CN106449189A - Capacitor manufacturing device and capacitor manufacturing method - Google Patents
Capacitor manufacturing device and capacitor manufacturing method Download PDFInfo
- Publication number
- CN106449189A CN106449189A CN201611097687.0A CN201611097687A CN106449189A CN 106449189 A CN106449189 A CN 106449189A CN 201611097687 A CN201611097687 A CN 201611097687A CN 106449189 A CN106449189 A CN 106449189A
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- sliver
- shaping
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- driver
- cold welding
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- 239000003990 capacitor Substances 0.000 title claims abstract description 27
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 19
- 230000007246 mechanism Effects 0.000 claims abstract description 144
- 238000007493 shaping process Methods 0.000 claims abstract description 107
- 238000003466 welding Methods 0.000 claims abstract description 95
- 238000005520 cutting process Methods 0.000 claims abstract description 66
- 239000011888 foil Substances 0.000 claims abstract description 29
- 230000001105 regulatory effect Effects 0.000 claims description 23
- 230000005540 biological transmission Effects 0.000 claims description 21
- 238000010276 construction Methods 0.000 claims description 17
- 230000015572 biosynthetic process Effects 0.000 claims description 2
- 238000000034 method Methods 0.000 abstract description 7
- 230000008569 process Effects 0.000 abstract description 6
- 238000001125 extrusion Methods 0.000 abstract description 3
- 238000010586 diagram Methods 0.000 description 8
- 230000000694 effects Effects 0.000 description 6
- 230000000007 visual effect Effects 0.000 description 6
- 239000005030 aluminium foil Substances 0.000 description 4
- 238000005452 bending Methods 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 3
- 230000009471 action Effects 0.000 description 1
- 150000001875 compounds Chemical class 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 238000003860 storage Methods 0.000 description 1
- 238000004804 winding Methods 0.000 description 1
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01G—CAPACITORS; CAPACITORS, RECTIFIERS, DETECTORS, SWITCHING DEVICES, LIGHT-SENSITIVE OR TEMPERATURE-SENSITIVE DEVICES OF THE ELECTROLYTIC TYPE
- H01G13/00—Apparatus specially adapted for manufacturing capacitors; Processes specially adapted for manufacturing capacitors not provided for in groups H01G4/00 - H01G11/00
- H01G13/006—Apparatus or processes for applying terminals
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Manufacturing & Machinery (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Basic Packing Technique (AREA)
- Fixed Capacitors And Capacitor Manufacturing Machines (AREA)
Abstract
The invention provides a capacitor manufacturing device. The device comprises a cold welding mechanism, a conducting bar shaping mechanism, a conducting bar transferring mechanism and a conducting bar cutting mechanism, wherein the conducting bar shaping mechanism comprises a first shaping component and a second shaping component; the first shaping mechanism is used for performing primary extrusion shaping on a conducting bar strip, so that the conducting bar strip forms a straight structure; the second shaping component is used for performing secondary extrusion shaping on the conducting bar strip, so that the conducting bar strip forms a slot structure; the conducting bar transferring mechanism is used for clamping a shaped conducting bar strip and driving the conducting bar strip to run through the preset length of the conducting bar cutting mechanism; the conducting bar cutting mechanism is used for cutting the conducting bar strip, so that the part of the conducting bar strip clamped by the conducting bar transferring mechanism forms a conducting bar; the conducting bar transferring mechanism can be used for transferring the conducting bar to the cold welding mechanism; and the cold welding mechanism is used for welding the conducting bar on a foil through pressure. According to the capacitor manufacture device, the conducting bar cannot be easily bent or deformed in subsequent welding and feeding process, and the quality of a capacitance product can be effectively improved. The invention further relates to a capacitor manufacturing method.
Description
Technical field
The present invention relates to capacitor fabrication technical field, particularly to a kind of electric capacity producing device and capacitor manufacturing method.
Background technology
Capacitor is a kind of device of storage electric charge, and is widely used in the electronics in modern times, in electric equipment.
The primary structure of capacitor includes aluminium foil, electrolytic paper and sliver (positive and negative plate), and one end of sliver is welded on aluminium foil
On, the aluminium foil welding sliver is formed capacitor element by winding together with electrolytic paper.Before making capacitor element, need standard
Standby sliver, by sliver band manually cuts into the sliver of Len req, is then placed on sliver in foil again, determines
Position to be welded, is finally welded on sliver on aluminium foil.
But, Manual feeding carries out welding sliver, not only low production efficiency, high labor intensive, and quality cannot be very
Good guarantee.It is additionally, since the restriction (sliver length length and width degree is narrow, thickness of thin) of sliver self-characteristic, sliver is in feeding process
In be susceptible to bending, deformation situations such as, impact subsequent capacitance device making.
Content of the invention
It is an object of the invention to, there is provided a kind of electric capacity producing device, make sliver in follow-up welding and feeding
It is not susceptible to situations such as bending, deformation in journey, the quality of capacitor packages can be effectively improved.
It is to be realized using following technical scheme that the present invention solves its technical problem.
A kind of electric capacity producing device, including cold welding mechanism, sliver reshaping device, sliver transfer mechanism and sliver guillotine
Structure, sliver reshaping device includes the first shaping component and the second shaping component, and the first shaping component is used for sliver band carried out the
Squeezing shaping, makes sliver band form flat construction, and the second shaping component is used for carrying out second squeezing shaping to sliver band,
Make sliver band form bathtub construction, sliver transfer mechanism is used for the sliver band after clamping shaping, and pull sliver band to pass through sliver
Cutting mechanism preset length, sliver cutting mechanism is used for making the part formation that sliver transfer mechanism clamps lead the cut-out of sliver band
Bar, sliver can be transferred to cold welding mechanism by sliver transfer mechanism, and cold welding mechanism by pressure, sliver is welded in foil.
In the preferred embodiment, above-mentioned cold welding mechanism includes fixed mount, cold welding driver, movable block and fixation
Block, cold welding driver is connected on fixed mount, and movable block is connected with cold welding driver, and fixed block is oppositely arranged with movable block, paper tinsel
Band is arranged on fixed block, and cold welding driver can be ordered about movable block and be moved towards near the direction of fixed block, and passes through fixed block
Sliver is welded in foil the pressure producing and movable block between.
In the preferred embodiment, above-mentioned fixed block is provided with cold welding groove, and is provided with multiple projections in cold welding groove,
When sliver is transferred to cold welding mechanism by sliver transfer mechanism, sliver is in the top of cold welding groove.
In the preferred embodiment, above-mentioned sliver transfer mechanism includes sliver folder, the first transfer driver and the
Two transfer drivers, the second transfer driver can be ordered about sliver folder and be moved towards near the direction of sliver band, and makes sliver folder
Live sliver band, first transfer driver can order about sliver folder move, and make sliver band pass through sliver cutting mechanism preset length with
And sliver band be cut off after sliver is transferred to cold welding mechanism.
In the preferred embodiment, above-mentioned sliver transfer mechanism also includes take-off plate and connecting plate, and take-off plate sets
It is placed in the side of cold welding driver, between take-off plate and fixed mount, take-off plate is realized movably by the cooperation of chute and slide rail
It is connected to fixed mount, between connecting plate and take-off plate, connecting plate is realized by the cooperation of chute and slide rail and be movably attached to move
Send plate, the first transfer driver is fixed in take-off plate, and sliver folder is connected on connecting plate, the first transfer driver can the company of ordering about
Fishplate bar moves in take-off plate, and the second transfer driver is fixed on fixed mount, and the second transfer driver can be ordered about take-off plate and be existed
Move on fixed mount.
In the preferred embodiment, above-mentioned take-off plate is provided with drive away from one end of the first transfer driver,
First transfer driver is provided with drive, and sliver transfer mechanism also includes transmission folder and transmission belt, and one end of transmission folder connects
On connecting plate, other end clamping transmission belt, the drive being connected in take-off plate of transmission belt and first transfer of transmission folder
Between drive in driver.
In the preferred embodiment, above-mentioned first shaping component includes column, the first roller and the second roller, the
One roller and the second roller are hinged on column, and the wheel of the first roller contacts in the wheel with the second roller, sliver band from
First roller wheel in the wheel of the second roller between pass through;Second shaping component includes reshaping frame, cam and recessed wheel, cam
It is hinged on reshaping frame with recessed wheel, cam is provided with shaping raised line, shaping raised line is circumferentially disposed around cam, recessed wheel is provided with whole
Connected in star, shaping groove is circumferentially disposed around recessed wheel, and the shaping raised line of cam is arranged in the shaping groove of recessed wheel, and sliver band
Pass through between the shaping raised line and the shaping groove of recessed wheel of cam.
In the preferred embodiment, above-mentioned second shaping component also includes lever, mounting blocks, regulating block, bullet
Spring and regulating part, lever is connected through reshaping frame with cam, and lever can order about cam rotation, between mounting blocks and reshaping frame
Realize mounting blocks by the cooperation of slide block and chute to be movably attached on reshaping frame, recessed wheel is articulated with mounting blocks, regulating block
It is oppositely arranged with mounting blocks, spring is connected between regulating block and mounting blocks, regulating part is passed through reshaping frame and is connected with regulating block,
Regulating part can order about regulating block and move towards the direction closer or far from mounting blocks.
In the preferred embodiment, above-mentioned sliver cutting mechanism includes first and cuts assembly and second cutting group
Part, first cuts assembly cuts assembly with second and is oppositely arranged, and first cuts assembly includes the first briquetting, the first cutting knife and first
Cut driver, the first cutting knife is connected to the side of the first briquetting, first cuts driver can order about the first briquetting and first and cut
Knife moves towards near the direction of sliver band;Second cuts assembly includes the second briquetting, the second cutting knife and second and cuts driver,
Second cutting knife is connected to the side of the second briquetting, and second cuts driver can order about the second briquetting and the second cutting knife towards near leading
The direction of band is moved, and sliver band is fixed between the first briquetting and the second briquetting, the first cutting knife and the second cutting knife simultaneously
Sliver band is cut off by closure.
It is an object of the invention to, there is provided a kind of capacitor manufacturing method, make sliver in follow-up welding and feeding
It is not susceptible to situations such as bending, deformation in journey, the quality of capacitor packages can be effectively improved.
A kind of capacitor manufacturing method, the step of capacitor manufacturing method includes:
The first shaping component using sliver reshaping device carries out first time squeezing shaping to sliver band, so that sliver band is formed
Flat construction, the second shaping component using sliver reshaping device carries out second squeezing shaping to sliver band, makes to lead strip-type
Become bathtub construction;
Clamp the sliver band after shaping using sliver transfer mechanism, and pull sliver band to pass through sliver cutting mechanism to preset length
Degree;
Using sliver cutting mechanism, the cut-out of sliver band is made the part that sliver transfer mechanism clamps form sliver;And
Using sliver transfer mechanism, sliver is transferred to cold welding mechanism, sliver is welded on foil by pressure by cold welding mechanism
On.
The sliver reshaping device of the electric capacity producing device of the present invention includes the first shaping component and the second shaping component, and first
Shaping component is used for carrying out first time squeezing shaping to sliver band, makes sliver band form flat construction, the second shaping component is used for
Second squeezing shaping is carried out to sliver band, makes sliver band form bathtub construction, after sliver transfer mechanism is used for clamping shaping
Sliver band, and pull sliver band to pass through sliver cutting mechanism preset length, sliver cutting mechanism is used for making to lead by the cut-out of sliver band
The part of bar transfer mechanism clamping forms sliver, and sliver can be transferred to cold welding mechanism by sliver transfer mechanism, and cold welding mechanism passes through
Sliver is welded in foil pressure.The electric capacity producing device of the present invention carries out two to sliver band successively by sliver reshaping device
Secondary squeezing shaping, first time squeezing shaping makes sliver band form flat construction, carries out the on the basis of first time squeezing shaping
Secondary extrusion shaping, makes sliver band form bathtub construction.Therefore, the electric capacity producing device of present invention energy after to sliver band shaping
Effectively strengthen the structural strength of sliver band, make sliver be not susceptible to bending, deformation etc. in follow-up welding and feeding process
Situation, can effectively improve the quality of capacitor packages.And, the electric capacity producing device of the present invention is to be welded by mechanical feeding
Sliver, production efficiency is high, and the capacitor packages concordance producing is preferably, is conducive to lifting capacitor packages quality.
Described above is only the general introduction of technical solution of the present invention, in order to better understand the technological means of the present invention,
And can be practiced according to the content of description, and in order to allow the above and other objects, features and advantages of the present invention can
Become apparent, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, describe in detail.
Brief description
Fig. 1 is the perspective view of the electric capacity producing device of the present invention.
Fig. 2 is the partial structural diagram at electric capacity producing device first visual angle of the present invention.
Fig. 3 is the partial structural diagram of the cold welding mechanism of the present invention.
Fig. 4 is the partial structural diagram at electric capacity producing device second visual angle of the present invention.
Fig. 5 is the structural representation of the sliver reshaping device of the present invention.
Fig. 6 is the partial structural diagram at electric capacity producing device the 3rd visual angle of the present invention.
Fig. 7 is the structural representation of the sliver cutting mechanism of the present invention.
Fig. 8 is the schematic flow sheet of the capacitor manufacturing method of the present invention.
Specific embodiment
For further illustrating that the present invention is to reach technological means and effect that predetermined goal of the invention is taken, below in conjunction with
Accompanying drawing and preferred embodiment, to according to electric capacity producing device proposed by the present invention and capacitor manufacturing method specific embodiment,
Structure, feature and its effect, describe in detail as follows:
For the present invention aforementioned and other technology contents, feature and effect, following cooperation with reference to schema preferable reality
Apply in the detailed description of example and can clearly appear from.By the explanation of specific embodiment, when can be to reach predetermined mesh to the present invention
The technological means taken and effect be able to more deeply and specific understand, but institute's accompanying drawings are only to provide with reference to and say
Bright be used, be not used for the present invention is any limitation as.
Fig. 1 is the perspective view of the electric capacity producing device of the present invention.As shown in figure 1, in the present embodiment, electric capacity
Producing device 10 includes paper tinsel disk 12, sliver disk 13, cold welding mechanism 14, sliver reshaping device 15, sliver transfer mechanism 16, sliver sanction
Cut mechanism 17 and La Bo mechanism 18.
Paper tinsel disk 12 is used for conveying foil 101 to cold welding mechanism 14 and La Bo mechanism 18.
Sliver disk 13 is used for conveying sliver band 102 to sliver reshaping device 15.
Fig. 2 is the partial structural diagram at electric capacity producing device first visual angle of the present invention.Fig. 3 is the cold welding machine of the present invention
The partial structural diagram of structure.As shown in Figure 1, Figure 2 and Figure 3, cold welding mechanism 14 is arranged between paper tinsel disk 12 and La Bo mechanism 18;
In the present embodiment, cold welding mechanism 14 includes fixed mount 142, cold welding driver 143, movable block 144, fixed block 145 and Duo Gen
Spring 147.
Fixed mount 142 is fixedly installed, for example, be fixed on a plummer.In the present embodiment, the rectangular knot of fixed mount 142
Structure, including the top board being oppositely arranged and base plate and be connected to many support columns between top board and base plate, the bottom of fixed mount 142
Plate is fixed on plummer.Cold welding driver 143 is fixed on the top board of fixed mount 142, the drive end position of cold welding driver 143
In fixed mount 142.Movable block 144 is connected with cold welding driver 143;Fixed block 145 is oppositely arranged with movable block 144, and paper tinsel
Band 101 is arranged on fixed block 145;Cold welding driver 143 can be ordered about movable block 144 and be moved towards near the direction of fixed block 145
Dynamic, and the pressure being produced with movable block 144 extruding by fixed block 145 by sliver 103 cold welding in foil 101.In order to avoid
Fixed block 145 and movable block 144 extruding produce pressure excessive causes sliver 103 and foil 101 to damage, movable block 144 with cold
It is connected with spring 147 between weldering driver 143, between fixed block 145 and fixed mount 142, be connected with spring 147.In the present embodiment
In, fixed block 145 is provided with cold welding groove 104 near the surface of movable block 144, and is provided with multiple projections 146 in cold welding groove 104,
The spaced setting of each projection 146;When sliver 103 is transferred to cold welding mechanism 14 by sliver transfer mechanism 16, sliver 103 is in
The top of cold welding groove 104, and the length direction of sliver 103 is parallel to the length direction of cold welding groove 104.
Fig. 4 is the partial structural diagram at electric capacity producing device second visual angle of the present invention.Fig. 5 is that the sliver of the present invention is whole
The structural representation of shape mechanism.Fig. 6 is the partial structural diagram at electric capacity producing device the 3rd visual angle of the present invention.As Fig. 1, figure
4th, shown in Fig. 5 and Fig. 6, sliver reshaping device 15 is arranged at the side of cold welding mechanism 14;In the present embodiment, sliver reshaping device
15 include the first shaping component 152 and the second shaping component 154.
When sliver disk 13 is to sliver reshaping device 15 conveying sliver band 102, sliver band 102 first passes around the first shaping component
152, first time squeezing shaping is carried out to sliver band 102 by the first shaping component 152.In the present embodiment, the first shaping component
152 include column 1522, the first roller 1523 and the second roller 1524;First roller 1523 and the second roller 1524 are symmetrical above and below
Arrange is hinged on column 1522, and the wheel of the first roller 1523 contacts in the wheel with the second roller 1524 and arranges or phase
Adjacent setting, between the sliver band 102 being exported by sliver disk 13 is while the wheel of the first roller 1523 is in the wheel of the second roller 1524
Through.In the present embodiment, sliver band 102 extruded for the first time when through the first roller 1523 and the second roller 1524 whole
Shape, makes sliver band 102 form flat construction.
Second shaping component 154 is arranged at the side of the first shaping component 152, and the second shaping component 154 is used for sliver
Band 102 carries out second squeezing shaping.In the present embodiment, the second shaping component 154 include reshaping frame 1541, cam 1542,
Recessed wheel 1544, lever 1545, mounting blocks 1546, regulating block 1547, spring 1548 and regulating part 1549.As shown in figure 5, cam
1542 and recessed wheel being hinged on reshaping frame 1541 of 1544 settings symmetrical above and below, cam 1542 is provided with shaping raised line, and shaping is convex
Bar is circumferentially disposed around cam 1542;Recessed wheel 1544 is provided with shaping groove, and shaping groove is circumferentially disposed around recessed wheel 1544;Convex
The wheel of wheel 1542 while and recessed wheel 1544 wheel while contact with each other setting or be disposed adjacent, and the shaping raised line of cam 1542 is arranged on
In the shaping groove of recessed wheel 1544, by the sliver band 102 after the first shaping component 152 shaping from the shaping raised line of cam 1542 with
Pass through between the shaping groove of recessed wheel 1544.That is, sliver band 102 when through cam 1542 and recessed wheel 1544 by second
Secondary squeezing shaping, makes sliver band 102 form bathtub construction (such as U-lag structure), increases the structural strength of sliver band 102.
Further, lever 1545 is connected through reshaping frame 1541 with cam 1542, and lever 1545 can order about cam
1542 rotations.In the present embodiment, when needing to go up manually sliver band 102, pull sliver band 102 through the first shaping component
After 152, rotate the lever 1545 of the second shaping component 154, so that cam 1542 is rotated and sliver band 102 is drawn in cam 1542 He
Between recessed wheel 1544, until sliver band 102 exceeds the second shaping component 154 preset length.
Peace is realized in the cooperation passing through slide block between the mounting blocks 1546 of the second shaping component 154 and reshaping frame 1541 with chute
Dress block 1546 is movably attached on reshaping frame 1541;Recessed wheel 1544 is articulated with mounting blocks 1546 that is to say, that recessed take turns 1544
Can be with mounting blocks 1546 towards the direction shift position closer or far from cam 1542;Regulating block 1547 and mounting blocks 1546 phase
To setting, spring 1548 is connected between regulating block 1547 and mounting blocks 1546;Regulating part 1549 pass through reshaping frame 1541 and with
Regulating block 1547 connects, and regulating part 1549 can order about regulating block 1547 and move towards the direction closer or far from mounting blocks 1546.
In the present embodiment, lever 1545 is arranged at the side of reshaping frame 1541, and regulating part 1549 is arranged at the top of reshaping frame 1541
Portion, but be not limited thereto.
As shown in figures 1 to 6, sliver 103 can be transferred to cold welding mechanism 14 by sliver transfer mechanism 16, and makes sliver 103
One end align with the side of foil 101;In the present embodiment, sliver transfer mechanism 16 include take-off plate 161, connecting plate 163,
Transmission folder 164, transmission belt 165, sliver folder the 166, first transfer driver 167 and the second transfer driver 169.In the present embodiment
In, the first transfer driver 167 can be ordered about sliver folder 166 and be moved towards near the direction of sliver band 102, and makes sliver press from both sides 166
Clamp sliver band 102;Second transfer driver 169 can be ordered about sliver folder 166 and be moved, and so that sliver band 102 is cut through sliver
Sliver 103 is transferred to cold welding mechanism 14 after being cut off by mechanism 17 preset length and sliver band 102.
Take-off plate 161 is movably attached on the top board of fixed mount 142 it is preferable that take-off plate 161 and fixed mount 142
Between take-off plate 161 realized by the cooperation of chute and slide rail be movably attached to fixed mount 142.One end of take-off plate 161
It is provided with drive 162, drive 162 is rotatably connected at take-off plate 161.In the present embodiment, take-off plate 161 is located at cold welding
The side of driver 143, take-off plate 161 can move towards the direction closer or far from cold welding driver 143, and take-off plate 161
Along slide rail moving direction perpendicular to sliver band 102 length direction.
Connecting plate 163 is movably attached to take-off plate 161 it is preferable that passing through between connecting plate 163 and take-off plate 161
The cooperation of chute and slide rail is realized connecting plate 163 and is movably attached to take-off plate 161.In the present embodiment, connecting plate 163 edge
The length direction parallel to sliver band 102 for the moving direction of slide rail, that is, the moving direction of connecting plate 163 is perpendicular to take-off plate
161 moving direction.
One end of transmission folder 164 is connected on connecting plate 163, the other end clamping transmission belt 165 of transmission folder 164, and energy
With transmission belt 165 synchronizing moving.
One end of transmission belt 165 is connected with the drive 162 in take-off plate 161, and the other end of transmission belt 165 and first moves
The drive 168 in driver 167 is sent to connect.First transfer driver 167 is fixed in take-off plate 161, and the first transfer drives
Device 167 can order about connecting plate 163 by transmission belt 165 and drive and move in take-off plate 161.
Sliver folder 166 is fixed on one end of connecting plate 163, and sliver folder 166 is located at the side of sliver cutting mechanism 17.?
In the present embodiment, after sliver band 102 is shaped, sliver folder 166 can clamp sliver band 102, and is driven by the first transfer
Device 167 orders about sliver folder 166 and connecting plate 163 is mobile, until sliver band 102 passes through sliver cutting mechanism 17 preset length.
Second transfer driver 169 is fixed on the fixed mount 142 of cold welding mechanism 14, and second transfers driver 169 and move
Plate 161 is sent to connect, the second transfer driver 169 can be ordered about take-off plate 161 and be moved on fixed mount 142.
In the present embodiment, sliver transfer mechanism 16 is used for sliver 103 being transferred to cold welding mechanism 14, when sliver 103 is made
When being welded in foil 101 for negative pole, the process that sliver transfer mechanism 16 transfers sliver 103 comprises the following steps:
Step one, the second transfer driver 169 is ordered about take-off plate 161 and is moved towards near the direction of sliver band 102, until
Sliver band 102 is in sliver folder 166 and stops driving, and now sliver band 102 clamped by sliver folder 166;
Step 2, the first transfer driver 167 orders about connecting plate 163 and sliver folder 166 is mobile, until sliver band 102 is worn
Cross sliver cutting mechanism 17 preset length to stop driving;
Step 3, when sliver band 102 cut-out is made the part that sliver presss from both sides 166 clampings form sliver by sliver cutting mechanism 17
103, the first transfer driver 167 orders about connecting plate 163 and sliver folder 166 moves again, until one end of sliver 103 is (for example
The cut-out end of sliver 103) stop when aliging with the side of foil 101 driving, now sliver 103 is located at the activity of cold welding mechanism 14
Between block 144 and fixed block 145, and sliver 103 is in the top of cold welding groove 104.
When sliver 103 is welded in foil 101 as positive pole, sliver transfer mechanism 16 transfers the process bag of sliver 103
Include following steps:
Step one, the second transfer driver 169 is ordered about take-off plate 161 and is moved towards near the direction of sliver band 102, until
Sliver band 102 is in sliver folder 166 and stops driving, and now sliver band 102 clamped by sliver folder 166;
Step 2, the first transfer driver 167 orders about connecting plate 163 and sliver folder 166 is mobile, until sliver band 102 is worn
Cross sliver cutting mechanism 17 preset length to stop driving;
Step 3, when sliver band 102 cut-out is made the part that sliver presss from both sides 166 clampings form sliver by sliver cutting mechanism 17
103, now second transfer driver 169 order about take-off plate 161 away from sliver band 102 direction move return;
Step 4, the first transfer driver 167 orders about connecting plate 163 and sliver folder 166 moves again, until sliver 103
One end (the cut-out end of such as sliver 103) stop when aliging with the side of foil 101 driving;
Step 5, the second transfer driver 169 is ordered about take-off plate 161 and is moved towards near the direction of cold welding driver 143,
Until sliver 103 is located between movable block 144 and the fixed block 145 of cold welding mechanism 14, and sliver 103 is made to be in cold welding groove 104
Top.
It is noted that when sliver transfer mechanism 16 transfers the sliver 103 as positive pole, needing to avoid cold welding mechanism 14
Movable block 144 and fixed block 145, prevent sliver 103 from colliding with movable block 144 and fixed block 145, as shown in Figure 1.
Fig. 7 is the structural representation of the sliver cutting mechanism of the present invention.As shown in Figure 1 and Figure 7, sliver cutting mechanism 17 sets
It is placed between sliver reshaping device 15 and cold welding mechanism 14, in the present embodiment, sliver cutting mechanism 17 includes first and cuts group
Part 172 and second cuts assembly 176, and first cuts assembly 172 cuts assembly 176 with second and be oppositely arranged, and first cuts group
Part 172 is arranged at the second lower section cutting assembly 176.
In the present embodiment, first cut that assembly 172 includes the first briquetting 173, the first cutting knife 174 and first cuts driving
Device 175;First cutting knife 174 is connected to the side of the first briquetting 173;First cuts that driver 175 is fixed on fixed mount 142
Side, and first cut driver 175 and be connected with the first briquetting 173 and the first cutting knife 174, first cuts driver 175 can order about
First briquetting 173 and the first cutting knife 174 move towards near the direction of sliver band 102.Second cuts assembly 176 includes the second pressure
Block 177, the second cutting knife 178 and second cut driver 179;Second cutting knife 178 is connected to the side of the second briquetting 177;Second
Cut the side that driver 179 is fixed on fixed mount 142, and second cuts driver 179 and the second briquetting 177 and the second cutting knife
178 connections, second cuts driver 179 can order about the second briquetting 177 and the second cutting knife 178 towards the side near sliver band 102
To movement, and sliver band 102 is fixed between the first briquetting 173 and the second briquetting 177, the first cutting knife 174 and second simultaneously
Cutting knife 178 closes and cuts off sliver band 102.
As shown in figure 1, La Bo mechanism 18 is arranged at the side of cold welding mechanism 14, La Bo mechanism 18 is used in cold welding mechanism 14
After sliver 103 is welded in foil 101, foil 101 is pulled preset length, make the welding that cold welding mechanism 14 can carry out next time.
In the present embodiment, La Bo mechanism 18 include first draw paper tinsel wheel 182, second draw paper tinsel wheel (not shown) and draw paper tinsel driver (figure not
Show).First draws the wheel of paper tinsel wheel 182 to contact when drawing the wheel of paper tinsel wheel with second arranges or is disposed adjacent, and foil 101 is drawn from first
Paper tinsel wheel 182 wheel while second draw paper tinsel wheel wheel while between pass through, draw paper tinsel driver can order about first draw paper tinsel wheel 182 rotate pull
Foil 101.
Fig. 8 is the schematic flow sheet of the capacitor manufacturing method of the present invention.Refer to Fig. 1 to Fig. 8, the electric capacity of the present invention makes
The step of method includes:
Convey foil 101 using paper tinsel disk 12 to cold welding mechanism 14 and La Bo mechanism 18, and whole to sliver using sliver disk 13
Shape mechanism 15 conveys sliver band 102;
Using sliver reshaping device 15 to sliver band 102 squeezing shaping;Specifically, using the first of sliver reshaping device 15
Shaping component 152 carries out first time squeezing shaping to sliver band 102, makes sliver band 102 form flat construction;Then utilize sliver
Second shaping component 154 of reshaping device 15 carries out second squeezing shaping to sliver band 102, makes sliver band 102 form flute profile
Structure (such as U-lag structure);
Clamp the sliver band 102 after shaping using sliver transfer mechanism 16, and pull sliver band 102 to pass through sliver guillotine
Structure 17 preset length;Specifically, order about take-off plate 161 towards leaning on using the second transfer driver 169 of sliver transfer mechanism 16
The direction of nearly sliver band 102 is moved, until sliver band 102 is in sliver folder 166 stopping driving, now sliver folder 166 is clamped
Sliver band 102;Then connecting plate 163 and sliver folder 166 shifting are ordered about using the first transfer driver 167 of sliver transfer mechanism 16
Dynamic, until sliver band 102 passes through sliver cutting mechanism 17 preset length to stop driving;
Using sliver cutting mechanism 17, sliver band 102 cut-out is made the part that sliver transfer mechanism 16 clamps form sliver
103;Specifically, cut driver 175 using the first of sliver cutting mechanism 17 and order about the first briquetting 173 and the first cutting knife 174
Move towards near the direction of sliver band 102, cut driver 179 using the second of sliver cutting mechanism 17 simultaneously and order about second
Briquetting 177 and the second cutting knife 178 move towards near the direction of sliver band 102, and sliver band 102 is fixed on the first briquetting
173 and second between briquetting 177, and the first cutting knife 174 and the second cutting knife 178 close and cut off sliver band 102 simultaneously;
Using sliver transfer mechanism 16, sliver 103 is transferred to cold welding mechanism 14, and makes one end and the foil of sliver 103
101 side alignment;Specifically, order about take-off plate 161 towards remote using the second transfer driver 169 of sliver transfer mechanism 16
Move return from the direction of sliver band 102;Then order about connecting plate using the first transfer driver 167 of sliver transfer mechanism 16
163 and sliver folder 166 move again, until stopping driving with the side of foil 101 when alignment in one end of sliver 103;Then
Two transfer drivers 169 are ordered about take-off plate 161 and are moved towards near the direction of cold welding driver 143, until sliver 103 is positioned at cold
Between the movable block 144 of welding mechanism 14 and fixed block 145, and sliver 103 is made to be in the top of cold welding groove 104;
Using cold welding mechanism 14 pass through pressure by sliver 103 cold welding in foil 101;Specifically, using cold welding mechanism 14
Cold welding driver 143 order about movable block 144 and move towards near the direction of fixed block 145, and by fixed block 145 and activity
Sliver 103 is welded in foil 101 pressure that block 144 extruding produces;And
After sliver 103 is welded in foil 101 for cold welding mechanism 14, foil 101 is pulled default length using La Bo mechanism 18
Degree, makes the welding action that cold welding mechanism 14 can carry out next time.
The sliver reshaping device 15 of the electric capacity producing device 10 of the present invention includes the first shaping component 152 and the second shaping group
Part 154, the first shaping component 152 is used for carrying out first time squeezing shaping to sliver band 102, makes sliver band 102 form straight knot
Structure, the second shaping component 154 is used for carrying out second squeezing shaping to sliver band 102, makes sliver band 102 form bathtub construction,
Sliver transfer mechanism 16 is used for the sliver band 102 after clamping shaping, and pulls sliver band 102 to pass through sliver cutting mechanism 17 to preset
Length, sliver cutting mechanism 17 is used for making the part that sliver transfer mechanism 16 clamps form sliver 103 sliver band 102 cut-out,
Sliver 103 can be transferred to cold welding mechanism 14 by sliver transfer mechanism 16, and sliver 103 is welded on paper tinsel by pressure by cold welding mechanism 14
On band 101.The electric capacity producing device 10 of the present invention is extruded whole successively twice by sliver reshaping device 15 to sliver band 102
Shape, that is, first time squeezing shaping make sliver band 102 form flat construction, carry out second on the basis of first time squeezing shaping
Squeezing shaping, makes sliver band 102 form bathtub construction.Therefore, the electric capacity producing device 10 of the present invention is to sliver band 102 shaping
The structural strength of sliver band 102 can effectively be strengthened afterwards, so that sliver 103 is not susceptible in follow-up welding and feeding process curved
Situations such as song, deformation, the quality of capacitor packages can be effectively improved.And, the electric capacity producing device 10 of the present invention is by machinery
Feeding carries out welding sliver 103, and production efficiency is high, and the capacitor packages concordance producing is preferably, is conducive to lifting electric capacity to produce
Quality.
Describe the preferred embodiment of the present invention in detail above in association with accompanying drawing, but the present invention is not limited to above-mentioned enforcement
Detail in mode, in the range of the technology design of the present invention, can carry out multiple simple to technical scheme
Modification, these simple variant belong to protection scope of the present invention.Each described in above-mentioned specific embodiment is concrete
Technical characteristic, in the case of reconcilable, can be combined by any suitable means.In order to avoid unnecessary weight
Multiple, the present invention no longer separately illustrates to various possible compound modes.
Claims (10)
1. a kind of electric capacity producing device is it is characterised in that include cold welding mechanism (14), sliver reshaping device (15), sliver transfer
Mechanism (16) and sliver cutting mechanism (17), this sliver reshaping device (15) includes the first shaping component (152) and the second shaping
Assembly (154), this first shaping component (152) is used for carrying out first time squeezing shaping to sliver band, so that sliver band is formed straight
Structure, this second shaping component (154) is used for carrying out second squeezing shaping to sliver band, makes sliver band form bathtub construction,
This sliver transfer mechanism (16) is used for the sliver band after clamping shaping, and pulls sliver band to pass through this sliver cutting mechanism (17) pre-
If length, this sliver cutting mechanism (17) is used for making the part formation that this sliver transfer mechanism (16) clamps lead the cut-out of sliver band
Bar, sliver can be transferred to this cold welding mechanism (14) by this sliver transfer mechanism (16), and this cold welding mechanism (14) will be led by pressure
Bar is welded in foil.
2. electric capacity producing device as claimed in claim 1 it is characterised in that this cold welding mechanism (14) include fixed mount (142),
Cold welding driver (143), movable block (144) and fixed block (145), this cold welding driver (143) is connected to this fixed mount (142)
On, this movable block (144) is connected with this cold welding driver (143), and this fixed block (145) is oppositely arranged with this movable block (144),
This foil is arranged on this fixed block (145), and this cold welding driver (143) can order about this movable block (144) towards near fixing
The direction of block (145) is moved, and is welded sliver by the pressure producing between this fixed block (145) and this movable block (144)
In foil.
3. electric capacity producing device as claimed in claim 2 is it is characterised in that this fixed block (145) is provided with cold welding groove
(104), and it is provided with multiple projections (146) in this cold welding groove (104), sliver is transferred to this cold welding by this sliver transfer mechanism (16)
During mechanism (14), sliver is in the top of this cold welding groove (104).
4. electric capacity producing device as claimed in claim 2 is it is characterised in that this sliver transfer mechanism (16) includes sliver folder
(166), the first transfer driver (167) and the second transfer driver (169), this second transfer driver (169) can be ordered about and lead
Bar folder (166) moves towards near the direction of sliver band, and makes sliver folder (166) clamp sliver band, this first transfer driver
(167) sliver folder (166) can be ordered about mobile, and make sliver band pass through this sliver cutting mechanism (17) preset length and sliver band
After cut-off, sliver is transferred to this cold welding mechanism (14).
5. electric capacity producing device as claimed in claim 4 is it is characterised in that this sliver transfer mechanism (16) also includes take-off plate
(161) and connecting plate (163), this take-off plate (161) is arranged at the side of this cold welding driver (143), this take-off plate (161) with
Between this fixed mount (142), this take-off plate (161) is realized by the cooperation of chute and slide rail and be movably attached to this fixed mount
(142), realizing this connecting plate (163) by the cooperation of chute and slide rail between this connecting plate (163) and this take-off plate (161) can
It is movably attached in this take-off plate (161), this first transfer driver (167) is fixed in this take-off plate (161), and this sliver presss from both sides
(166) it is connected on this connecting plate (163), this first transfer driver (167) can order about this connecting plate (163) in this take-off plate
(161) upper movement, this second transfer driver (169) is fixed on this fixed mount (142), this second transfer driver (169)
This take-off plate (161) can be ordered about in the upper movement of this fixed mount (142).
6. electric capacity producing device as claimed in claim 5 is it is characterised in that this take-off plate (161) is driven away from this first transfer
One end of dynamic device (167) is provided with drive (162), and this first transfer driver (167) is provided with drive (168), this sliver
Transfer mechanism (16) also includes transmission folder (164) and transmission belt (165), and one end of this transmission folder (164) is connected to this connecting plate
(163), on, the other end of this transmission folder (164) clamps this transmission belt (165), this transmission belt (165) be connected to this take-off plate
(161) between the drive (168) on drive (162) and this first transfer driver (167) on.
7. electric capacity producing device as claimed in claim 1 is it is characterised in that this first shaping component (152) includes column
(1522), the first roller (1523) and the second roller (1524), this first roller (1523) and this second roller (1524) are hinged
On this column (1522), and the wheel of this first roller (1523) contacts in the wheel with this second roller (1524), sliver
Band while the wheel of this first roller (1523) is in the wheel of this second roller (1524) between pass through;This second shaping component
(154) reshaping frame (1541), cam (1542) and recessed wheel (1544) are included, this cam (1542) and this recessed wheel (1544) are hinged on
On this reshaping frame (1541), this cam (1542) is provided with shaping raised line, and this shaping raised line sets around the circumference of this cam (1542)
Put, this recessed wheel (1544) is provided with shaping groove, this shaping groove circumferentially disposed, this cam (1542) around this recessed wheel (1544)
Shaping raised line be arranged in the shaping groove of this recessed wheel (1544), and sliver band from the shaping raised line of this cam (1542) with should
Pass through between the shaping groove of recessed wheel (1544).
8. electric capacity producing device as claimed in claim 7 is it is characterised in that this second shaping component (154) also includes operating
Handle (1545), mounting blocks (1546), regulating block (1547), spring (1548) and regulating part (1549), this lever (1545) is worn
Cross this reshaping frame (1541) to be connected with this cam (1542), this lever (1545) can order about this cam (1542) and rotate, this peace
Between dress block (1546) and this reshaping frame (1541), this mounting blocks (1546) are realized movably by the cooperation of slide block and chute
It is connected on this reshaping frame (1541), this recessed wheel (1544) is articulated with this mounting blocks (1546), this regulating block (1547) and this peace
Dress block (1546) is oppositely arranged, and this spring (1548) is connected between this regulating block (1547) and this mounting blocks (1546), this tune
Section part (1549) is passed through this reshaping frame (1541) and is connected with this regulating block (1547), and this regulating part (1549) can order about this regulation
Block (1547) moves towards the direction closer or far from this mounting blocks (1546).
9. electric capacity producing device as claimed in claim 1 is it is characterised in that this sliver cutting mechanism (17) inclusion first cuts
Assembly (172) and second cuts assembly (176), and this first cuts assembly (172) and second cut that assembly (176) is relative to be set with this
Put, this first cut assembly (172) include the first briquetting (173), the first cutting knife (174) and first cut driver (175), this
First cutting knife (174) is connected to the side of this first briquetting (173), this first cut driver (175) can order about this first pressure
Block (173) and the first cutting knife (174) move towards near the direction of sliver band;This second cut assembly (176) include second pressure
Block (177), the second cutting knife (178) and second cut driver (179), and this second cutting knife (178) is connected to this second briquetting
(177) side, this second cuts driver (179) and can order about this second briquetting (177) and the second cutting knife (178) towards close
The direction of sliver band is moved, and sliver band is fixed between this first briquetting (173) and this second briquetting (177), should simultaneously
Sliver band is cut off by the first cutting knife (174) and the second cutting knife (178) closure.
10. a kind of capacitor manufacturing method is it is characterised in that the step of this capacitor manufacturing method includes:
The first shaping component (152) using sliver reshaping device (15) carries out first time squeezing shaping to sliver band, makes sliver
Band forms flat construction, using second shaping component (154) of this sliver reshaping device (15), sliver band is carried out with second and squeezes
Repoussage shape, makes sliver band form bathtub construction;
Clamp the sliver band after shaping using sliver transfer mechanism (16), and pull sliver band to pass through sliver cutting mechanism (17) pre-
If length;
Using this sliver cutting mechanism (17), the cut-out of sliver band is made the part that this sliver transfer mechanism (16) clamps form sliver;
And
Using this sliver transfer mechanism (16), sliver is transferred to this cold welding mechanism (14), this cold welding mechanism (14) will by pressure
Sliver is welded in foil.
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JPH08264386A (en) * | 1995-03-23 | 1996-10-11 | Hitachi Aic Inc | Manufacture of electrolytic capacitor |
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JPH08264386A (en) * | 1995-03-23 | 1996-10-11 | Hitachi Aic Inc | Manufacture of electrolytic capacitor |
CN2911913Y (en) * | 2006-03-03 | 2007-06-13 | 珠海华冠电子科技有限公司 | Small-diameter high voltage capacitor nailing-rolling machine and cathode foil plus patching protecting foil mechanism |
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Address after: 518107 64 B, Fourth Industry Zone, Mashan community, Gongming office, Guangming District, Shenzhen, Guangdong Applicant after: Shenzhen Cheng Jie intelligent equipment Limited by Share Ltd Address before: 518107 Guangdong province Shenzhen Guangming New District Office of Gongming Ma Shan village fourth industrial zone 64 B Applicant before: Shenzhen Cheng Jie intelligent equipment Limited by Share Ltd |
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