CN209918975U - Self-positioning bilateral shearing system for copper starting sheet - Google Patents

Self-positioning bilateral shearing system for copper starting sheet Download PDF

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Publication number
CN209918975U
CN209918975U CN201920339900.7U CN201920339900U CN209918975U CN 209918975 U CN209918975 U CN 209918975U CN 201920339900 U CN201920339900 U CN 201920339900U CN 209918975 U CN209918975 U CN 209918975U
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China
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shearing
starting sheet
copper starting
conveying chain
positioning
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CN201920339900.7U
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李鸿程
孔德颂
王冲
周锋
王伟
赵强
罗红军
袁国军
施亮
沈建
唐勇
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Yunnan Copper Ltd By Share Ltd Southwest Copper Branch
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Yunnan Copper Ltd By Share Ltd Southwest Copper Branch
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Abstract

The utility model discloses a self-align bilateral shearing system of copper starting sheet, including the frame and rack-mounted device, a shearing mechanism, secondary shearing mechanism and sideslip conveying chain of adjusting well, the sideslip conveying chain is transversely laid along the frame, adjust well the device and be located entry material loading station and be used for carrying out the longitudinal movement location to the copper starting sheet, and the sideslip conveying chain runs through adjust well the device, a shearing mechanism is installed in the next station of adjusting well the device along sideslip conveying chain one side, secondary shearing mechanism is installed in a shearing mechanism's next station along sideslip conveying chain opposite side, a shearing mechanism is used for cuting copper starting sheet water gap limit, a shearing mechanism is used for cuting the protruding limit in copper starting sheet bottom, a shearing mechanism and secondary shearing mechanism subtend setting. The utility model provides a need artifical shearing copper starting sheet water feeding mouth limit to cause intensity of labour big, the big problem of shearing size deviation when making the negative plate among the prior art.

Description

Self-positioning bilateral shearing system for copper starting sheet
Technical Field
The utility model relates to a conventional negative pole copper electrolysis production field technical field especially relates to a bilateral shearing system of copper starting sheet self-align.
Background
At present, in the conventional cathode copper electrolysis production process, a cathode manufacturing unit is required to assemble a copper starting sheet, a lifting lug and a conductive rod into a cathode plate for electrolysis. Before the negative plate is manufactured, the edge of a water inlet of the copper starting sheet needs to be manually cut, so that the labor intensity is high, the safety risk is high, and the cutting size deviation is large. Secondly, the bottom edge of the copper starting sheet is not cut, the bottom edge is protruded after being mostly long particles, the thickness of the bottom edge is higher than the plate surface of the copper starting sheet, the operation stability of a unit is influenced, the particles are easy to grow after entering the tank, and the quality of cathode copper is influenced.
Accordingly, the prior art is yet to be improved and developed.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide a bilateral shearing system of copper starting sheet self-align, aim at solving prior art and need artifical shearing copper starting sheet water gap limit when preparation negative plate and cause intensity of labour big, the big problem of shearing size deviation.
The utility model provides a technical scheme that technical problem adopted as follows:
the self-positioning bilateral shearing system for the copper starting sheet comprises a rack, and an aligning device, a primary shearing device, a secondary shearing device and a transverse conveying chain which are arranged on the rack, wherein the transverse conveying chain is transversely laid along the rack, the aligning device is positioned at an inlet feeding station and used for longitudinally moving and positioning the copper starting sheet, the transverse conveying chain penetrates through the aligning device, the primary shearing device is arranged at the next station of the aligning device along one side of the transverse conveying chain, the secondary shearing device is arranged at the next station of the primary shearing device along the other side of the transverse conveying chain, the primary shearing device is used for shearing a water inlet edge of the copper starting sheet, the secondary shearing device is used for shearing a protruding edge at the bottom of the copper starting sheet, and the primary shearing device and the secondary shearing device are arranged in an opposite mode.
The self-positioning bilateral shearing system for the copper starting sheet is characterized in that the aligning device comprises a roller assembly, a motor and a transmission chain, the roller assembly is composed of a plurality of rollers which are longitudinally arranged side by side, the axis of each roller is consistent with the moving direction of the transverse conveying chain, the transverse conveying chain is arranged to penetrate through the aligning device between every two adjacent rollers, the motor is installed below the side face of the feeding end of the rack and used for driving the rollers to rotate, the transmission chain is wound on the end portions of the rollers and the rotating terminals of the motor, and the motor drives the transmission chain to rotate and drives the rollers to rotate in the same direction so as to adjust the position of the copper starting sheet entering the primary shearing device through the transverse conveying chain.
The self-positioning bilateral shearing system for the copper starting sheet is characterized in that the aligning device further comprises a baffle fixed on the rack and located on one side of the roller assembly, the baffle is used for positioning the position where the copper starting sheet enters the primary shearing device through the transverse conveying chain, the plate surface of the baffle is arranged to be parallel to the axis of the roller, and the motor drives the transmission chain to rotate and drives the roller to rotate towards the baffle, so that the starting sheet on the roller assembly is pushed to the baffle and abuts against the baffle, and the alignment of the copper starting sheet is realized.
The self-positioning bilateral shearing system for the copper starting sheet is characterized in that the aligning device further comprises a tensioning mechanism which is arranged on the side face of the feeding end of the rack and used for tensioning a transmission chain.
The self-positioning bilateral shearing system for the copper starting sheet is characterized in that the tensioning mechanism comprises a first tensioning wheel arranged between adjacent rollers and a second tensioning wheel arranged between the rollers and a motor.
The self-positioning bilateral shearing system for the copper starting sheet is characterized in that a transmission chain wheel for winding a transmission chain is arranged at the end part of the roller wheel, the bottom of the wheel surface of the first tensioning wheel is lower than the top of the wheel surface of the transmission chain wheel, the transmission chain is wound on the roller wheel at the top of the transmission chain wheel, and the transmission chain is wound on the first tensioning wheel at the bottom of the first tensioning wheel.
The self-positioning bilateral shearing system for the copper starting sheet is characterized in that the position of the first tensioning wheel can be adjusted up and down, and the position of the second tensioning wheel can be adjusted left and right.
The self-positioning bilateral shearing system for the copper starting sheet comprises a primary shearing device and a secondary shearing device, wherein the primary shearing device and the secondary shearing device respectively comprise a hydraulic straight-blade plate shearing machine and a push plate mechanism, the hydraulic straight-blade plate shearing machine is arranged on one side of a transverse conveying chain, the push plate mechanism is arranged on the other side of the transverse conveying chain, the push plate mechanism is used for pushing the copper starting sheet on the transverse conveying chain into the hydraulic straight-blade plate shearing machine for shearing, and the hydraulic straight-blade plate shearing machine and the push plate mechanism are.
The copper starting sheet self-positioning bilateral shearing system is characterized in that the push plate mechanism comprises a push plate cross beam, a guide cross beam, a feeding cylinder, a shearing size adjusting bottom plate, a clamping cylinder and a clamping jaw, wherein the shearing size adjusting bottom plate is mounted on a rack through a bolt and can be adjusted front and back; after the copper starting sheet is conveyed to a shearing station by the transverse conveying chain, the clamping cylinder drives the clamping jaw to clamp the copper starting sheet, the feeding cylinder pushes the push plate cross beam, the clamping cylinder and the clamping jaw to move forward, so that the starting sheet is pushed forward to the hydraulic straight-blade plate shearing machine to be sheared, and then the clamping jaw loosens the copper starting sheet.
Has the advantages that: the utility model discloses can be through adjusting device automatic positioning copper starting sheet well to through a shearing mechanism automatically cropped copper starting sheet mouth of a river limit, through the protruding limit in secondary shearing mechanism automatically cropped copper starting sheet bottom, need artifical shearing copper starting sheet mouth of a river limit cause intensity of labour big, the safe risk is high, cut the big problem of size deviation when having solved among the prior art preparation negative plate.
Drawings
FIG. 1 is a schematic view of the overall structure of the self-positioning bilateral shearing system of the copper starting sheet of the present invention;
FIG. 2 is a schematic view of the alignment device according to the present invention;
fig. 3 is a schematic structural diagram of the primary shearing device of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The utility model discloses a copper starting sheet is from locating bilateral shearing system, as shown in figure 1 ~ 3, including frame 10 and install in frame 10 to adjusting device 20, once shearing mechanism 30, secondary shearing mechanism 40 and sideslip conveying chain 50, sideslip conveying chain 50 transversely lays along frame 10, adjust device 20 and be located entry material loading station and be used for carrying out the longitudinal movement location to copper starting sheet 100 well, and sideslip conveying chain 50 runs through adjust device 20 well, once shearing mechanism 30 is installed in the next station of adjusting device 20 well along 50 one sides of sideslip conveying chain, secondary shearing mechanism 40 is installed in the next station of once shearing mechanism 40 along sideslip conveying chain opposite side 50, once shearing mechanism 30 is used for cuting 100 water feeding mouth limits on the copper starting sheet, secondary shearing mechanism 40 is used for cuting 100 protruding limits in copper starting sheet 100 bottom, once shearing mechanism 30 and secondary shearing mechanism 40 opposite direction set up, the utility model discloses an adjust device 20 and adjust copper starting sheet 100 and can realize from locating the effect in the position of sideslip conveying chain 50 well, through the automatic shearing of starting sheet 100 water feeding mouth limits on the shearing mechanism, and through the automatic shearing mechanism 100, and through the operation of copper starting sheet, more accurate shearing mechanism 100, the accurate shearing mechanism of the artifical shearing of the negative pole no longer needs the operation, and the accurate shearing mechanism, and the accurate negative pole piece bottom is guaranteed more.
Specifically, as shown in fig. 2, the aligning device 20 includes a roller assembly 21, a motor 22 and a transmission chain 23, the roller assembly 21 is composed of a plurality of rollers 211 longitudinally arranged side by side, the rollers 211 are rotatably mounted on the frame 10, the axes of the rollers 211 are the same as the moving direction of the traverse conveying chain 50, and the traverse conveying chain 50 penetrates through the aligning device 20 at the gap between adjacent rollers 211, so that when the copper starting sheet is located in the roller assembly area, the copper starting sheet longitudinally moves under the action of the rollers 211 to realize positioning, and at the same time, the copper starting sheet can transversely move under the action of the traverse conveying chain 50 to realize conveying; the end of the roller 211 protrudes out of the feeding end of the frame 10 so that the transmission chain 23 can be wound conveniently, the motor 22 is installed below the side of the feeding end of the frame 10 and used for driving the roller 211 to rotate, the transmission chain 23 is wound on the end of the roller 211 and the rotating terminal of the motor 22, the motor 22 drives the transmission chain 23 to rotate and drives the roller 211 to rotate in the same direction, and therefore the position of the copper starting sheet entering the primary shearing device through the transverse moving conveying chain is adjusted. Wherein, because the motor 22 drives the driving roller wheel 211 to rotate in the same direction, only one motor is needed.
Preferably, the aligning device 20 further includes a baffle 24 fixed on the frame 10 and located on one side of the roller assembly 21, the baffle 24 is used for positioning the position where the copper starting sheet enters the primary shearing device 30 through the traverse conveying chain 50, the plate surface of the baffle 24 is set to be parallel to the axis of the roller 211, the motor 22 drives the transmission chain 23 to rotate and drives the roller 211 to rotate towards the baffle 24, so that the starting sheet on the roller assembly 21 is pushed to the baffle 24 and abuts against the baffle, and the alignment of the copper starting sheet is realized.
In addition, in order to adjust the tension of the driving chain 23, the aligning device 20 further includes a tensioning mechanism 25 disposed at a side surface of the feeding end of the frame 10 and tensioning the driving chain 23.
Specifically, the tensioning mechanism 25 includes a first tensioning wheel 251 disposed between adjacent rollers 211, and a second tensioning wheel 252 disposed between the rollers 211 and the motor 22 to better adjust the tensioning degree of the transmission chain 23. In the self-positioning bilateral shearing system for the copper starting sheet, the position of the first tensioning wheel 251 can be adjusted up and down, and the position of the second tensioning wheel 252 can be adjusted left and right. Preferably, the first tensioning wheel 251 is arranged at the middle position of the end parts of the two adjacent rollers 211, so that the tensioning adjustment of the rollers 211 and the transmission chain 23 at the two sides is performed uniformly.
Further, a driving sprocket 212 for winding the driving chain 23 is disposed at an end of the roller wheel 211, a bottom of a wheel surface of the first tensioning wheel 251 is lower than a top of the wheel surface of the driving sprocket 212, the driving chain 23 is wound on the driving sprocket 212 at the top of the driving sprocket 212, and the driving chain 23 is wound on the first tensioning wheel 251 at the bottom of the first tensioning wheel 251. The first tensioning wheel 251 and the second tensioning wheel 252 should be in the same plane as the driving sprocket 212, so that the driving chain 23 can be driven linearly without twisting, and the driving force of the motor can be exerted more effectively.
In the self-positioning bilateral shearing system for the copper starting sheet, the primary shearing device 30 and the secondary shearing device 40 have the same structure, and as shown in fig. 3, both of the primary shearing device 30 and the secondary shearing device include a hydraulic straight-blade plate shearing machine 31 respectively arranged on one side of the traverse conveying chain 50 and a push plate mechanism 32 respectively arranged on the other side of the traverse conveying chain 20, the push plate mechanism 32 is used for pushing the copper starting sheet 100 on the traverse conveying chain 50 into the hydraulic straight-blade plate shearing machine 31 for shearing, and the hydraulic straight-blade plate shearing machine 31 and the push plate mechanism 32 need to be arranged in an opposite direction.
Specifically, the push plate mechanism 32 comprises a push plate beam 321, a guide beam 322, a feeding cylinder 323, a shearing size adjusting bottom plate 324, a clamping cylinder 325 and a clamping jaw 326, wherein the shearing size adjusting bottom plate 324 is mounted on the frame 10 by bolts and can be adjusted forwards and backwards, the guide beam 322 is mounted on the shearing size adjusting bottom plate 324 by bolts, the feeding cylinder 323 is mounted on the guide beam 322 by bolts, the push plate beam 321 is in threaded connection with the front end of a piston rod of the feeding cylinder 323, the clamping cylinder 325 is mounted on the push plate beam 321 by bolts, and the clamping jaw 326 is in threaded connection with the front end of a piston rod of the clamping cylinder 325; after the transverse conveying chain 50 conveys the copper starting sheet 100 to the shearing station, the clamping cylinder 325 drives the clamping jaw 326 to clamp the copper starting sheet 100, the feeding cylinder 323 pushes the push plate cross beam 321, the clamping cylinder 325 and the clamping jaw 326 to advance, so that the starting sheet 100 is pushed to the hydraulic straight-edge plate shearing machine 31 to be sheared, then the clamping jaw loosens the copper starting sheet, and the copper starting sheet continues to perform the next subsequent process under the action of the transverse conveying chain 50.
To sum up, the utility model provides a bilateral shearing system of copper starting sheet self-align is through adjusting device automatic positioning copper starting sheet well to through a shearing mechanism automatically cropped copper starting sheet mouth of a river limit, through the protruding limit in secondary shearing mechanism automatically cropped copper starting sheet bottom, need artifical shearing copper starting sheet mouth of a river limit cause intensity of labour big, the safe risk is high, cut the big problem of size deviation when having solved among the prior art preparation negative plate.
It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (9)

1. The self-positioning bilateral shearing system for the copper starting sheet is characterized by comprising a rack, and an aligning device, a primary shearing device, a secondary shearing device and a transverse conveying chain which are arranged on the rack, wherein the transverse conveying chain is transversely laid along the rack, the aligning device is positioned at an inlet feeding station and used for longitudinally moving and positioning the copper starting sheet, the transverse conveying chain penetrates through the aligning device, the primary shearing device is arranged at the next station of the aligning device along one side of the transverse conveying chain, the secondary shearing device is arranged at the next station of the primary shearing device along the other side of the transverse conveying chain, the primary shearing device is used for shearing a water inlet edge of the copper starting sheet, the secondary shearing device is used for shearing a protruding edge at the bottom of the copper starting sheet, and the primary shearing device and the secondary shearing device are oppositely arranged.
2. The self-positioning bilateral shearing system of the copper starting sheet as claimed in claim 1, wherein the alignment device comprises a roller assembly, a motor and a transmission chain, the roller assembly comprises a plurality of rollers longitudinally arranged side by side, the axes of the rollers are consistent with the moving direction of the traversing transmission chain, the traversing transmission chain is arranged between the adjacent rollers and penetrates through the alignment device, the motor is arranged below the side surface of the feeding end of the rack and is used for driving the rollers to rotate, the transmission chain is wound on the end parts of the rollers and the rotating terminals of the motor, and the motor drives the transmission chain to rotate and drives the rollers to rotate in the same direction so as to adjust the position of the copper starting sheet entering the primary shearing device through the traversing transmission chain.
3. The self-positioning bilateral shearing system of the copper starting sheet as claimed in claim 2, wherein the alignment device further comprises a baffle fixed on the frame and located at one side of the roller assembly, the baffle is used for positioning the copper starting sheet to enter the primary shearing device through the traverse conveying chain, the plate surface of the baffle is arranged parallel to the axis of the roller, the motor drives the transmission chain to rotate and drives the roller to rotate towards the baffle, so that the starting sheet on the roller assembly is pushed to the baffle and abuts against the baffle, and the alignment of the copper starting sheet is realized.
4. The self-positioning bilateral shearing system of the copper starter block as recited in claim 2, wherein the alignment device further comprises a tensioning mechanism disposed at a side surface of the loading end of the machine frame and used for tensioning the transmission chain.
5. The self-positioning bilateral shearing system of claim 4, wherein the tensioning mechanism comprises a first tensioning wheel disposed between adjacent rollers, a second tensioning wheel disposed between the rollers and the motor.
6. The self-positioning bilateral shearing system of the copper starter piece according to claim 5, wherein the end of the roller is provided with a driving sprocket for winding of the driving chain, the bottom of the wheel surface of the first tensioning wheel is lower than the top of the wheel surface of the driving sprocket, the driving chain is wound on the driving sprocket at the top of the driving sprocket, and the driving chain is wound on the first tensioning wheel at the bottom of the first tensioning wheel.
7. The self-positioning bilateral shearing system of claim 5, wherein the position of the first tensioning wheel is adjustable up and down and the position of the second tensioning wheel is adjustable left and right.
8. The self-positioning bilateral shearing system of the copper starting sheet as claimed in claim 1, wherein the primary shearing device and the secondary shearing device each comprise a hydraulic straight-blade plate shearing machine and a push plate mechanism, the hydraulic straight-blade plate shearing machine and the push plate mechanism are arranged oppositely, the hydraulic straight-blade plate shearing machine is arranged on one side of the cross-sliding conveying chain, and the push plate mechanism is arranged on the other side of the cross-sliding conveying chain and is used for pushing the copper starting sheet on the cross-sliding conveying chain into the hydraulic straight-blade plate shearing machine for shearing.
9. The self-positioning bilateral shearing system of the copper starting sheet according to claim 8, wherein the push plate mechanism comprises a push plate beam, a guide beam, a feeding cylinder, a shearing size adjusting bottom plate, a clamping cylinder and a clamping jaw, wherein the shearing size adjusting bottom plate is mounted on the frame by a bolt and can be adjusted back and forth, the guide beam is mounted on the shearing size adjusting bottom plate by a bolt, the feeding cylinder is mounted on the guide beam by a bolt, the push plate beam is in threaded connection with the front end of a piston rod of the feeding cylinder, the clamping cylinder is mounted on the push plate beam by a bolt, and the clamping jaw is in threaded connection with the front end of a piston rod of the clamping; after the copper starting sheet is conveyed to a shearing station by the transverse conveying chain, the clamping cylinder drives the clamping jaw to clamp the copper starting sheet, the feeding cylinder pushes the push plate cross beam, the clamping cylinder and the clamping jaw to move forward, so that the starting sheet is pushed forward to the hydraulic straight-blade plate shearing machine to be sheared, and then the clamping jaw loosens the copper starting sheet.
CN201920339900.7U 2019-03-18 2019-03-18 Self-positioning bilateral shearing system for copper starting sheet Active CN209918975U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111874680A (en) * 2020-07-14 2020-11-03 深圳市海目星激光智能装备股份有限公司 Method for correcting feeding of electrode plate of electric chip
CN117001053A (en) * 2023-09-26 2023-11-07 南通阿米利自动化科技有限公司 Shearing device for manufacturing industrial automatic control system device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111874680A (en) * 2020-07-14 2020-11-03 深圳市海目星激光智能装备股份有限公司 Method for correcting feeding of electrode plate of electric chip
CN117001053A (en) * 2023-09-26 2023-11-07 南通阿米利自动化科技有限公司 Shearing device for manufacturing industrial automatic control system device
CN117001053B (en) * 2023-09-26 2023-12-12 南通阿米利自动化科技有限公司 Shearing device for manufacturing industrial automatic control system device

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