CN218460976U - Battery electrode machining device - Google Patents
Battery electrode machining device Download PDFInfo
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- CN218460976U CN218460976U CN202222403561.9U CN202222403561U CN218460976U CN 218460976 U CN218460976 U CN 218460976U CN 202222403561 U CN202222403561 U CN 202222403561U CN 218460976 U CN218460976 U CN 218460976U
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- shell
- battery electrode
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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Abstract
The utility model discloses a battery electrode processingequipment belongs to battery production facility technical field, which comprises an outer shell, cutting mechanism and conveying mechanism, cutting mechanism installs in the shell, cutting mechanism includes the pneumatic cylinder, the pneumatic cylinder is vertical to be installed on the inboard roof of shell, the one end that the inboard roof of shell was kept away from to the pneumatic cylinder is provided with the pneumatic cylinder output, the one end that the pneumatic cylinder was kept away from to the pneumatic cylinder output is connected with cuts out scissor holder and connecting rod, it is equipped with the stopper on the scissor holder to cut out, the cutter blade is installed to the stopper below, the one end that the pneumatic cylinder output was kept away from to the connecting rod is provided with the air spring of vertical installation, the one end that the connecting rod was kept away from to the air spring is provided with the briquetting. The utility model discloses a spacing groove and a plurality of stoppers can realize the length that stepless adjustment was tailor and tailor a plurality of pole pieces simultaneously, and the suitability is good and efficient, connects briquetting and pneumatic cylinder output for fixing when tailorring long pole piece is automatic fixed when tailorring, labour saving and time saving.
Description
Technical Field
The utility model belongs to the technical field of battery production facility, specifically a battery electrode processingequipment.
Background
The electrode plate is used as an important component of a battery, and the electrode plate needs to be cut and rolled so as to be suitable for batteries with different sizes. The battery electrode plate cutting device in the prior art can only cut out a single electrode generally, can not adjust the cutting length, and the prior art that a plurality of electrodes can be cut out simultaneously can not adjust the cutting length in a stepless manner, and the fixation of the long electrode plate during cutting needs to be additionally operated, so that time and labor are wasted.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a battery electrode processingequipment for solve following technical problem:
(1) The prior art can not simultaneously realize the cutting of a plurality of electrodes and the stepless adjustment of the cutting length;
(2) The fixation of the prior art when cutting the long pole piece needs additional operation.
In order to achieve the above object, the utility model provides a following technical scheme:
a battery electrode processing apparatus comprising:
a housing;
the cutting mechanism is installed in the shell and comprises a hydraulic cylinder, the hydraulic cylinder is vertically installed on the top wall of the inner side of the shell, the end, away from the top wall of the inner side of the shell, of the hydraulic cylinder is provided with a hydraulic cylinder output end, the end, away from the hydraulic cylinder, of the hydraulic cylinder output end is connected with a cutting knife rest and a connecting rod, a first limiting groove is formed in the cutting knife rest, a plurality of bolts are movably arranged on the first limiting groove, a limiting block is sleeved on each bolt, a cutting blade is installed below each limiting block, a vertically installed air spring is arranged at the end, away from the hydraulic cylinder output end, of the connecting rod, and a pressing block is arranged at the end, away from the connecting rod, of the air spring; and
and the conveying mechanism is connected with the cutting mechanism and is arranged below the cutting mechanism.
As a further aspect of the present invention: the first limiting groove is a through groove, a through hole is formed in the limiting block, and the bolt penetrates through the through hole and the first limiting groove to fix the limiting block on the cutting knife rest.
As a further aspect of the present invention: pneumatic cylinder, pneumatic cylinder output, connecting rod, air spring and briquetting all have two, and the symmetry sets up in the shell respectively, and two pneumatic cylinder outputs and the junction of cutting the scissors frame are symmetrical about cutting the middle of the scissors frame.
As the utility model discloses further scheme again: the scissors cutting frame is provided with scale marks.
As the utility model discloses further scheme again: the limiting block is provided with a pointer.
As a further aspect of the present invention: cut out scissors frame below and be provided with and tailor the base, it is concave template and opening up to tailor the base, it is equipped with the second spacing groove on the base to tailor, the second spacing groove is logical groove and the activity is provided with a plurality of screw rods, the screw rod with tailor the blade parallel, it is provided with first support and second support respectively to tailor the base both ends, it is connected through the hub connection between base and first support to tailor, the axle all overlaps with base and the first support coupling part of tailorring, first support is concave template and opening up, the one end that the second support is close to tailorring the base is less than the one end of keeping away from tailorring the base, first support and second support are in the below of briquetting, first support and shell inboard are connected, first support concave type mouth on the shell is located for the through-hole to.
As the utility model discloses further scheme again: the width of the pressing block is smaller than that of the first support, and the length of the pressing block is smaller than that of the first support and that of the lower end of the second support.
As the utility model discloses further scheme again: conveying mechanism includes the pivot, the one end of pivot and the one end connection of base of tailorring is kept away from to the second support, the one end that the second support was kept away from in the pivot passes the shell wall, the part cover that the shell was passed in the pivot is equipped with the bearing, the one end that the second support was kept away from in the pivot is equipped with first bevel gear, first bevel gear is connected with the second bevel gear, second bevel gear one side center is connected with the one end of telescopic link, be provided with the bracing piece on the telescopic link and connect through bracing piece and shell, the one end that the second bevel gear was kept away from to the telescopic link is equipped with the belt pulley, belt pulley and motor are connected by the belt.
As the utility model discloses further scheme again: the part of the screw rod passing through the cutting base is a smooth round surface.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the length of cutting can be adjusted in a stepless mode through the limiting groove and the limiting blocks, the pole pieces can be cut simultaneously, the adaptability is good, and the efficiency is high.
2. The pressing block is connected with the output end of the hydraulic cylinder, so that the long pole piece is fixed automatically during cutting, and time and labor are saved.
3. The motor can be used as a power source for conveying the belt and turning over the cutting base, and the cost is low.
Drawings
To facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.
FIG. 1 is a schematic front view of a battery electrode processing apparatus;
FIG. 2 is an enlarged view of FIG. 1 at A;
FIG. 3 is an enlarged view of FIG. 1 at B;
FIG. 4 is a side view at B of FIG. 1;
fig. 5 is a side view of a stopper of a battery electrode processing apparatus.
In the figure: 1. a housing; 2. a cutting mechanism; 201. a hydraulic cylinder; 202. an output end of the hydraulic cylinder; 203. a connecting rod; 204. a gas spring; 205. pressing into blocks; 206. a cutting knife rest; 207. scale marks; 208. a pointer; 209. a limiting block; 2010. a bolt; 2011. cutting a blade; 2012. a first limit groove; 2013. cutting a base; 2014. a second limit groove; 2015. a nut; 2016. a screw; 2017. a first bracket; 2018. a second bracket; 3. a conveying mechanism; 301. a rotating shaft; 302. a first bevel gear; 303. a second bevel gear; 304. a telescopic rod; 305. a support bar; 306. a pulley; 307. a belt; 308. a motor; 309. a conveyor belt; 4. and (5) long pole pieces.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention, i.e., the described embodiments are only some, but not all embodiments of the invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.
Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1 to 5, in an embodiment of the present invention, a battery electrode processing apparatus includes: a housing 1; the cutting mechanism 2 is installed in the shell 1, the cutting mechanism 2 comprises a hydraulic cylinder 201, the hydraulic cylinder 201 is vertically installed on the inner side top wall of the shell 1, a hydraulic cylinder output end 202 is arranged at one end, away from the inner side top wall of the shell 1, of the hydraulic cylinder 201, one end, away from the hydraulic cylinder 201, of the hydraulic cylinder output end 202 is connected with a cutting knife rest 206 and a connecting rod 203, a first limiting groove 2012 is arranged on the cutting knife rest 206, a plurality of bolts 2010 are movably arranged on the first limiting groove 2012, limiting blocks 209 are sleeved on the bolts 2010, a cutting blade 2011 is installed below the limiting blocks 209, one end, away from the hydraulic cylinder output end 202, of the connecting rod 203 is provided with a vertically installed air spring 204, and one end, away from the connecting rod 203, of the air spring 204 is provided with a pressing block 205; and the conveying mechanism 3, the conveying mechanism 3 is connected with the cutting mechanism 2 and is arranged below the cutting mechanism 2.
In one embodiment, referring to fig. 1 to 5, the long pole piece 4 is extended inward from the through hole opposite to the concave opening of the first bracket 2017 on the housing 1, so that the lower side of the cutting base 2013 of the first bracket 2017 and the second bracket 2018 of the long pole piece 4 is pressed against the higher side of the second bracket 2018, the long pole piece 4 is above the screw 2016 when passing through the cutting base 2013, the pitch of the fingers 208 is adjusted to the desired pole piece length by adjusting the pitch of the bolts 2010, and if fewer or longer pole pieces are required, adjusting the distance and the number of the bolts 2010 according to actual conditions, fixing the limiting block 209 on the cutting knife rest 206 through the bolts 2010 and the first limiting groove 2012, tightening the bolts 2010, starting the hydraulic cylinder 201, enabling the hydraulic cylinder output end 202 to drive the connecting rod 203, the air spring 204, the pressing block 205, the cutting knife rest 206, the scale mark 207, the pointer 208, the limiting block 209, the bolts 2010, the cutting blade 2011 and the first limiting groove 2012 to move downwards, enabling the pressing block 205 to press the long pole piece 4 first, compressing the air spring 204 when the hydraulic cylinder output end 202 moves downwards, enabling the long pole piece 4 to be pressed more tightly, when the cutting blade 2011 penetrates through the long pole piece 4, the long pole piece 4 on the screw 2016 is cut into pole pieces with required length, the hydraulic cylinder 201 is closed, the output distance of the hydraulic cylinder output end 202 is zero, the telescopic rod 304 is adjusted, the first bevel gear 302 and the second bevel gear 303 are meshed, the motor 308 is started, the cutting base 2013 is turned over, so that the cut pole pieces fall onto the conveyor belt 309, the cutting base 2013 is turned over until the concave surface of the cutting base 2013 faces upwards, the motor 308 is turned off, the telescopic rod 304 is adjusted to separate the first bevel gear 302 from the second bevel gear 303, the motor 308 is started, the electrodes on the conveyor belt 309 are conveyed to the outlet, and the next group of electrodes can be cut simultaneously within the time after the motor 308 is turned off.
In this embodiment, the first limiting groove 2012 is a through groove, the limiting block 209 is provided with a through hole, and the bolt 2010 passes through the through hole and the first limiting groove 2012 to fix the limiting block 209 on the cutting knife rest 206, so that the limiting block 209 and the cutting knife rest 206 are more firmly fixed.
In this embodiment, hydraulic cylinder 201, hydraulic cylinder output 202, connecting rod 203, air spring 204 and briquetting 205 all have two, and the symmetry sets up in shell 1 respectively, and two hydraulic cylinder output 202 and the junction of cutting knife rest 206 are symmetrical about cutting knife rest 206 is middle, and each blade 2011 of cutting when making to cut out is more even to the atress of long pole piece 4, and it is better to cut out the effect.
In this embodiment, the cutting blade holder 206 is provided with the scale mark 207, so that the distance between the cutting blades 2011 is adjusted more accurately.
In this embodiment, the limiting block 209 is provided with a pointer 208, so that the distance between the cutting blades 2011 can be adjusted more accurately.
In this embodiment, a cutting base 2013 is arranged below the cutting tool holder 206, the cutting base 2013 is a concave plate and has an upward opening, a second limiting groove 2014 is formed in the cutting base 2013, a plurality of screws 2016 are movably arranged in the second limiting groove 2014 as a through groove, the screws 2016 are parallel to the cutting blade 2011, a first support 2017 and a second support 2018 are respectively arranged at two ends of the cutting base 2013, the cutting base 2013 and the first support 2017 are connected through a shaft, bearings are respectively sleeved on the connecting portion of the shaft, the cutting base 2013 and the first support 2017, the first support 2017 is a concave plate and has an upward opening, one end of the second support 2018, which is close to the cutting base 2013, is lower than one end far away from the cutting base 2013, the first support 2017 and the second support 2018 are arranged below the pressing block 205, the first support 2017 is connected with the inner side of the shell 1, and the concave opening of the first support 2017 on the shell 1 is a through hole.
In this embodiment, the width of the pressing block 205 is smaller than the width of the first bracket 2017, and the length of the pressing block 205 is smaller than the length of the first bracket 2017 and the length of the lower end of the second bracket 2018, so that the pressing block 205 presses the long pole piece 4 better, the long pole piece 4 is fixed during cutting, and the cutting effect is better.
In this embodiment, the conveying mechanism 3 includes a rotating shaft 301, one end of the rotating shaft 301 and one end of the second support 2018 far away from the cutting base 2013 are connected, one end of the rotating shaft 301 far away from the second support 2018 passes through the wall of the housing 1, a part of the rotating shaft 301 penetrating through the housing 1 is sleeved with a bearing, one end of the rotating shaft 301 far away from the second support 2018 is provided with a first bevel gear 302, the first bevel gear 302 is connected with a second bevel gear 303, the center of one side of the second bevel gear 303 is connected with one end of a telescopic rod 304, a supporting rod 305 is arranged on the telescopic rod 304 and connected with the housing 1 through the supporting rod 305, one end of the telescopic rod 304 far away from the second bevel gear 303 is provided with a belt pulley 306, and the belt pulley 306 and a motor 308 are connected by a belt 307.
In this embodiment, the second bevel gear 303 and the belt pulley 306 are connected by the telescopic rod 304, so that the motor 308 can be used as a power source for driving the conveyor belt 309 and turning the cutting base 2013 at the same time, and the cost is low.
In this embodiment, the screw 2016 and the cutting blade 2011 are parallel, so that the cutting blade 2011 cannot cut the screw 2016 when cutting the long pole piece 4, the cutting effect is better, and the service life of the cutting blade 2011 is longer.
In this embodiment, the portion of the screw 2016 passing through the cutting base 2013 is a smooth round surface, so that the cutting blade 2011 is prevented from scratching along the round surface when inadvertently cutting the screw 2016, and loss is reduced.
In this embodiment, the connecting rod 203 can be connected to the cutting blade holder 206, in addition to the end of the hydraulic cylinder output end 202 away from the hydraulic cylinder 201.
In this embodiment, the screw 2016 is fixed to the cutting base 2013 by a nut 2015, so that it is more stable.
In this embodiment, the larger end of the telescopic rod 304 is connected to the housing 1 through the support rod 305, so that the telescopic rod 304 can work more smoothly.
The working principle is as follows:
when the device is used, the long pole piece 4 firstly extends inwards from the through hole at the position corresponding to the concave opening of the first bracket 2017 on the shell 1, so that the lower side of the first bracket 2017 cutting base 2013 and the second bracket 2018 of the long pole piece 4 is propped against the higher side of the second bracket 2018, the long pole piece 4 is above the screw 2016 when passing through the cutting base 2013, the pitch of the fingers 208 is adjusted to the desired pole piece length by adjusting the pitch of the bolts 2010, and if fewer or longer pole pieces are required, adjusting the distance and the number of the bolts 2010 according to actual conditions, fixing the limiting block 209 on the cutting knife rest 206 through the bolts 2010 and the first limiting groove 2012, tightening the bolts 2010, starting the hydraulic cylinder 201, so that the hydraulic cylinder output end 202 drives the connecting rod 203, the gas spring 204, the pressing block 205, the cutting knife rest 206, the scale mark 207, the pointer 208, the limiting block 209, the bolt 2010, the cutting knife rest 2011 and the first limiting groove 2012 to move downwards, the pressing block 205 presses the long pole piece 4 first, the gas spring 204 compresses when the hydraulic cylinder output end 202 moves downwards, so that the long pole piece 4 is pressed more tightly, when the cutting knife 2011 penetrates through the long pole piece 4, the long pole piece 4 on the screw 2016 is cut into pole pieces with required length, the hydraulic cylinder 201 is closed, the output distance of the hydraulic cylinder output end 202 is zero, the telescopic rod 304 is adjusted, the first bevel gear 302 and the second bevel gear 303 are meshed, the motor 308 is started, the cutting base 2013 is turned over, so that the cut pole pieces fall onto the conveyor belt 309, the cutting base 2013 is turned over until the concave surface of the cutting base 2013 faces upwards, the motor 308 is turned off, the telescopic rod 304 is adjusted to separate the first bevel gear 302 from the second bevel gear 303, the motor 308 is started to convey the electrodes on the conveyor belt 309 to the outlet, and the next group of electrodes can be cut simultaneously within the time after the motor 308 is turned off.
The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.
Claims (9)
1. A battery electrode processing apparatus, comprising:
a housing (1);
the cutting mechanism (2) is installed in the shell (1), the cutting mechanism (2) comprises a hydraulic cylinder (201), the hydraulic cylinder (201) is vertically installed on the inner side top wall of the shell (1), a hydraulic cylinder output end (202) is arranged at one end, away from the inner side top wall of the shell (1), of the hydraulic cylinder (201), one end, away from the hydraulic cylinder (201), of the hydraulic cylinder output end (202) is connected with a cutting knife rest (206) and a connecting rod (203), a first limiting groove (2012) is formed in the cutting knife rest (206), a plurality of bolts (2010) are movably arranged on the first limiting groove (2012), a limiting block (209) is sleeved on each bolt (2010), a cutting blade (2011) is installed below the limiting block (209), a vertically installed air spring (204) is arranged at one end, away from the hydraulic cylinder output end (202), of the connecting rod (203), of the air spring (204), and one end, away from the connecting rod (203), is provided with a pressing block (205); and
the conveying mechanism (3) is connected with the cutting mechanism (2) and is arranged below the cutting mechanism (2).
2. The battery electrode processing device according to claim 1, wherein the first limiting groove (2012) is a through groove, a through hole is formed in the limiting block (209), and the bolt (2010) passes through the through hole and the first limiting groove (2012) to fix the limiting block (209) on the cutting knife rest (206).
3. The battery electrode processing device according to claim 1, wherein two hydraulic cylinders (201), two hydraulic cylinder outputs (202), two connecting rods (203), two gas springs (204) and two pressing blocks (205) are symmetrically arranged in the housing (1), and the connection between the two hydraulic cylinder outputs (202) and the cutting knife rest (206) is symmetrical about the middle of the cutting knife rest (206).
4. The battery electrode processing device according to claim 1, wherein the cutting scissors frame (206) is provided with a scale mark (207).
5. The battery electrode processing device according to claim 1, wherein the stopper (209) is provided with a pointer (208).
6. The battery electrode processing device according to claim 3, wherein a cutting base (2013) is arranged below the cutting knife holder (206), the cutting base (2013) is a concave plate with an upward opening, a second limiting groove (2014) is formed in the cutting base (2013), a plurality of screws (2016) are movably arranged in the second limiting groove (2014) for a through groove, the screws (2016) are parallel to the cutting blade (2011), a first support (2017) and a second support (2018) are respectively arranged at two ends of the cutting base (2013), the cutting base (2013) and the first support (2017) are connected through a shaft, the connecting portion of the cutting base (2013) and the first support (2017) are sleeved with bearings, the first support (2017) is a concave plate with an upward opening, one end of the second support (2018) close to the cutting base (2013) is lower than one end far away from the cutting base (2013), the first support (2017) and the second support (2018) are connected with a pressing block shell (2011) and a through hole (205) is formed in the lower side of the first support (2017).
7. The battery electrode processing device according to claim 6, wherein the width of the pressing block (205) is smaller than the width of the first bracket (2017), and the length of the pressing block (205) is smaller than the length of the first bracket (2017) and the length of the lower end of the second bracket (2018).
8. The battery electrode processing device according to claim 7, wherein the conveying mechanism (3) comprises a rotating shaft (301), one end of the rotating shaft (301) is connected with one end of the second support (2018) far away from the cutting base (2013), one end of the rotating shaft (301) far away from the second support (2018) penetrates through the wall of the shell (1), a bearing is sleeved on a part of the rotating shaft (301) penetrating through the shell (1), a first bevel gear (302) is arranged at one end of the rotating shaft (301) far away from the second support (2018), a second bevel gear (303) is connected with the first bevel gear (302), one end of a telescopic rod (304) is connected to the center of one side of the second bevel gear (303), a supporting rod (305) is arranged on the telescopic rod (304) and connected with the shell (1) through the supporting rod (305), one end of the telescopic rod (304) far away from the second bevel gear (303) is provided with a belt pulley (306), and the belt (306) and a motor (308) are connected by a belt (307).
9. The battery electrode processing device according to claim 8, wherein the portion of the screw (2016) passing through the cutting base (2013) is a smooth round surface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202222403561.9U CN218460976U (en) | 2022-09-09 | 2022-09-09 | Battery electrode machining device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202222403561.9U CN218460976U (en) | 2022-09-09 | 2022-09-09 | Battery electrode machining device |
Publications (1)
Publication Number | Publication Date |
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CN218460976U true CN218460976U (en) | 2023-02-10 |
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Application Number | Title | Priority Date | Filing Date |
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CN202222403561.9U Active CN218460976U (en) | 2022-09-09 | 2022-09-09 | Battery electrode machining device |
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CN (1) | CN218460976U (en) |
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2022
- 2022-09-09 CN CN202222403561.9U patent/CN218460976U/en active Active
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