CN111558743A

CN111558743A - Electrode slice processing equipment

Info

Publication number: CN111558743A
Application number: CN202010470712.5A
Authority: CN
Inventors: 朱倩
Original assignee: Individual
Current assignee: Guangdong Huaxian New Material Technology Co ltd
Priority date: 2020-05-28
Filing date: 2020-05-28
Publication date: 2020-08-21
Anticipated expiration: 2040-05-28
Also published as: CN111558743B

Abstract

The invention discloses an electrode plate processing device, which comprises a platform plate, wherein a symmetrical base is fixedly arranged on the lower end surface of the platform plate, raw materials are arranged on the upper side of the platform plate, a linkage clamping device for fully clamping the raw materials in a linkage clamping manner is arranged in the platform plate, a fixed shell is fixedly arranged on the upper end surface of the platform plate, a penetrating sliding containing cavity is arranged in the fixed shell, a lifting plate is arranged in the sliding containing cavity in a sliding manner, a driving motor is fixedly arranged on the upper end surface of the fixed shell, a rotating matching rod is arranged on the lower side of the driving motor in a power connection manner, the device adopts a manner of stably clamping the raw materials of an electrode plate, can cut the raw materials of the electrode plate from two sides according to the size of the electrode plate to be processed, and can efficiently cut off and process the electrode plate in a manner, the working efficiency of the equipment is greatly improved, and the thickness of the slice can be adjusted according to actual needs.

Description

Electrode slice processing equipment

Technical Field

The invention relates to the technical field of electrode plate processing equipment, in particular to electrode plate processing equipment.

Background

There are more shortcomings in current electrode slice course of working, for example, because the electrode slice is mostly made of sheet metal, but because the preparation of sheet metal often needs to involve the cutting, but current equipment is because unstable and can not carry out many thickness adjustment to raw and other materials from both sides and make the use of being convenient for carry out reality when processing sheet metal owing to the centre gripping to raw and other materials, and because current equipment can't carry out efficient breaking after the sheet metal is sliced, the electrode slice that makes the processing accomplish can't carry out efficient recovery, make equipment work efficiency reduce, simultaneously because the existence of above-mentioned shortcoming makes equipment hardly guarantee equipment and processing technology and lasts the reliability when carrying out the during operation, and make the efficiency of equipment when carrying out actual work difficult to guarantee.

Disclosure of Invention

The technical problem to be solved by the invention is to provide electrode plate processing equipment, which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the electrode plate processing equipment comprises a platform plate, wherein symmetrical bases are fixedly arranged on the lower end face of the platform plate, raw materials are arranged on the upper side of the platform plate, a linkage clamping device which adopts a linkage clamping mode to fully clamp the raw materials is arranged in the platform plate, a fixed shell is fixedly arranged on the upper end surface of the platform plate, a penetrating sliding containing cavity is arranged in the fixed shell, a lifting plate is arranged in the sliding accommodating cavity in a sliding manner, a driving motor is fixedly arranged on the upper end surface of the fixed shell, the lower side of the driving motor is provided with a rotating matching rod in a power connection way, the lower side of the rotating matching rod is provided with a bottom fixing seat in a rotating way, the bottom fixed seat is fixed with the sliding containing cavity, the slicing devices which are symmetrical and used for slicing the raw materials are arranged above the platform plate, and a cutting device which is matched and connected with the slicing device and realizes vertical downward extrusion cutting is arranged in the fixed shell.

Further technical scheme, linkage chucking device include with the swing grip block that the landing slab normal running fit is connected, swing grip block symmetry sets up, the swing grip block with raw and other materials dress card sets up, be provided with the open-ended rotation inner chamber in the swing grip block, the landing slab upper end is provided with the open-ended presumption board, the gliding liftout plate that is provided with in the presumption board, the liftout plate with raw and other materials dress card offsets, the landing slab downside is provided with the liftout plate carries out the linkage cooperation with the swing grip block and realizes the swing grip block is right raw and other materials carry out the lift linkage subassembly of stable dress card.

Further technical scheme, the lift linkage subassembly including set up in transmission cooperation inner chamber in the landing slab, transmission cooperation inner chamber downside is provided with and is located sliding inner chamber in the landing slab, the pivoted is provided with the cooperation pivot between the end wall about the inner chamber that slides, cooperation pivot surface screw-thread fit connection is provided with the cooperation lifter plate, cooperation lifter plate both ends pivoted is provided with the swing connecting rod, the swing connecting rod with rotate inner chamber normal running fit and connect, transmission cooperation intracavity be provided with cooperation pivot power is connected and is driven the ejector plate carries out the power structure that goes up and down.

According to the technical scheme, the power structure comprises a bottom installation motor fixedly arranged in the end wall of the transmission fit inner cavity, a driving fit gear is arranged on one side of the bottom installation motor in a power connection mode, a driven fit gear is arranged on one side of the driving fit gear in a meshed mode, the driven fit gear is in power connection with the fit rotating shaft, an external threaded shaft is fixedly arranged on the upper side of the driven fit gear, an open bottom threaded hole is formed in the ejection plate, and the external threaded shaft is in threaded fit connection with the bottom threaded hole.

Further technical scheme, the section device include with the fixed bottom dead lever of lifter plate, be provided with the roll-off inner chamber in the bottom dead lever, bottom dead lever one side has set firmly the push cylinder, push cylinder one side power connection is provided with stretches out the cutting board, stretch out the gliding running through of cutting board and stretch into the intracavity in the roll-off, it is provided with to stretch out cutting board one side can with raw and other materials section and with cut into that the section lifts up and lift up the subassembly, keep away from the push cylinder roll-off inner chamber one side is provided with and cuts into and lift up the subassembly cooperation and be connected in order to realize stably cutting into the subassembly that stabilizes.

According to a further technical scheme, the cutting-in and lifting assembly comprises an inner rotating cavity arranged in the extending cutting board, the inner rotating cavity penetrates through the inner rotating cavity, and a motor is arranged in the inner rotating cavity in a rotating mode and drives the rotating swinging cutting board to rotate.

A further technical scheme, stabilize the subassembly include with the inner chamber is placed to the spring of roll-off inner chamber intercommunication, the inner chamber symmetry setting is placed to the spring, the gliding pushing rod that is provided with in the inner chamber is placed to the spring, pushing rod internal rotation be provided with the pinch roller, the pinch roller with stretch out the cutting board and swing cutting board counterbalance the setting, roll-off inner chamber one side intercommunication is provided with board cooperation inner chamber, board cooperation inner chamber with the inner chamber intercommunication is placed to the spring, roll-off inner chamber one side intercommunication is provided with leads to wears the inner chamber, pushing rod is located lead to wears the inner chamber, lead to wearing inner chamber and exterior space intercommunication, board cooperation inner chamber and spring are placed the intracavity be provided with push rod extruded extrusion structure.

Further technical scheme, the extrusion structure including the pivoted set up in motor dwang between the board cooperation inner chamber, bottom dead lever one side has set firmly cooperation elevator motor, cooperation elevator motor with motor dwang power connection, the spring is placed the intracavity gliding and is provided with the cooperation board that goes up and down, the cooperation board with motor dwang screw-thread fit connects, the cooperation board that goes up and down with it pushes away the extrusion spring to push away elasticity between the pole end wall.

According to the technical scheme, the cutting device comprises a lower supporting frame fixed to the lower end face of the lifting plate, the lower supporting frame is symmetrically arranged, a through sliding groove is formed in the lower supporting frame, a cutting cylinder is fixedly arranged in the end wall of the sliding groove, a pushing sliding rod is arranged on one side of the cutting cylinder in a power connection mode, a cutting knife is fixedly arranged at one end of the pushing sliding rod, the cutting knife is connected with the sliding groove in a sliding fit mode, the cutting knife is connected with the bottom fixing base in a sliding fit mode, and the cutting knife is abutted to raw materials.

The invention has the beneficial effects that:

the device has a simple structure, adopts a mode of stably clamping the electrode plate raw material, can cut the electrode plate raw material from two sides according to the size of the electrode plate to be processed, and can efficiently cut the electrode plate by cutting from the upper side to the lower side, thereby greatly improving the working efficiency of the device and adjusting the thickness of the slice according to the actual requirement.

In an initial state, the above-described devices, assemblies and structures are in a rest condition, the apparatus being capable of stably clamping the stock material to the ejector plate and cutting the stock material from both sides and downwardly from the upper side.

When the equipment clamps the raw materials, the swing clamping block and the raw materials are in a clamping and abutting state, the ejector plate and the bottom of the raw materials are in a clamping and abutting state, when the raw material is not clamped, the bottom mounting motor drives the driving matching gear to rotate after working, because the driving fit gear is meshed with the driven fit gear, the driven fit gear drives the external thread shaft and the fit rotating shaft to rotate, because the external thread shaft is in thread fit connection with the bottom threaded hole, the ejector plate pushes the raw material upwards, and the cooperation pivot rotates the back and drives the cooperation lifter plate is in the inner chamber that slides downwards makes the cooperation lifter plate make under the effect of swing connecting rod the swing grip block centers on the landing slab upset makes the landing slab is kept away from raw and other materials.

When the raw material is sliced, the pushing cylinder drives the extending cutting board to move towards the raw material after working, so that the extending cutting board completely extends out of the through inner cavity, after the extending knife board and the swinging knife board cut into the raw material, and the extending knife board extends out of the through cavity completely, the swinging knife board extends out of the through cavity completely, when the extended cutter plate and the swinging cutter plate slice the raw materials, the pressing wheel in the pushing rod pushes the swinging cutter plate to slide, so that the extended cutter plate and the swinging cutter plate are more stable and more accurate to prevent deformation when cutting into the raw materials, and the lifting matching plate is driven to move under the action of the pushing spring after the matching lifting motor works, so that the pushing rod and the lifting matching plate can be elastically extruded, and the elastic propping force of the pressing wheel with the swinging knife plate and the extending knife plate can be increased.

After the extending knife board and the swinging knife board are completely cut into the raw material, the swinging knife board turns over after working, and then the thin sheet cut by the raw material can be lifted upwards and bent.

And after the cutting cylinder in the lower supporting frame works, the pushing sliding rod is driven to enable the cutting knife to slide out in the sliding groove, so that the cutting knife can cut off the slices cut in the raw materials fully along two sides of the bottom fixing seat.

When continuous processing is carried out, the driving motor drives the rotating matching rod to rotate after working, the black silk lifting plate slides in the sliding containing cavity, and the lifting plate is communicated with the bottom fixing rod to drive other structures to move downwards, so that the raw materials are fully sliced.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic view of an internal overall structure of an electrode sheet processing apparatus according to the present invention;

FIG. 2 is a schematic view of the direction A in FIG. 1;

FIG. 3 is a schematic view of the direction B in FIG. 1;

FIG. 4 is a schematic view of FIG. 1 taken along direction C;

FIG. 5 is a schematic view of FIG. 1 taken along direction D;

FIG. 6 is a schematic view of the direction E in FIG. 5;

FIG. 7 is a schematic view of FIG. 6 taken in the direction F;

in the figure, a presumption plate 11, a matching rotating shaft 12, a sliding inner cavity 14, a base 15, an ejection plate 16, a platform plate 17, a swing connecting rod 18, a rotating inner cavity 19, a swing clamping block 21, a raw material 22, a sliding inner cavity 23, a swing cutter plate 24, an inner rotating cavity 25, an extension cutter plate 26, a pushing cylinder 27, a bottom fixing rod 29, a lifting plate 31, a driving motor 41, a fixing shell 42, a lower supporting frame 43, a sliding accommodating cavity 44, a cutting cylinder 45, a sliding chute 46, a pushing sliding rod 47, a rotating matching rod 48, a cutting knife 51, a bottom fixing seat 52, a matching lifting plate 61, a driven matching gear 62, a transmission matching inner cavity 63, an external threaded shaft 64, a bottom threaded hole 65, a bottom mounting motor 66, a driving matching gear 67, a pushing rod 71, a pushing spring 72, a lifting matching plate 73, a matching lifting motor 74, a motor rotating rod 75, a through inner cavity 76, a, Spring placement cavity 78, plate mating cavity 79.

Detailed Description

As shown in fig. 1 to 7, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the electrode plate processing equipment comprises a platform plate 17, wherein symmetrical bases 15 are fixedly arranged on the lower end surface of the platform plate 17, raw materials 22 are arranged on the upper side of the platform plate 17, a linkage clamping device for fully clamping the raw materials 22 in a linkage clamping mode is arranged in the platform plate 17, a fixed shell 42 is fixedly arranged on the upper end surface of the platform plate 17, a penetrating sliding containing cavity 44 is arranged in the fixed shell 42, a lifting plate 31 is arranged in the sliding containing cavity 44 in a sliding mode, a driving motor 41 is fixedly arranged on the upper end surface of the fixed shell 42, a rotating matching rod 48 is dynamically connected to the lower side of the driving motor 41, a bottom fixing seat 52 is arranged on the lower side of the rotating matching rod 48 in a rotating mode, and the bottom fixing seat 52 is fixed with the sliding containing cavity 44, platform board 17 top is provided with the symmetry and right raw and other materials 22 carry out sliced section device, be provided with in the fixed casing 42 with section device cooperation be connected and realize the vertical cutting device that extrudees downwards and cut off.

Beneficially, wherein, linkage chucking device include with the swing grip block 21 that landing slab 17 normal running fit is connected, swing grip block 21 symmetry sets up, swing grip block 21 with raw and other materials 22 dress card sets up, be provided with open-ended rotation inner chamber 19 in the swing grip block 21, landing slab 17 upper end is provided with open-ended presumption board 11, the gliding liftout plate 16 that is provided with in presumption board 11, liftout plate 16 with raw and other materials 22 dress card offsets, landing slab 17 downside is provided with liftout plate 16 and swing grip block 21 carry out the linkage cooperation and realize swing grip block 21 and liftout plate 16 are right raw and other materials 22 carry out the lift linkage subassembly of stable dress card.

Beneficially, wherein, the lift linkage subassembly including set up in transmission cooperation inner chamber 63 in the landing slab 17, transmission cooperation inner chamber 63 downside is provided with and is located sliding inner chamber 14 in the landing slab 17, the pivoted is provided with cooperation pivot 12 between the upper and lower end wall of sliding inner chamber 14, cooperation pivot 12 surface screw-thread fit is connected and is provided with cooperation lifter plate 61, cooperation lifter plate 61 both ends pivoted is provided with swing connecting rod 18, swing connecting rod 18 with rotate inner chamber 19 normal running fit and connect, be provided with in the transmission cooperation inner chamber 63 with cooperation pivot 12 power is connected and is driven ejector plate 16 carries out the power structure that goes up and down.

Beneficially, the power structure includes a bottom-mounted motor 66 fixedly arranged in the end wall of the transmission matching inner cavity 63, a driving matching gear 67 is arranged on one side of the bottom-mounted motor 66 in a power connection mode, a driven matching gear 62 is arranged on one side of the driving matching gear 67 in a meshing mode, the driven matching gear 62 is in a power connection mode with the matching rotating shaft 12, an external threaded shaft 64 is fixedly arranged on the upper side of the driven matching gear 62, an open bottom threaded hole 65 is formed in the ejection plate 16, and the external threaded shaft 64 is in a threaded matching connection with the bottom threaded hole 65.

Beneficially, the slicing device comprises a bottom fixing rod 29 fixed with the lifting plate 31, a sliding-out inner cavity 23 is arranged in the bottom fixing rod 29, a pushing cylinder 27 is fixedly arranged on one side of the bottom fixing rod 29, an extending knife plate 26 is arranged on one side of the pushing cylinder 27 in a power connection mode, the extending knife plate 26 penetrates through the sliding-out inner cavity 28 in a sliding mode and extends into the sliding-out inner cavity 23, a cutting-in and lifting assembly capable of cutting the raw material 22 into slices and lifting the slices is arranged on one side of the extending knife plate 26, and a stabilizing assembly matched with the cutting-in and lifting assembly to achieve stable cutting-in is arranged on one side of the sliding-out inner cavity 23 far away from the pushing.

Advantageously, the incision and elevation assembly comprises an inner rotary cavity 25 arranged in the protruding knife plate 26, the inner rotary cavity 25 is arranged in a penetrating manner, and the inner rotary cavity 25 is internally and rotatably provided with a motor-driven rotary oscillating knife plate 24.

Beneficially, wherein the stabilizing assembly comprises a spring placing inner cavity 78 communicated with the sliding-out inner cavity 23, the spring placing inner cavity 78 is symmetrically arranged, a pushing rod 71 is arranged in the spring placing inner cavity 78 in a sliding mode, a pressing wheel 77 is arranged in the pushing rod 71 in a rotating mode, the pressing wheel 77 is abutted to the extending knife board 26 and the swinging knife board 24, a board matching inner cavity 79 is arranged on one side of the sliding-out inner cavity 23 in a communicating mode, the board matching inner cavity 79 is communicated with the spring placing inner cavity 78, a penetrating inner cavity 76 is arranged on one side of the sliding-out inner cavity 23 in a communicating mode, the pushing rod 71 is located in the penetrating inner cavity 76, the penetrating inner cavity 76 is communicated with an external space, and an extruding structure for extruding the pushing rod 71 is arranged in the board matching inner cavity 79 and the spring placing inner cavity 78.

Beneficially, wherein, extrusion structure includes the pivoted set up in motor dwang 75 between board cooperation inner chamber 79, bottom dead lever 29 one side has set firmly cooperation elevator motor 74, cooperation elevator motor 74 with motor dwang 75 power connection, the spring is placed the gliding lifting fit board 73 that is provided with in inner chamber 78, lifting fit board 73 with motor dwang 75 screw-thread fit is connected, lifting fit board 73 with it pushes away spring 72 to push away elasticity between the pole 71 end wall.

Advantageously, the cutting device comprises a lower supporting frame 43 fixed to the lower end face of the lifting plate 31, the lower supporting frame 43 is symmetrically arranged, a through sliding groove 46 is formed in the lower supporting frame 43, a cutting cylinder 45 is fixedly arranged in an end wall of the sliding groove 46, a pushing sliding rod 47 is dynamically connected to one side of the cutting cylinder 45, a cutting knife 51 is fixedly arranged at one end of the pushing sliding rod 47, the cutting knife 51 is connected with the sliding groove 46 in a sliding fit manner, the cutting knife 51 is connected with the bottom fixing seat 52 in a sliding fit manner, and the cutting knife 51 abuts against the raw material 22.

In the initial state, the above-described devices, assemblies and structures are in a deactivated state, and the apparatus is capable of stably clamping the stock material 22 to the ejector plate 16, and cutting the stock material 22 from both sides, and cutting the stock material 22 downward from the upper side.

When the equipment is used for installing the raw material 22, the swing clamping block 21 and the raw material 22 are in an installing and clamping abutting state, the ejector plate 16 and the bottom of the raw material 22 are in an installing and clamping abutting state, when the raw material 22 is removed from the installing and clamping state, the bottom installation motor 66 drives the driving fit gear 67 to rotate after working, the driving fit gear 67 is meshed with the driven fit gear 62, so that the driven fit gear 62 drives the external threaded shaft 64 and the fit rotating shaft 12 to rotate, the external threaded shaft 64 is in threaded fit connection with the bottom threaded hole 65, so that the ejector plate 16 upwards pushes the raw material 22, the fit rotating shaft 12 drives the fit lifting plate 61 to slide downwards in the sliding inner cavity 14, and the fit lifting plate 61 enables the swing clamping block 21 to overturn around the platform plate 17 under the action of the swing connecting rod 18, the platform plate 17 is moved away from the stock material 22.

When the raw material 22 is sliced, the pushing cylinder 27 drives the extending knife board 26 to move towards the raw material 22 after working, so that the extending knife board 26 completely extends out of the through cavity 76, because the extending knife board 26 and the swinging knife board 24 cut into the raw material 22 and the extending knife board 26 completely extends out of the through cavity 76, so that the swinging knife board 24 completely extends out of the through cavity 76, when the extending knife board 26 and the swinging knife board 24 slice the raw material 22, because the pressing wheel 77 in the pushing rod 71 slides against the swinging knife board 24, the extending knife board 26 and the swinging knife board 24 are more stable and more accurately prevented from deforming when cutting into the raw material 22, and the lifting matching plate 73 is driven to move under the action of the pushing spring 72 after working in cooperation with the lifting motor 74, so that the pushing rod 71 and the lifting matching plate 73 can be elastically squeezed, the pressing wheel 77 is enabled to increase the elastic opposing force with respect to the swing blade 24 and the projecting blade 26.

After the extended knife board 26 and the swinging knife board 24 completely cut into the raw material 22, the swinging knife board 24 is turned over after working, and the cut sheet of the raw material 22 can be lifted upwards and bent.

And after the cutting cylinder 45 in the lower supporting frame 43 is operated, the pushing slide rod 47 is driven to slide the cutting knife 51 in the slide slot 46, so that the cutting knife 51 can cut off the cut sheet of the raw material 22 along the two sides of the bottom fixing seat 52.

When continuous processing is carried out, the driving motor 41 drives the rotating matching rod 48 to rotate after working, the lifting plate 31 slides in the sliding accommodating cavity 44, so that the lifting plate 31 indirectly drives other structures to move downwards through the bottom fixing rod 29, and the raw materials 22 are fully sliced.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. An electrode slice processing device comprises a platform plate, wherein symmetrical bases are fixedly arranged on the lower end surface of the platform plate, raw materials are arranged on the upper side of the platform plate, a linkage clamping device which adopts a linkage clamping mode to fully clamp the raw materials is arranged in the platform plate, a fixed shell is fixedly arranged on the upper end surface of the platform plate, a penetrating sliding containing cavity is arranged in the fixed shell, a lifting plate is arranged in the sliding accommodating cavity in a sliding manner, a driving motor is fixedly arranged on the upper end surface of the fixed shell, the lower side of the driving motor is provided with a rotating matching rod in a power connection way, the lower side of the rotating matching rod is provided with a bottom fixing seat in a rotating way, the bottom fixed seat is fixed with the sliding containing cavity, the slicing devices which are symmetrical and used for slicing the raw materials are arranged above the platform plate, and a cutting device which is matched and connected with the slicing device and realizes vertical downward extrusion cutting is arranged in the fixed shell.

2. The electrode sheet processing apparatus as set forth in claim 1, wherein: linkage chucking device include with the swing grip block that landing slab normal running fit is connected, swing grip block symmetry sets up, the swing grip block with raw and other materials dress card sets up, be provided with the open-ended rotation inner chamber in the swing grip block, the landing slab upper end is provided with the open-ended presumption board, the gliding liftout plate that is provided with in the presumption board, the liftout plate with raw and other materials dress card offsets, the landing slab downside be provided with will liftout plate and swing grip block carry out the linkage cooperation and realize swing grip block and liftout plate are right raw and other materials carry out the lift linkage subassembly of stable dress card.

3. The electrode sheet processing apparatus as set forth in claim 2, wherein: the lift linkage subassembly including set up in transmission cooperation inner chamber in the landing slab, transmission cooperation inner chamber downside is provided with and is located the inner chamber that slides in the landing slab, the pivoted is provided with the cooperation pivot between the end wall about the inner chamber that slides, cooperation pivot surface screw-thread fit is connected and is provided with the cooperation lifter plate, cooperation lifter plate both ends pivoted is provided with the swing connecting rod, the swing connecting rod with rotate inner chamber normal running fit and connect, transmission cooperation intracavity be provided with cooperation pivot power is connected and is driven the ejector plate carries out the power structure that goes up and down.

4. The electrode sheet processing apparatus as set forth in claim 3, wherein: the power structure comprises a bottom installation motor fixedly arranged in the end wall of the transmission fit inner cavity, a driving fit gear is arranged on one side of the bottom installation motor in a power connection mode, a driven fit gear is arranged on one side of the driving fit gear in a meshed mode, the driven fit gear is in a power connection with the fit rotating shaft, an external threaded shaft is fixedly arranged on the upper side of the driven fit gear, an open bottom threaded hole is formed in the ejection plate, and the external threaded shaft is in a threaded fit connection with the bottom threaded hole.

5. The electrode sheet processing apparatus as set forth in claim 1, wherein: the section device include with the fixed bottom dead lever of lifter plate, be provided with the roll-off inner chamber in the dead lever of bottom, bottom dead lever one side has set firmly the push cylinder, push cylinder one side power is connected and is provided with and stretches out the cutting board, stretch out the gliding running through of cutting board and stretch into intracavity in the roll-off, it is provided with to stretch out cutting board one side can with raw and other materials section and will cut into that to lift up the subassembly that lifts up, keep away from the push cylinder roll-off inner chamber one side is provided with and cuts into the subassembly cooperation of lifting up and is connected the stable subassembly that cuts in order to realize stably.

6. The electrode sheet processing apparatus as set forth in claim 5, wherein: the cutting-in and lifting assembly comprises an inner rotating cavity arranged in the extending cutting board, the inner rotating cavity penetrates through the inner rotating cavity, and a motor is arranged in the inner rotating cavity in a rotating mode and drives the rotating swinging cutting board to rotate.

7. The electrode sheet processing apparatus as set forth in claim 5, wherein: the stabilizing component comprises a spring placing inner cavity communicated with the sliding-out inner cavity, the spring placing inner cavity is symmetrically arranged, a pushing rod is arranged in the spring placing inner cavity in a sliding mode, a pressing wheel is arranged in the pushing rod in a rotating mode, the pressing wheel is abutted to the extending cutting board and the swinging cutting board, a board matching inner cavity is arranged on one side of the sliding-out inner cavity in a communicating mode, the board matching inner cavity is communicated with the spring placing inner cavity, a through penetrating inner cavity is arranged on one side of the sliding-out inner cavity in a communicating mode, the pushing rod is located in the through penetrating inner cavity, the through penetrating inner cavity is communicated with an external space, and an extruding structure extruded by the pushing rod is arranged in the board matching inner cavity and the spring placing inner cavity.

8. The electrode sheet processing apparatus as set forth in claim 7, wherein: extrusion structure including the pivoted set up in motor dwang between the board cooperation inner chamber, bottom dead lever one side has set firmly cooperation elevator motor, cooperation elevator motor with motor dwang power is connected, the spring is placed the intracavity gliding and is provided with the lift cooperation board, the lift cooperation board with motor dwang screw-thread fit connects, the lift cooperation board with it pushes away the extrusion spring to push away elasticity between the pole end wall.

9. The electrode sheet processing apparatus as set forth in claim 1, wherein: the cutting device comprises a lower supporting frame fixed to the lower end face of the lifting plate, the lower supporting frame is symmetrically arranged, a through sliding groove is formed in the lower supporting frame, a cutting cylinder is fixedly arranged in the end wall of the sliding groove, a pushing sliding rod is arranged on one side of the cutting cylinder in a power connection mode, a cutting knife is fixedly arranged at one end of the pushing sliding rod and connected with the sliding groove in a sliding fit mode, the cutting knife is connected with the bottom fixing seat in a sliding fit mode, and the cutting knife is abutted to raw materials.