CN115582867B - Cutting device for electrode foil production - Google Patents

Abstract

The invention discloses a cutting device for producing electrode foil, which comprises a conveying component and a cutting component; the cutting assembly comprises a cutting box, a cutting mechanism and a pressing mechanism; the cutting mechanism comprises two rotating gears, a transmission chain, an extrusion block and a cutting piece, wherein the cutting piece is sleeved on the outer wall of the extrusion block and is arranged at the bottom of the cutting box in a sliding manner; the cutting piece comprises a moving rod and a cutting knife; the pressing mechanism comprises two propping pieces and two pressing rods, and the propping pieces comprise propping sliding blocks, connecting sliding rods and two propping springs. The invention designs the cutting assembly structurally, and the transmission chain and the extrusion block are utilized to drive the cutting member to horizontally and longitudinally reciprocate through the cooperation of the two rotating gears, the transmission chain, the extrusion block and the cutting member, so that the cutting action can be completed through the electrode foil in the reciprocating process of the cutting member, the neutral time of the cutting action is shortened, and the cutting of the electrode foil is more efficient.

Description

Cutting device for electrode foil production

Technical Field

The invention relates to the field of electrode foil production, in particular to a cutting device for electrode foil production.

Background

The electrode foil is a key raw material for manufacturing the aluminum electrolytic capacitor, is a necessary material used in complete equipment such as communication products, computers, household appliances and the like in the electronic industry, is manufactured in a flow line manner in the processing and production process of the electrode foil, and is rolled into a rolled shape, and when the electrode foil is used, cutting equipment is needed to cut the electrode foil.

The traditional electrode foil cutting equipment comprises an unreeling mechanism, a conveying mechanism and a cutting mechanism, electrode foil rolls are firstly placed at the unreeling mechanism, electrode foils are conveyed to the cutting mechanism to be cut and separated through the cooperation of the conveying mechanism and the unreeling mechanism, the cutting mechanism of the traditional equipment is used for carrying out reciprocating smashing and cutting in the vertical direction through pneumatic control, so that after the electrode foils are cut to the lower side, the cutting and separation of the electrode foils are finished through starting to control the cutting knife to cut down, the cutting process enables the electrode foils to be incapable of being subjected to cutting treatment in the cutting knife moving up, if the electrode foils with small sections are prepared, the knife needs to be controlled to quickly cut down, so that the cutting treatment that the knife cannot be carried out in the cutting up mode is still needed, the electrode foils are accumulated in the process of being very long, electrode foils are transported to the lower side of the knife blade of the traditional equipment through friction of a conveying belt, electrode foil offset is easy to occur in the smashing and cutting process, and cutting quality of the electrode foils is damaged.

Disclosure of Invention

The invention aims to provide a cutting device for electrode foil production, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: cutting device is used in electrode foil production, includes:

the conveying assembly is provided with an unreeling mechanism at one end of the top of the conveying assembly;

the cutting assembly is arranged at the top end of the conveying assembly;

the cutting assembly comprises a cutting box, a cutting mechanism and a pressing mechanism, wherein the cutting box is fixedly connected to the middle part of the top end of the conveying assembly, the cutting mechanism is arranged at the bottom of the cutting box, and the pressing mechanism is arranged at the bottom of the cutting box and is positioned at two ends of the cutting mechanism;

the cutting mechanism comprises two rotating gears, a transmission chain, an extrusion block and a cutting piece, wherein the cutting piece is sleeved on the outer wall of the extrusion block and is arranged at the bottom of the cutting box in a sliding manner;

the cutting piece comprises a moving rod and a cutting knife;

the pressing mechanism comprises two propping pieces and two pressing rods, the propping pieces are arranged in the middle of the cutting box, and each propping piece comprises a propping sliding block, a connecting sliding rod and two propping springs.

Preferably, the conveying assembly comprises a conveying frame and a transferring mechanism, a conveying groove is formed in the top end of the conveying frame, supporting legs are fixedly connected to four corners of the bottom end of the conveying frame, and a placing plate is fixedly connected to the front face of one end of the conveying frame.

Preferably, the transfer mechanism comprises a rotating motor, two rotating rollers and a conveyer belt, wherein the rotating motor is fixedly connected to the top end of the placing plate, the two rotating rollers are respectively connected to the two ends of the conveying groove in a rotating and penetrating mode, the output end of the rotating motor is fixedly connected with one end of one rotating roller, and the conveyer belt is sleeved between the two rotating rollers.

Preferably, the unreeling mechanism comprises two supporting risers and unreeling rollers, the two supporting risers are symmetrically and fixedly connected to the top of one end of the conveying frame, and the unreeling rollers are rotatably and alternately connected between the tops of the two supporting risers.

Preferably, the middle part of cutting the case bottom has been seted up and has been placed the chamber, two take in the spout have been seted up to the front and the back symmetry of cutting the case bottom, and two link up between taking in the spout top and seted up the link up groove, link up between the bottom of link up groove and the inner wall of placing the chamber top and seted up two slide holes, two restriction spout has all been seted up to the inner wall at slip Kong Zhengmian and back, the direction spout has all been seted up to the both sides of placing the chamber, one side of cutting the case bottom is provided with rotating electrical machines.

Preferably, the cutting mechanism rotates and sets up in placing the intracavity, two the middle part of rotating gear has all cup jointed and has supported the bull stick, two the both ends of supporting the bull stick rotate with the inner wall of placing the chamber front and back respectively and alternate and be connected, and one of them support the one end of bull stick and the output fixed connection of rotating electrical machines, drive chain cover is established at the outer wall of two rotating gear, one side fixedly connected with of drive chain supports the pivot, the outer wall at the support pivot is established to the extrusion piece cover.

Preferably, the middle part of the movable rod is provided with an extrusion ring groove, the extrusion block is connected in the extrusion ring groove in a sliding and penetrating manner, the cutting knife is fixedly connected to the bottom end of the movable rod, two guide sliding blocks are fixedly connected to two sides of the top of the movable rod, and the two guide sliding blocks are respectively connected with the two guide sliding grooves in a sliding and penetrating manner.

Preferably, the two lower compression bars are respectively connected in the two storage sliding grooves in a sliding and penetrating way, the bottom ends of the two lower compression bars are fixedly connected with a pressing block, the top ends of the two lower compression bars are respectively fixedly connected with the front surface and the back surface of the bottom end of the connecting sliding rod, and the two ends of the connecting sliding rod are fixedly connected with guide sliding balls.

Preferably, the two propping slide blocks are respectively connected in the two sliding holes in a sliding and penetrating way, the front surface and the back surface of the middle part of the two propping slide blocks are respectively and fixedly connected with limiting slide blocks, the four limiting slide blocks are respectively connected with the four limiting slide grooves in a sliding and penetrating way, and the four propping springs are respectively arranged in the four limiting slide grooves.

Preferably, the connecting slide bar is connected in the connecting through groove in a sliding penetrating way, and the bottom end of the connecting slide bar is fixedly connected with the top ends of the two propping slide blocks.

The invention has the technical effects and advantages that:

according to the invention, the cutting assembly is structurally designed, and the transmission chain and the extrusion block are utilized to drive the cutting member to horizontally and longitudinally reciprocate through the cooperation of the two rotation gears, the transmission chain and the extrusion block, so that the cutting action can be completed through the electrode foil in the reciprocating process of the cutting member, the cutting action on two sides can be completed through one-time cyclic movement of the cutting member in the processing process of preparing the tiny electrode foil, the neutral time of the cutting action is shortened, the cutting speed can be accelerated, and the cutting of the electrode foil is more efficient;

according to the invention, the pressing mechanism is arranged at the cutting assembly, namely, the pressing work of the electrode foil is finished in the cutting process of the electrode foil through the pressing rod and the pressing block, so that the pressing work of the electrode foil can be finished when the electrode foil is cut, the cutting position of the electrode foil is more accurate, and the cutting stability and quality are improved;

according to the invention, two groups of supporting pieces are arranged, and are connected with two pressing rods through connecting sliding rods, so that when a moving rod passes through the lower parts of the supporting pieces, the supporting pieces are jacked, and the two pressing rods are supported by the supporting pieces, so that a quasi-transportation gap exists between the electrode foils, the unclamped electrode foils can smoothly pass through the lower parts of two pressing blocks, and intermittent discharging of the electrode foils is realized in the reciprocating movement process of the moving rod, so that the cutting process of the electrode foils is smoother.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the conveying mechanism of the present invention.

FIG. 3 is a schematic view of a cutting assembly according to the present invention.

Fig. 4 is an enlarged schematic view of the structure of fig. 3 a according to the present invention.

Fig. 5 is an enlarged schematic view of the structure at B in fig. 3 according to the present invention.

Fig. 6 is a schematic view showing structural connection of the cutting case and the moving bar of the present invention.

Fig. 7 is a schematic structural view of the cutting mechanism of the present invention.

Fig. 8 is an enlarged schematic view of the structure at C in fig. 7 according to the present invention.

In the figure: 1. a carriage; 101. support legs; 102. placing a plate; 2. a rotating motor; 201. a rotating roller; 202. a conveyor belt; 3. supporting a vertical plate; 301. an unreeling roller; 4. cutting the box; 401. a placement cavity; 402. a guide chute; 403. a rotating electric machine; 5. rotating the gear; 501. supporting a rotating rod; 502. a drive chain; 503. extruding a block; 504. supporting a rotating shaft; 6. a moving rod; 601. a cutting knife; 602. a guide slide block; 7. pressing down a rod; 701. pressing blocks; 8. a top support slide block; 801. connecting a slide bar; 802. a guide sliding ball; 803. a limit slider; 9. and (5) supporting the spring.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a cutting device for producing electrode foil, as shown in figures 1-8, comprising:

the conveying assembly is provided with an unreeling mechanism at one end of the top of the conveying assembly;

the conveying assembly comprises a conveying frame 1 and a transferring mechanism, a conveying groove is formed in the top end of the conveying frame 1, supporting legs 101 are fixedly connected to four corners of the bottom end of the conveying frame 1, a placing plate 102 is fixedly connected to the front face of one end of the conveying frame 1, an arc-shaped supporting groove is formed in the top end of the placing plate 102, the arc-shaped supporting groove is identical to the radian of the outer wall of the rotating motor 2, namely the rotating motor 2 can be fixedly placed in the arc-shaped supporting groove;

the transfer mechanism comprises a rotating motor 2, two rotating rollers 201 and a conveying belt 202, wherein the rotating motor 2 is fixedly connected to the top end of the placing plate 102, the two rotating rollers 201 are respectively and rotatably connected to the two ends of the conveying groove in a penetrating mode, the output end of the rotating motor 2 is fixedly connected with one end of one rotating roller 201, the conveying belt 202 is sleeved between the two rotating rollers 201, the outer wall of the conveying belt 202 is rough, so that enough friction force can be provided to drive the electrode foil to accurately transport, and the conveying belt 202 is made of metal materials, so that the sliding of the cutting knife 601 can be born.

The unreeling mechanism comprises two supporting risers 3 and unreeling rollers 301, wherein the two supporting risers 3 are symmetrically and fixedly connected to the top of one end of the conveying frame 1, and the unreeling rollers 301 are rotatably and alternately connected between the tops of the two supporting risers 3;

support holes are formed in the tops of the two support risers 3, and rotating bearings are arranged in the two support holes, so that two ends of the unreeling roller 301 are respectively connected to the middle parts of the two rotating bearings in a rotating and penetrating mode, and the unreeling roller 301 rotates and unreels more smoothly.

The cutting assembly is arranged at the top end of the conveying assembly;

the cutting assembly comprises a cutting box 4, a cutting mechanism and a pressing mechanism, wherein the cutting box 4 is fixedly connected to the middle part of the top end of the conveying assembly, the cutting mechanism is arranged at the bottom of the cutting box 4, and the pressing mechanism is arranged at the bottom of the cutting box 4 and positioned at two ends of the cutting mechanism;

the middle part of cutting case 4 bottom has been seted up and has been placed chamber 401, and two storage spouts have been seted up to the front and the back symmetry of cutting case 4 bottom, and link up between two storage spout tops and have been seted up the connection through groove, link up between the bottom of connecting the through groove and the inner wall of placing chamber 401 top and have been seted up two slide holes, and restriction spout has all been seted up to the inner wall of two slide holes front and the back, and guide chute 402 has all been seted up to the both sides of placing chamber 401, and one side of cutting case 4 bottom is provided with rotating electrical machines 403.

The cutting mechanism comprises two rotating gears 5, a transmission chain 502, an extrusion block 503 and a cutting piece, wherein the cutting piece is sleeved on the outer wall of the extrusion block 503 and is arranged at the bottom of the cutting box 4 in a sliding manner;

the cutting mechanism is rotationally arranged in the placement cavity 401, the middle parts of the two rotating gears 5 are sleeved with supporting rotating rods 501, two ends of the two supporting rotating rods 501 are respectively connected with the inner walls of the front surface and the back surface of the placement cavity 401 in a rotating and penetrating way, one end of one supporting rotating rod 501 is fixedly connected with the output end of a rotating motor 403, a transmission chain 502 is sleeved on the outer walls of the two rotating gears 5, one side of the transmission chain 502 is fixedly connected with a supporting rotating shaft 504, and an extrusion block 503 is sleeved on the outer wall of the supporting rotating shaft 504;

the extrusion piece 503 bit cake form, its rotation cover is established at the outer wall that supports pivot 504, and when extrusion piece 503 extrudeed the extrusion annular of movable rod 6 like this, the outer wall of its cake form can laminate extrusion annular implementation extrusion more, can rotate in the extrusion department of turning round through extrusion piece 503 simultaneously for extrusion piece 503 is more smooth and easy to the extrusion of extrusion annular.

The cutting member comprises a moving rod 6 and a cutting knife 601;

an extrusion ring groove is formed in the middle of the moving rod 6, an extrusion block 503 is connected in the extrusion ring groove in a sliding and penetrating mode, a cutting knife 601 is fixedly connected to the bottom end of the moving rod 6, guide sliding blocks 602 are fixedly connected to two sides of the top of the moving rod 6, and the two guide sliding blocks 602 are respectively connected with the two guide sliding grooves 402 in a sliding and penetrating mode.

The pressing mechanism comprises two propping pieces and two pressing rods 7, the propping pieces are arranged in the middle of the cutting box 4, and each propping piece comprises a propping sliding block 8, a connecting sliding rod 801 and two propping springs 9;

the top of movable rod 6 sets up to the arc, and the bottom of propping slider 8 is hemispherical, and this kind of design makes when movable rod 6 removes to the top under the slider 8 bottom, through the contact extrusion between two arcwall faces, can more make things convenient for the top to prop slider 8 to produce the component of vertical direction, just so can upwards extrude the top to prop slider 8, ensures that movable rod 6 can be smooth carries out horizontal vertically reciprocating motion.

The two lower compression bars 7 are respectively connected in the two containing sliding grooves in a sliding penetrating way, the bottom ends of the two lower compression bars 7 are fixedly connected with the pressing blocks 701, the top ends of the two lower compression bars 7 are respectively fixedly connected with the front surface and the back surface of the bottom end of the connecting sliding bar 801, the two ends of the connecting sliding bar 801 are fixedly connected with the guide sliding balls 802, the guide sliding balls 802 are designed between the two ends of the connecting sliding bar 801 and the opposite inner walls of the two containing sliding grooves, and meanwhile, the contact surface is close to a point because of the design of the guide sliding balls 802, so that the connecting sliding bar 801 is ensured to keep a horizontal state, and meanwhile, the movement of the connecting sliding bar 801 in the vertical direction is not influenced to be limited, and the connecting sliding bar 801 can move in the vertical direction smoothly.

The two propping slide blocks 8 are respectively connected in the two sliding holes in a sliding and penetrating way, the front and the back of the middle part of the two propping slide blocks 8 are fixedly connected with limiting slide blocks 803, the four limiting slide blocks 803 are respectively connected with the four limiting slide grooves in a sliding and penetrating way, and the four propping springs 9 are respectively arranged in the four limiting slide grooves;

the connecting slide bar 801 is connected in the connecting through groove in a sliding and penetrating way, and the bottom end of the connecting slide bar 801 is fixedly connected with the top ends of the two jacking slide blocks 8.

The working principle of the invention is as follows: referring to fig. 1 to 8, when the present apparatus is used to perform cutting work of an electrode foil, the following steps are required;

the first operation is performed by placing the electrode foil roll to be cut at the unreeling mechanism, taking down the unreeling roller 301 from the tops of the two supporting risers 3, sleeving the electrode foil roll to be cut at the roller wall of the unreeling roller 301, and inserting the two ends of the unreeling roller 301 at the tops of the two supporting risers 3 in a rotating manner after sleeving.

The second step of operation is implemented, the rotating motor 2 is started, the rotating motor 2 drives the connected rotating roller 201 to rotate clockwise in the vertical direction through the output end after being started, at the moment, the conveying belt 202 rotates clockwise under the bearing of the other rotating roller 201, at the moment, the electrode foil at the unreeling roller 301 is rolled out to be partially, then the partially is placed at the top end of the conveying belt 202, at the moment, the electrode foil is moved towards the direction close to the cutting box 4 under the friction drive cooperation of the unreeling roller 301 and the conveying belt 202.

The third step of operation is implemented, the rotating motor 403 is started, at this time, the output end of the rotating motor 403 drives the connected supporting rotating rod 501 to rotate, the supporting rotating rod 501 rotates to drive the sleeved rotating gear 5 to synchronously rotate, under the meshing transmission action, the transmission chain 502 rotates, and at this time, the supporting rotating shaft 504 rotates around along with the connected transmission chain 502;

the sleeved extrusion block 503 is driven to synchronously move in the moving process of the supporting rotating shaft 504, the extrusion block 503 moves to drive the moving rod 6 to horizontally and longitudinally move through an extrusion ring groove of the extrusion moving rod 6, when the extrusion block 503 moves to the turning position of the transmission chain 502, the extrusion block 503 slides in an arc track in the extrusion ring groove, and at the moment, the extrusion block moves in the extrusion ring groove while rotating to realize reversing, so that the moving rod 6 horizontally and longitudinally reciprocates under the pushing of the extrusion block 503 and the limiting guide of the guide sliding block 602 and the guide sliding groove 402;

when the top of the moving rod 6 moves to the bottom of the propping slide block 8, the top of the moving rod 6 presses the propping slide block 8, at the moment, the propping slide block 8 is pushed by a vertical upward component force under the guide lines of the limiting slide block 803 and the limiting slide groove, so that the propping slide block 8 moves upwards, and simultaneously drives the connected limiting slide block 803 to vertically move upwards in the limiting slide groove, the limiting slide block 803 presses a propping spring 9 in the limiting slide groove in the moving process, so that the propping spring 9 gradually contracts under the force, and simultaneously the propping slide block 8 can vertically lift up the connecting slide rod 801, the connecting slide rod 801 vertically moves upwards under the limit of the guide slide balls 802 at two ends and the inner walls of the two containing slide grooves, the connecting slide rod 801 moves upwards to drive the two connected pressing rods 7 to synchronously move upwards, and the two pressing rods 7 drive the connecting pushing blocks 701 to synchronously move upwards, and thus the electrode foil transported by the conveying belt 202 can pass through the lower part of the placing cavity 401 and continuously move;

when the moving rod 6 is not right below the propping slide block 8, the propping spring 9 pushes the limiting slide block 803 downwards through restoring force, the limiting slide block 803 drives the propping slide block 8 to move downwards, the propping slide block 8 drives the connecting slide rod 801 to move downwards, the connecting slide rod 801 drives the two pressing rods 7 to move downwards, the two pressing rods 7 move downwards to drive the two pressing blocks 701 to move downwards and press the electrode foil right below the placing cavity 401, and meanwhile, the moving of the moving rod 6 drives the cutting knife 601 to finish horizontal cutting of the electrode foil;

under the cooperation of the two jacking sliding blocks 8 and the movable rod 6, the movable rod 6 drives the cutting knife 601 to carry out reciprocating cutting work in the horizontal and longitudinal reciprocating process, and meanwhile, the lifting frequency of the pressing block 701 is controlled to finish conveying and cutting of new electrode foil.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (8)

1. Cutting device is used in electrode foil production, includes:

the conveying assembly is provided with an unreeling mechanism at one end of the top of the conveying assembly;

the cutting assembly is arranged at the top end of the conveying assembly;

the cutting assembly is characterized by comprising a cutting box (4), a cutting mechanism and a pressing mechanism, wherein the cutting box (4) is fixedly connected to the middle part of the top end of the conveying assembly, the cutting mechanism is arranged at the bottom of the cutting box (4), and the pressing mechanism is arranged at the bottom of the cutting box (4) and positioned at two ends of the cutting mechanism;

the cutting mechanism comprises two rotating gears (5), a transmission chain (502), an extrusion block (503) and a cutting piece, wherein the cutting piece is sleeved on the outer wall of the extrusion block (503) and is arranged at the bottom of the cutting box (4) in a sliding manner;

the cutting member comprises a moving rod (6) and a cutting knife (601);

the pressing mechanism comprises two propping pieces and two pressing rods (7), the propping pieces are arranged in the middle of the cutting box (4), and each propping piece comprises a propping sliding block (8), a connecting sliding rod (801) and two propping springs (9);

an extrusion ring groove is formed in the middle of the moving rod (6), the extrusion block (503) is connected in the extrusion ring groove in a sliding and penetrating mode, the cutting knife (601) is fixedly connected to the bottom end of the moving rod (6), guide sliding blocks (602) are fixedly connected to two sides of the top of the moving rod (6), and the two guide sliding blocks (602) are respectively connected with the two guide sliding grooves (402) in a sliding and penetrating mode;

the two lower compression bars (7) are respectively connected in the two containing sliding grooves in a sliding penetrating way, the bottom ends of the two lower compression bars (7) are fixedly connected with a pressing block (701), the top ends of the two lower compression bars (7) are respectively fixedly connected with the front surface and the back surface of the bottom end of the connecting sliding bar (801), and the two ends of the connecting sliding bar (801) are fixedly connected with guide sliding balls (802).

2. The cutting device for electrode foil production according to claim 1, wherein the conveying assembly comprises a conveying frame (1) and a transferring mechanism, a conveying groove is formed in the top end of the conveying frame (1), supporting legs (101) are fixedly connected to four corners of the bottom end of the conveying frame (1), and a placing plate (102) is fixedly connected to the front face of one end of the conveying frame (1).

3. The cutting device for electrode foil production according to claim 2, wherein the transfer mechanism comprises a rotating motor (2), two rotating rollers (201) and a conveying belt (202), the rotating motor (2) is fixedly connected to the top end of the placement plate (102), the two rotating rollers (201) are respectively and rotatably connected to the two ends of the conveying groove in a penetrating mode, the output end of the rotating motor (2) is fixedly connected with one end of one rotating roller (201), and the conveying belt (202) is sleeved between the two rotating rollers (201).

4. Cutting device for producing electrode foil according to claim 1, characterized in that the unreeling mechanism comprises two supporting risers (3) and unreeling rollers (301), wherein the two supporting risers (3) are symmetrically and fixedly connected to the top of one end of the conveying frame (1), and the unreeling rollers (301) are rotatably and alternately connected between the tops of the two supporting risers (3).

5. The cutting device for electrode foil production according to claim 1, wherein a placement cavity (401) is formed in the middle of the bottom end of the cutting box (4), two storage sliding grooves are symmetrically formed in the front and the back of the bottom end of the cutting box (4), a connecting groove is formed between the tops of the storage sliding grooves in a penetrating manner, two sliding holes are formed between the bottom end of the connecting groove and the inner wall of the top end of the placement cavity (401), limiting sliding grooves are formed in the inner walls of the two sliding Kong Zhengmian and the back, guide sliding grooves (402) are formed in the two sides of the placement cavity (401), and a rotary motor (403) is arranged on one side of the bottom of the cutting box (4).

6. The cutting device for electrode foil production according to claim 1, wherein the cutting mechanism is rotatably arranged in the placement cavity (401), two rotating gears (5) are respectively sleeved with a supporting rotating rod (501), two ends of each supporting rotating rod (501) are respectively rotatably connected with inner walls of the front face and the back face of the placement cavity (401) in a penetrating mode, one end of each supporting rotating rod (501) is fixedly connected with the output end of the rotating motor (403), a transmission chain (502) is sleeved on the outer walls of the two rotating gears (5), one side of each transmission chain (502) is fixedly connected with a supporting rotating shaft (504), and each extrusion block (503) is sleeved on the outer wall of each supporting rotating shaft (504).

7. The cutting device for electrode foil production according to claim 1, wherein two propping sliding blocks (8) are respectively connected in two sliding holes in a sliding penetrating way, limiting sliding blocks (803) are fixedly connected to the front face and the back face of the middle of the two propping sliding blocks (8), four limiting sliding blocks (803) are respectively connected with four limiting sliding grooves in a sliding penetrating way, and four propping springs (9) are respectively arranged in the four limiting sliding grooves.

8. The cutting device for producing the electrode foil according to claim 1, wherein the connecting sliding rod (801) is connected in the connecting through groove in a sliding penetrating way, and the bottom ends of the connecting sliding rod (801) are fixedly connected with the top ends of the two propping sliding blocks (8).

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