CN108715038A - Stretchable electronic device preparation structure - Google Patents
Stretchable electronic device preparation structure Download PDFInfo
- Publication number
- CN108715038A CN108715038A CN201810476665.8A CN201810476665A CN108715038A CN 108715038 A CN108715038 A CN 108715038A CN 201810476665 A CN201810476665 A CN 201810476665A CN 108715038 A CN108715038 A CN 108715038A
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- CN
- China
- Prior art keywords
- electric cylinders
- motor box
- die ontology
- further include
- slide unit
- Prior art date
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H37/00—Article or web delivery apparatus incorporating devices for performing specified auxiliary operations
- B65H37/04—Article or web delivery apparatus incorporating devices for performing specified auxiliary operations for securing together articles or webs, e.g. by adhesive, stitching or stapling
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K1/00—Printed circuits
- H05K1/02—Details
- H05K1/0277—Bendability or stretchability details
- H05K1/028—Bending or folding regions of flexible printed circuits
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K1/00—Printed circuits
- H05K1/02—Details
- H05K1/0277—Bendability or stretchability details
- H05K1/0283—Stretchable printed circuits
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/10—Handled articles or webs
- B65H2701/19—Specific article or web
- B65H2701/1928—Printing plate
Landscapes
- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Textile Engineering (AREA)
- Manipulator (AREA)
- Toys (AREA)
- Container, Conveyance, Adherence, Positioning, Of Wafer (AREA)
Abstract
The invention discloses a kind of stretchable electronic device preparation structures,It includes hold-down devices and bottom elevation device,The hold-down devices include the second motor box and the second sliding shoe,The second sliding shoe, which is located on second motor box, to be slided,It further include transfer block,The transfer block is equipped with the first piezoelectric micromotion heap,The first piezoelectric micromotion heap is equipped with set of molds,The set of molds includes die cover plate and die ontology,The die ontology is equipped with groove,Pin hole is equipped in the groove,The die ontology is equipped with the lines in latticed protrusion,The die ontology connects mouth equipped with vacuum,The bottom elevation device includes the second servo electric cylinders and the second electric cylinders slide unit,It further include the second drive link,Second drive link is connect with the power output end of the second servo electric cylinders,The top surface of the second electric cylinders slide unit is equipped with the second piezoelectric micromotion heap,The second piezoelectric micromotion heap is located at the underface of the die ontology;The present invention has efficient, inexpensive feature.
Description
Technical field
The present invention relates to electronic device preparing technical fields, more particularly to a kind of stretchable electronic device preparation structure.
Background technology
With the development of electronics industry, stretchable electronic device gradually comes into the visual field of people, stretchable electronic device tool
The features such as flexible, flexible and stretchable, therefore suitable for wearable device, stretchable displayer part and there is bio-compatible
Property the emerging fields such as medical device, there is huge practical value.
But it is existing in stretchable electronic device prepare, often prepared using roller rolls in such a way that, and utilize photoetching
With the preparations such as laser ablation, there are cost of manufacture costlinesses, expend the time, are not suitable for large-scale production, while both preparation sides
Method all can all cause different degrees of damage to electric substrate film, influence the quality and reliability of stretchable electronic device.
Invention content
It is an object of the invention to overcome disadvantages described above, provide a kind of with efficient, inexpensive, suitable big rule
The stretchable electronic device draft machine of mould production.
To achieve the above object, concrete scheme of the invention is as follows:
A kind of stretchable electronic device preparation structure, includes support plate;
Further include material catching apparatus, the material catching apparatus is fixed on one end of the support plate;The material catching apparatus includes first
Motor box, the first motor box are fixed in the support plate, are set side by side on the first motor box there are two First Line rail,
Further include the first sliding shoe of T shapes, the bottom surface of the transverse arm of first sliding shoe is installed with the first sliding block respectively, and described first slides
Block is slidably connected together with the First Line rail, and the top surface of first sliding shoe is equipped with the first servo electric cylinders, and described first
The upper surface of servo electric cylinders is equipped with the first sliding groove, further includes L-shaped the first electric cylinders slide unit, the long-armed bottom of the first electric cylinders slide unit
Face is equipped with the first cord, and first cord and the first sliding groove are slidably connected together, the first electric cylinders slide unit it is short
The front of arm is equipped with the first drive link, and first drive link is connect with the power output end of the first servo electric cylinders, described
The back side of the galianconism of first electric cylinders slide unit is equipped with material grasping head;
Further include hold-down devices, the hold-down devices are fixed on the other end of the support plate;The hold-down devices include L-shaped
One end of mounting base, the mounting base is fixed in the support plate, and the mounting base is equipped with reinforcing plate, further includes the second motor
Box, second motor box are fixed on the other end of the mounting base, are set side by side on second motor box there are two the second line
Rail further includes the second sliding shoe of T shapes, and the bottom surface of the transverse arm of the second sliding shoe is installed with the second sliding block respectively, further includes L
The galianconism of the transfer block of shape, the transfer block is fixed on the top surface of the second sliding shoe, the long-armed bottom of the transfer block
Face is equipped with the first piezoelectric micromotion heap, and the lower surface of the first piezoelectric micromotion heap is equipped with set of molds, and the set of molds includes
Die cover plate and die ontology, the die ontology are equipped with the groove of rectangle, several pin holes, the pin hole are equipped in the groove
Through the die ontology, it is formed with a cavity after the die cover plate and die ontology cooperation, the die ontology
Lower surface is equipped with the lines in latticed protrusion, and the side of the die ontology connects mouth equipped with vacuum, and the vacuum connects mouth and institute
State groove connection;
The support plate is additionally provided with the square hole of rectangle, and the material grasping head is located at the side of the square hole, and the square hole is located at described
Further include bottom elevation device between material catching apparatus and the hold-down devices;The bottom elevation device includes the second servo electricity
The one side of cylinder, the second servo electric cylinders is equipped with second sliding slot, and the another side of the second servo electric cylinders is equipped with L-shaped solid
Fixed board, the fixed plate are fixedly connected with the bottom surface of the support plate, and the fixed plate is additionally provided with reinforcing plate, further include L-shaped
The long-armed back side of second electric cylinders slide unit, the second electric cylinders slide unit is equipped with the second cord, second cord and described second
Sliding slot is slidably connected together, and the bottom surface of the galianconism of the second electric cylinders slide unit is equipped with the second drive link, second drive link
It is connect with the power output end of the second servo electric cylinders, the top surface of the other end of the second electric cylinders slide unit is equipped with the second pressure
Electric fine motion heap, the second piezoelectric micromotion heap are located at the underface of the die ontology;
Further include feed device, the feed device is located at the other side of the square hole, and the feed device is fixed on the branch
On fagging;The feed device includes two roller bearings arranged in parallel, and the roller bearing is mounted in the support plate,
Two roller bearings are connected with three groups of power drums, and power drum is arranged close to the die ontology described in one of which,
Power drum is triangularly arranged described in three groups;
It further include transmission device;The transmission device includes feed belt and two live rollers, and the feed belt is sleeved on
On two live rollers, the both ends of the live roller are connected with bearing block respectively.
As a preferred embodiment of the present invention, the both ends of the first motor box are respectively equipped with first end cover board, described
First end cover board is detachably connected with the first motor box.
As a preferred embodiment of the present invention, the both ends of second motor box are respectively equipped with second end cover board, described
Second end cover board is detachably connected with second motor box.
Beneficial effects of the present invention are:The present invention is using the lines that latticed protrusion is arranged on die ontology, die cover plate
Confined space is formed with die ontology, and mouth is connect by vacuum, confined space is become vacuum state, no shadow elastic rubber belt is made to inhale
It is attached on the lines of latticed protrusion, then piezoelectric micromotion heap is utilized to push electric substrate film, make electric substrate film and no shadow
Elastic rubber belt contacts, and the part that electric substrate film is contacted with no shadow elastic rubber belt can be bonded with no shadow elastic rubber belt, not have being and not being
The part of shadow elastic rubber belt contact will not be bonded with no shadow elastic rubber belt, when no shadow elastic rubber belt discharges elongation strain, no shadow
Elastic rubber belt is shunk, and the part that convergent force makes electric substrate film not have being and not being shadow elastic rubber belt to bond bends, and to arch
It rises, forms latticed pleated structure, the stretchable electronic device tensility prepared is stronger, and quality is more reliable, and performance is more
Uniform, stability is more preferable, and the present invention is finely adjusted using piezoelectric micromotion heap, and electric substrate film is made to be bonded with no shadow elastic rubber belt,
It avoids roller and rolls and cause electric substrate membrane damage, ensure the quality and reliability of stretchable electronic device;The present invention has
Efficient, inexpensive feature is suitble to large-scale production.
Description of the drawings
Fig. 1 is the structural schematic diagram of the present invention;
Fig. 2 is the structural schematic diagram at another visual angle of the present invention;
Fig. 3 is the vertical view of the present invention;
Fig. 4 is the structural schematic diagram of material catching apparatus of the present invention;
Fig. 5 is the structural schematic diagram of hold-down devices of the present invention;
Fig. 6 is the structural schematic diagram at another visual angle of hold-down devices of the present invention;
Fig. 7 is the enlarged diagram at I in Fig. 6;
Fig. 8 is the decomposition texture schematic diagram of inventive die group;
Fig. 9 is the structural schematic diagram of bottom elevation device of the present invention;
Reference sign:12- support plates;21- first motor boxes;211- first end cover boards;22- First Line rails;23- first
Sliding shoe;The first sliding blocks of 24-;25- the first servo electric cylinders;251- the first sliding grooves;26- the first electric cylinders slide units;The first cords of 261-;
The first drive links of 262-;263- material grasping heads;31- mounting bases;The second motor box of 32-;321- second end cover boards;33- the second line rails;
34- the second sliding shoes;The second sliding blocks of 35-;36- transfer blocks;37- the first piezoelectric micromotion heaps;381- die cover plates;382- mold sheets
Body;3821- lines;3822- pin holes;383- vacuum connects mouth;41- the second servo electric cylinders;411- second sliding slots;412- fixed plates;
42- the second electric cylinders slide units;The second cords of 421-;The second drive links of 422-;43- the second piezoelectric micromotion heaps;51- roller bearings;52-
Power drum;61- feed belts;62- live rollers;63- bearing blocks.
Specific implementation mode
The present invention is described in further detail in the following with reference to the drawings and specific embodiments, is not the reality the present invention
It applies range and is confined to this.
As shown in Figures 1 to 9, a kind of stretchable electronic device preparation structure described in the present embodiment, includes support plate
12;
Further include material catching apparatus, the material catching apparatus is fixed on one end of the support plate 12;The material catching apparatus includes
One motor box 21, the first motor box 21 are fixed in the support plate 12, are equipped with two on the first motor box 21 side by side
A First Line rail 22, further includes the first sliding shoe 23 of T shapes, and the bottom surface of the transverse arm of first sliding shoe 23 is installed with respectively
One sliding block 24, first sliding block 24 are slidably connected together with the First Line rail 22, and the first motor box 21 is equipped with and is used for
Drive the device of 23 back and forth movement of the first sliding shoe, the top surface of first sliding shoe 23 that first servo electric cylinders are installed
25, the upper surfaces of the first servo electric cylinders 25 is equipped with the first sliding groove 251, further includes the first electric cylinders of L-shaped slide unit 26, and described first
The long-armed bottom surface of electric cylinders slide unit 26 is equipped with the first cord 261, and first cord 261 connects with the sliding of the first sliding groove 251
Be connected together, the front of the galianconism of the first electric cylinders slide unit 26 is equipped with the first drive link 262, first drive link 262 with
The power output end of the first servo electric cylinders 25 connects, and the back side of the galianconism of the first electric cylinders slide unit 26 is equipped with material grasping head
263;
Further include hold-down devices, the hold-down devices are fixed on the other end of the support plate 12;The hold-down devices include L-shaped
Mounting base 31, one end of the mounting base 31 is fixed in the support plate 12, and the mounting base 31 is equipped with reinforcing plate, also wraps
Include the second motor box 32, second motor box 32 is fixed on the other end of the mounting base 31, on second motor box 32
It is set side by side there are two the second line rail 33, further includes the second sliding shoe 34 of T shapes, the bottom surface point of the transverse arm of the second sliding shoe 34
It is not installed with the second sliding block 35, second motor box 32 is equipped with the dress for driving 34 back and forth movement of the second sliding shoe
It sets, further includes L-shaped transfer block 36, the galianconism of the transfer block 36 is fixed on the top surface of the second sliding shoe 34, described
The long-armed bottom surface of transfer block 36 is equipped with the first piezoelectric micromotion heap 37, and the lower surface of the first piezoelectric micromotion heap 37 is equipped with
Set of molds, the set of molds include die cover plate 381 and die ontology 382, and the die ontology 382 is equipped with the groove of rectangle,
Be equipped with several pin holes 3822 in the groove, the pin hole 3822 runs through the die ontology 382, the die cover plate 381 with
The die ontology 382 is formed with a cavity after coordinating, the lower surface of the die ontology 382 is equipped with the line in latticed protrusion
The side on road 3821, the die ontology 382 connects mouth 383 equipped with vacuum, and the vacuum connects mouth 383 and is connected to the groove;
The support plate 12 is additionally provided with the square hole of rectangle, and the material grasping head 263 is located at the side of the square hole, and the square hole is located at
Further include bottom elevation device between the material catching apparatus and the hold-down devices;The bottom elevation device is watched including second
Electric cylinders 41 are taken, the one side of the second servo electric cylinders 41 is equipped with second sliding slot 411, the other side of the second servo electric cylinders 41
Face is equipped with L-shaped fixed plate 412, and the fixed plate 412 is fixedly connected with the bottom surface of the support plate 12, the fixed plate 412
It is additionally provided with reinforcing plate, further includes L-shaped second electric cylinders slide unit 42, the long-armed back side of the second electric cylinders slide unit 42 is equipped with second
Cord 421, second cord 421 and the second sliding slot 411 are slidably connected together, the second electric cylinders slide unit 42 it is short
The bottom surface of arm is equipped with the second drive link 422, and second drive link 422 and the power output end of the second servo electric cylinders 41 connect
It connects, the top surface of the galianconism of the second electric cylinders slide unit 42 is equipped with the second piezoelectric micromotion heap 43, the second piezoelectric micromotion heap 43
Positioned at the underface of the die ontology 382;
Further include feed device, the feed device is located at the other side of the square hole, and the feed device is fixed on the branch
On fagging 12;The feed device includes two roller bearings 51 arranged in parallel, and the roller bearing 51 is mounted on the branch
On fagging 12, two roller bearings 51 are connected with three groups of power drums 52, and power drum 52 is close to institute described in one of which
The setting of die ontology 382 is stated, power drum 52 described in three groups is triangularly arranged;
It further include transmission device;The transmission device includes feed belt 61 and two live rollers 62, the feed belt
61 are sleeved on two live rollers 62, and the both ends of the live roller 62 are connected with bearing block 63 respectively.
The working method of the present embodiment is:No shadow elastic rubber belt is in tensional state, and the hold-down devices explore downward to no shadow
Above elastic rubber belt, distance stops driving without the second motor box 32 after shadow elastic rubber belt certain distance, then the first piezoelectric micromotion
Heap 37 works, and the lower surface of the die ontology 382 is made to be contacted with no shadow elastic rubber belt, the die cover plate 381 and the mould
Tool ontology 382 forms confined space after coordinating, and connecing mouth 383 by the vacuum is evacuated confined space so that the needle
Hole 3822 is in negative pressure state, and is bonded, is adsorbed on the lines 3821 of latticed protrusion without shadow elastic rubber belt, completes preliminary
Shaping work;Then the bottom elevation device rises, and drives the second piezoelectric micromotion heap 43 close to electric substrate film, when away from
The second servo electric cylinders 41 stop driving after with a certain distance from electric substrate film, and then the second piezoelectric micromotion heap 43 works, band
It is visited on dynamic electric substrate film, the part that electric substrate film is contacted with no shadow elastic rubber belt can be bonded with no shadow elastic rubber belt, electronics
The part that substrate film there is not being and not being shadow elastic rubber belt to contact will not be bonded with no shadow elastic rubber belt, and completion is bonded with electric substrate film
Molding;After completing fitting sizing, the die ontology 382 releases vacuum negative pressure condition, and the hold-down devices drive the mold
Ontology 382 moves up, while the material catching apparatus stretches out, and the material grasping head 263 clamps the stretchable electronics that fitting sizing is completed
Device, under the driving of the first motor box 21, the material grasping head 263 drives the stretchable electronics device that fitting sizing is completed
Part is moved to above the transmission device, after the stretchable electronic device cut-out of fitting sizing is completed, no shadow elastic rubber belt
Elongation strain is discharged, no shadow elastic rubber belt is shunk, and convergent force makes the part for not having being and not being shadow elastic rubber belt to bond bend, and
It arches upward upwards, forms latticed pleated structure, the stretchable electronic device with latticed fold of preparation is by the transmission
Band transfer, that is, complete stretchable electronic device whole preparation process.
The present embodiment makes no shadow using the lines 3821 that latticed protrusion is arranged on die ontology 382 using air pressure principle
Elastic rubber belt is adsorbed on the lines 3821 of latticed protrusion, and the stretchable electronic device tensility prepared is stronger, quality
More reliable, performance is more uniform, and stability is more preferable, and the present embodiment is finely adjusted using piezoelectric micromotion heap, makes electric substrate film and nothing
Shadow elastic rubber belt bonds, and avoids and is damaged caused by rolling electric substrate film using roller, ensures the matter of stretchable electronic device
Amount and reliability;The present embodiment has efficient, inexpensive feature, is suitble to large-scale production.
On the basis of above-described embodiment, further, the both ends of the first motor box 21 are respectively equipped with first end
Cover board 211 prevents first sliding shoe 23 from falling off from the First Line rail 22, the first end cover board 211 and described the
One motor box 21 is detachably connected, ease of assembly and dismounting, flexible structure.
On the basis of above-described embodiment, further, the both ends of second motor box 32 are respectively equipped with end second
End casing 321 prevents the second sliding shoe 34 from falling off from the second line rail 33, the second end cover board 321 with it is described
Second motor box 32 is detachably connected, ease of assembly and dismounting, flexible structure.
The above is only the preferred embodiment of the present invention, therefore all structures according to described in present patent application range
It makes, the equivalent change or modification that feature and principle are done, is included in the protection domain of present patent application.
Claims (3)
1. a kind of stretchable electronic device preparation structure, it is characterised in that:Including support plate(12);
Further include material catching apparatus, the material catching apparatus is fixed on the support plate(12)One end;The material catching apparatus includes
First motor box(21), the first motor box(21)It is fixed on the support plate(12)On, the first motor box(21)On
First Line rail there are two setting side by side(22), further include the first sliding shoe of T shapes(23), first sliding shoe(23)Transverse arm
Bottom surface is installed with the first sliding block respectively(24), first sliding block(24)With the First Line rail(22)It is slidably connected together, institute
State the first sliding shoe(23)Top surface the first servo electric cylinders are installed(25), the first servo electric cylinders(25)Upper surface be equipped with
The first sliding groove(251), further include L-shaped the first electric cylinders slide unit(26), the first electric cylinders slide unit(26)Long-armed bottom surface be equipped with
First cord(261), first cord(261)With the first sliding groove(251)It is slidably connected together, first electric cylinders
Slide unit(26)Galianconism positive face be equipped with the first drive link(262), first drive link(262)With first servo electricity
Cylinder(25)Power output end connection, the first electric cylinders slide unit(26)Galianconism the back side be equipped with material grasping head(263);
Further include hold-down devices, the hold-down devices are fixed on the support plate(12)The other end;The hold-down devices include L
The mounting base of shape(31), the mounting base(31)One end be fixed on the support plate(12)On, the mounting base(31)It is equipped with
Reinforcing plate further includes the second motor box(32), second motor box(32)It is fixed on the mounting base(31)The other end, institute
State the second motor box(32)On set side by side there are two the second line rail(33), further include the second sliding shoe of T shapes(34), described second
Sliding shoe(34)The bottom surface of transverse arm be installed with the second sliding block respectively(35), further include L-shaped transfer block(36), the transfer block
(36)Galianconism be fixed on the second sliding shoe(34)Top surface on, the transfer block(36)Long-armed bottom surface be equipped with
One piezoelectric micromotion heap(37), the first piezoelectric micromotion heap(37)Lower surface set of molds is installed, the set of molds includes mould
Has cover board(381)And die ontology(382), the die ontology(382)Groove equipped with rectangle, the groove are interior equipped with several
Pin hole(3822), the pin hole(3822)Through the die ontology(382), the die cover plate(381)With the mold sheet
Body(382)A cavity, the die ontology are formed with after cooperation(382)Lower surface be equipped in latticed protrusion lines
(3821), the die ontology(382)Side connect mouth equipped with vacuum(383), the vacuum connects mouth(383)Connect with the groove
It is logical;
The support plate(12)It is additionally provided with the square hole of rectangle, the material grasping head(263)Positioned at the side of the square hole, the square hole
Further include bottom elevation device between the material catching apparatus and the hold-down devices;The bottom elevation device includes the
Two servo electric cylinders(41), the second servo electric cylinders(41)One side be equipped with second sliding slot(411), the second servo electric cylinders
(41)Another side be equipped with L-shaped fixed plate(412), the fixed plate(412)With the support plate(12)Bottom surface fix
Connection, the fixed plate(412)It is additionally provided with reinforcing plate, further includes L-shaped second electric cylinders slide unit(42), the second electric cylinders slide unit
(42)The long-armed back side be equipped with the second cord(421), second cord(421)With the second sliding slot(411)Sliding connects
It is connected together, the second electric cylinders slide unit(42)Galianconism bottom surface be equipped with the second drive link(422), second drive link
(422)With the second servo electric cylinders(41)Power output end connection, the second electric cylinders slide unit(42)Galianconism top surface
Second piezoelectric micromotion heap is installed(43), the second piezoelectric micromotion heap(43)Positioned at the die ontology(382)Underface;
Further include feed device, the feed device is located at the other side of the square hole, and the feed device is fixed on the branch
Fagging(12)On;The feed device includes two roller bearings arranged in parallel(51), the roller bearing(51)It is mounted on
The support plate(12)On, two roller bearings(51)It is connected with three groups of power drums(52), power described in one of which
Roller(52)Close to the die ontology(382)Setting, power drum described in three groups(52)It is triangularly arranged;
Further include transmission device, the transmission device includes feed belt(61)With two live rollers(62), the transmission
Belt(61)It is sleeved on two live rollers(62)On, the live roller(62)Both ends be connected with bearing block respectively
(63).
2. a kind of stretchable electronic device preparation structure according to claim 1, it is characterised in that:The first motor box
(21)Both ends be respectively equipped with first end cover board(211), the first end cover board(211)With the first motor box(21)It is removable
Unload connection.
3. a kind of stretchable electronic device preparation structure according to claim 1, it is characterised in that:Second motor box
(32)Both ends be respectively equipped with second end cover board(321), the second end cover board(321)With second motor box(32)It is removable
Unload connection.
Priority Applications (2)
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CN201810476665.8A CN108715038B (en) | 2018-05-18 | 2018-05-18 | Stretchable electronic device preparation structure |
CN202010297941.1A CN111470369B (en) | 2018-05-18 | 2018-05-18 | Stretchable electronic device preparation method |
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CN201810476665.8A CN108715038B (en) | 2018-05-18 | 2018-05-18 | Stretchable electronic device preparation structure |
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CN202010297941.1A Division CN111470369B (en) | 2018-05-18 | 2018-05-18 | Stretchable electronic device preparation method |
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CN106304658A (en) * | 2016-11-11 | 2017-01-04 | 昆山伟时电子有限公司 | FPC attaches mechanism |
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CN108715038B (en) | 2020-05-15 |
CN111470369A (en) | 2020-07-31 |
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