CN216470969U - Lithium battery stacking and blanking device - Google Patents

Abstract

The utility model discloses a lithium cell pile up neatly unloader, include: the material pushing device comprises a material pushing component, a material stacking component and a material moving component, wherein the material stacking component is arranged on the right side of the material pushing component, the material moving component is arranged in front of the material stacking component, and the material moving component is used for moving materials of the material stacking component to the material pushing component; the utility model discloses each part cooperates the action in order, realizes automatic operation, moves moving of material part and moves that the year is fast, move and carry the stability, helps carrying the material fast, saves operating time, and then great improvement unloading efficiency.

Description

Lithium battery stacking and blanking device

Technical Field

The utility model relates to a lithium cell unloading technical field especially relates to a lithium cell pile up neatly unloader.

Background

The lithium battery is a new generation of green high-energy battery with excellent performance, and has become one of the key points of high and new technology development. The lithium battery has the following characteristics: high voltage, high capacity, low consumption, no memory effect, no pollution, small volume, small internal resistance, less self-discharge, and more cycle times.

With the wider application of lithium batteries, the requirement on the production efficiency of the lithium batteries is higher and higher. In the production process of the lithium battery, the conveying line is a bridge for connecting equipment in the next production process, and the processed lithium battery is often required to be transferred to the conveying line from a blanking station. The conventional blanking mode is manually completed, so that the automation degree is low, the time consumption is long, the working efficiency is low, the labor is easy to fatigue, the working progress is influenced, the cost is high, and a great amount of demands of modernization on the lithium ion battery can not be met.

Disclosure of Invention

The utility model aims at providing a lithium cell pile up neatly unloader to through artifical unloading among the solution prior art, degree of automation is not high, long consuming time, technical problem that work efficiency is low.

The technical scheme of the utility model as follows: the utility model provides a lithium cell pile up neatly unloader, includes: the material pushing device comprises a material pushing component, a material stacking component and a material moving component, wherein the material stacking component is arranged on the right side of the material pushing component, the material moving component is arranged in front of the material stacking component, and the material moving component is used for conveying materials of the material stacking component to the material pushing component.

Further, the material pushing component comprises: the material receiving seat is arranged in front of the conveying belt, the material pushing cylinder is arranged in front of the material receiving seat, and the push rod is arranged at the output end of the material pushing cylinder.

Further, the stacking part comprises: supporting seat, screw drive assembly, clamping cylinder and clip, screw drive assembly set up in the support frame below, and screw drive assembly's output is equipped with clamping cylinder, and clamping cylinder's output is equipped with the clip.

Further, the material moving part comprises: remove removal subassembly, connecting plate, reciprocate the subassembly, get material cylinder, get the material and press from both sides and rectify the subassembly, the connecting plate with remove the removal subassembly and be connected, reciprocate the subassembly and be connected with the connecting plate, the below that reciprocates the subassembly is equipped with gets the material cylinder, gets the output of material cylinder and is equipped with the material clamp, the subassembly of rectifying is connected with the connecting plate.

Further, the correction assembly comprises: the material taking device comprises a correcting cylinder, a correcting fixed block, a guide rod, a sliding part and a correcting block, wherein the correcting cylinder is connected with a connecting plate, the output end of the correcting cylinder is connected with the correcting fixed block, the guide rod is arranged on two sides of the correcting fixed block in a bilateral symmetry mode, the sliding part is arranged above the material taking cylinder, the guide rod can move up and down along the sliding part, and the correcting block is arranged at the bottom of the guide rod.

The utility model discloses following beneficial effect has:

1) the automatic feeding device has the advantages that each part of the automatic feeding device orderly cooperates to move, automatic operation is realized, the moving speed of the moving parts is high, the moving is stable, materials can be carried quickly, the working time is saved, and the feeding efficiency is greatly improved;

2) the utility model discloses the correction subassembly is used for treating the material of clamp and carries out upper and lower correction limit, and then improves the precision and the stability that the material is got to the material clamp and gets the material;

3) owing to be the multi-disc in the time of quick transport, the product width degree is inhomogeneous, leads to wide pressing from both sides tightly, and the narrow clamp that does not press from both sides tightly, quick travel's in-process drops easily, at this moment the utility model discloses a compress tightly the product at the in-process of transport with the above-mentioned cylinder that compresses tightly, be difficult to drop, improve the stability of transport.

Drawings

Fig. 1 is a schematic diagram of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic three-dimensional structure of the stacking member of the present invention;

fig. 3 is a schematic three-dimensional structure diagram of the material moving component of the present invention.

Reference is made to the accompanying drawings in which: a material pushing member 1; a stacking component 2; a material moving part 3; a conveyor belt 11; a receiving seat 12; a material pushing cylinder 13; a push rod 14; a support base 21; a screw drive assembly 22; a material clamping cylinder 23; a clip 24; a left-right movement assembly 31; a connecting plate 32; an up-and-down moving assembly 33; a take-off cylinder 34; a material taking clamp 35; a correction component 36; the correction cylinder 361; a correction fixing block 362; a guide rod 363; a slide member 364; and a correction block 365.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 3, a lithium battery stacking and blanking device includes: the material pushing device comprises a material pushing component 1, a material stacking component 2 and a material moving component 3, wherein the material stacking component 2 is arranged on the right side of the material pushing component 1, the material moving component 3 is arranged in front of the material stacking component 2, and the material moving component 3 is used for conveying materials of the material stacking component 2 to the material pushing component 1. The material moving component 3 moves back and forth between the material pushing component 1 and the material stacking component 2, and the material moving component 3 grabs the material from the material stacking component 2 and conveys the material to the material pushing component 1; the utility model discloses each part cooperates the action in order, realizes automatic operation, moves moving that material part 3 moves and carries that speed is fast, move and carry the stability, helps carrying the material fast, saves operating time, and then great improvement unloading efficiency.

The pushing member 1 includes: the automatic material receiving device comprises a conveying belt 11, a material receiving seat 12, a material pushing cylinder 13 and a push rod 14, wherein the material receiving seat 12 is arranged in front of the conveying belt 11, the material pushing cylinder 13 is arranged in front of the material receiving seat 12, and the push rod 14 is arranged at the output end of the material pushing cylinder 13. The pushing cylinder 13 can drive the push rod 14 to move along the upper part of the receiving seat 12, so that the material conveyed by the material moving part 3 to the upper part of the receiving seat 12 is pushed into the conveying belt 11, and automatic discharging is completed.

The stacking part 2 comprises: supporting seat 21, screw drive assembly 22, pressing from both sides material cylinder 23 and clip 24, screw drive assembly 22 sets up in the support frame below, and the output of screw drive assembly 22 is equipped with pressing from both sides material cylinder 23, and the output of pressing from both sides material cylinder 23 is equipped with clip 24. The material clamping cylinder 23 is used for driving the clamp 24 to open or close, the screw rod transmission assembly 22 acts to drive the material clamping cylinder 23 to move, so that materials to be carried are moved to the material taking range of the material moving part 3, and the material moving part 3 can take materials conveniently; the structure setting of sign indicating number material part 2 is retrencied rationally, is favorable to improving the handling efficiency who moves material part 3.

The material moving part 3 comprises: the automatic material taking device comprises a left-right moving assembly 31, a connecting plate 32, an up-down moving assembly 33, a material taking cylinder 34, a material taking clamp 35 and a correcting assembly 36, wherein the connecting plate 32 is connected with the left-right moving assembly 31, the up-down moving assembly 33 is connected with the connecting plate 32, the material taking cylinder 34 is arranged below the up-down moving assembly 33, the material taking clamp 35 is arranged at the output end of the material taking cylinder 34, and the correcting assembly 36 is connected with the connecting plate 32. The left-right moving component 31 moves to drive the connecting plate 32 to move left and right, so that the up-down moving component 33 is driven to move left and right, the up-down moving component 33 moves to drive the material taking cylinder 34 to move up and down, the material taking cylinder 34 moves to drive the material taking clamp 35 to open or close to take materials or unload materials, and the correcting component 36 is used for correcting and fixing the vertical direction of the materials so that the material taking clamp 35 can grab the materials.

The correction assembly 36 includes: the material taking device comprises a correcting cylinder 361, a correcting fixed block 362, guide rods 363, a sliding part 364 and a correcting block 365, wherein the correcting cylinder 361 is connected with the connecting plate 32, the output end of the correcting cylinder 361 is connected with the correcting fixed block 362, the guide rods 363 are symmetrically arranged on the two sides of the correcting fixed block 362, the sliding part 364 is arranged above the material taking cylinder 34, the guide rods 363 can move up and down along the sliding part 364, and the correcting block 365 is arranged at the bottom of the guide rods 363. One end of the guide rod 363 is fixedly connected with the correction fixing block 362, the other end of the guide rod 363 is fixedly connected with the correction block 365, the sliding component 364 comprises linear bearings, the linear bearings are arranged above the material taking cylinder 34 in a bilateral symmetry manner, the guide rod 363 is inserted in the middle of the linear bearings, and the arrangement of the sliding component 364 is helpful for the guide rod 363 to move up and down more smoothly and stably; the correcting component 36 is used for correcting and fixing the material to be clamped up and down, so that the accuracy and the stability of clamping the material by the material taking clamp 35 are improved; the correcting cylinder 361 acts to drive the correcting fixing block 362 to move downwards, so as to drive the guide rod 363 to move downwards along the sliding part 364, so that the correcting block 365 moves downwards to act above the material to be clamped, and the material is corrected and fixed in the vertical direction, so that the material is grabbed by the material grabbing clamp 35.

The utility model discloses an application principle: the screw rod transmission assembly 22 acts to drive the material clamping cylinder 23 to move, so that the material to be carried is moved into the material taking range of the material moving part 3, and the material moving part 3 can conveniently take materials; the left-right moving component 31 moves to drive the connecting plate 32 to move rightwards, further drive the up-down moving component 33 to move rightwards, the up-down moving component 33 moves to drive the material taking air cylinder 34 to move downwards, simultaneously drive the correcting air cylinder 361 to move, drive the correcting fixing block 362 to move downwards, further drive the guide rod 363 to move downwards along the sliding component 364, so that the correcting block 365 moves downwards to act on the material to be clamped, and corrects and fixes the vertical direction of the material, the material taking air cylinder 34 moves to drive the material taking clamp 35 to close, and clamp the material above the supporting seat 21 to finish the material taking operation, then the up-down moving component 33 moves reversely to drive the material taking air cylinder 34 to move upwards, the left-right moving component 31 moves leftwards, the up-down moving component 33 moves again, the material taking air cylinder 34 is driven to move downwards, and the correcting air cylinder 361 moves reversely, the correcting fixing block 362 is driven to move upwards, so that the guide rod 363 is driven to move upwards along the sliding part 364, the material taking cylinder 34 moves reversely to drive the material taking clamp 35 to open, the clamped materials are placed above the material receiving seat 12, the material pushing cylinder 13 moves, the push rod 14 is driven to move along the upper side of the material receiving seat 12, and therefore the materials conveyed to the upper side of the material receiving seat 12 by the material moving part 3 are pushed into the conveying belt 11, and automatic discharging is completed.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (5)

1. The utility model provides a lithium cell pile up neatly unloader which characterized in that: the method comprises the following steps: the material pushing device comprises a material pushing component (1), a material stacking component (2) and a material moving component (3), wherein the material stacking component (2) is arranged on the right side of the material pushing component (1), the material moving component (3) is arranged in front of the material stacking component (2), and the material moving component (3) is used for moving materials of the material stacking component (2) to the material pushing component (1).

2. The lithium battery stacking and blanking device according to claim 1, characterized in that: the pushing member (1) comprises: the material receiving device comprises a conveying belt (11), a material receiving seat (12), a material pushing cylinder (13) and a push rod (14), wherein the material receiving seat (12) is arranged in front of the conveying belt (11), the material pushing cylinder (13) is arranged in front of the material receiving seat (12), and the push rod (14) is arranged at the output end of the material pushing cylinder (13).

3. The lithium battery stacking and blanking device according to claim 1, wherein: the stacking part (2) comprises: supporting seat (21), screw drive assembly (22), pressing from both sides material cylinder (23) and clip (24), screw drive assembly (22) set up in the support frame below, and the output of screw drive assembly (22) is equipped with pressing from both sides material cylinder (23), and the output of pressing from both sides material cylinder (23) is equipped with clip (24).

4. The lithium battery stacking and blanking device according to claim 1, characterized in that: the material moving part (3) comprises: move about subassembly (31), connecting plate (32), move subassembly (33) about, get material cylinder (34), get material clamp (35) and correction subassembly (36), connecting plate (32) with move about subassembly (31) and be connected, move subassembly (33) about and be connected with connecting plate (32), the below that moves subassembly (33) about is equipped with gets material cylinder (34), the output of getting material cylinder (34) is equipped with gets material clamp (35), correction subassembly (36) are connected with connecting plate (32).

5. The lithium battery stacking and blanking device according to claim 4, wherein: the correction assembly (36) comprises: the material taking device comprises a correcting cylinder (361), a correcting fixed block (362), a guide rod (363), a sliding part (364) and a correcting block (365), wherein the correcting cylinder (361) is connected with a connecting plate (32), the output end of the correcting cylinder (361) is connected with the correcting fixed block (362), the guide rod (363) is arranged on two sides of the correcting fixed block (362) in a bilateral symmetry mode, the sliding part (364) is arranged above the material taking cylinder (34), the guide rod (363) can move up and down along the sliding part (364), and the correcting block (365) is arranged at the bottom of the guide rod (363).

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