CN109092981A - A kind of ultra-thin rolled copper foil preparation facilities and method - Google Patents
A kind of ultra-thin rolled copper foil preparation facilities and method Download PDFInfo
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- CN109092981A CN109092981A CN201810935533.7A CN201810935533A CN109092981A CN 109092981 A CN109092981 A CN 109092981A CN 201810935533 A CN201810935533 A CN 201810935533A CN 109092981 A CN109092981 A CN 109092981A
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- calendering
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- support
- fixedly connected
- wheel
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D33/00—Special measures in connection with working metal foils, e.g. gold foils
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Abstract
The present invention relates to a kind of copper foil preparation facilities and methods, it in particular is a kind of ultra-thin rolled copper foil preparation facilities and method, including complete machine bracket, roll bracket, power mechanism, planetary mechanism, power mechanism, transmission mechanism I, transmission mechanism II, transmission mechanism III, calender system I, calender system II, transmission mechanism IV, supporting mechanism I, supporting mechanism II and adjustment mechanism, it can be by thickness 0.3mm to 0.4mm, the copper foil for extending A11.3, which is placed between calendering Kun I and calendering Kun II, to be rolled, rotation adjustment handle makes to roll Kun I and rolls changing at a distance between Kun II relatively, foil is placed between calendering Kun I and calendering Kun II again and is rolled, thickness reaches 0.012 between 0.10mm, calendering Kun I and calendering Kun II are worn into plain-barreled roll to realize to copper foil Calendering comprehensively realizes support of the support Kun I to stack I by the way that Kun I will be supported to wear into plain-barreled roll, prevents stack I from leading to deformation since stress is excessive.
Description
Technical field
The present invention relates to a kind of copper foil preparation facilities and methods, are in particular a kind of ultra-thin rolled copper foil preparation facilities
And method.
Background technique
Red copper material is widely used in each field because of its highly conductive, thermally conductive excellent properties.And rolled copper foil is then because it is super
Thin, high compactness, high flexing, more excellent performance are outshined othersOne branch of the tree is particularly thriving in red copper product, increasingly by finishing every profession and trade
Favored, has compared now and be widely used in lithium ion battery, electronic information technology, copper foil tape, copper-clad plate, transformer screen
It covers, the fields such as wire and cable, it, can be with first is that multi-roll mill currently, the method for domestic production rolled copper foil is there are mainly two types of equipment
0.009 ㎜ of the thin copper foil of comparision of production such as thickness, first is that four-high mill, traditional production method be backing roll wear into plain-barreled roll and
The shortcomings that working roll wears into convex roller, four-high mill is the copper foil that can only produce 0.015 ㎜ or more, cannot be according to different uses
Demand rolls the copper foil of different-thickness out.
Summary of the invention
The object of the present invention is to provide a kind of ultra-thin rolled copper foil preparation facilities and methods, can be adjusted to device,
Roll the copper foil of different-thickness out according to different use requirements, the extra thin copper foil of 0.012-0.10mm can be produced.
The purpose of the present invention is achieved through the following technical solutions:
A kind of ultra-thin rolled copper foil preparation facilities, including complete machine bracket, calendering bracket, power mechanism, planetary mechanism, transmission
Mechanism I, transmission mechanism II, transmission mechanism III, calender system I, calender system II, transmission mechanism IV, supporting mechanism I, support machine
Structure II and adjustment mechanism, the complete machine bracket include bottom plate, support work steel I, support work steel II, electric machine support, planet support frame,
Gear ring, support plate I, support plate II and support plate III, the rear and front end of bottom plate are fixedly connected to support work steel I, a left side for bottom plate
Right both ends are fixedly connected to support work steel II, and there are two electric machine support settings, and the lower end of two electric machine supports is fixedly connected with
In the front end of bottom plate, planet support frame is fixedly connected on bottom plate, and gear ring is fixedly connected on planet support frame, I He of support plate
The lower end of support plate II is fixedly connected on bottom plate, and planet support frame is between support plate I and electric machine support, support plate III
It is fixedly connected in support plate II;
The calendering bracket includes calendered mats, calendering side plate I, calendering slide post, calendering top plate, calendering side plate II, pressure
Prolong cylinder and calendering baffle, the rear and front end of calendered mats, which is fixedly connected to, rolls side plate I, solid on four angles of calendered mats
Surely it is connected with calendering slide post, the rear and front end for rolling top plate is fixedly connected to calendering side plate II, rolls four angles of top plate
On be fixedly connected to calendering cylinder, calendering baffle is fixedly connected on four calendering cylinders, four calendering slide posts slide respectively
It is connected in four calendering cylinders, calendered mats are fixedly connected on the rear end of bottom plate;
The power mechanism includes power bottom plate, motor and power gear, and motor is fixedly connected on power bottom plate, power
Gear is fixedly connected on the output shaft of motor, and the both ends of power bottom plate are respectively fixedly connected on two electric machine supports;
The planetary mechanism includes planet carrier I, planet column, planet carrier II, planet axis and planetary gear, and planet column is provided with two
A, one end of two planet columns is respectively fixedly connected at the both ends of planet carrier I, and the other end of two planet columns is respectively fixedly connected with
It is rotatably connected to planetary gear on the both ends of planet carrier II, two planet columns, planet axis is fixedly connected on planet carrier II, row
Carrier I is rotatably connected on the output shaft of motor, the inside of two planetary gears with power gear engaged transmission, two planetary gears
Outside with gear ring engaged transmission;
The transmission mechanism I includes transmission shaft I, shaft coupling I and transmission gear I, and one end of shaft coupling I is fixedly connected on biography
On moving axis I, the other end of shaft coupling I is fixedly connected in planet axis, and transmission gear I is fixedly connected on the middle-end of transmission shaft I, is passed
The both ends of moving axis I are rotatably connected on respectively in support plate I and support plate II;
The transmission mechanism II includes transmission shaft II, transmission cone tooth I and transmission gear II, and transmission cone tooth I is fixedly connected on
One end of transmission shaft II, transmission gear II are fixedly connected on the middle-end of transmission shaft II, and the both ends of transmission shaft II are rotatablely connected respectively
In support plate I and support plate II, I engaged transmission of transmission gear II and transmission gear;
The transmission mechanism III includes that tooth II and driving cog are bored in transmission cone tooth II, transmission gear III and transmission shaft III, transmission
Wheel III is respectively fixedly connected with the upper and lower ends in transmission shaft III, and transmission shaft III is rotatably connected in support plate III, transmission cone tooth II
With I engaged transmission of transmission cone tooth;
The calender system I includes that calendering axis I, calendering cone tooth I, calendering Kun I and calendering support frame, calendering cone tooth I are fixed
It is connected to one end of calendering axis I, calendering Kun I is fixedly connected on the middle-end of calendering axis I, and calendering support frame is rotatably connected on calendering axis
On I, calendering support frame is located between calendering cone tooth I and calendering Kun I, and the both ends of calendering axis I are rotatably connected on two calenderings respectively
The lower end of side plate II, calendering support frame are fixedly connected on the calendering side plate II of front end;
The calender system II includes that calendering axis II, calendering Kun II and shaft coupling II, one end of shaft coupling II are fixedly connected
On calendering axis II, the other end of shaft coupling II is fixedly connected on transmission shaft I, and calendering Kun II is fixedly connected on calendering axis II
On, the both ends of calendering axis II are rotatably connected on the upper end of two calendering side plates I respectively;
The transmission mechanism IV includes transmission shaft IV, transmission gear IV and transmission cone tooth III, transmission gear IV and transmission cone
Tooth III is respectively fixedly connected with the upper and lower ends in transmission shaft IV, and transmission shaft IV is rotatably connected on calendering support frame, transmission cone tooth
III bores I engaged transmission of tooth, III engaged transmission of transmission gear IV and transmission gear with calendering;
The supporting mechanism I includes support shaft I and support Kun I, and support Kun I is fixedly connected on the middle-end of support shaft I, support
The both ends of axis I are rotatably connected on the lower end of two calendering side plates I respectively, and support Kun I is contacted with calendering Kun II;
The supporting mechanism II includes support shaft II and support Kun II, and support Kun II is fixedly connected in support shaft II, props up
The both ends of support axis II are rotatably connected on the upper end of two calendering side plates II respectively, and support Kun II is contacted with calendering Kun I;
The adjustment mechanism includes adjustment screw rod and adjustment handle, and adjustment handle is fixedly connected on the upper end of adjustment screw rod,
The lower end of adjustment screw rod is rotatably connected on bottom plate, and adjustment screw rod is threadedly attached on calendering top plate.
As advanced optimizing for the technical program, a kind of ultra-thin rolled copper foil preparation facilities of the present invention, the complete machine branch
Frame further includes compressed spring, is set with compressed spring on four calendering slide posts, compressed spring is located at calendered mats and calendering
Between baffle.
As advanced optimizing for the technical program, a kind of ultra-thin rolled copper foil preparation facilities of the present invention, the driving cog
Wheel I and transmission gear II are double helical tooth.
As advanced optimizing for the technical program, a kind of ultra-thin rolled copper foil preparation facilities of the present invention, the shaft coupling I
It is bulging gear coupling with shaft coupling II.
As advanced optimizing for the technical program, a kind of ultra-thin rolled copper foil preparation facilities of the present invention, the driving cog
The facewidth of wheel III is greater than the facewidth of transmission gear IV.
As advanced optimizing for the technical program, a kind of ultra-thin rolled copper foil preparation facilities of the present invention, the support Kun
II is convex Kun, and the convexity of support Kun II is 0.04mm.
As advanced optimizing for the technical program, a kind of ultra-thin rolled copper foil preparation facilities of the present invention, the support Kun
I, rolling Kun I and calendering Kun II is flat Kun.
A kind of method of ultra-thin rolled copper foil preparation, the method for ultra-thin rolled copper foil preparation the following steps are included:
Step 1: pass through the relative spacing of rotation adjustment handle adjustment calendering wheel I and calendering wheel II;
Step 2: the copper foil of thickness 0.3mm to 0.4mm is placed between calendering wheel I and calendering wheel II;
Step 3: starting motor starts turning calendering wheel I and calendering wheel II, leads between calendering wheel I and calendering wheel II
Enter and roll oil, calendering wheel I and calendering wheel II roll the copper foil of thickness 0.3mm to 0.4mm in step 2;
Step 4: copper thickness out is rolled in measurement, then the phase of rotation adjustment handle adjustment calendering wheel I and calendering wheel II
To spacing, keep calendering wheel I and calendering wheel II relatively close, copper foil is placed between calendering wheel I and calendering wheel II and is rolled again
Reach thickness between 0.012mm to 0.10mm;
Step 5: alkali cleaning, pickling, drying work will be carried out with a thickness of the copper foil between 0.012mm to 0.10mm in step 4
Roll oil in sequence removal surface;
Step 6: the copper foil completed in step 5 with a thickness of 0.012mm to 0.10mm cleaning is made annealing treatment.
A kind of ultra-thin rolled copper foil preparation facilities of the present invention and method have the beneficial effect that
A kind of ultra-thin rolled copper foil preparation facilities of the present invention and method, can be by thickness 0.3mm to 0.4mm, extension A11.3
Copper foil be placed on calendering Kun I and calendering Kun II between roll, rotation adjustment handle make roll Kun I and roll Kun II between
Change at a distance relatively, again by foil be placed on calendering Kun I and calendering Kun II between roll, thickness reaches 0.012mm
To between 0.10mm, calendering Kun I and calendering Kun II are worn into plain-barreled roll to realize comprehensive calendering to copper foil, by the way that Kun will be supported
I wears into plain-barreled roll to realize support of the support Kun I to stack I, prevents stack I from leading to deformation since stress is excessive, will support
Kun II wears into convex roller to realize the support of II pair of Kun calendering roll body II of support, prevents stack II from leading to shape since stress is excessive
Become.
Detailed description of the invention
The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.
Fig. 1 is ultra-thin rolled copper foil preparation facilities overall structure diagram of the invention;
Fig. 2 is complete machine supporting structure schematic diagram of the invention;
Fig. 3 is calendering supporting structure schematic diagram of the invention;
Fig. 4 is calendering bracket section view figure structure schematic representation of the invention;
Fig. 5 is power mechanism structural schematic diagram of the invention;
Fig. 6 is planetary mechanism structural schematic diagram of the invention;
Fig. 7 is I structural schematic diagram of transmission mechanism of the invention;
Fig. 8 is II structural schematic diagram of transmission mechanism of the invention;
Fig. 9 is III structural schematic diagram of transmission mechanism of the invention;
Figure 10 is I structural schematic diagram of calender system of the invention;
Figure 11 is II structural schematic diagram of calender system of the invention;
Figure 12 is IV structural schematic diagram of transmission mechanism of the invention;
Figure 13 is I structural schematic diagram of supporting mechanism of the invention;
Figure 14 is II structural schematic diagram of supporting mechanism of the invention;
Figure 15 is adjustment mechanism structural schematic diagram of the invention.
In figure: complete machine bracket 1;Bottom plate 1-1;Support I 1-2 of work steel;Support II 1-3 of work steel;Electric machine support 1-4;Planet branch
Support 1-5;Gear ring 1-6;I 1-7 of support plate;II 1-8 of support plate;III 1-9 of support plate;Roll bracket 2;Calendered mats 2-1;Calendering
I 2-2 of side plate;Roll slide post 2-3;Roll top plate 2-4;Roll II 2-5 of side plate;Roll cylinder 2-6;Roll baffle 2-7;Engine
Structure 3;Power bottom plate 3-1;Motor 3-2;Power gear 3-3;Planetary mechanism 4;I 4-1 of planet carrier;Planet column 4-2;II 4- of planet carrier
3;Planet axis 4-4;Planetary gear 4-5;Transmission mechanism I 5;I 5-1 of transmission shaft;I 5-2 of shaft coupling;I 5-3 of transmission gear;Transmission mechanism
Ⅱ6;II 6-1 of transmission shaft;Transmission cone I 6-2 of tooth;II 6-3 of transmission gear;Transmission mechanism III 7;Transmission cone II 7-1 of tooth;Transmission gear
Ⅲ7-2;III 7-3 of transmission shaft;Calender system I 8;Roll I 8-1 of axis;Calendering cone I 8-2 of tooth;Roll I 8-3 of Kun;Roll support frame 8-
4;Calender system II 9;Roll II 9-1 of axis;Roll II 9-2 of Kun;II 9-3 of shaft coupling;Transmission mechanism IV 10;IV 10-1 of transmission shaft;
IV 10-2 of transmission gear;Transmission cone III 10-3 of tooth;Supporting mechanism I 11;I 11-1 of support shaft;Support I 11-2 of Kun;Supporting mechanism II
12;II 12-1 of support shaft;Support II 12-2 of Kun;Adjustment mechanism 13;Adjust screw rod 13-1;Adjust handle 13-2.
Specific embodiment
The present invention is described in further detail below in conjunction with the accompanying drawings.
Before illustrating specific embodiment, to avoid repeating language, illustrating " being fixedly connected " as described below can be with
It is: is bolted, welds and the modes such as rivet interlacement are fixed, those skilled in the art can be according to different applications
Scene selects the different modes that is fixedly connected, and main purpose is that two pieces part is fixed.
Specific embodiment 1:
Illustrate present embodiment below with reference to Fig. 1-15, a kind of ultra-thin rolled copper foil preparation facilities, including complete machine bracket 1,
Roll bracket 2, power mechanism 3, planetary mechanism 4, transmission mechanism I 5, transmission mechanism II 6, transmission mechanism III 7, calender system I 8,
Calender system II 9, transmission mechanism IV 10, supporting mechanism I 11, supporting mechanism II 12 and adjustment mechanism 13, can be by thickness 0.3mm
Copper foil to 0.4mm, extension A11.3 is placed on calendering I 8-3 of Kun and rolls to be rolled between II 9-2 of Kun, rotation adjustment handle 12-2
Make to roll I 8-3 of Kun and roll changing at a distance between II 9-2 of Kun relatively, foil is placed on calendering I 8- of Kun again
Roll between 3 and calendering II 9-2 of Kun, thickness reaches 0.012 between 0.10mm, will calendering I 8-3 of Kun and calendering II 9-2 of Kun it is equal
Plain-barreled roll is worn into realize comprehensive calendering to copper foil, realizes support I 11-1 of Kun to pressure by the way that I 11-1 of Kun will be supported to wear into plain-barreled roll
The support for prolonging I 8-3 of roller prevents I 8-3 of stack from leading to deformation since stress is excessive, and support II 12-2 of Kun is worn into convex roller and is come in fact
Now support of support II 12-2 of Kun to calendering II 9-2 of roll body, prevents II 9-2 of stack from leading to deformation since stress is excessive;
The complete machine bracket 1 includes bottom plate 1-1, support I 1-2 of work steel, support II 1-3 of work steel, electric machine support 1-4, planet
Support frame 1-5, gear ring 1-6, III 1-9 of I 1-7 of support plate, II 1-8 of support plate and support plate, the rear and front end of bottom plate 1-1 are fixed
It is connected with support I 1-2 of work steel, the left and right ends of bottom plate 1-1 are fixedly connected to support II 1-3 of work steel, electric machine support 1-4 setting
There are two, the lower end of two electric machine support 1-4 is fixedly connected on the front end of bottom plate 1-1, and planet support frame 1-5 is fixedly connected on bottom
On plate 1-1, gear ring 1-6 is fixedly connected on planet support frame 1-5, and the lower end of II 1-8 of I 1-7 of support plate and support plate is fixed
It is connected on bottom plate 1-1, planet support frame 1-5 is located between support plate I 1-7 and electric machine support 1-4, and III 1-9 of support plate is fixed
It is connected on II 1-8 of support plate;
The calendering bracket 2 include calendered mats 2-1, calendering I 2-2 of side plate, calendering slide post 2-3, calendering top plate 2-4,
Roll II 2-5 of side plate, calendering cylinder 2-6 and calendering baffle 2-7, the rear and front end of calendered mats 2-1 is bolted to connection
There is calendering I 2-2 of side plate, calendering slide post 2-3 is fixedly connected on four angles of calendered mats 2-1, before rolling top plate 2-4
Both ends are fixedly connected to calendering II 2-5 of side plate afterwards, roll and are fixedly connected to calendering cylinder 2-6 on four angles of top plate 2-4, and four
It is fixedly connected to calendering baffle 2-7, four calendering slide post 2-3 on a calendering cylinder 2-6 and is slidably connected at four calenderings respectively
In cylinder 2-6, calendered mats 2-1 is fixedly connected on the rear end of bottom plate 1-1;Four calendering cylinder 2-6 can be to four calendering slide posts
The direction of motion of 2-3, which carries out limit, to be prevented from making four calendering slidings since copper foil generates biggish reaction force in rolled copper foil
Lateral deviation occurs for column 2-3;
The power mechanism 3 includes power bottom plate 3-1, motor 3-2 and power gear 3-3, and motor 3-2 is fixedly connected on dynamic
On power bottom plate 3-1, power gear 3-3 is fixedly connected on the output shaft of motor 3-2, and the both ends of power bottom plate 3-1 are fixed respectively
It is connected on two electric machine support 1-4;
The planetary mechanism 4 includes I 4-1 of planet carrier, planet column 4-2, II 4-3 of planet carrier, planet axis 4-4 and planetary gear 4-
There are two 5, planet column 4-2 settings, and one end of two planet column 4-2 is respectively fixedly connected at the both ends of I 4-1 of planet carrier, and two
The other end of planet column 4-2 is respectively fixedly connected with to be rotatably connected on the both ends of II 4-3 of planet carrier, two planet column 4-2
Planetary gear 4-5, two planetary gear 4-5 can be rotated centered on two planet column 4-2 axis, solid on II 4-3 of planet carrier
Surely it is connected with planet axis 4-4, I 4-1 of planet carrier is rotatably connected on the output shaft of motor 3-2, and I 4-1 of planet carrier can be in motor
It is rotated centered on the output shaft of motor 3-2 on the output shaft of 3-2, the inside of two planetary gear 4-5 is and power gear
3-3 engaged transmission, the outside of two planetary gear 4-5 with gear ring 1-6 engaged transmission;
The transmission mechanism I 5 include I 5-3 of I 5-1 of transmission shaft, I 5-2 of shaft coupling and transmission gear, the one of I 5-2 of shaft coupling
End is bolted to connection on I 5-1 of transmission shaft, and the other end of I 5-2 of shaft coupling is fixedly connected on planet axis 4-4, transmission
For I 5-3 of gear by being fixedly connected on the middle-end of I 5-1 of transmission shaft, the both ends of I 5-1 of transmission shaft are rotatably connected on support plate I respectively
On II 1-8 of 1-7 and support plate, I 5-1 of transmission shaft can be on II 1-8 of I 1-7 of support plate and support plate with the axis of I 5-1 of transmission shaft
It is rotated centered on line;
The transmission mechanism II 6 includes II 6-1 of transmission shaft, transmission cone I 6-2 of tooth and II 6-3 of transmission gear, transmission cone tooth I
6-2 is fixedly connected on one end of II 6-1 of transmission shaft, and II 6-3 of transmission gear is fixedly connected on the middle-end of II 6-1 of transmission shaft, transmission
The both ends of II 6-1 of axis are rotatably connected on respectively on II 1-8 of I 1-7 of support plate and support plate, and II 6-1 of transmission shaft can be in support plate I
It is rotated centered on the axis of II 6-1 of transmission shaft on II 1-8 of 1-7 and support plate, II 6-3 of transmission gear and transmission gear I
5-3 engaged transmission;
The transmission mechanism III 7 includes transmission cone II 7-1 of tooth, III 7-3 of III 7-2 of transmission gear and transmission shaft, transmission cone tooth
II 7-1 and III 7-2 of transmission gear is respectively fixedly connected with the upper and lower ends in III 7-3 of transmission shaft, and III 7-3 of transmission shaft is rotatably connected on
On III 1-9 of support plate, III 7-3 of transmission shaft can be turned centered on the axis of III 7-3 of transmission shaft on III 1-9 of support plate
It is dynamic, transmission cone II 7-1 of tooth and transmission cone I 6-2 of tooth engaged transmission;
The calender system I 8 includes calendering I 8-1 of axis, calendering cone I 8-2 of tooth, rolls I 8-3 of Kun and calendering support frame 8-4,
Calendering cone I 8-2 of tooth is fixedly connected on one end of calendering I 8-1 of axis, and calendering I 8-3 of Kun is fixedly connected on the middle-end of calendering I 8-1 of axis,
Calendering support frame 8-4 is rotatably connected on calendering I 8-1 of axis, and calendering I 8-1 of axis can be on calendering support frame 8-4 to roll axis I
It is rotated centered on 8-1 axis, calendering support frame 8-4 is located between calendering cone I 8-2 of tooth and calendering I 8-3 of Kun, rolls I 8- of axis
1 both ends are rotatably connected on the lower end of two calendering II 2-5 of side plate respectively, and calendering I 8-1 of axis can be in two II 2- of calendering side plate
It is rotated centered on rolling I 8-1 of axis on 5, calendering support frame 8-4 is fixedly connected on II 2-5 of calendering side plate positioned at front end
On;
The calender system II 9 includes calendering II 9-1 of axis, rolls II 9-2 of Kun and II 9-3 of shaft coupling, II 9-3's of shaft coupling
One end is fixedly connected on calendering II 9-1 of axis, and the other end of II 9-3 of shaft coupling is fixedly connected on I 5-1 of transmission shaft, rolls Kun
II 9-2 is fixedly connected on calendering II 9-1 of axis, and the both ends of calendering II 9-1 of axis are rotatably connected on two I 2-2 of calendering side plate respectively
Upper end, calendering II 9-1 of axis can be rotated centered on rolling II 9-1 axis of axis on two I 2-2 of calendering side plate;
The transmission mechanism IV 10 includes IV 10-1 of transmission shaft, IV 10-2 of transmission gear and transmission cone III 10-3 of tooth, transmission
IV 10-2 of gear and transmission cone III 10-3 of tooth is fixedly connected on the upper and lower ends of IV 10-1 of transmission shaft, and IV 10-1 of transmission shaft rotation connects
It connects on calendering support frame 8-4, IV 10-1 of transmission shaft can be on calendering support frame 8-4 centered on IV 10-1 axis of transmission shaft
It is rotated, transmission cone III 10-3 of tooth and calendering cone I 8-2 of tooth engaged transmission, IV 10-2 of transmission gear and III 7-2 of transmission gear are nibbled
Close transmission;
The supporting mechanism I 11 includes I 11-1 of support shaft and support I 11-2 of Kun, and support I 11-2 of Kun is fixedly connected on support
The middle-end of I 11-1 of axis, the both ends of I 11-1 of support shaft are rotatably connected on the lower end of two calendering I 2-2 of side plate, support shaft I respectively
11-1 can be rotated centered on I 11-1 of support shaft on two I 2-2 of calendering side plate, support I 11-2 of Kun and calendering Kun II
9-2 contact;
The supporting mechanism II 12 includes II 12-1 of support shaft and support II 12-2 of Kun, and support II 12-2 of Kun is fixedly connected on
On II 12-1 of support shaft, the both ends of II 12-1 of support shaft are rotatably connected on the upper end of two calendering II 2-5 of side plate, support shaft respectively
II 12-1 can be rotated centered on II 12-1 axis of support shaft on two II 2-5 of calendering side plate, support II 12-2 of Kun
It is contacted with calendering I 8-3 of Kun;
The adjustment mechanism 13 includes adjustment screw rod 13-1 and adjustment handle 13-2, and adjustment handle 13-2 is fixedly connected on tune
The lower end of the upper end of whole screw rod 13-1, adjustment screw rod 13-1 is rotatably connected on bottom plate 1-1, and adjustment screw rod 13-1 is connected by screw thread
It connects on calendering top plate 2-4;When use by thickness 0.3mm to 0.4mm, extend A11.3 copper foil be placed on calendering I 8-3 of Kun and
Roll between calendering II 9-2 of Kun, start motor 3-2, the output shaft of motor 3-2 starts turning, and the output shaft of motor 3-2 drives dynamic
Powershift gear 3-3 is rotated, power gear 3-3 drive two planetary gear 4-5 rotated, the outside of two planetary gear 4-5 with
Gear ring 1-6 engaged transmission, two planetary gear 4-5 drive two planet column 4-2 to be rotated centered on planet axis 4-4, and two
Planet column 4-2 drives I 4-1 of planet carrier and II 4-3 of planet carrier to be rotated centered on planet axis 4-4, and II 4-3 of planet carrier drives
Planet axis 4-4 is rotated, and the power of motor 3-2 plays the role of reduction of speed torque increase by planetary mechanism 4, increases rolled copper foil
Active force;Planet axis 4-4 drives I 5-1 of transmission shaft to be rotated by I 5-2 of shaft coupling, transmission shaft I 5-1 band nutating gear I
5-3 is rotated, and transmission gear I 5-3 band II 6-3 of nutating gear is rotated, when I 5-3 of transmission gear is with I 5-1 of transmission shaft
Centered on when carrying out along indicators turn, II 6-3 of transmission gear is rotated counterclockwise centered on II 6-1 of transmission shaft, driving cog
Taking turns II 6-3 drives II 6-1 of transmission shaft to be rotated, and II 6-1 of transmission shaft drives transmission cone I 6-2 of tooth to be rotated, transmission cone tooth I
6-2 drives transmission cone II 7-1 of tooth to be rotated clockwise centered on III 7-3 of transmission shaft, and transmission cone II 7-1 of tooth drives transmission shaft
III 7-3 is rotated, and transmission shaft III 7-3 band III 7-2 of nutating gear is rotated, transmission gear III 7-2 band nutating gear
IV 10-2 is rotated counterclockwise centered on IV 10-1 of transmission shaft, and IV 10-2 of transmission gear drives IV 10-1 of transmission shaft to be turned
Dynamic, IV 10-1 of transmission shaft drives transmission cone III 10-3 of tooth to be rotated, and transmission cone III 10-3 of tooth drives calendering cone I 8-2 of tooth to press
Prolong and rotated counterclockwise centered on I 8-1 of axis, calendering cone I 8-2 of tooth drives calendering I 8-1 of axis to be rotated, and rolls I 8-1 band of axis
Dynamic pressure is prolonged I 8-3 of Kun and is rotated counterclockwise, and I 5-1 of transmission shaft drives calendering II 9-1 of axis to be rotated by II 9-3 of shaft coupling,
Calendering II 9-1 of axis drives calendering II 9-2 of Kun to be rotated, and calendering II 9-2 of Kun is rotated clockwise, calendering II 9-2 of Kun and pressure
Prolong the rotation direction of I 8-3 of Kun on the contrary, the copper foil that will roll between II 9-2 of Kun and calendering I 8-3 of Kun rolls.
Specific embodiment 2:
Illustrate present embodiment below with reference to Fig. 1-15, present embodiment is described further embodiment one, described
Complete machine bracket 1 further includes compressed spring, and compressed spring is set on four calendering slide post 2-3, and compressed spring is located at calendering
Between bottom plate 2-1 and calendering baffle 2-7;Compressed spring is slided on four calendering cylinder 2-6 in four calendering slide post 2-3
When play certain buffer function.
Specific embodiment 3:
Illustrate present embodiment below with reference to Fig. 1-15, present embodiment is described further embodiment two, described
I 5-3 of transmission gear and II 6-3 of transmission gear is double helical tooth;I 5-3 of transmission gear and II 6-3 of transmission gear can be born more
Rolled copper foil when the reaction force that generates.
Specific embodiment 4:
Illustrate present embodiment below with reference to Fig. 1-15, present embodiment is described further embodiment three, described
I 5-2 of shaft coupling and II 9-3 of shaft coupling is bulging gear coupling;It can reduce in bottom plate 1-1 processing, the flatness of generation is missed
Difference, error when I 5-2 of shaft coupling reduces processing with I 5-1 of transmission shaft and planet axis 4-4 concentricity when installation, II 9-3 of shaft coupling
Error when reducing processing with I 5-1 of transmission shaft when installation and calendering II 9-1 concentricity of axis.
Specific embodiment 5:
Illustrate present embodiment below with reference to Fig. 1-15, present embodiment is described further embodiment four, described
The facewidth of III 7-2 of transmission gear is greater than the facewidth of IV 10-2 of transmission gear;When rotation adjustment handle 13-2, handle 13-2 band is adjusted
Dynamic adjustment screw rod 13-1 is rotated, and adjustment screw rod 13-1 prolongs top plate 2-4 to adjust screw rod 13-1 enterprising by thread belt dynamic pressure
Row movement, the relative distance rolled between top plate 2-4 and calendered mats 2-1 change, and roll top plate 2-4 and calendered mats 2-
1 drives the relative distance between side plate II 2-5 and two calendering I 2-2 of side plate of two calenderings to change respectively, two calendering sides
Plate II 2-5 and two calendering I 2-2 of side plate drives calendering I 8-1 of axis and the relative distance rolled between II 9-1 of axis to become respectively
Change, rolls I 8-1 of axis and calendering II 9-1 of axis drives calendering I 8-3 of Kun and the relative distance rolled between II 9-2 of Kun to become respectively
Change, rolls when the relative distance between I 8-3 of Kun and calendering II 9-2 of Kun changes since calendering support frame 8-4 drives transmission shaft
IV 10-1 is slided up and down, and transmission shaft IV 10-1 band IV 10-2 of nutating gear moves up and down, III 7-2 meeting of transmission gear
It is produced relative sliding with IV 10-2 of transmission gear, IV 10-2 of transmission gear on III 7-2 of transmission gear when being slided due to passing
The facewidth of III 7-2 of moving gear is greater than the facewidth of IV 10-2 of transmission gear, III 7-2 of transmission gear energy band nutating gear IV always
10-2 is rotated.
Specific embodiment 6:
Illustrate present embodiment below with reference to Fig. 1-15, present embodiment is described further embodiment five, described
Support II 12-2 of Kun is convex Kun, and the convexity of support II 12-2 of Kun is 0.04mm.
Specific embodiment 7:
Illustrate present embodiment below with reference to Fig. 1-15, present embodiment is described further embodiment six, described
Supporting I 11-2 of Kun, calendering I 8-3 of Kun and calendering II 9-2 of Kun is flat Kun.
A kind of method of ultra-thin rolled copper foil preparation, the method for ultra-thin rolled copper foil preparation the following steps are included:
Step 1: pass through the relative spacing of rotation adjustment handle 13-2 adjustment calendering I 8-3 of wheel and II 9-2 of calendering wheel;
Step 2: the copper foil of thickness 0.3mm to 0.4mm is placed between II 9-2 of calendering I 8-3 of wheel and calendering wheel;
Step 3: starting motor 3-2 starts turning calendering I 8-3 of wheel and II 9-2 of calendering wheel, in calendering I 8-3 of wheel and pressure
Prolong to be passed through between II 9-2 of wheel and roll oil, calendering takes turns I 8-3 and calendering II 9-2 of wheel for the copper of thickness 0.3mm to 0.4mm in step 2
Foil is rolled;
Step 4: copper thickness out is rolled in measurement, then rotation adjustment handle 13-2 adjustment calendering I 8-3 of wheel and calendering
The relative spacing for taking turns II 9-2, make calendering wheel I 8-3 and calendering wheel II 9-2 it is relatively close, by copper foil be placed on calendering wheel I 8-3 and
Calendering reaches thickness between 0.012mm to 0.10mm again between II 9-2 of calendering wheel;
Step 5: alkali cleaning, pickling, drying work will be carried out with a thickness of the copper foil between 0.012mm to 0.10mm in step 4
Roll oil in sequence removal surface;
Step 6: the copper foil completed in step 5 with a thickness of 0.012mm to 0.10mm cleaning is made annealing treatment.
A kind of ultra-thin rolled copper foil preparation facilities of the invention and method, its working principle is that:
The copper foil of thickness 0.3mm to 0.4mm, extension A11.3 are placed on calendering I 8-3 of Kun and calendering II 9-2 of Kun when use
Between roll, start motor 3-2, the output shaft of motor 3-2 starts turning, the output shaft of motor 3-2 drive power gear 3-3 into
Row rotation, power gear 3-3 drive two planetary gear 4-5 to be rotated, and the outside of two planetary gear 4-5 is engaged with gear ring 1-6
Transmission, two planetary gear 4-5 drive two planet column 4-2 to be rotated centered on planet axis 4-4, two planet column 4-2 bands
Dynamic I 4-1 of planet carrier and II 4-3 of planet carrier is rotated centered on planet axis 4-4, II 4-3 of planet carrier drive planet axis 4-4 into
The power of row rotation, motor 3-2 plays the role of reduction of speed torque increase by planetary mechanism 4, increases the active force of rolled copper foil;Planet
Axis 4-4 drives I 5-1 of transmission shaft to be rotated by I 5-2 of shaft coupling, and transmission shaft I 5-1 band I 5-3 of nutating gear is rotated,
Transmission gear I 5-3 band II 6-3 of nutating gear is rotated, when I 5-3 of transmission gear carried out centered on I 5-1 of transmission shaft it is suitable
When indicators turn, II 6-3 of transmission gear is rotated counterclockwise centered on II 6-1 of transmission shaft, and II 6-3 of transmission gear, which drives, to be passed
II 6-1 of moving axis is rotated, and II 6-1 of transmission shaft drives transmission cone I 6-2 of tooth to be rotated, and transmission cone I 6-2 of tooth drives transmission cone
II 7-1 of tooth is rotated clockwise centered on III 7-3 of transmission shaft, and transmission cone II 7-1 of tooth drives III 7-3 of transmission shaft to be turned
Dynamic, transmission shaft III 7-3 band III 7-2 of nutating gear is rotated, and transmission gear III 7-2 band IV 10-2 of nutating gear is to be driven
It is rotated counterclockwise centered on IV 10-1 of axis, IV 10-2 of transmission gear drives IV 10-1 of transmission shaft to be rotated, transmission shaft IV
10-1 drives transmission cone III 10-3 of tooth to be rotated, and transmission cone III 10-3 of tooth drives calendering cone I 8-2 of tooth to roll during I 8-1 of axis is
The heart is rotated counterclockwise, and calendering cone I 8-2 of tooth drives calendering I 8-1 of axis to be rotated, and calendering I 8-1 of axis drives calendering I 8-3 of Kun
It is rotated counterclockwise, I 5-1 of transmission shaft drives calendering II 9-1 of axis to be rotated by II 9-3 of shaft coupling, rolls II 9-1 band of axis
Dynamic pressure is prolonged II 9-2 of Kun and is rotated, and calendering II 9-2 of Kun is rotated clockwise, calendering II 9-2 of Kun and the rotation for rolling I 8-3 of Kun
It is contrary, II 9-2 of Kun will be rolled and roll the copper foil between I 8-3 of Kun and rolled;When rotation adjustment handle 13-2, adjustment
Handle 13-2 drives adjustment screw rod 13-1 to be rotated, and adjustment screw rod 13-1 prolongs top plate 2-4 in adjustment silk by thread belt dynamic pressure
Moved on bar 13-1, roll top plate 2-4 and calendered mats 2-1 between relative distance change, calendering top plate 2-4 and
Calendered mats 2-1 drives the relative distance between side plate II 2-5 and two calendering I 2-2 of side plate of two calenderings to change respectively,
Side plate II 2-5 and two calendering I 2-2 of side plate of two calenderings drives calendering I 8-1 of axis respectively and rolls opposite between II 9-1 of axis
Distance changes, and rolls I 8-1 of axis and calendering II 9-1 of axis and drives calendering I 8-3 of Kun respectively and roll opposite between II 9-2 of Kun
Distance changes, and rolls when the relative distance between I 8-3 of Kun and calendering II 9-2 of Kun changes due to rolling support frame 8-4
IV 10-1 of transmission shaft is driven to slide up and down, transmission shaft IV 10-1 band IV 10-2 of nutating gear moves up and down, and is driven
III 7-2 of gear can be produced relative sliding with IV 10-2 of transmission gear, and IV 10-2 of transmission gear is slided on III 7-2 of transmission gear
Since the facewidth of III 7-2 of transmission gear is greater than the facewidth of IV 10-2 of transmission gear when dynamic, III 7-2 of transmission gear can drive always biography
IV 10-2 of moving gear is rotated;Foil is placed between calendering I 8-3 of Kun and calendering II 9-2 of Kun again and is rolled, thickness reaches
Between 0.012mm to 0.10mm, calendering I 8-3 of Kun and calendering II 9-2 of Kun are worn into plain-barreled roll to realize comprehensive pressure to copper foil
Prolong, support of support I 11-1 of Kun to I 8-3 of stack is realized by the way that I 11-1 of Kun will be supported to wear into plain-barreled roll, prevents I 8- of stack
3 lead to deformation since stress is excessive, and support II 12-2 of Kun is worn into convex roller to realize support II 12-2 of Kun to calendering II 9-2 of roll body
Support, prevent II 9-2 of stack from leading to deformation since stress is excessive.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention
Protect range.
Claims (8)
1. a kind of ultra-thin rolled copper foil preparation facilities, including complete machine bracket (1), calendering bracket (2), power mechanism (3), planet machine
Structure (4), transmission mechanism II (6), transmission mechanism III (7), calender system I (8), calender system II (9), passes transmission mechanism I (5)
Motivation structure IV (10), supporting mechanism I (11), supporting mechanism II (12) and adjustment mechanism (13), it is characterised in that: the complete machine branch
Frame (1) includes bottom plate (1-1), support work steel I (1-2), support work steel II (1-3), electric machine support (1-4), planet support frame (1-
5), gear ring (1-6), support plate I (1-7), support plate II (1-8) and support plate III (1-9), the rear and front end of bottom plate (1-1) are equal
It is fixedly connected with support work steel I (1-2), the left and right ends of bottom plate (1-1) are fixedly connected to support work steel II (1-3), motor
There are two bracket (1-4) settings, and the lower end of two electric machine supports (1-4) is fixedly connected in the front end of bottom plate (1-1), planet branch
Support (1-5) is fixedly connected on bottom plate (1-1), and gear ring (1-6) is fixedly connected on planet support frame (1-5), support plate I
The lower end of (1-7) and support plate II (1-8) is fixedly connected on bottom plate (1-1), and planet support frame (1-5) is located at support plate I
Between (1-7) and electric machine support (1-4), support plate III (1-9) is fixedly connected on support plate II (1-8);
The calendering bracket (2) includes calendered mats (2-1), calendering side plate I (2-2), calendering slide post (2-3), calendering top plate
(2-4), calendering side plate II (2-5), calendering cylinder (2-6) and calendering baffle (2-7), the rear and front end of calendered mats (2-1) are solid
Surely it is connected with calendering side plate I (2-2), calendering slide post (2-3), pressure are fixedly connected on four angles of calendered mats (2-1)
The rear and front end for prolonging top plate (2-4) is fixedly connected to calendering side plate II (2-5), rolls solid on four angles of top plate (2-4)
Surely it is connected with calendering cylinder (2-6), calendering baffle (2-7), four calendering slide posts are fixedly connected on four calendering cylinders (2-6)
(2-3) is slidably connected at respectively in four calendering cylinders (2-6), and calendered mats (2-1) are fixedly connected on the rear end of bottom plate (1-1);
The power mechanism (3) includes power bottom plate (3-1), motor (3-2) and power gear (3-3), and motor (3-2) is fixed to be connected
It connects on power bottom plate (3-1), power gear (3-3) is fixedly connected on the output shaft of motor (3-2), power bottom plate (3-1)
Both ends be respectively fixedly connected on two electric machine supports (1-4);
The planetary mechanism (4) includes planet carrier I (4-1), planet column (4-2), planet carrier II (4-3), planet axis (4-4) and row
Star-wheel (4-5), there are two planet column (4-2) settings, and one end of two planet columns (4-2) is respectively fixedly connected in I (4- of planet carrier
1) both ends, the other end of two planet columns (4-2) are respectively fixedly connected in the both ends of planet carrier II (4-3), two planet columns
It is rotatably connected on (4-2) planetary gear (4-5), planet axis (4-4), planet carrier I is fixedly connected on planet carrier II (4-3)
(4-1) is rotatably connected on the output shaft of motor (3-2), and the inside of two planetary gears (4-5) is engaged with power gear (3-3)
Transmission, the outside of two planetary gears (4-5) with gear ring (1-6) engaged transmission;
The transmission mechanism I (5) includes transmission shaft I (5-1), shaft coupling I (5-2) and transmission gear I (5-3), I (5- of shaft coupling
2) one end is fixedly connected on transmission shaft I (5-1), and the other end of shaft coupling I (5-2) is fixedly connected on planet axis (4-4),
Transmission gear I (5-3) is fixedly connected on the middle-end of transmission shaft I (5-1), and the both ends of transmission shaft I (5-1) are rotatably connected on branch respectively
On fagging I (1-7) and support plate II (1-8);
The transmission mechanism II (6) includes transmission shaft II (6-1), transmission cone tooth I (6-2) and transmission gear II (6-3), transmission cone
Tooth I (6-2) is fixedly connected on one end of transmission shaft II (6-1), and transmission gear II (6-3) is fixedly connected on transmission shaft II (6-1)
Middle-end, the both ends of transmission shaft II (6-1) are rotatably connected on respectively in support plate I (1-7) and support plate II (1-8), driving cog
Take turns II (6-3) and transmission gear I (5-3) engaged transmission;
The transmission mechanism III (7) includes transmission cone tooth II (7-1), transmission gear III (7-2) and transmission shaft III (7-3), transmission
Cone tooth II (7-1) and transmission gear III (7-2) are respectively fixedly connected with the upper and lower ends in transmission shaft III (7-3), III (7- of transmission shaft
3) it is rotatably connected on support plate III (1-9), transmission cone tooth II (7-1) and transmission cone tooth I (6-2) engaged transmission;
The calender system I (8) includes calendering axis I (8-1), calendering cone tooth I (8-2), calendering I (8-3) of wheel and calendering support frame
(8-4), calendering cone tooth I (8-2) are fixedly connected on one end of calendering axis I (8-1), and I (8-3) of calendering wheel is fixedly connected on calendering axis
The middle-end of I (8-1), calendering support frame (8-4) are rotatably connected in calendering axis I (8-1), and calendering support frame (8-4) is located at calendering
It bores between tooth I (8-2) and I (8-3) of calendering wheel, the both ends of calendering axis I (8-1) are rotatably connected on two calendering side plates II respectively
The lower end of (2-5), calendering support frame (8-4) are fixedly connected on the calendering side plate II (2-5) of front end;
The calender system II (9) includes calendering axis II (9-1), calendering II (9-2) of wheel and shaft coupling II (9-3), shaft coupling II
The one end of (9-3) is fixedly connected in calendering axis II (9-1), and the other end of shaft coupling II (9-3) is fixedly connected on transmission shaft I
On (5-1), II (9-2) of calendering wheel is fixedly connected in calendering axis II (9-1), rolls the both ends company of rotation respectively of axis II (9-1)
Connect the upper end for rolling side plate I (2-2) at two;
The transmission mechanism IV (10) includes that tooth III (10-3) is bored in transmission shaft IV (10-1), transmission gear IV (10-2) and transmission,
Transmission gear IV (10-2) and transmission cone tooth III (10-3) are respectively fixedly connected with the upper and lower ends in transmission shaft IV (10-1), are driven
Axis IV (10-1) is rotatably connected in calendering support frame (8-4), and transmission cone tooth III (10-3) and calendering cone tooth I (8-2) engagement pass
It is dynamic, transmission gear IV (10-2) and transmission gear III (7-2) engaged transmission;
The supporting mechanism I (11) includes support shaft I (11-1) and support wheel I (11-2), and support wheel I (11-2) is fixedly connected on
The middle-end of support shaft I (11-1), the both ends of support shaft I (11-1) are rotatably connected on respectively under two calendering side plates I (2-2)
End, support wheel I (11-2) are contacted with II (9-2) of calendering wheel;
The supporting mechanism II (12) includes support shaft II (12-1) and support wheel II (12-2), and support wheel II (12-2) is fixed to be connected
It connects on support shaft II (12-1), the both ends of support shaft II (12-1) are rotatably connected on two calenderings side plate II (2-5) respectively
Upper end, support wheel II (12-2) are contacted with I (8-3) of calendering wheel;
The adjustment mechanism (13) includes adjustment screw rod (13-1) and adjustment handle (13-2), and adjustment handle (13-2) is fixedly connected
It is rotatably connected on bottom plate (1-1) in the lower end of the upper end of adjustment screw rod (13-1), adjustment screw rod (13-1), adjusts screw rod (13-
1) it is threadedly attached in calendering top plate (2-4).
2. a kind of ultra-thin rolled copper foil preparation facilities according to claim 1, it is characterised in that: the complete machine bracket (1)
Further include compressed spring, compressed spring is set on four calendering slide posts (2-3), compressed spring is located at calendered mats (2-
1) between calendering baffle (2-7).
3. a kind of ultra-thin rolled copper foil preparation facilities according to claim 2, it is characterised in that: the I (5- of transmission gear
3) and transmission gear II (6-3) is double helical tooth.
4. a kind of ultra-thin rolled copper foil preparation facilities according to claim 3, it is characterised in that: the shaft coupling I (5-2)
It is bulging gear coupling with shaft coupling II (9-3).
5. a kind of ultra-thin rolled copper foil preparation facilities according to claim 4, it is characterised in that: the transmission gear III
The facewidth of (7-2) is greater than the facewidth of transmission gear IV (10-2).
6. a kind of ultra-thin rolled copper foil preparation facilities according to claim 5, it is characterised in that: the II (12- of support wheel
It 2) is convex Kun, the convexity of support wheel II (12-2) is 0.04mm.
7. a kind of ultra-thin rolled copper foil preparation facilities according to claim 6, it is characterised in that: the I (11- of support wheel
2), calendering I (8-3) of wheel and II (9-2) of calendering wheel is flat Kun.
8. using a kind of method that ultra-thin rolled copper foil device prepares ultra-thin rolled copper foil described in claim 1, feature exists
In: ultra-thin rolled copper foil preparation method the following steps are included:
Step 1: pass through the relative spacing of II (9-2) of rotation adjustment handle (13-2) adjustment calendering I (8-3) of wheel and calendering wheel;
Step 2: the copper foil of thickness 0.3mm to 0.4mm is placed between II (9-2) of calendering I (8-3) of wheel and calendering wheel;
Step 3: starting motor (3-2) starts turning calendering I (8-3) of wheel and II (9-2) of calendering wheel, takes turns I (8-3) in calendering
It is passed through between II (9-2) of calendering wheel and rolls oil, calendering takes turns I (8-3) and calendering II (9-2) of wheel for thickness 0.3mm in step 2
Copper foil to 0.4mm is rolled;
Step 4: copper thickness out is rolled in measurement, then rotation adjustment handle (13-2) adjustment calendering I (8-3) of wheel and calendering
The relative spacing for taking turns II (9-2), keeps calendering I (8-3) of wheel and II (9-2) of calendering wheel relatively close, and copper foil is placed on calendering wheel I
Calendering reaches thickness between 0.012mm to 0.10mm again between (8-3) and II (9-2) of calendering wheel;
Step 5: it will be gone in step 4 with a thickness of the copper foil progress alkali cleaning between 0.012mm to 0.10mm, pickling, baking process
Except oil is rolled on surface;
Step 6: the copper foil completed in step 5 with a thickness of 0.012mm to 0.10mm cleaning is made annealing treatment.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113579065A (en) * | 2021-08-03 | 2021-11-02 | 广东嘉元科技股份有限公司 | Equipment and method for processing reverse copper foil |
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EP0287674A1 (en) * | 1986-10-13 | 1988-10-26 | Hitachi, Ltd. | Roll driving apparatus for rolling mills |
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