CN111086865A - Storage feeding mechanism for lithium battery jig - Google Patents

Abstract

The invention discloses a storage feeding mechanism for a lithium battery jig, which comprises a bearing frame, rotating shafts, rotary table assemblies, a power assembly, a feeding conveyor, a lifting conveyor and a discharging conveyor, wherein the two rotating shafts are vertically inserted in the bearing frame, the rotary table assemblies are arranged on the rotating shafts at equal intervals, the power assembly is arranged at the bottom of the bearing frame and drives the rotary table assemblies to rotate, the feeding port of the rotary table assembly at the bottom is provided with the feeding conveyor in a butt joint mode, the discharging port of the rotary table assembly conveys the battery jig to the upper layer through the lifting conveyor, the rotary table assembly on the other rotating shaft conveys the battery jig to the rotary table assembly at the bottom layer in sequence, and the discharging port of the rotary table assembly is provided with the discharging conveyor in a butt joint mode. By the mode, the automatic feeding device is compact in structure and stable in operation, a large number of products can be stored, the products are sequentially output and fed, and labor force is saved; the products are ensured to be sequentially output along the outer ring of the turntable, and the driving lever can be prevented from throwing away the products.

Description

Storage feeding mechanism for lithium battery jig

Technical Field

The invention relates to the technical field of battery production lines, in particular to a storage and feeding mechanism for a lithium battery jig.

Background

Lithium cell is in process of production, for guaranteeing the location, need the cartridge to carry out the feed in battery jig's mode with the cartridge, the feed mode mostly adopts the material straight or is close straight mode material loading on the market, current equipment mode mostly carries out batch production, ordinary straight formula material loading formula can't satisfy mass production, current feedway's storage capacity is limited, need artifical real time monitoring, the material supplement at any time, based on above defect and not enough, it is necessary to improve current technique, design a storage feed mechanism for lithium cell jig.

Disclosure of Invention

The invention mainly solves the technical problem of providing the material storage and feeding mechanism for the lithium battery jig, which has a compact structure and stable operation, can store a large number of products, sequentially outputs and feeds the products, and saves labor force; the products are ensured to be sequentially output along the outer ring of the turntable, and the driving lever can be prevented from throwing away the products.

In order to solve the technical problems, the invention adopts a technical scheme that: the utility model provides a storage feed mechanism for lithium cell tool, this kind of storage feed mechanism for lithium cell tool includes bearing frame, pivot, carousel subassembly, power component, feeding conveyor, lifting conveyor and discharging conveyor, vertical cartridge has two pivots on the bearing frame, and carousel subassembly is installed to the equidistance in the pivot, and power component is installed to bearing frame bottom, and power component drive carousel subassembly rotates, and bottom carousel subassembly's feed inlet butt joint is provided with feeding conveyor, and carousel subassembly's discharge gate is carried battery tool to the upper strata through lifting conveyor, and another pivot is gone up carousel subassembly and is carried battery tool to bottom carousel subassembly in proper order, and carousel subassembly's discharge gate butt joint is provided with discharging conveyor.

Preferably, the carousel subassembly includes support frame, carousel, plate washer, feeding guide way, ejection of compact guide way, spacing ring and scraper subassembly, the support frame sets up on the bearing frame, and the carousel is installed in the pivot, and the plate washer that sets up around the carousel is installed to the support frame upper end, and the butt joint is provided with feeding guide way and ejection of compact guide way on the plate washer respectively, and the carousel mid-mounting has the spacing ring, and the carousel top still is provided with the scraper subassembly.

Preferably, the scraper component comprises a connecting rod, a first guide plate, a connecting frame, a connecting shaft, a first gear, a shifting rod, a second gear, a buffer spring and a limiting component, the connecting rod is transversely arranged on the supporting frame, the first guide plate is installed on the supporting frame, one end of the first guide plate is tangent to the limiting ring, the first guide plate is arc-shaped, the other end of the first guide plate points to the outside, the connecting frame is installed on the connecting rod, the connecting shaft is vertically inserted on a top plate of the connecting frame, the first gear is installed on the connecting shaft, the shifting rod is installed at the bottom of the connecting shaft, the second gear is inserted on a bottom plate of the connecting frame, the first gear is meshed with the second gear, the shifting rod is an arc-shaped elastic sheet, the middle part of the shifting rod is connected with the baffle plate through the buffer spring, one end of the shifting rod.

Preferably, the limiting component comprises a follow-up drive plate, a follow-up rod and a limiting plate, the follow-up drive plate is arranged on the connecting shaft, the follow-up rod is transversely arranged on the follow-up drive plate, the limiting plate is arranged at the extending end of the follow-up rod, and the limiting plate can be matched with the connecting columns on the two sides of the connecting frame.

Preferably, power component includes motor, turbine speed reduction, belt, driving gear and driven gear, machine and turbine speed reduction are fixed in on the bearing frame, and the motor passes through belt drive turbine speed reduction and rotates, and the driving gear is installed to the output that the turbine slows down, installs driven gear in the pivot, driving gear and driven gear meshing.

Compared with the prior art, the invention has the beneficial effects that:

the structure is compact, the operation is stable, a large number of products can be stored, the products are sequentially output and fed, and the labor force is saved;

the scraper component is arranged to ensure that products are sequentially output along the outer ring of the turntable;

the first gear and the second gear are matched, so that the driving lever is prevented from throwing away products.

Drawings

Fig. 1 is a schematic structural diagram of a storage and feeding mechanism for a lithium battery jig.

Fig. 2 is a schematic structural view of a turntable assembly of a storage and feeding mechanism for a lithium battery jig.

Fig. 3 is a partially enlarged view a of fig. 2.

Fig. 4 is a schematic structural diagram of a power assembly of a storage and feeding mechanism for a lithium battery jig.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the invention can be more readily understood by those skilled in the art, and the scope of the invention will be more clearly defined.

Referring to fig. 1 to 4, an embodiment of the present invention includes:

the utility model provides a storage feed mechanism for lithium cell tool, this kind of storage feed mechanism for lithium cell tool includes bearing frame 1, pivot 2, carousel subassembly 3, power component 4, feeding conveyor 5, promotion conveyer 6 and discharge conveyor 7, vertical cartridge has two pivots 2 on the bearing frame 1, and carousel subassembly 3 is installed to the equidistance in pivot 2, and power component 4 is installed to bearing frame 1 bottom, and power component 4 drive carousel subassembly 3 rotates, and bottom carousel subassembly 3's feed inlet butt joint is provided with feeding conveyor 5, and carousel subassembly 3's discharge gate is carried the battery tool to the upper strata through promoting conveyer 6, and another pivot 2 is gone up 3 in proper order and is carried the battery tool to bottom carousel subassembly 3, and carousel subassembly 3's discharge gate butt joint is provided with discharge conveyor 7.

Carousel subassembly 3 includes support frame 31, carousel 32, plate washer 33, feeding guide way 34, ejection of compact guide way 35, spacing ring 36 and scraper subassembly 37, support frame 31 sets up on bearing frame 1, and carousel 32 installs on pivot 2, and support frame 31 upper end is installed around carousel 32 the plate washer 33 that sets up all around, and the butt joint is provided with feeding guide way 34 and ejection of compact guide way 35 on the plate washer 33 respectively, and carousel 32 mid-mounting has spacing ring 36, and carousel 32 top still is provided with scraper subassembly 37.

The scraper component 37 comprises a connecting rod 371, a first guide plate 372, a connecting frame 373, a connecting shaft 374, a first gear 375, a shifting rod 376, a second gear 377, a buffer spring 378 and a limiting component 379, wherein the connecting rod 371 is transversely arranged on the support frame 31, the support frame 31 is provided with the first guide plate 372, one end of the first guide plate 372 is tangent to the limiting ring 36, the first guide plate 372 is arranged in an arc shape, the other end of the first guide plate 372 points to the outer side, the connecting frame 373 is arranged on the connecting rod 371, the connecting shaft 374 is vertically inserted on the top plate of the connecting frame 373, the first gear 375 is arranged on the connecting shaft 374, the shifting rod 376 is arranged at the bottom of the connecting shaft 374, the second gear 377 is inserted on the bottom plate 373 of the connecting frame 373, the first gear 375 is meshed with the second gear 377, the shifting rod 376 is an arc-shaped elastic sheet, the middle part of the shifting rod 376 is connected with the baffle plate, a limiting component 379 is further mounted on the connecting shaft 374.

The limiting component 379 comprises a follow-up dial 3791, a follow-up rod 3792 and a limiting plate 3793, the follow-up dial 3791 is mounted on the connecting shaft 374, the follow-up rod 3792 is transversely mounted on the follow-up dial 3791, the limiting plate 3793 is mounted at the extending end of the follow-up rod 3792, and the limiting plate 3793 can be matched with connecting columns on two sides of the connecting frame 373.

The power assembly 4 comprises a motor 41, a turbine speed reducer 42, a belt 43, a driving gear 44 and a driven gear 45, the motor 41 and the turbine speed reducer 42 are fixed on the bearing frame 1, the motor 41 drives the turbine speed reducer 42 to rotate through the belt 43, the driving gear 44 is installed at the output end of the turbine speed reducer 42, the driven gear 45 is installed on the rotating shaft 2, and the driving gear 44 is meshed with the driven gear 45.

When the material storage and feeding mechanism for the lithium battery jig works, the lithium battery jig is conveyed into the bottom turntable assembly 3 by the feeding conveyor 5, the jig with the battery to be assembled enters the turntable 32 from the feeding guide groove 34, the turntable 32 is driven to rotate by the power assembly 4, the jig moves along the outer ring of the turntable 32 and clings to the baffle plate 33 under the guiding and centrifugal forces of the first guide plate 372 and the deflector rod 376, the deflector rod 376 rotates along the connecting shaft 374 towards the central direction of the turntable 32 under the pushing of the battery jig along with the increase of the battery jig, the first gear 375 and the second gear 377 are matched to drive the connecting shaft 374 to rotate, the damping effect is achieved, the flying-off products caused by the rapid movement of the deflector rod 376 due to the elastic force of the buffer spring 378 and the thrust of the battery jig are prevented, the two positions of the limiting plate 3793 correspond to the extending ends of the deflector rod 376 and clings to the baffle plate 33 and the limiting ring 36, the jig preferably conveys the battery to the upper turntable assembly, and the rotating disc component 3 on the other rotating shaft 2 sequentially conveys the battery jig to the bottom layer rotating disc component 3, and a discharge port of the rotating disc component 3 is in butt joint with a discharge conveyor 7.

The storage and feeding mechanism for the lithium battery jig is compact in structure and stable in operation, can store a large number of products, sequentially outputs and feeds the products, and saves labor force; the scraper component is arranged to ensure that products are sequentially output along the outer ring of the turntable; the first gear and the second gear are matched, so that the driving lever is prevented from throwing away products.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (5)

1. The utility model provides a lithium cell is storage feeding mechanism for tool which characterized in that: this kind of storage feed mechanism for lithium cell tool includes bearing frame, pivot, carousel subassembly, power component, feeding conveyor, promotion conveyer and discharge conveyor, vertical cartridge has two pivots on the bearing frame, and carousel subassembly is installed to the equidistance in the pivot, and power component is installed to bearing frame bottom, and power component drive carousel subassembly rotates, and bottom carousel subassembly's feed inlet butt joint is provided with feeding conveyor, and carousel subassembly's discharge gate carries battery tool to the upper strata through promoting the conveyer, and another pivot carousel subassembly carries battery tool to bottom carousel subassembly in proper order, and carousel subassembly's discharge gate butt joint is provided with discharge conveyor.

2. The storing and feeding mechanism for the lithium battery jig according to claim 1, characterized in that: the rotary table component comprises a support frame, a rotary table, a baffle plate, a feeding guide groove, a discharging guide groove, a limiting ring and a scraper component, the support frame is arranged on the bearing frame, the rotary table is arranged on the rotating shaft, the baffle plate which is arranged around the rotary table is arranged at the upper end of the support frame, the feeding guide groove and the discharging guide groove are respectively arranged on the baffle plate in a butt joint mode, the limiting ring is arranged in the middle of the rotary table, and the scraper component is further arranged above the rotary table.

3. The storing and feeding mechanism for the lithium battery jig according to claim 2, characterized in that: the scraper component comprises a connecting rod, a first guide plate, a connecting frame, a connecting shaft, a first gear, a driving lever, a second gear, a buffer spring and a limiting component, wherein the connecting rod is transversely arranged on the supporting frame, the first guide plate is arranged on the supporting frame, one end of the first guide plate is tangent to a limiting ring, the arc of the first guide plate is arranged, the other end of the first guide plate is directed to the outside, the connecting frame is arranged on the connecting rod, the connecting shaft is arranged on a top plate of the connecting frame in a vertical inserting mode, the first gear is arranged on the connecting shaft, the driving lever is arranged at the bottom of the connecting shaft, the second gear is arranged on a bottom plate of the connecting frame in an inserting mode, the first gear is meshed with the second gear, the driving lever is an arc-shaped elastic sheet, the middle of the driving lever is connected with a baffle.

4. The storage and feeding mechanism for the lithium battery jig according to claim 3, characterized in that: the limiting assembly comprises a follow-up drive plate, a follow-up rod and a limiting plate, the follow-up drive plate is arranged on the connecting shaft, the follow-up rod is transversely arranged on the follow-up drive plate, the limiting plate is arranged at the extending end of the follow-up rod, and the limiting plate can be matched with connecting columns on two sides of the connecting frame.

5. The storing and feeding mechanism for the lithium battery jig according to claim 1, characterized in that: the power assembly comprises a motor, a turbine speed reducer, a belt, a driving gear and a driven gear, the motor and the turbine speed reducer are fixed on the bearing frame, the motor drives the turbine to rotate in a speed reducing mode through the belt, the driving gear is installed at the output end of the turbine speed reducer, the driven gear is installed in the rotating shaft, and the driving gear is meshed with the driven gear.

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