rotary disc for visually detecting the characteristics of the solid state lithium battery, the inner ring frame is arranged on the inner side of the rotary disc and is provided with a plurality of dischargers, and the dischargers are arranged towards one side of a top groove and are used for ejecting the solid state lithium battery with unqualified detection.