CN113458502B

CN113458502B - Lithium battery polar plate production equipment

Info

Publication number: CN113458502B
Application number: CN202110607394.7A
Authority: CN
Inventors: 邓玉茗
Original assignee: Guangdong Xinchuangyuan Technology Co ltd
Current assignee: Guangdong Xinchuangyuan Technology Co ltd
Priority date: 2021-06-01
Filing date: 2021-06-01
Publication date: 2022-06-24
Anticipated expiration: 2041-06-01
Also published as: CN113458502A

Abstract

The invention discloses a lithium battery polar plate production device which comprises a guide rail, wherein a mounting plate is fixedly arranged on the guide rail, a liftable hydraulic lifting block is arranged on the front side surface of the mounting plate, two operation blocks which are symmetrical left and right are fixedly arranged on the front side surface of the mounting plate below the hydraulic lifting block, an operation cavity is arranged in each operation block, and two collection boxes which are symmetrical left and right are arranged in the lower end wall of each operation cavity; according to the invention, the slitting knives are switched through the ascending action of each slitting, so that the situation that the same knife head is used all the time, the sharpness of the knife head is reduced, and burrs are generated during slitting is prevented; according to the invention, the grinding wheel is driven to simply grind the cutter head through the descending action of each cutting, so that the cutter head is always kept sharp, the generation of burrs is reduced, and the production efficiency is improved.

Description

Lithium battery polar plate production equipment

Technical Field

The invention relates to the technical field of lithium batteries, in particular to a lithium battery polar plate production device.

Background

The lithium battery is a battery with wide application, the machined pole plate is often required to be cut in the production process of the lithium battery so as to correspond to the size of the produced battery, burrs are often generated on a notch due to the sharpness of a cutter in the re-cutting process, the subsequent production process is influenced, the serious potential safety hazard is produced, manual tool changing is not troublesome and labor-consuming, and the production efficiency is also influenced. A lithium battery plate production device.

Disclosure of Invention

The invention aims to provide a lithium battery polar plate production device which is used for overcoming the defects in the prior art.

The lithium battery polar plate production equipment comprises a guide rail, wherein a mounting plate is fixedly arranged on the guide rail, a liftable hydraulic lifting block is arranged on the front side surface of the mounting plate, two operation blocks which are symmetrical left and right are fixedly arranged on the front side surface of the mounting plate below the hydraulic lifting block, an operation cavity is arranged in each operation block, two collection boxes which are symmetrical left and right are arranged in the lower end wall of each operation cavity, the collection boxes are communicated with the operation cavities through chip removal channels, switching turntables which are symmetrical in position are rotatably connected to the front and rear walls of the operation cavities, three blade shell rotating shafts are rotatably connected between the switching turntables, a blade head mechanism is arranged on each blade shell rotating shaft, a grinding cavity is arranged on the rear side of each operation cavity, a switching cavity is arranged in the upper end wall of each grinding cavity, and a switching transmission mechanism capable of controlling the switching turntables to rotate is arranged in each switching cavity, two grinding miller of position symmetry about being equipped with in the operation intracavity, it can control to grind the intracavity grinding miller pivoted grinds drive mechanism, the lower terminal surface fixedly connected with of hydraulic lifting block can extend to lifting rod and power rack in the operation piece, lifting rod sets up the front side of power rack, be equipped with on the mounting panel and be close to the sensor, it is in to be close to the sensor setting the downside of hydraulic lifting block, be equipped with two bilateral symmetry's repulsion electro-magnet on the operation intracavity wall.

Optionally, the front wall and the rear wall of the guide rail are rotatably connected with three transmission shafts, the transmission shafts are fixedly connected with rotating rollers, the front wall and the rear wall of the guide rail are fixedly connected with supporting blocks, the upper end faces of the supporting blocks are provided with retracting cavities, the retracting cavities are used for preventing the blades from colliding when being cut and influencing the sharpness of the blades, and the rotating rollers are used for conveying pole plates.

Optionally, the cutter head mechanism includes a blade shell rotatably disposed on the rotating shaft of the blade shell, a blade moving block is slidably connected in the blade shell, a blade is fixedly disposed on the bottom surface of the blade moving block, the blade moving block is connected with the blade shell through a return spring, an opening is disposed on the upper end face of the blade shell, the return spring is used for returning the blade, and the lifting push rod can extend into the pushing blade from the opening on the upper end face of the blade shell, so that the blade extends out of the blade shell and cuts the polar plate.

Optionally, switch drive mechanism and include fixed connection switch the pivot on the switching carousel rear end face, it rotates to set up to switch the pivot on the operation piece, fixedly connected with switches the action wheel in the switching pivot, it is connected with the switching power shaft to rotate on the rear end face in switching chamber, switch and set firmly the switching gear on the power shaft, switch the gear with switch the action wheel meshing, switch fixedly connected with on the power shaft and switch the ratchet, switch the ratchet with power rack toothing, the switching carousel can be along with the rising action of hydraulic pressure elevator and accomplish the switching of tool bit mechanism.

Optionally, grind drive mechanism include the bilateral position symmetry and rotate connect set up in grind the grinding axle on the chamber back wall, it extends to grind the axle the operation intracavity, the grinding miller set firmly in grind epaxially, grind the intracavity grind epaxial fixedly connected with outside belt pulley, it is inboard to grind the axle rotate on the chamber back wall and be connected with and grind the power shaft, grind the epaxial driving pulley that has set firmly of power shaft, driving pulley with outside belt pulley passes through belt drive, grind the epaxial steering gear that has set firmly intermeshing on the power shaft, it is left grind the power shaft extend forward and set firmly with power rack toothing's grinding ratchet, the grinding miller can carry out simple polishing to the blade, keeps the sharpness of blade.

Optionally, the annular baffle is fixedly arranged on the side wall of the operation cavity at the chip removal channel, and the annular baffle can block chips generated during grinding of the grinding wheel, so that the polar plate is prevented from being polluted by falling onto the polar plate.

Optionally, the lifting push rod is positioned just opposite to the tool bit mechanism positioned at the lowest side.

The invention has the beneficial effects that: according to the invention, the slitting knives are switched through the ascending action of each slitting, so that the situation that the same knife head is used all the time, the sharpness of the knife head is reduced, and burrs are generated during slitting is prevented; according to the invention, the grinding wheel is driven to simply grind the cutter head through the descending action of each cutting, so that the cutter head is always kept sharp, the generation of burrs is reduced, and the production efficiency is improved.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

FIG. 1 is a schematic structural diagram of a lithium battery plate production apparatus of the present invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is a schematic view of the structure at B-B in FIG. 1;

FIG. 4 is a schematic view of the structure at C-C in FIG. 2;

fig. 5 is a schematic diagram of the structure of fig. 1 at the job block.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-5, the lithium battery plate production equipment according to the embodiment of the invention comprises a guide rail 26, a mounting plate 13 is fixedly arranged on the guide rail 26, a liftable hydraulic lifting block 10 is arranged on the front side surface of the mounting plate 13, two operation blocks 15 which are symmetrical left and right are fixedly arranged on the front side surface of the mounting plate 13 below the hydraulic lifting block 10, an operation cavity 23 is arranged in each operation block 15, two collection boxes 25 which are symmetrical left and right are arranged in the lower end wall of the operation cavity 23, the collection boxes 25 are communicated with the operation cavity 23 through a chip removal channel 24, switching turntables 31 which are symmetrical in position are rotatably connected on the front and rear walls of the operation cavity 23, three blade shell rotating shafts 38 are rotatably connected between the switching turntables 31, a cutter head mechanism 55 is arranged on each blade shell rotating shaft 38, a grinding cavity 39 is arranged on the rear side of the operation cavity 23, be equipped with in the upper end wall of grinding chamber 39 and switch over chamber 32, it can control to be equipped with in switching over chamber 32 switch carousel 31 pivoted and switch drive mechanism 58, be equipped with two grinding miller 21 of bilateral symmetry in the operation chamber 23, it can control to be equipped with in the grinding chamber 39 grinding miller 21 pivoted grinds drive mechanism 59, the lower terminal surface fixedly connected with of hydraulic pressure elevator block 10 can extend to lifting push rod 11 and power rack 12 in the operation piece 15, lifting push rod 11 sets up the front side of power rack 12, be equipped with on the mounting panel 13 and be close to sensor 14, it sets up to be close to sensor 14 the downside of hydraulic pressure elevator block 10, be equipped with two bilateral symmetry's repulsion electro-magnet 16 on the operation chamber 23 inner wall.

Preferably, the front wall and the rear wall of the guide rail 26 are rotatably connected with three transmission shafts 28, the transmission shafts 28 are fixedly connected with rotating rollers 27, the front wall and the rear wall of the guide rail 26 are fixedly connected with supporting blocks 30, the upper end face of each supporting block 30 is provided with a knife retracting cavity 29, the knife retracting cavities 29 are used for preventing the blades 19 from colliding during slitting to influence the sharpness of the blades 19, and the rotating rollers 27 are used for conveying pole plates.

Preferably, the cutter head mechanism 55 includes a blade housing 17 rotatably disposed on the blade housing rotating shaft 38, a blade moving block 18 is slidably connected in the blade housing 17, a blade 19 is fixedly disposed on the bottom surface of the blade moving block 18, the blade moving block 18 is connected with the blade housing 17 through a return spring 20, an opening is disposed on the upper end surface of the blade housing 17, the return spring 20 is used for returning the blade 19, and the lifting push rod 11 can extend into the blade 19 from the opening on the upper end surface of the blade housing 17 to push the blade 19, so that the blade 19 extends out and cuts the pole plate.

Preferably, the switching transmission mechanism 58 includes a switching rotating shaft 36 fixedly connected to the rear end surface of the switching rotary table 31, the switching rotating shaft 36 is rotatably disposed on the operation block 15, a switching driving wheel 37 is fixedly connected to the switching rotating shaft 36, a switching power shaft 33 is rotatably connected to the rear end surface of the switching cavity 32, a switching gear 35 is fixedly disposed on the switching power shaft 33, the switching gear 35 is engaged with the switching driving wheel 37, a switching ratchet 34 is fixedly connected to the switching power shaft 33, the switching ratchet 34 is engaged with the power rack 12, and the switching rotary table 31 can complete the switching of the cutter head mechanism 55 along with the ascending motion of the hydraulic lifting block 10.

Preferably, the grinding transmission mechanism 59 comprises a grinding shaft 22 which is symmetrical in left and right positions and is rotatably connected and arranged on the rear wall of the grinding cavity 39, the grinding shaft 22 extends into the working chamber 23, the grinding wheel 21 is fixed on the grinding shaft 22, an outer belt pulley 49 is fixedly connected on the grinding shaft 22 in the grinding cavity 39, a grinding power shaft 43 is rotatably connected on the rear wall of the grinding cavity 39 at the inner side of the grinding shaft 22, a driving belt pulley 48 is fixedly arranged on the grinding power shaft 43, the driving belt pulley 48 and the outer side belt pulley 49 are driven by a belt 50, the grinding power shaft 43 is fixedly provided with a steering gear 42 which is meshed with each other, the grinding power shaft 43 on the left side extends forwards and is fixedly provided with a grinding ratchet wheel 45 which is meshed with the power rack 12, and the grinding wheel 21 can simply grind the blade 19 and keep the sharpness of the blade 19.

Preferably, an annular baffle 51 is fixedly arranged on the side wall of the working cavity 23 at the position of the debris discharge channel 24, and the annular baffle 51 can block debris generated during grinding of the grinding wheel 21 and prevent the debris from falling onto the pole plate to pollute the pole plate.

Preferably, the lifting push rod 11 is positioned just opposite to the cutter head mechanism 55 positioned at the lowermost side.

In the initial state, the blade 19 is entirely within the working chamber 23, the return spring 20 is in a relaxed state, and the cutter head mechanism 55 is in an upright state.

The rotating roller 27 is started, the pole plate is conveyed to the lower side of the operation block 15 along the rotating roller 27, then the hydraulic lifting block 10 descends, the hydraulic lifting block 10 descends by driving the lifting push rod 11 and the power rack 12 to descend together, so that the lifting push rod 11 pushes the blade moving block 18 at the lowest side to move downwards, the blade moving block 18 moves to drive the blade 19 to move downwards together, so that the blade 19 cuts the pole plate, the power rack 12 descends while the hydraulic lifting block 10 descends, the power rack 12 descends to drive the grinding ratchet 45 to rotate, the grinding ratchet 45 rotates to drive the two grinding wheels 21 to rotate through the grinding transmission mechanism 59, the sensor 14 senses the descending of the hydraulic lifting block 10 at the same time, so that the repulsion electromagnet 16 is started, the repulsion electromagnet 16 generates repulsion to enable the blade 19 to be in contact with the grinding wheel 21, and the two blades 19 at the upper side can continue simple grinding due to the rotation of the grinding wheel 21, keeping the blade 19 sharp and the debris from grinding falls under gravity through the debris evacuation channel 24 into the collection bin 25;

when the hydraulic lift block 10 is raised, since the hydraulic lift block 10 is moved away from the proximity sensor 14 so that the proximity sensor 14 controls the repulsive force electromagnet 16 to be turned off, and the cutter head mechanism 55 is returned to the initial state by the gravity, and the blade 19 is also returned by the return spring 20, when the reset is completed, the hydraulic lifting block 10 continues to rise, this time the switching ratchet 34 will engage with the rack portion of the power rack 12, so that the power rack 12 drives the switching ratchet wheel 34 to rotate, the switching ratchet wheel 34 rotates to drive the switching power shaft 33 to rotate, the switching power shaft 33 drives the switching gear 35 to rotate, the switching gear 35 drives the switching driving wheel 37 to rotate, the switching driving wheel 37 drives the switching turntable 31 to rotate through the switching rotating shaft 36, when the hydraulic lifting block 10 rises to the highest point, the switching turntable 31 just rotates one hundred twenty degrees to complete the switching of the cutter head mechanism 55, and the cutting operation of the pole plate can be completed by repeating the above actions.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a lithium battery plate production facility, includes the guide rail, its characterized in that: the cutting machine is characterized in that a mounting plate is fixedly arranged on the guide rail, a liftable hydraulic lifting block is arranged on the front side surface of the mounting plate, two operation blocks with two bilateral position symmetries are fixedly arranged on the front side surface of the mounting plate below the hydraulic lifting block, an operation cavity is arranged in the operation block, two collecting boxes with two bilateral position symmetries are arranged in the lower end wall of the operation cavity, the collecting boxes are communicated with the operation cavity through a chip removal channel, switching turntables with position symmetries are rotatably connected on the front and rear walls of the operation cavity, three blade shell rotating shafts are rotatably connected between the switching turntables, a tool bit mechanism is arranged on each blade shell rotating shaft, a grinding cavity is arranged on the rear side of the operation cavity, a switching cavity is arranged in the upper end wall of the grinding cavity, a switching transmission mechanism capable of controlling the switching turntables to rotate is arranged in the switching cavity, two grinding wheels with bilateral position symmetries are arranged in the operation cavity, the grinding chamber is internally provided with a grinding transmission mechanism capable of controlling the grinding wheel to rotate, the lower end face of the hydraulic lifting block is fixedly connected with a lifting push rod and a power rack which can extend into the operation block, the lifting push rod is arranged on the front side of the power rack, the mounting plate is provided with a proximity sensor, the proximity sensor is arranged on the lower side of the hydraulic lifting block, and the inner wall of the operation chamber is provided with two repulsion electromagnets which are bilaterally symmetrical;

the front wall and the rear wall of the guide rail are rotatably connected with three transmission shafts, the transmission shafts are fixedly connected with rotating rollers, the front wall and the rear wall of the guide rail are fixedly connected with supporting blocks, the upper end faces of the supporting blocks are provided with tool retracting cavities, the tool retracting cavities are used for preventing the blades from colliding during slitting to influence the sharpness of the blades, and the rotating rollers are used for conveying pole plates;

the cutter head mechanism comprises a blade shell which is rotatably arranged on a rotating shaft of the blade shell, a blade moving block is connected in the blade shell in a sliding mode, a blade is fixedly arranged on the bottom surface of the blade moving block, the blade moving block is connected with the blade shell through a reset spring, an opening is formed in the upper end face of the blade shell, the reset spring is used for resetting the blade, and a lifting push rod can extend into the blade from the opening in the upper end face of the blade shell to push the blade so that the blade extends out and cuts the polar plate;

the switching transmission mechanism comprises a switching rotating shaft fixedly connected to the rear end face of the switching rotary table, the switching rotating shaft is rotatably arranged on the operation block, a switching driving wheel is fixedly connected to the switching rotating shaft, a switching power shaft is rotatably connected to the rear end face of the switching cavity, a switching gear is fixedly arranged on the switching power shaft and meshed with the switching driving wheel, a switching ratchet wheel is fixedly connected to the switching power shaft and meshed with the power rack, and the switching rotary table can complete switching of the cutter head mechanism along with rising action of the hydraulic lifting block;

grind drive mechanism include the left right position symmetry and rotate connect set up in grind the grinding axle on the chamber back wall, it extends to grind the axle the operation intracavity, the grinding wheel set firmly in grind epaxially, grind the intracavity grind epaxial fixedly connected with outside belt pulley, it is inboard to grind the axle rotate on the chamber back wall and be connected with the grinding power shaft, the last driving pulley that has set firmly of grinding power shaft, driving pulley with outside belt pulley passes through belt drive, the last steering gear who has set firmly intermeshing, it is left to grind the power shaft extend forward and set firmly with power rack toothing's grinding ratchet, the grinding wheel can carry out simple polishing to the blade, keeps the sharpness of blade.

2. The lithium battery plate production apparatus of claim 1, wherein: the annular baffle is fixedly arranged on the side wall of the operation cavity at the position of the chip removal channel, and can block chips generated during grinding of the grinding wheel and prevent the chips from falling onto the polar plate to pollute the polar plate.

3. The lithium battery plate production apparatus of claim 1, wherein: the position of the lifting push rod is just opposite to the cutter head mechanism positioned at the lowest side.