CN206210624U - Capacitor fabrication system - Google Patents

Capacitor fabrication system Download PDF

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Publication number
CN206210624U
CN206210624U CN201621321553.8U CN201621321553U CN206210624U CN 206210624 U CN206210624 U CN 206210624U CN 201621321553 U CN201621321553 U CN 201621321553U CN 206210624 U CN206210624 U CN 206210624U
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CN
China
Prior art keywords
sliver
positive
paper tinsel
paper
negative
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Withdrawn - After Issue
Application number
CN201621321553.8U
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Chinese (zh)
Inventor
谭国彪
呙德红
刘云
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Shenzhen Chengjie Intelligent Equipment Co Ltd
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Shenzhen Chengjie Intelligent Equipment Co Ltd
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Priority to CN201621321553.8U priority Critical patent/CN206210624U/en
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Publication of CN206210624U publication Critical patent/CN206210624U/en
Withdrawn - After Issue legal-status Critical Current
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Abstract

Capacitor fabrication system includes installing plate, positive paper tinsel cold welding device, negative paper tinsel cold welding device and sub-prime coiler device, installing plate is provided with positive paper tinsel conveying mechanism, negative paper tinsel conveying mechanism and draw mechanism, installing plate is provided with volume pin hole, positive paper tinsel conveying mechanism is used to be delivered to positive foil at volume pin hole, negative paper tinsel conveying mechanism is used to be delivered to negative foil at volume pin hole, and draw mechanism is used to pull electrolytic paper through pulleying pin hole;Positive paper tinsel cold welding device is used to for sliver to be welded on positive foil, and positive foil is delivered into positive paper tinsel conveying mechanism;Negative paper tinsel cold welding device is used to for sliver to be welded on negative foil, and negative foil is delivered into negative paper tinsel conveying mechanism;Sub-prime coiler device includes volume needle shaft, and the end for rolling up needle shaft is provided with volume pin, and volume pin may pass through volume pin hole, and positive and negative foil and electrolytic paper are wound into capacitor element.Capacitor fabrication system energy full-automatic mechanical feeding of the present utility model, and making capacitor element is wound, production efficiency is high.

Description

Capacitor fabrication system
Technical field
The utility model is related to capacitor fabrication technical field, more particularly to a kind of capacitor fabrication system.
Background technology
Capacitor is a kind of device of storage electric charge, and is widely used in electronics, the electric equipment in modern times.
The primary structure of capacitor includes foil, electrolytic paper and sliver (positive and negative plate), and one end of sliver is welded on foil On, positive foil, negative foil and the electrolytic paper for welding sliver form capacitor element by winding together.Make capacitor element it It is preceding, it is necessary to prepare sliver, by the way that sliver band manually to be cut into the sliver of required length, sliver is then placed on paper tinsel again Take, it is determined that sliver is welded in foil behind the position to be welded.Due to the particularity of the capacitor element of coiling and molding, That is the two ends of capacitor element are respectively provided with as the sliver of positive and negative plate, when capacitor element is made, it is necessary to handle welds sliver Positive foil, negative foil be placed on the left side of winding part manually, and make at positive foil up, negative foil is at the bottom;Finally Positive foil, negative foil are delivered to winding part and wind to form capacitor element by feed device.
Therefore, the existing equipment for making capacitor element needs frequent feeding, reduces production efficiency, wastes the time.
Utility model content
The purpose of this utility model is, there is provided a kind of capacitor fabrication system, can full-automatic mechanical feeding, and wind Capacitor element is made, production efficiency is high, has saved time cost.
The utility model solves its technical problem to be realized using following technical scheme.
A kind of capacitor fabrication system, including installing plate, positive paper tinsel cold welding device, negative paper tinsel cold welding device and sub-prime winding dress Put, installing plate is provided with positive paper tinsel conveying mechanism, negative paper tinsel conveying mechanism and draw mechanism, positive paper tinsel conveying mechanism and negative paper tinsel conveying mechanism It is oppositely arranged, installing plate is provided with the volume pin hole through installing plate, volume pin hole is located at positive paper tinsel conveying mechanism and negative paper tinsel conveying mechanism Between, positive paper tinsel conveying mechanism is used to be delivered to positive foil at volume pin hole, and negative paper tinsel conveying mechanism is used to for negative foil to be delivered to volume At pin hole, draw mechanism is used to clamp electrolytic paper, and pulls electrolytic paper through pulleying pin hole;Positive paper tinsel cold welding device is used to weld sliver It is connected in positive foil, and the positive foil of sliver will be welded and is delivered to positive paper tinsel conveying mechanism;Negative paper tinsel cold welding device is used to weld sliver It is connected in negative foil, and the negative foil of sliver will be welded and is delivered to negative paper tinsel conveying mechanism;Sub-prime coiler device includes volume needle shaft, volume The end of needle shaft is provided with volume pin, and volume pin may pass through volume pin hole, and positive foil, negative foil and electrolytic paper are wound into capacitor element Son.
In preferred embodiment of the present utility model, above-mentioned positive paper tinsel conveying mechanism includes the first delivery board and the first blocking Arm, the first delivery board can be movably attached on a mounting board towards closer or far from volume pin hole, and the first blocking arm is arranged at first The top of delivery board, and be pressed in positive foil on the first delivery board by one end of the first blocking arm;Negative paper tinsel conveying mechanism includes second Delivery board and the second blocking arm, the second delivery board can be movably attached on a mounting board towards closer or far from volume pin hole, and second Blocking arm is arranged at the top of the second delivery board, and be pressed in negative foil on the second delivery board by one end of the second blocking arm.
In preferred embodiment of the present utility model, above-mentioned draw mechanism includes draw folder and draw driver, draw folder The lower section of positive paper tinsel conveying mechanism is arranged at, the first paper feed part and the second paper feed part are additionally provided with installing plate, the first paper feed part is set In the top of negative paper tinsel conveying mechanism, the second paper feed part is arranged at the lower section of negative paper tinsel conveying mechanism, and draw driver can order about draw Folder is moved to the first paper feed part clamping electrolytic paper, and pulls electrolytic paper through pulleying pin hole;Second paper feed part includes pressboard and pressure Paper driver, pressboard is oppositely arranged with the second delivery board, and platen driver can order about pressboard, and that electrolytic paper is pressed in into second is defeated Send on plate.
In preferred embodiment of the present utility model, paper cutting mechanism is additionally provided with above-mentioned installing plate, paper cutting mechanism is arranged at The top of positive paper tinsel conveying mechanism, paper cutting mechanism includes hand papercutter, sub-prime compressing tablet and cut paper driver, and hand papercutter connects with sub-prime compressing tablet Connect, and one end of sub-prime compressing tablet is opened away from the direction of hand papercutter, cut paper driver can order about hand papercutter and sub-prime compressing tablet Towards near the movement of the direction of capacitor element, hand papercutter is set to cut off the electrolytic paper being connected with the first paper feed part, and make the sub- pressure Piece is pressed on capacitor element.
In preferred embodiment of the present utility model, above-mentioned sub-prime coiler device also includes that the first drive mechanism, second drive Motivation structure and stock stop, the first drive mechanism can order about volume pin through volume pin hole, and electrolytic paper is in the gap of volume pin, Second drive mechanism can order about the rotation of volume pin and positive foil, negative foil and electrolytic paper are wound into capacitor element, stock stop bag Striker plate and backgauge driver are included, striker plate is provided with backgauge groove near one end of volume pin, and backgauge driver can order about striker plate shifting It is dynamic, volume pin is in backgauge groove, and capacitor element is in the side of striker plate, the first drive mechanism can order about volume needle shaft Away from the direction movement of striker plate, volume pin is extracted out from capacitor element.
In preferred embodiment of the present utility model, above-mentioned volume needle shaft includes volume shank and volume pin mouth, and volume pin is connected to volume The end of shank, volume pin mouth connection on a mounting board, is provided with pilot hole, the axis of pilot hole and the axis of volume pin hole in volume pin mouth Overlap, the first drive mechanism can order about volume pin and be passed through from the pilot hole of the volume pin hole of installing plate and volume pin mouth.
In preferred embodiment of the present utility model, above-mentioned sub-prime coiler device also includes that the first cutting mechanism and second is cut out Mechanism is cut, volume pin mouth is located between the first cutting mechanism and the second cutting mechanism, and the first cutting mechanism cuts driving including first Device and the first scissors, first cuts driver can order about the positive foil that the first scissors closure cuts the first conveying front edge of board;Second Cutting mechanism cuts driver and the second scissors including second, and second cuts driver can order about the second scissors closure cutting second Convey the negative foil and electrolytic paper of front edge of board.
In preferred embodiment of the present utility model, above-mentioned positive paper tinsel cold welding device is identical with the structure of negative paper tinsel cold welding device, Positive paper tinsel cold welding device includes cold welding mechanism, sliver transfer mechanism, sliver cutting mechanism and La Bo mechanisms, and sliver transfer mechanism is used for Clamping sliver band, and sliver band through sliver cutting mechanism preset length is pulled, sliver cutting mechanism is used for the cut-out of sliver band The part for clamping sliver transfer mechanism forms sliver, and sliver can be transferred to cold welding mechanism by sliver transfer mechanism, and make sliver One end alignd with the side of positive foil, be welded on sliver in positive foil by pressure by cold welding mechanism, La Bo mechanisms be used for will The positive foil for welding sliver is delivered to positive paper tinsel conveying mechanism.
In preferred embodiment of the present utility model, above-mentioned positive paper tinsel cold welding device also includes sliver reshaping device, and sliver is whole Shape mechanism includes the first shaping component and the second shaping component, and the first shaping component is used to carry out sliver band to extrude whole for the first time Shape, makes sliver band form flat construction, and the second shaping component is used to carry out second squeezing shaping to sliver band, makes to lead strip-form Into bathtub construction, sliver transfer mechanism is used to clamp the sliver band after shaping, and pulls sliver band pre- through sliver cutting mechanism If length.
The installing plate of capacitor fabrication system of the present utility model is provided with positive paper tinsel conveying mechanism, negative paper tinsel conveying mechanism and drawing Mechanism of paper, positive paper tinsel conveying mechanism is oppositely arranged with negative paper tinsel conveying mechanism, and installing plate is provided with the volume pin hole through installing plate, rolls up pin Between positive paper tinsel conveying mechanism and negative paper tinsel conveying mechanism, positive paper tinsel conveying mechanism is used to be delivered to positive foil at volume pin hole hole position, Negative paper tinsel conveying mechanism is used to be delivered to negative foil at volume pin hole, and draw mechanism is used to clamp electrolytic paper, and pulls electrolytic paper to pass through Pulleying pin hole;Positive paper tinsel cold welding device is delivered to positive paper tinsel for sliver being welded on into positive foil, and welding the positive foil of sliver Conveying mechanism;Negative paper tinsel cold welding device is delivered to negative paper tinsel for sliver being welded on into negative foil, and welding the negative foil of sliver Conveying mechanism;Sub-prime coiler device includes volume needle shaft, and the end for rolling up needle shaft is provided with volume pin, and volume pin may pass through volume pin hole, and will just Foil, negative foil and electrolytic paper are wound into capacitor element.Therefore, capacitor fabrication system energy Full-automatic machine of the present utility model Tool feeding, and making capacitor element is wound, production efficiency is high, has saved time cost.
Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model Art means, and being practiced according to the content of specification, and in order to allow above and other purpose of the present utility model, feature Can be become apparent with advantage, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, described in detail.
Brief description of the drawings
Fig. 1 is the schematic diagram of capacitor fabrication system of the present utility model.
Fig. 2 is the dimensional structure diagram of capacitor fabrication system of the present utility model.
Fig. 3 is the positive structure diagram of capacitor fabrication system of the present utility model.
Fig. 4 is the partial structural diagram of the capacitor fabrication system of Fig. 3.
Fig. 5 is the structural representation of the capacitor element made using capacitor fabrication system.
Fig. 6 is the dimensional structure diagram of positive paper tinsel cold welding device of the present utility model.
Fig. 7 is the partial structural diagram at positive the first visual angle of paper tinsel cold welding device of the present utility model.
Fig. 8 is the partial structural diagram of cold welding mechanism of the present utility model.
Fig. 9 is the partial structural diagram at positive the second visual angle of paper tinsel cold welding device of the present utility model.
Figure 10 is the structural representation of sliver reshaping device of the present utility model.
Figure 11 is the partial structural diagram at the positive visual angle of paper tinsel cold welding device the 3rd of the present utility model.
Figure 12 is the structural representation of sliver cutting mechanism of the present utility model.
Figure 13 is the structural representation at the visual angle of sub-prime coiler device first of the present utility model.
Figure 14 is the structural representation at the visual angle of sub-prime coiler device second of the present utility model.
Figure 15 is the structural representation at the visual angle of sub-prime coiler device the 3rd of the present utility model.
Figure 16 is the partial structural diagram of volume needle shaft of the present utility model.
Figure 17 is the structural representation of the first scissors of the present utility model.
Figure 18 is the partial structural diagram of sub-prime coiler device of the present utility model.
Figure 19 is the schematic flow sheet of capacitor manufacturing method of the present utility model.
Specific embodiment
Further to illustrate that the utility model is to reach technological means and effect that predetermined utility model purpose is taken, Below in conjunction with accompanying drawing and preferred embodiment, to foundation the utility model proposes capacitor fabrication system specific embodiment, Structure, feature and its effect, describe in detail as follows:
Relevant of the present utility model foregoing and other technology contents, feature and effect, it is following coordinate with reference to schema compared with Can be clearly appeared from the detailed description of good embodiment.By the explanation of specific embodiment, when can be to the utility model up to The technological means and effect taken into predetermined purpose are able to more go deep into and specific understanding, but institute's accompanying drawings are only to provide With reference to purposes of discussion, not for being any limitation as to the utility model.
Fig. 1 is the schematic diagram of capacitor fabrication system of the present utility model.Fig. 2 is capacitor fabrication system of the present utility model The dimensional structure diagram of system.Fig. 3 is the positive structure diagram of capacitor fabrication system of the present utility model.As shown in Figure 1, Figure 2 With shown in Fig. 3, in the present embodiment, capacitor fabrication system 100 includes installing plate 10, positive paper tinsel cold welding device 20, negative paper tinsel cold welding Device 30 and sub-prime coiler device 40.Installing plate 10 has relative front and back, positive paper tinsel cold welding device 20 and negative paper tinsel cold welding Device 30 is respectively arranged at the two ends of installing plate 10, and sub-prime coiler device 40 is arranged at the back side of installing plate 10, and installing plate 10 It is provided with the volume pin hole 101 through the front and back of installing plate 10.
Fig. 4 is the partial structural diagram of the capacitor fabrication system of Fig. 3.Fig. 5 is made using capacitor fabrication system Capacitor element structural representation.Fig. 1 to Fig. 5 is refer to, in the present embodiment, the front of installing plate 10 is provided with positive paper tinsel Conveying mechanism 12, negative paper tinsel conveying mechanism 13, the first paper feed part 14, the second paper feed part 15, draw mechanism 16, paper cutting mechanism 17, patch Gluing mechanism 18 and element carrying mechanism 19.
Volume pin hole 101 is located between positive paper tinsel conveying mechanism 12 and negative paper tinsel conveying mechanism 13, and positive paper tinsel conveying mechanism 12 is used for will Positive foil 102 is delivered at volume pin hole 101.In the present embodiment, positive paper tinsel conveying mechanism 12 includes the first delivery board 122 and first Blocking arm 124.First delivery board 122 can be movably attached on installing plate 10 towards closer or far from volume pin hole 101, the first pressure Paper tinsel arm 124 is arranged at the top of the first delivery board 122, and positive foil 102 is pressed in the first conveying by one end of the first blocking arm 124 On plate 122.
Negative paper tinsel conveying mechanism 13 is oppositely arranged with positive paper tinsel conveying mechanism 12, and bearing paper tinsel conveying mechanism 13 is used for negative foil 103 It is delivered at volume pin hole 101.In the present embodiment, bearing paper tinsel conveying mechanism 13 includes the second delivery board 132 and the second blocking arm 134.Second delivery board 132 can be movably attached on installing plate 10 towards closer or far from the volume pin hole 101, the second blocking arm 134 tops for being arranged at the second delivery board 132, and negative foil 103 is pressed in the second delivery board by one end of the second blocking arm 134 On 132.
First paper feed part 14 is arranged at the top of negative paper tinsel conveying mechanism 13, and the first paper feed part 14 is provided with paper groove, two paper Two electrolytic papers are delivered to the first paper feed part 14 by disk, and electrolytic paper is stretched out paper groove 10mm.In the present embodiment, electrolytic paper is stretched Go out the first paper feed part 14 paper groove length can unrestricted choice according to actual needs, be not limited with above-mentioned length.
Second paper feed part 15 is arranged at the lower section of negative paper tinsel conveying mechanism 13.In the present embodiment, the second paper feed part 15 includes Pressboard 152 and platen driver 154.Two electrolytic papers are delivered to the second paper feed part 15 by two paper discs, and make electrolysis letterweight It is placed on pressboard 152, pressboard 152 is oppositely arranged with the second delivery board 132, and platen driver 154 can order about pressboard 152 are pressed on the second delivery board 132 electrolytic paper.In the present embodiment, bear foil 103 and electrolytic paper stretches out the second delivery board 132 preset lengths, and the negative foil 103 of the upside of the second delivery board 132 and the electrolytic paper of downside can simultaneously be delivered to volume pin hole 101 Place.
Draw mechanism 16 is used to clamp the electrolytic paper of the first paper feed part 14, and pulls electrolytic paper through pulleying pin hole 101.At this In embodiment, draw mechanism 16 includes that draw presss from both sides 162 and draw driver 164, and draw folder 162 is arranged at positive paper tinsel conveying mechanism 12 Lower section, draw driver 164 can order about draw folder 162 and be moved to the first paper feed part 14 and clamp the electrolysis stretched out from paper groove Paper, and electrolytic paper is pulled through pulleying pin hole 101.In the present embodiment, the moving direction of draw folder 162 is to tilt upward, draw After folder 162 clamps electrolytic paper, during draw driver 164 orders about the movement return of draw folder 162, electrolytic paper is through pulleying pin hole 101。
Paper cutting mechanism 17 is arranged at the top of positive paper tinsel conveying mechanism 12.In the present embodiment, paper cutting mechanism 17 includes cut paper Knife 172, sub-prime compressing tablet 174 and cut paper driver 176.Hand papercutter 172 is connected with sub-prime compressing tablet 174, and sub-prime compressing tablet 174 one Hold and opened away from the direction of hand papercutter 172, cut paper driver 176 can order about hand papercutter 172 and sub-prime compressing tablet 174 towards leaning on The direction movement of nearly capacitor element 100a, makes hand papercutter 172 cut off the electrolytic paper being connected with the first paper feed part 14, and make sub-prime Compressing tablet 174 is pressed on capacitor element 100a, prevents capacitor element 100a from being scattered before rubberizing.
Adhesive tape rubberizing mechanism 18 is arranged at the lower section of negative paper tinsel conveying mechanism 13, and adhesive tape rubberizing mechanism 18 is used to be electrolysed in paper cutting mechanism 17 The rubberizing on capacitor element 100a after paper cut-out.
Element carrying mechanism 19 is used for clamp capacitance device sub-prime 100a, and capacitor element 100a is carried into material-storing box (not shown).In the present embodiment, element carrying mechanism 19 includes sub-prime folder 192 and carries driver (not shown).Sub-prime is pressed from both sides 192 one end is articulated with installing plate 10, and the other end of sub-prime folder 192 is bare terminal end, and the bare terminal end of sub-prime folder 192 is located at volume pin hole The top of 101 axis directions;Carrying driver can order about sub-prime folder 192 and be moved to clamp capacitance device sub-prime at volume pin hole 101 100a, and capacitor element 100a is carried to material-storing box.
Fig. 6 is the dimensional structure diagram of positive paper tinsel cold welding device of the present utility model.As shown in fig. 6, in the present embodiment, Positive paper tinsel cold welding device 20 includes paper tinsel disk 22, sliver disk 23, cold welding mechanism 24, sliver reshaping device 25, sliver transfer mechanism 26, leads Bar cutting mechanism 27 and La Bo mechanisms 28.
Paper tinsel disk 22 is used to convey positive foil 102 to cold welding mechanism 24 and La Bo mechanisms 28.
Sliver disk 23 is used for the conveying sliver of sliver reshaping device 25 band 202.
Fig. 7 is the partial structural diagram at positive the first visual angle of paper tinsel cold welding device of the present utility model.Fig. 8 is the utility model Cold welding mechanism partial structural diagram.As shown in Fig. 6, Fig. 7 and Fig. 8, cold welding mechanism 24 is arranged at paper tinsel disk 22 and draws paper tinsel machine Between structure 28;In the present embodiment, cold welding mechanism 24 includes fixed mount 242, cold welding driver 243, the first cold welding block 244, the Two cold welding blocks 245 and Duo Gen springs 247.
Fixed mount 242 is fixedly installed, for example, be fixed on a plummer.In the present embodiment, the rectangular knot of fixed mount 242 Structure, including the top board that is oppositely arranged and base plate and many support columns being connected between top board and base plate, the bottom of fixed mount 242 Plate is fixed on plummer.Cold welding driver 243 is fixed on the top board of fixed mount 242, the drive end position of cold welding driver 243 In in fixed mount 242.First cold welding block 244 is connected with cold welding driver 243;Second cold welding block 245 and the phase of the first cold welding block 244 To setting, and positive foil 102 is arranged on the second cold welding block 245;Cold welding driver 243 can order about the first cold welding block 244 towards Moved near the direction of the second cold welding block 245, and the pressure for producing is extruded by the second cold welding block 245 and the first cold welding block 244 By the cold welding of positive sliver 203 in positive foil 102.In order to avoid the pressure that the second cold welding block 245 and the extruding of the first cold welding block 244 are produced Power is excessive to cause positive sliver 203 and positive foil 102 to damage, and spring is connected between the first cold welding block 244 and cold welding driver 243 247, it is connected with spring 247 between the second cold welding block 245 and fixed mount 242.In the present embodiment, the second cold welding block 245 is close to The surface of the first cold welding block 244 is provided with cold welding groove 204, and cold welding groove 204 and is provided with multiple projections 246, and each projection 246 is mutual Interval setting;When positive sliver 203 is transferred to cold welding mechanism 24 by sliver transfer mechanism 26, positive sliver 203 is in cold welding groove 204 Top, and positive sliver 203 length direction parallel to cold welding groove 204 length direction.
Fig. 9 is the partial structural diagram at positive the second visual angle of paper tinsel cold welding device of the present utility model.Figure 10 is new this practicality The structural representation of the sliver reshaping device of type.Figure 11 is the partial structurtes at the positive visual angle of paper tinsel cold welding device the 3rd of the present utility model Schematic diagram.As shown in Fig. 6, Fig. 9, Figure 10 and Figure 11, sliver reshaping device 25 is arranged at the side of cold welding mechanism 24;In this implementation In example, sliver reshaping device 25 includes the first shaping component 252 and the second shaping component 254.
When sliver disk 23 is to conveying sliver band 202 of sliver reshaping device 25, sliver band 202 first passes around the first shaping component 252, first time squeezing shaping is carried out to sliver band 202 by the first shaping component 252.In the present embodiment, the first shaping component 252 include column 2522, the first roller 2523 and the second roller 2524;First roller 2523 and the second roller 2524 are symmetrical above and below Set be hinged on column 2522, and the first roller 2523 wheel be in contact in the wheel with the second roller 2524 set or phase Neighbour is set, and the sliver band 202 exported by sliver disk 23 is between the taking turns in the wheel of the second roller 2524 of the first roller 2523 By.In the present embodiment, sliver band 202 is extruded whole for the first time when by the first roller 2523 and the second roller 2524 Shape, makes sliver band 202 form flat construction.
Second shaping component 254 is arranged at the side of the first shaping component 252, and the second shaping component 254 is used for sliver Band 202 carries out second squeezing shaping.In the present embodiment, the second shaping component 254 include reshaping frame 2541, cam 2542, Concave wheel 2544, lever 2545, mounting blocks 2546, regulating block 2547, spring 2548 and regulating part 2549.As shown in Figure 10, it is convex Wheel 2542 and concave wheel 2544 setting symmetrical above and below are hinged on reshaping frame 2541, and cam 2542 is provided with shaping raised line, shaping Raised line is circumferentially disposed around cam 2542;Concave wheel 2544 is provided with shaping groove, and shaping groove is circumferentially disposed around concave wheel 2544; Cam 2542 wheel while and concave wheel 2544 wheel while contact with each other setting or be disposed adjacent, and cam 2542 shaping raised line set In the shaping groove of concave wheel 2544, by the sliver after the shaping of the first shaping component 252 with 202 from the shaping raised line of cam 2542 Pass through and the shaping groove of concave wheel 2544 between.That is, sliver band 202 when by cam 2542 and concave wheel 2544 by the Secondary extrusion shaping, makes sliver band 202 form bathtub construction (such as U-lag structure), increases sliver with 202 structural strength.
Further, lever 2545 is connected through reshaping frame 2541 with cam 2542, and lever 2545 can order about cam 2542 rotate.In the present embodiment, when upper sliver band 202 manually are needed, sliver band 202 is pulled by the first shaping component After 252, the lever 2545 of the second shaping component 254 is rotated, rotate cam 2542 and sliver band 202 is drawn in into the He of cam 2542 Between concave wheel 2544, until sliver band 202 exceeds the preset length of the second shaping component 254.
Peace is realized with the cooperation of chute by sliding block between the mounting blocks 2546 and reshaping frame 2541 of the second shaping component 254 Dress block 2546 is movably attached on reshaping frame 2541;Concave wheel 2544 is articulated with mounting blocks 2546, that is to say, that concave wheel 2544 Can be with mounting blocks 2546 towards the direction shift position closer or far from cam 2542;Regulating block 2547 and the phase of mounting blocks 2546 To setting, spring 2548 is connected between regulating block 2547 and mounting blocks 2546;Regulating part 2549 through reshaping frame 2541 and with Regulating block 2547 is connected, and regulating part 2549 can order about regulating block 2547 towards the direction movement closer or far from mounting blocks 2546. In the present embodiment, lever 2545 is arranged at the side of reshaping frame 2541, and regulating part 2549 is arranged at the top of reshaping frame 2541 Portion, but be not limited thereto.
As shown in Fig. 6 and Figure 11, positive sliver 203 can be transferred to cold welding mechanism 24 by sliver transfer mechanism 26, and make just to lead Alignd with the side of positive foil 102 one end of bar 203;In the present embodiment, sliver transfer mechanism 26 includes take-off plate 261, moves Block 263, transmission folder 264, transmission belt 265, sliver folder 266, first is sent to transfer the transfer driver 269 of driver 267 and second. In the present embodiment, the first transfer driver 267 can order about sliver folder 266 and be moved with 202 direction towards near sliver, and make to lead Bar folder 266 clamps sliver band 202;Second transfer driver 269 can order about sliver folder 266 and move, and make sliver band 202 through leading Positive sliver 203 is transferred to cold welding mechanism 24 by the preset length of bar cutting mechanism 27 and sliver band 202 after being cut off.
Take-off plate 261 is movably attached on the top board of fixed mount 242, it is preferable that take-off plate 261 and fixed mount 242 Between realize that take-off plate 261 is movably attached to fixed mount 242 by the cooperation of chute and slide rail.One end of take-off plate 261 Drive 262 is provided with, drive 262 is rotatably connected at take-off plate 261.In the present embodiment, take-off plate 261 is located at cold welding The side of driver 243, take-off plate 261 can be towards the direction movement closer or far from cold welding driver 243, and take-off plate 261 Along the moving direction of slide rail perpendicular to sliver with 202 length direction.
Transfer block 263 is movably attached to take-off plate 261, it is preferable that pass through between transfer block 263 and take-off plate 261 The cooperation of chute and slide rail realizes that transfer block 263 is movably attached to take-off plate 261.In the present embodiment, transfer block 263 edge The moving direction of slide rail parallel to sliver with 202 length direction, that is, transfers the moving direction of block 263 perpendicular to take-off plate 261 moving direction.
One end of transmission folder 264 is connected on transfer block 263, the other end clamping transmission belt 265 of transmission folder 264, and energy With the synchronizing moving of transmission belt 265.
One end of transmission belt 265 is connected with the drive 262 in take-off plate 261, and the other end of transmission belt 265 and first is moved The drive 268 on driver 267 is sent to connect.First transfer driver 267 is fixed in take-off plate 261, and the first transfer drives Device 267 can order about transfer block 263 and be moved in take-off plate 261 by transmission belt 265 and drive.
Sliver folder 266 is fixed on one end of transfer block 263, and sliver folder 266 is located at the side of sliver cutting mechanism 27. In the present embodiment, after sliver band 202 is shaped, sliver folder 266 can clamp sliver band 202, and be driven by the first transfer Device 267 orders about sliver folder 266 and transfer block 263 is moved, until sliver band 202 passes through the preset length of sliver cutting mechanism 27.
Second transfer driver 269 is fixed on the fixed mount 242 of cold welding mechanism 24, and second transfers driver 269 and move Plate 261 is sent to connect, the second transfer driver 269 can order about take-off plate 261 and be moved on fixed mount 242.
The process that sliver transfer mechanism 26 of the present utility model transfers positive sliver 203 is comprised the following steps:
Step one, the second transfer driver 269 orders about take-off plate 261 and is moved with 202 direction towards near sliver, until Sliver band 202 stops driving in sliver folder 266, and now sliver folder 266 clamps sliver band 202;
Step 2, the first transfer driver 267 orders about transfer block 263 and sliver folder 266 is moved, until sliver band 202 is worn The preset length of sliver cutting mechanism 27 is crossed to stop driving;
Step 3, when sliver is made the part that sliver presss from both sides 266 clampings form positive sliver by sliver cutting mechanism 27 with 202 cut-outs 203, now second transfer driver 269 order about take-off plate 261 away from sliver band 202 direction movement return;
Step 4, the first transfer driver 267 orders about transfer block 263 and sliver folder 266 is moved again, until positive sliver Stop driving when 203 one end (such as the cut-out end of positive sliver 203) is alignd with the side of positive foil 102;
Step 5, the second transfer driver 269 orders about take-off plate 261 and is moved towards near the direction of cold welding driver 243, Until positive sliver 203 is located between the first cold welding block 244 of cold welding mechanism 24 and the second cold welding block 245, and make at positive sliver 203 In the top of cold welding groove 204.
It is noted that sliver transfer mechanism 26 of the present utility model when transferring positive sliver 203, it is necessary to avoid cold welding machine The first cold welding block 244 and the second cold welding block 245 of structure 24, prevent the cold welding block 244 of positive sliver 203 and first and the second cold welding block 245 collide, as shown in Figure 6.
Figure 12 is the structural representation of sliver cutting mechanism of the present utility model.As is illustrated by figs. 11 and 12, sliver cuts Mechanism 27 is arranged between sliver reshaping device 25 and cold welding mechanism 24, and in the present embodiment, sliver cutting mechanism 27 includes the One cuts component 272 and second cuts component 276, and first cuts component 272 cuts component 276 and be oppositely arranged with second, and One cuts component 272 is arranged at the second lower section for cutting component 276.
In the present embodiment, first cut component 272 and cut driving including the first briquetting 273, the first cutting knife 274 and first Device 275;First cutting knife 274 is connected to the side of the first briquetting 273;First cuts that driver 275 is fixed on fixed mount 242 Side, and first cut driver 275 and be connected with the first briquetting 273 and the first cutting knife 274, first cuts driver 275 can order about First briquetting 273 and the first cutting knife 274 are moved towards near sliver with 202 direction.Second cuts component 276 includes the second pressure Block 277, the second cutting knife 278 and second cut driver 279;Second cutting knife 278 is connected to the side of the second briquetting 277;Second The side that driver 279 is fixed on fixed mount 242 is cut, and second cuts the briquetting 277 of driver 279 and second and the second cutting knife 278 connections, second cuts driver 279 can order about the second briquetting 277 and the second cutting knife 278 towards close sliver with 202 side To movement, and sliver band 202 is fixed between the first briquetting 273 and the second briquetting 277, while the first cutting knife 274 and second Cutting knife 278 is closed and cuts off sliver band 202.
As shown in fig. 6, La Bo mechanisms 28 are arranged at the side of cold welding mechanism 24, La Bo mechanisms 28 are used in cold welding mechanism 24 Positive foil 102 is pulled into preset length after positive sliver 203 is welded in positive foil 102, until positive foil 102 is transported to positive paper tinsel Conveying mechanism 12.In the present embodiment, La Bo mechanisms 28 include that first draws paper tinsel wheel 282, second to draw paper tinsel wheel (not shown) and draw paper tinsel Driver (not shown).The wheel of the first drawing paper tinsel wheel 282 is in contact in the wheel with the second drawing paper tinsel wheel and sets or be disposed adjacent, positive paper tinsel Pass through between the wheel of the first drawing paper tinsel wheel 282 is in the wheel of the second drawing paper tinsel wheel with 102, draw paper tinsel driver to order about the first drawing paper tinsel Wheel 282 is rotated and pulls positive foil 102.
The step of refer to Fig. 6 to Figure 12, sliver cold welding processes of the present utility model includes:
Positive foil 102 is conveyed to cold welding mechanism 24 and La Bo mechanisms 28 using paper tinsel disk 22, and using sliver disk 23 to sliver The conveying sliver of reshaping device 25 band 202;
Using sliver reshaping device 25 to sliver 202 squeezing shapings of band;Specifically, using the first of sliver reshaping device 25 Shaping component 252 carries out first time squeezing shaping to sliver band 202, sliver band 202 is formed flat construction;Then sliver is utilized Second shaping component 254 of reshaping device 25 carries out second squeezing shaping to sliver band 202, sliver band 202 is formed flute profile Structure (such as U-lag structure);
Using the sliver band 202 after the clamping shaping of sliver transfer mechanism 26, and pull sliver band 202 through sliver guillotine The preset length of structure 27;Specifically, take-off plate 261 is ordered about towards leaning on using the second transfer driver 269 of sliver transfer mechanism 26 Nearly sliver is moved with 202 direction, until sliver band 202 stops driving in sliver folder 266, now sliver folder 266 is clamped Sliver band 202;Then order about transfer block 263 using the first transfer driver 267 of sliver transfer mechanism 26 and sliver folder 266 is moved It is dynamic, until sliver band 202 stops driving through the preset length of sliver cutting mechanism 27;
Sliver is formed into positive sliver with the part that 202 cut-outs clamp sliver transfer mechanism 26 using sliver cutting mechanism 27 203;Specifically, first using sliver cutting mechanism 27 cuts driver 275 and orders about the first briquetting 273 and the first cutting knife 274 Moved with 202 direction towards near sliver, while cutting driver 279 using the second of sliver cutting mechanism 27 orders about second The cutting knife 278 of briquetting 277 and second is moved towards near sliver with 202 direction, and sliver band 202 is fixed on into the first briquetting 273 and second between briquetting 277, while the first cutting knife 274 and the second cutting knife 278 are closed cutting off sliver band 202;
Positive sliver 203 is transferred to cold welding mechanism 24 using sliver transfer mechanism 26, and make one end of positive sliver 203 with just The side alignment of foil 102;Specifically, using sliver transfer mechanism 26 second transfer driver 269 order about take-off plate 261 to And move return with 202 direction away from sliver;Then shifting is ordered about using the first transfer driver 267 of sliver transfer mechanism 26 Block 263 and sliver folder 266 is sent to move again, until one end of positive sliver 203 stops driving when being alignd with the side of positive foil 102 It is dynamic;Then the second transfer driver 269 orders about take-off plate 261 towards near the movement of the direction of cold welding driver 243, until just leading Bar 203 is located between the first cold welding block 244 of cold welding mechanism 24 and the second cold welding block 245, and positive sliver 203 is in cold welding groove 204 top;
Using cold welding mechanism 24 by pressure by the cold welding of positive sliver 203 in positive foil 102;Specifically, using cold welding machine The cold welding driver 243 of structure 24 orders about the first cold welding block 244 and is moved towards near the direction of the second cold welding block 245, and by the Be welded on positive sliver 203 in positive foil 102 by the pressure that two cold welding blocks 245 and the extruding of the first cold welding block 244 are produced;And
Positive foil 102 is pulled after be welded in positive sliver 203 in positive foil 102 by cold welding mechanism 24 using La Bo mechanisms 28 Preset length, until the positive foil 102 that will weld positive sliver 203 is transported to positive paper tinsel conveying mechanism 12.
As shown in Figures 2 and 3, paper tinsel cold welding device 30 is born identical with the structure of positive paper tinsel cold welding device 20, in the present embodiment, The step of positive sliver 203 being transferred with reference to positive paper tinsel cold welding device 20, the negative negative sliver of the transfer of paper tinsel cold welding device 30 of the present utility model Process is comprised the following steps:
Step one, the second transfer driver orders about take-off plate towards near the movement of the direction of sliver band, until at sliver band In stopping driving in sliver folder, now sliver clamps sliver band;
Step 2, the first transfer driver orders about transfer block and sliver folder movement, until sliver band passes through sliver guillotine Structure preset length stops driving;
Step 3, when the cut-out of sliver band is made the part of sliver clamping form negative sliver by sliver cutting mechanism, first moves Send that driver orders about transfer block and sliver folder is moved again, until one end (such as bearing the cut-out end of sliver) of negative sliver and negative paper tinsel Stop driving when the side of band is alignd, now bear sliver and be located between the first cold welding block of cold welding mechanism and the second cold welding block, and Negative sliver is in the top of cold welding groove.
Figure 13 is the structural representation at the visual angle of sub-prime coiler device first of the present utility model.Figure 14 is of the present utility model The structural representation at the visual angle of sub-prime coiler device second.Figure 15 is the structure at the visual angle of sub-prime coiler device the 3rd of the present utility model Schematic diagram.As shown in Figure 13, Figure 14 and Figure 15, in the present embodiment, sub-prime coiler device 40 includes that volume needle shaft 42, first drives Mechanism 43, the second drive mechanism 44, guiding mechanism 45, the first cutting mechanism 46, the second cutting mechanism 47 and stock stop 48.
Figure 16 is the partial structural diagram of volume needle shaft of the present utility model.As shown in figure 16, volume needle shaft 42 includes volume pin Bar 422, volume pin 423 and volume pin mouth 426.Volume pin 423 is connected to the end of volume shank 422, and is coaxially disposed with volume shank 422; One end of volume pin mouth 426 is fixedly connected on the front of installing plate 10, and volume pin mouth 426 is with to roll up shank 422 coaxial and relative set Put, the pilot hole 401 through volume pin mouth 426, the axis of pilot hole 401 and the axis weight of volume pin hole 101 are provided with volume pin mouth 426 Close, volume pin 423 is passed through from the pilot hole 401 of the volume pin hole 101 with volume pin mouth 426 of installing plate 10.In the present embodiment, pin is rolled up 423 end is provided with the first rolling needle arm 424 and the second rolling needle arm 425, and the first rolling needle arm 424 is relative with the second rolling needle arm 425 to be set Put, and volume needle shaft 42, when winding forms capacitor element 100a, capacitance material (electrolytic paper) is in the first rolling needle arm 424 and the Between two rolling needle arms 425.It is noted that because the positive and negative sliver of the capacitor element 100a of winding making is located at respectively The two ends of capacitor element 100a, as shown in figure 5, accordingly, it would be desirable to volume pin 423 more long realizes the winding to capacitance material, this When volume pin mouth 426 be used to being oriented to volume pin 423 and stable roll pin 423 effect.
First drive mechanism 43 can order about volume needle shaft 42 and move, and capacitance material is in volume pin 423, and in volume needle shaft 42 capacitance material is wound into after capacitor element 100a order about volume pin 423 is extracted from capacitor element 100a, and first drive Motivation structure 43 can also order about the first cutting mechanism 46 and the second cutting mechanism 47 and be moved towards the direction of capacitance material, make positive foil 102nd, foil 103 is born to be respectively in the first cutting mechanism 46 and the second cutting mechanism 47.In the present embodiment, the first driving machine Structure 43 includes power transmission shaft 432, the first swing arm unit 433, the second swing arm unit 434, the first transmission component 435, the second transmission group Part 436, the first return spring 437 and the second return spring 438.
Further, power transmission shaft 432 is provided with the first eccentric wheel 4322 and the second eccentric wheel 4323, the first eccentric wheel 4322 It is connected to being oppositely arranged on power transmission shaft 432 with the second eccentric wheel 4323.In not embodiment, power transmission shaft 432 can be inclined with first The synchronous axial system of 4322 and second eccentric wheel of heart wheel 4323.
First swing arm unit 433 is arranged at the side of power transmission shaft 432, and including the first pedestal 4331 and the first swing arm 4332, one end of the first swing arm 4332 is articulated with the first pedestal 4331, and the other end of the first swing arm 4332 is provided with eccentric with first The roller that wheel 4322 is in contact.In the present embodiment, power transmission shaft 432 can order about the first swing arm 4332 by the first eccentric wheel 4322 Swung around hinged place.
Second swing arm unit 434 is arranged at the side of power transmission shaft 432, and including the second pedestal 4341 and the second swing arm 4342, one end of the second swing arm 4342 is articulated with the second pedestal 4341, and the other end of the second swing arm 4342 is provided with eccentric with second The roller that wheel 4323 is in contact.In the present embodiment, power transmission shaft 432 can order about the second swing arm 4342 by the second eccentric wheel 4323 Swung around hinged place.
One end of first transmission component 435 is connected with the first swing arm 4332, the other end and the guiding of the first transmission component 435 Mechanism 45 connects, and when the first swing arm 4332 swings, the first transmission component 435 can order about guiding mechanism 45 and move.In this implementation In example, the first transmission component 435 includes the first deflection post 4352, first connecting rod 4355 and second connecting rod 4356.First deflection post 4352 are provided with the first deflecting plates 4353 and the second deflecting plates 4354, the first deflecting plates 4353 and the second deflecting plates 4354 substantially phase Mutually it is vertically arranged, one end of the first deflecting plates 4353 and the second deflecting plates 4354 is fixed on the first deflection post 4352, and can be with The first deflection synchronous axial system of post 4352.One end of first connecting rod 4355 is connected with the first swing arm 4332, first connecting rod 4355 The other end is connected with the first deflecting plates 4353.One end of second connecting rod 4356 is connected with the second deflecting plates 4354, second connecting rod 4356 other end is connected with guiding mechanism 45.
One end of second transmission component 436 is connected with the second swing arm 4342, the other end and the volume pin of the second transmission component 436 Axle 42 is flexibly connected, and when the second swing arm 4342 swings, the second transmission component 436 can order about volume needle shaft 42 and move.In this implementation In example, the second transmission component 436 includes the second deflection post 4362, third connecting rod 4365, fixed seat 4366 and support block 4367.The Two deflection posts 4362 are provided with the 3rd deflecting plates 4363 and quadrupole deflector plate 4364, the 3rd deflecting plates 4363 and quadrupole deflector plate 4364 are generally perpendicular to each other setting, and one end of the 3rd deflecting plates 4363 and quadrupole deflector plate 4364 is fixed on the second deflection post 4362 On, and can be with the second deflection synchronous axial system of post 4362.One end of third connecting rod 4365 is connected with the second swing arm 4342, and the 3rd connects The other end of bar 4365 is connected with the 3rd deflecting plates 4363.Fixed seat 4366 is fixedly installed on the lower section of volume needle shaft 42, support block Realize that support block 4367 is movably attached fixed seat by the cooperation of chute and slide rail between 4367 and fixed seat 4366 On 4366, and the quadrupole deflector plate 4364 of the second deflection post 4362 is connected with support block 4367.In the present embodiment, needle shaft 42 is rolled up Set movably through support block 4367, volume needle shaft 42 can relative support block 4367 rotate, and volume needle shaft 42 can be with support The synchronizing moving of block 4367.
One end of first return spring 437 is fixedly installed, and the other end of the first return spring 437 and first deflects post 4352 The second deflecting plates 4354.In the present embodiment, after power transmission shaft 432 orders about guiding mechanism 45 to be displaced outwardly, the first return bullet Spring 437 can order about the movement return of guiding mechanism 45 by its own resilient.
One end of second return spring 438 is fixedly installed, and the other end of the second return spring 438 and second deflects post 4362 The 3rd deflecting plates 4363 connect.In the present embodiment, it is displaced outwardly when power transmission shaft 432 orders about volume needle shaft 42, and in volume needle shaft After capacitance material is wound into sub-prime by 42, the second return spring 438 can order about the movement return of support block 4367 by its own resilient.
Second drive mechanism 44 can order about volume pin 423 and rotate and for capacitance material to be wound into capacitor element 100a.In this reality Apply in example, the second drive mechanism 44 includes driving wheel 442, belt 443 and motor 444.The one end for rolling up needle shaft 42 passes through drive Driving wheel 442 is set, and belt 443 is connected between driving wheel 442 and motor 444, and motor 444 can be by belt 443 Volume needle shaft 42 is ordered about with driving wheel 442 to rotate.
Guiding mechanism 45 includes guide rail 452 and movable block 453.One end of guide rail 452 is fixed on the back side of installing plate 10, And positioned at the top of volume needle shaft 42.Movable block 453 is realized by the cooperation of chute and slide rail between movable block 453 and guide rail 452 It is movably attached on guide rail 452.The second connecting rod 4356 of the first transmission component 435 and the movable block 453 of guiding mechanism 45 Connection, the first drive mechanism 43 is ordered about movable block 453 and is moved on guide rail 452 by power transmission shaft 432.In the present embodiment, it is living Length direction of the moving direction of motion block 453 parallel to volume needle shaft 42.
The positive foil 102 that first cutting mechanism 46 is used to be attached thereto after capacitor element 100a coiling and moldings is cut It is disconnected.In the present embodiment, the first cutting mechanism 46 cuts driver 461, the first scissors 462, mounting post 465, biography including first Swing arm 466, the extension spring 468 of contiguous block 467 and first.
First cuts driver 461 is fixedly installed, and first cuts driver 461 can order about the completion shearing of the first scissors 462 Action.
Figure 17 is the structural representation of the first scissors of the present utility model.As shown in Figure 13, Figure 14, Figure 15 and Figure 17, the One scissors 462 determines the dynamic scissors 464 of scissors 463 and first including first.First middle part for determining scissors 463 and the first dynamic scissors 464 Middle part be hinged, first determines scissors 463 is provided with the first breach 402 for avoiding positive sliver near shearing end, and first moves Scissors 464 is provided with the second breach 403 for avoiding positive sliver near shearing end, and the first breach 402 is relative with the second breach 403 Set.First determines the movable block 453 that scissors 463 is connected to guiding mechanism 45, and can be with the synchronizing moving of movable block 453;First Dynamic scissors 464 is provided with roller away from the side of shearing end.In the present embodiment, when the first scissors 462 cuts positive foil 102, The first breach 402 and the second breach 403 on first scissors 462 can avoid positive sliver, prevent positive sliver from colliding the first scissors 462 And deform, bend.
One end of mounting post 465 is fixed on the back side of installing plate 10;The middle part of transmission arm 466 is articulated with mounting post 465, One end of transmission arm 466 cuts driver 461 and is connected with first, and the other end of transmission arm 466 is provided with roller;Contiguous block 467 sets The side of movable block 453 is placed in, contiguous block 467 is realized by the cooperation of chute and slide rail between contiguous block 467 and movable block 453 It is movably attached on movable block 453, the one end of contiguous block 467 is moved scissors 464 and is connected with the first of the first scissors 462, connects The other end of block 467 is resisted against on the roller of transmission arm 466;First extension spring 468 is connected to the contiguous block 467 and movable block 453 Between.In the present embodiment, when first cuts driver 461 orders about the swing of transmission arm 466, the upper roller of transmission arm 466 is promoted Contiguous block 467 is moved, and now first determines the dynamic closure of scissors 464 of scissors 463 and first and carry out shear action;Driving is cut when first When device 461 orders about transmission arm 466 and swings return, the first extension spring 468 moves return according to pulled by elasticity contiguous block 467, and now the Certain dynamic scissors 464 of scissors 463 and first opens.
The negative foil 103 that second cutting mechanism 47 is used to be attached thereto after capacitor element 100a coiling and moldings is cut It is disconnected.In the present embodiment, the second cutting mechanism 47 cuts driver 471, the second scissors 472, fixed block 475, support including second The extension spring 477 of plate 476 and second.
Fixed block 475 is fixed on the back side of installing plate 10, and second cuts driver 471 is fixed on fixed block 475, and Second cuts the drive end of driver 471 through fixed block 475 and is connected with supporting plate 476.Second scissors 472 is cut surely including second Knife 473 and second moves scissors 474, and the second middle part and the second middle part for moving scissors 474 for determining scissors 473 is hinged.Second determines Scissors 473 is connected to the movable block 453 of guiding mechanism 45, and can be with the synchronizing moving of movable block 453;Second dynamic scissors 474 is remote Roller is provided with from the side of shearing end, and roller is pressed on supporting plate 476.Determine scissors 473 with second and connect in one end of second extension spring 477 Connect, the other end of the second extension spring 477 is connected with the second dynamic scissors 474.In the present embodiment, when second cuts driver 471 and drive When making supporting plate 476 towards near the movement of the direction of fixed block 475, second determines the dynamic closure of scissors 474 of scissors 473 and second is cut Cut action;After the completion of shear action, the second extension spring 477 moves the movement return of scissors 474, now second according to pulled by elasticity second Determine the dynamic scissors 474 of scissors 473 and second to open.
Figure 18 is the partial structural diagram of sub-prime coiler device of the present utility model.As shown in figure 18, in the present embodiment In, stock stop 48 is connected to the front of installing plate 10, and positioned at the top of volume needle shaft 42, stock stop 48 includes striker plate 482 and backgauge driver 483.Striker plate 482 is provided with backgauge groove 404 near one end of volume pin 423, and backgauge driver 483 can drive Striker plate 482 is moved towards near the direction of volume pin 423, volume pin 423 is in backgauge groove 404, and make coiling and molding Capacitor element 100a is in the side (striker plate 482 is located between installing plate 10 and capacitor element 100a) of striker plate 482. In the present embodiment, diameter of the width of striker plate 482 less than capacitor element 100a, when backgauge driver 483 orders about backgauge When the movement of plate 482 makes volume pin 423 be in backgauge groove 404, positive sliver 203 on capacitor element 100a is from striker plate 482 Side is passed through;When the first drive mechanism 43 order about volume needle shaft 42 away from striker plate 482 direction movement, will volume pin 423 from When being extracted out in capacitor element 100a, due to roll up pin 423 the first rolling needle arm 424 and the second rolling needle arm 425 closely and electric capacity Material can produce larger frictional force wound on together between the first rolling needle arm 424 and the second rolling needle arm 425 and capacitance material, First rolling needle arm 424 and the second rolling needle arm 425 drive capacitor element 100a moving contact striker plates 482 backward, now backgauge Plate 482 can prevent the positive sliver 203 on capacitor element 100a from being bent with object collision, deformed.
Figure 19 is the schematic flow sheet of capacitor manufacturing method of the present utility model.As shown in figure 19, in the present embodiment, The step of capacitor manufacturing method makes capacitor element 100a, capacitor manufacturing method using above-mentioned capacitor fabrication system Including:
Electrolytic paper is clamped using draw mechanism 16, and pulls electrolytic paper through pulleying pin hole 101;Specifically, draw driver 164 order about draw folder 162 is moved to the first paper feed part 14 and clamps the electrolytic paper stretched out from paper groove, and pulls electrolytic paper through pulleying The pilot hole 401 of pin mouth 426;
The volume pin 423 ordered about on volume needle shaft 42 using sub-prime coiler device 40 passes through volume pin hole 101, electrolytic paper is in volume In the gap of pin 423, when the volume fully extended 101 post-tensioning mechanism of paper of volume pin hole 16 of pin 423 unclamps electrolytic paper;Specifically, using element First drive mechanism 43 of sub- coiler device 40 is ordered about volume needle shaft 42 and is moved, and the volume pin 423 on volume needle shaft 42 is successively from volume pin hole 101 and pilot hole 401 in pass through, make electrolytic paper be in volume pin 423 the first rolling needle arm 424 and the second rolling needle arm 425 between In gap, when the volume fully extended volume pin hole 101 of pin 423 and 401 post-tensioning mechanism of paper of pilot hole 16 unclamp electrolytic paper;
Sliver is welded in positive foil 102 using positive paper tinsel cold welding device 20, and the positive foil 102 of sliver will be welded and conveyed To positive paper tinsel conveying mechanism 12, while sliver is welded in negative foil 103 using negative paper tinsel cold welding device 30, and sliver will be welded Negative foil 103 is delivered to negative paper tinsel conveying mechanism 13;
Volume pin 423 is ordered about using sub-prime coiler device 40 to rotate, while using positive paper tinsel conveying mechanism 12 that positive foil 102 is defeated Deliver at volume pin 423, be delivered to negative foil 103 at volume pin 423 by negative paper tinsel conveying mechanism 13, volume pin 423 is by positive foil 102, negative Foil 103 and electrolytic paper are wound into capacitor element 100a;
Electrolytic paper is cut off using the hand papercutter 172 of paper cutting mechanism 17, while using the sub-prime compressing tablet 174 of paper cutting mechanism 17 It is pressed on capacitor element 100a;Specifically, will be connected with the first paper feed part 14 using the hand papercutter 172 using paper cutting mechanism 17 Electrolytic paper cut-out, while being pressed on capacitor element 100a using the sub-prime compressing tablet 174 of paper cutting mechanism 17;Then first is utilized The power transmission shaft 432 of drive mechanism 43 orders about the first swing arm 4332 and swings, and the first swing arm 4332 pulls the first transmission component 435 to order about Movable block 453, the first scissors 462 and the second scissors 472 are moved towards near the direction of capacitance material, and are made at positive foil 102 In in the first scissors 462, negative foil 103 and electrolytic paper are in the second scissors 472;First cut driver 461 and order about afterwards First scissors 462 cuts positive foil 102, and second cuts driver 471 orders about the second scissors 472 and cut negative foil 103 and with the The electrolytic paper of the connection of two paper feed part 14;
Using the rubberizing on capacitor element 100a of adhesive tape rubberizing mechanism 18, the shape of fixed capacity device sub-prime 100a;And
192 clamp capacitance device sub-prime 100a are pressed from both sides using the sub-prime of element carrying mechanism 19, and capacitor element 100a is removed It is transported to material-storing box.
The installing plate 10 of capacitor fabrication system 100 of the present utility model is provided with positive paper tinsel conveying mechanism 12, negative paper tinsel conveying Mechanism 13 and draw mechanism 16, positive paper tinsel conveying mechanism 12 are oppositely arranged with negative paper tinsel conveying mechanism 13, and installing plate 10 is provided with and runs through The volume pin hole 101 of installing plate 10, volume pin hole 101 is located between positive paper tinsel conveying mechanism 12 and negative paper tinsel conveying mechanism 13, positive paper tinsel conveying Mechanism 12 is used to be delivered to positive foil at volume pin hole 101, and negative paper tinsel conveying mechanism 13 is used to for negative foil to be delivered to volume pin hole 101 Place, draw mechanism 16 is used to clamp electrolytic paper, and pulls electrolytic paper through pulleying pin hole 101;Positive paper tinsel cold welding device 20 is used to lead Bar is welded in positive foil, and will be welded the positive foil of sliver and be delivered to positive paper tinsel conveying mechanism 12;Negative paper tinsel cold welding device 30 is used for Sliver is welded in negative foil, and the negative foil of sliver will be welded and be delivered to negative paper tinsel conveying mechanism 13;Sub-prime coiler device 40 Including volume needle shaft 42, the end for rolling up needle shaft 42 is provided with volume pin 423, and volume pin 423 may pass through volume pin hole 101, and by positive foil, negative paper tinsel Band and electrolytic paper are wound into capacitor element.Therefore, on the energy of capacitor fabrication system of the present utility model 100 full-automatic mechanical Material, and making capacitor element is wound, production efficiency is high, has saved time cost.
Preferred embodiment of the present utility model is described in detail above in association with accompanying drawing, but the utility model is not limited to Detail in above-mentioned implementation method, in range of the technology design of the present utility model, can be to technology of the present utility model Scheme carries out various simple variants, and these simple variants belong to protection domain of the present utility model.In above-mentioned specific embodiment party Each particular technique feature described in formula, in the case of reconcilable, can be combined by any suitable means. In order to avoid unnecessary repetition, the utility model is no longer separately illustrated to various possible combinations.

Claims (9)

1. a kind of capacitor fabrication system, it is characterised in that, including:
Installing plate (10), the installing plate (10) is provided with positive paper tinsel conveying mechanism (12), negative paper tinsel conveying mechanism (13) and draw mechanism (16), the positive paper tinsel conveying mechanism (12) is oppositely arranged with the negative paper tinsel conveying mechanism (13), and the installing plate (10) is provided with to run through and is somebody's turn to do The volume pin hole (101) of installing plate (10), the volume pin hole (101) is positioned at the positive paper tinsel conveying mechanism (12) and the negative paper tinsel conveying mechanism (13) between, the positive paper tinsel conveying mechanism (12) by positive foil for being delivered to volume pin hole (101) place, the negative paper tinsel conveying mechanism (13) for negative foil to be delivered into volume pin hole (101) place, the draw mechanism (16) pulls electrolysis for clamping electrolytic paper Paper passes through the volume pin hole (101);
Positive paper tinsel cold welding device (20), the positive paper tinsel cold welding device (20) will weld sliver for sliver to be welded on into positive foil Positive foil be delivered to the positive paper tinsel conveying mechanism (12);
Negative paper tinsel cold welding device (30), the negative paper tinsel cold welding device (30) will weld sliver for sliver to be welded on into negative foil Negative foil be delivered to the negative paper tinsel conveying mechanism (13);And
Sub-prime coiler device (40), the sub-prime coiler device (40) includes volume needle shaft (42), and the end of the volume needle shaft (42) is provided with Volume pin (423), the volume pin (423) may pass through the volume pin hole (101), and positive foil, negative foil and electrolytic paper are wound into electric capacity Device sub-prime.
2. capacitor fabrication system as claimed in claim 1, it is characterised in that, the positive paper tinsel conveying mechanism (12) is defeated including first Plate (122) and the first blocking arm (124) are sent, first delivery board (122) can be towards closer or far from the volume pin hole (101) movement Be connected on the installing plate (10), first blocking arm (124) is arranged at the top of first delivery board (122), and this Be pressed in positive foil on first delivery board (122) by one end of one blocking arm (124);The negative paper tinsel conveying mechanism (13) is including second Delivery board (132) and the second blocking arm (134), second delivery board (132) can be moved towards closer or far from the volume pin hole (101) It is connected to dynamicly on the installing plate (10), second blocking arm (134) is arranged at the top of second delivery board (132), and should Be pressed in negative foil on second delivery board (132) by one end of the second blocking arm (134).
3. capacitor fabrication system as claimed in claim 2, it is characterised in that, the draw mechanism (16) includes draw folder (162) and draw driver (164), draw folder (162) is arranged at the lower section of the positive paper tinsel conveying mechanism (12), the installing plate (10) the first paper feed part (14) and the second paper feed part (15) are additionally provided with, first paper feed part (14) is arranged at the negative paper tinsel conveyer The top of structure (13), second paper feed part (15) is arranged at the lower section of the negative paper tinsel conveying mechanism (13), and draw driver (164) can Order about draw folder (162) and be moved to first paper feed part (14) clamping electrolytic paper, and pull electrolytic paper to pass through the volume pin hole (101);Second paper feed part (15) includes pressboard (152) and platen driver (154), the pressboard (152) with this second Delivery board (132) is oppositely arranged, and the platen driver (154) can order about the pressboard (152), and that electrolytic paper is pressed in into this is second defeated Send on plate (132).
4. capacitor fabrication system as claimed in claim 3, it is characterised in that, it is additionally provided with paper cutting mechanism on the installing plate (10) (17), the paper cutting mechanism (17) is arranged at the top of the positive paper tinsel conveying mechanism (12), and the paper cutting mechanism (17) is including hand papercutter (172), sub-prime compressing tablet (174) and cut paper driver (176), the hand papercutter (172) are connected with the sub-prime compressing tablet (174), and should One end of sub-prime compressing tablet (174) is opened away from the direction of the hand papercutter (172), and the cut paper driver (176) can order about this Hand papercutter (172) and the sub-prime compressing tablet (174) cut off the hand papercutter (172) towards near the movement of the direction of capacitor element The electrolytic paper being connected with first paper feed part (14), and the sub-prime compressing tablet (174) is pressed on capacitor element.
5. capacitor fabrication system as claimed in claim 4, it is characterised in that, the sub-prime coiler device (40) also includes first Drive mechanism (43), the second drive mechanism (44) and stock stop (48), first drive mechanism (43) can order about the volume pin (423) through the volume pin hole (101), and electrolytic paper is made to be in the gap of the volume pin (423), second drive mechanism (44) can Order about the volume pin (423) rotation and positive foil, negative foil and electrolytic paper are wound into capacitor element, the stock stop (48) includes Striker plate (482) and backgauge driver (483), the striker plate (482) are provided with backgauge groove (404) near one end of the volume pin, should Backgauge driver (483) can order about the striker plate (482) movement, make the volume pin (423) in the backgauge groove (404), and make Capacitor element be in striker plate (482) side, first drive mechanism (43) can order about the volume needle shaft (42) away from The direction movement of the striker plate (482), the volume pin (423) is extracted out from capacitor element.
6. capacitor fabrication system as claimed in claim 5, it is characterised in that, the volume needle shaft (42) includes volume shank (422) With volume pin mouth (426), the volume pin (423) is connected to the end of the volume shank (422), and volume pin mouth (426) is connected to the installation Pilot hole (401) is provided with plate (10), in volume pin mouth (426), the axis of the pilot hole (401) and the volume pin hole (101) Axis overlaps, and first drive mechanism (43) can order about the volume pin (423) from the volume pin hole (101) of the installing plate (10) and the volume Passed through in the pilot hole (401) of pin mouth (426).
7. capacitor fabrication system as claimed in claim 6, it is characterised in that, the sub-prime coiler device (40) also includes first Cutting mechanism (46) and the second cutting mechanism (47), volume pin mouth (426) is positioned at first cutting mechanism (46) and second sanction Cut between mechanism (47), first cutting mechanism (46) cuts driver (461) and the first scissors (462) including first, this One cuts driver (461) can order about the positive foil that first scissors (462) closure cuts the first delivery board (122) front end; Second cutting mechanism (47) cuts driver (471) and the second scissors (472) including second, and this second cuts driver (471) negative foil and electrolytic paper that second scissors (472) closure cuts the second delivery board (132) front end can be ordered about.
8. capacitor fabrication system as claimed in claim 1, it is characterised in that, the positive paper tinsel cold welding device (20) is cold with the negative paper tinsel The structure of welder (30) is identical, and the positive paper tinsel cold welding device (20) includes cold welding mechanism (24), sliver transfer mechanism (26), sliver Cutting mechanism (27) and La Bo mechanisms (28), the sliver transfer mechanism (26) pull sliver band to pass through for clamping sliver band Sliver cutting mechanism (27) preset length, the sliver cutting mechanism (27) by the cut-out of sliver band for making the sliver transfer mechanism (26) part of clamping forms sliver, and sliver can be transferred to the cold welding mechanism (24) by the sliver transfer mechanism (26), and make to lead One end of bar is alignd with the side of positive foil, and be welded on sliver in positive foil by pressure by the cold welding mechanism (24), the drawing paper tinsel Mechanism (28) is delivered to the positive paper tinsel conveying mechanism (12) for will weld the positive foil of sliver.
9. capacitor fabrication system as claimed in claim 8, it is characterised in that, the positive paper tinsel cold welding device (20) also includes sliver Reshaping device (25), the sliver reshaping device (25) includes the first shaping component (252) and the second shaping component (254), and this One shaping component (252) makes sliver band form flat construction, second shaping for carrying out first time squeezing shaping to sliver band Component (254) makes sliver band form bathtub construction, the sliver transfer mechanism for carrying out second squeezing shaping to sliver band (26) for clamping the sliver band after shaping, and sliver band is pulled to pass through sliver cutting mechanism (27) preset length.
CN201621321553.8U 2016-12-02 2016-12-02 Capacitor fabrication system Withdrawn - After Issue CN206210624U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
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Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201621321553.8U CN206210624U (en) 2016-12-02 2016-12-02 Capacitor fabrication system

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106409537A (en) * 2016-12-02 2017-02-15 深圳市兴诚捷精密设备有限公司 Capacitor manufacturing system and capacitor manufacturing method
CN111341563A (en) * 2020-05-19 2020-06-26 深圳市诚捷智能装备股份有限公司 Capacitor liquid coating device and capacitor preparation method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106409537A (en) * 2016-12-02 2017-02-15 深圳市兴诚捷精密设备有限公司 Capacitor manufacturing system and capacitor manufacturing method
CN111341563A (en) * 2020-05-19 2020-06-26 深圳市诚捷智能装备股份有限公司 Capacitor liquid coating device and capacitor preparation method
CN111341563B (en) * 2020-05-19 2020-10-16 深圳市诚捷智能装备股份有限公司 Capacitor liquid coating device and capacitor preparation method

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Address after: 518107 64 B, Fourth Industry Zone, Mashan community, Gongming office, Guangming District, Shenzhen, Guangdong

Patentee 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

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Granted publication date: 20170531

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