CN107734831B - Wearable flexible conductive fabric and preparation method thereof - Google Patents
Wearable flexible conductive fabric and preparation method thereof Download PDFInfo
- Publication number
- CN107734831B CN107734831B CN201710954888.6A CN201710954888A CN107734831B CN 107734831 B CN107734831 B CN 107734831B CN 201710954888 A CN201710954888 A CN 201710954888A CN 107734831 B CN107734831 B CN 107734831B
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- Prior art keywords
- layer
- flexible glue
- conductive fabric
- flexible
- elargol
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Classifications
-
- 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
-
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D31/00—Materials specially adapted for outerwear
- A41D31/02—Layered materials
-
- 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
- H05K1/03—Use of materials for the substrate
- H05K1/038—Textiles
-
- 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
- H05K1/03—Use of materials for the substrate
- H05K1/0393—Flexible materials
-
- 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
- H05K2201/00—Indexing scheme relating to printed circuits covered by H05K1/00
- H05K2201/01—Dielectrics
- H05K2201/0104—Properties and characteristics in general
- H05K2201/0133—Elastomeric or compliant polymer
-
- 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
- H05K2201/00—Indexing scheme relating to printed circuits covered by H05K1/00
- H05K2201/03—Conductive materials
- H05K2201/0302—Properties and characteristics in general
- H05K2201/0314—Elastomeric connector or conductor, e.g. rubber with metallic filler
Landscapes
- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Textile Engineering (AREA)
- Laminated Bodies (AREA)
- Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)
Abstract
The invention discloses a kind of wearable flexible conductive fabrics, which is elastic woven material, for making intelligent clothing.The surface of the conductive fabric ontology is equipped with: for pasting the first area of sensor, for the second area for pasting patch formula battery, and the third region for printing connection circuit.Wherein, the connection circuit of third region surface includes: the successively folded flexible glue layer for being located at conductive fabric body surface, elargol line layer, auxiliary wiring layer, insulating protective layer and waterproof layer.Wherein, flexible glue layer is made of flexible flexible glue, the colloid and conductive fabric body contacts in the first face, and is immersed in the fibre gap of conductive fabric ontology.The route of elargol line layer is drawn by elargol, is set to the second face of flexible glue layer.Auxiliary wiring layer, insulating protective layer and waterproof layer are sequentially coated on waterproof layer and are covered on elargol line layer.Conductive fabric provided by the invention is not easy to break when being stretched, and can effectively ensure that the normal electrical connection between sensor.
Description
Technical field
The present invention relates to the technical fields of the conductive fabric ontology for printed circuit, in particular to a kind of wearable stretches
Contracting conductive fabric and preparation method thereof.
Background technique
Intelligent clothing is a kind of various sensors to be arranged on clothes with the heartbeat of real-time detection human body, E.E.G, body temperature, flesh
The intelligent equipment of the information such as meat, can be widely applied to medical treatment, athletic training, outdoor activities etc..
The manufacturing technology of existing intelligent clothing is mostly in the experimental stage, and technology is not mature enough, the Intellectual garment of production
Dress tends to the effect there are sensor failure.Wherein, the reason of aspect, is, the skin of sensor and human body surface
Realize that good contact causes to detect failure;The reason of another aspect, is, since clothes has certain tensile property, printing
Often lead to the rupture of line being printed on circuit because pullling in the circuit on garment panel, leads to not transmitting detection letter
Number.
Currently, making intelligent clothing by using the cloth with good retractility can solve to a certain extent
The problem of sensor and human body surface poor contact, however this allows for being printed on the problem of route on cloth is easier to broken string.
Summary of the invention
For the problems of prior art, the main object of the present invention is to provide a kind of wearable flexible conduction
Cloth, the conductive fabric ontology can be not easy to break in the case where cloth is stretched, and can still keep being normally electrically connected between sensor
It connects.
To achieve the above object, wearable flexible conductive fabric proposed by the present invention, the conductive fabric ontology are elastical cloth
Material, for making intelligent clothing.The surface of the conductive fabric ontology is equipped with: for pasting the first area of sensor, for being glutinous
Paste the second area of patch type battery, and the third region for printing connection circuit.Connect the first end and sensing of circuit
Device connection, second end and patch type circuit connection.The connection circuit on the surface in third region includes: successively folded to be located at conductive fabric
Flexible glue layer, elargol line layer, auxiliary wiring layer, insulating protective layer and the waterproof layer of body surface.Wherein, flexible glue layer is by having
The flexible glue composition of elasticity, the colloid and conductive fabric body contacts in the first face, and immerse in the fibre gap of conductive fabric ontology.Silver
The route of glue line layer is drawn by elargol, is set to the second face of flexible glue layer.Auxiliary wiring layer is covered on elargol route
The surface of layer, and be overlapped with the route of elargol line layer.Insulating protective layer is covered on auxiliary wiring layer, auxiliary wiring layer and biography
Sensor, patch type battery contact point be exposed to insulating protective layer.Waterproof layer is covered on insulating protective layer.
Preferably, flexible glue is made of any one or more in rubber, silica gel and AB glue.
Preferably, elargol includes following component by weight percentage: the flexible glue of 21.6wt%~23.4wt% and solid
Agent, the coupling agent of 0.6wt%~1.8wt% and the conductive silver particles of 74.8wt%~77.8wt%.Flexible glue and curing agent
Ratio 1:1, flexible glue is made of any one or more in rubber, silica gel and AB glue.
Preferably, auxiliary wiring layer by flexible glue with it is metal knitted made of metal mesh form.Wherein, flexible glue is by rubber, silicon
Any one or more composition in glue and AB glue.The route of auxiliary wiring layer is made of metal mesh, and flexible glue is respectively overlay in
The tow sides of metal mesh.
Preferably, rubber is solvent fluorine system rubber.
A kind of production method that the present invention also proposes wearable flexible conductive fabric comprising following steps:
S10 coats one layer of flexible flexible glue on the surface of conductive fabric, the colloid of flexible glue is made to invade conductive fabric completely
In fibre gap, and one layer of flexible glue layer is formed on the surface of conductive fabric.
Conductive silver particles, coupling agent and flexible glue and curing agent are carried out hybrid modulation, preparation tool by S20 by a certain percentage
Conductive elargol, and the elargol is coated on flexible glue layer in a manner of connection line, and one layer of formation is conductive
Elargol line layer.
S30 coats one layer of flexible glue on the surface of elargol line layer, covering one and elargol line layer on the surface of the flexible glue
The auxiliary line that route is overlapped, and one layer of flexible glue is coated in the upper surface of auxiliary line again, to form an auxiliary wiring layer.Wherein,
Metal mesh made of the route of auxiliary line is woven by metal fine forms.
S40, coats one layer of insulating protective film on auxiliary wiring layer, and the periphery of the insulating protective film is avoided metal mesh and passed
The part that sensor, patch type battery contact.
S50 coats one layer of waterproof membrane on insulating protective film.
Preferably, in step S10, flexible glue is made of any one or more in rubber, silica gel and AB glue.
Preferably, in step S20, the weight percent of the conductive silver particles in elargol is 74.8wt%~77.8wt%,
The weight percent of coupling agent is 0.6wt%~1.8wt%, the weight percent of flexible glue and curing agent be 21.6wt%~
23.4wt%.Wherein, the ratio 1:1 of flexible glue and curing agent, flexible glue by rubber, silica gel and AB glue any one or it is more
Kind composition.
Preferably, rubber is solvent fluorine system rubber.
The production method that the present invention also proposes another wearable flexible conductive fabric comprising following steps:
Waterproof membrane, insulating protective film are successively set on a release film by S10 '.
S20 ' coats one layer of flexible glue on the surface of insulating protective film, and is laid with one layer of auxiliary line, the auxiliary on flexible glue
The contact portion of route and sensor, patch type battery is exposed outside insulating protective film, then in one layer of coating on auxiliary line
Flexible glue forms auxiliary wiring layer.Wherein, flexible glue is made of any one or more in rubber, silica gel and AB glue.Auxiliary
Metal mesh made of the route of route is woven by metal fine forms.
S30 ' deploys following components by weight percentage: the flexible glue and curing agent of 21.6wt%~23.4wt%,
The coupling agent of 0.6wt%~1.8wt% and the conductive silver particles of 74.8wt%~77.8wt% prepare elargol, and will preparation
Good elargol forms elargol line layer, and the route with auxiliary wiring layer with the graphic printing of auxiliary line on auxiliary wiring layer
It is overlapped.Wherein, the ratio 1:1 of flexible glue and curing agent, flexible glue is by any one or more group in rubber, silica gel and AB glue
At.
S40 ', in one layer of flexible glue of upper coating of elargol line layer, the flexible glue is by any in rubber, silica gel and AB glue
One or more compositions.
Multilayer colloid on release film is printed on conductive fabric by S50 ' by way of hot pressing, so that auxiliary wiring layer
Melt with elargol line layer heat to the surface of conductive fabric.
The present invention, which passes through, utilizes flexible flexible glue bottoming, by the fibre gap that the colloid of flexible glue is immersed to conductive fabric
It is interior, good basis is provided for the laying of connection line;Using flexible elargol as lay connection route basis,
It avoids being broken during conductive fabric stretches because being pullled;It is led being provided with the offer auxiliary of route made of metal mesh
Electricity, while increasing the toughness and intensity of connection line, also avoiding pullling mostly degree leads to rupture of line made of elargol, further mentions
What height connection circuit can be born pulls power.
Wearable flexible conductive fabric provided by the invention can be improved using the manufacturing field with intelligent clothing
The stretch capability that intelligent clothing can bear is effectively ensured on intelligent clothing between each sensor, sensor and other circuit elements
Signal transmitting and electric signal connection between device, pullling for clothes, which is reduced or avoided, excessively to cause to be laid on conductive fabric
The problem of connecting the rupture of line of circuit and inductive signal can not be transmitted.
Detailed description of the invention
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with
The structure shown according to these attached drawings obtains other attached drawings.
Fig. 1 is the structural schematic diagram of wearable one embodiment of flexible conductive fabric of the present invention;
Fig. 2 is the cross-sectional view in the third region of the wearable flexible conductive fabric of the present invention;
Fig. 3 is the flow chart of wearable flexible one embodiment of conductive fabric production method of the present invention;
The object of the invention is realized, the embodiments will be further described with reference to the accompanying drawings for functional characteristics and advantage.
Specific embodiment
The present invention proposes a kind of wearable flexible conductive fabric, which is elastic woven material, for making
Intelligent clothing.
Referring to Fig.1-2, Fig. 1 is the structural schematic diagram of wearable one embodiment of flexible conductive fabric of the present invention, and Fig. 2 is this
Invent the cross-sectional view in the third region of wearable flexible conductive fabric.
As shown in Figure 1, in embodiments of the present invention, the surface of the conductive fabric ontology 100 is equipped with: for pasting sensor
First area 110, for the second area 130 for pasting patch formula battery, and the third region for printing connection circuit
120.The first end of connection circuit is connect with sensor, second end and patch type circuit connection.As shown in Fig. 2, third region
The connection circuit on 120 surface include: successively the folded flexible glue layer 121 for being located at 100 surface of conductive fabric, elargol line layer 122, auxiliary
Line layer 123, insulating protective layer 124 and waterproof layer 125.Wherein, flexible glue layer 121 is made of flexible flexible glue, the
Colloid on one side is contacted with conductive fabric ontology 100, and is immersed in the fibre gap of conductive fabric ontology 100.Elargol line layer 122
Route is drawn by elargol, is set to the second face of flexible glue layer 121.Auxiliary wiring layer 123 is covered on elargol line layer 122
Surface, and be overlapped with the route of elargol line layer 122.Insulating protective layer 124 is covered on auxiliary wiring layer 123, auxiliary line
The contact point of road floor 123 and sensor, patch type battery is exposed to insulating protective layer 124.Waterproof layer 125 is covered on insulation protection
On layer 124.
Specifically, elargol includes following component by weight percentage: the flexible glue of 21.6wt%~23.4wt% and solid
Agent, the coupling agent of 0.6wt%~1.8wt% and the conductive silver particles of 74.8wt%~77.8wt%.Flexible glue and curing agent
Ratio 1:1.
Specifically, auxiliary wiring layer 123 by flexible glue with it is metal knitted made of metal mesh form.Auxiliary wiring layer 123
Route is made of metal mesh, and flexible glue is respectively overlay in the tow sides of metal mesh.In the present embodiment, the grid water chestnut that metal mesh is
Shape grid can produce certain deformation when it is pullled to adapt to the different active forces for pullling generation, what the limit was pullled
Under state, the structural form pullled can be kept, guarantees certain structural strength in this state, is not easy to be pullled fracture.
In the present embodiment, flexible glue used in flexible glue layer 121, elargol and auxiliary wiring layer 123 is same glue
Body, the flexible glue are made of any one or more in rubber, silica gel and AB glue.Rubber, silica gel and AB glue are solidifying
Be provided with certain elasticity afterwards, not easy to break by the process pullled so that the connection line for thering is elargol to constitute have it is certain
Telescopicing performance.Also, by flexible glue layer 121, the flexible glue in elargol conductive layer and auxiliary wiring layer 123 is formed by curing multilayer
Colloform texture can be further noted that the telescopicing performance of conductive fabric ontology 100, avoid the connection being laid on conductive fabric ontology 100
Circuit is pullled and is broken.
To guarantee that the route that elargol is constituted has good electric conductivity, in the present embodiment, the rubber that flexible glue uses is preferred
For solvent fluorine system rubber, in conjunction with fluorine class surfactant, so that it is conductive silver particles and structure that conductive silver strip is precipitated in rubber surface
At one layer of conductive network, to provide good conductive path, the route for guaranteeing that elargol is constituted has good, stable electric conductivity
Energy.
The present invention passes through using flexible flexible glue as primer, by the way that the colloid of flexible glue is immersed conductive fabric ontology
In 100 fibre gap, good basis is provided for the laying of connection line;It is connected using flexible elargol as laying
Route basis, avoid being broken during conductive fabric ontology 100 stretches because being pullled;By being provided with metal net
At route additional conductive is provided, while increasing the toughness and intensity of connection line, also avoiding pullling more degree causes elargol to be made
Rupture of line, further increase connection circuit can bear pull power.
Wearable flexible conductive fabric provided by the invention can be improved using the manufacturing field with intelligent clothing
The stretch capability that intelligent clothing can bear is effectively ensured on intelligent clothing between each sensor, sensor and other circuit elements
Signal transmitting and electric signal connection between device, pullling for clothes, which is reduced or avoided, excessively to cause to be laid in conductive fabric ontology
The rupture of line of connection circuit on 100 and the problem of inductive signal can not be transmitted.
The present invention also provides a kind of production methods of wearable flexible conductive fabric.
Referring to Fig. 3, Fig. 3 is the flow chart of wearable flexible one embodiment of conductive fabric production method of the present invention.
As shown in figure 3, in embodiments of the present invention, the production method of the wearable flexible conductive fabric includes following step
It is rapid:
S10 coats one layer of flexible flexible glue on the surface of conductive fabric, the colloid of flexible glue is made to invade conductive fabric completely
In fibre gap, and one layer of flexible glue layer is formed on the surface of conductive fabric.
Conductive silver particles, coupling agent and flexible glue and curing agent are carried out hybrid modulation, preparation tool by S20 by a certain percentage
Conductive elargol, and the elargol is coated on flexible glue layer in a manner of connection line, and one layer of formation is conductive
Elargol line layer.
Specifically, in the present embodiment, the weight percent of the conductive silver particles in elargol be 74.8wt%~
77.8wt%, the weight percent of coupling agent are 0.6wt%~1.8wt%, and the weight percent of flexible glue and curing agent is
21.6wt%~23.4wt%.Wherein, the ratio 1:1 of flexible glue and curing agent.
S30 coats one layer of flexible glue on the surface of elargol line layer, covering one and elargol line layer on the surface of the flexible glue
The auxiliary line that route is overlapped, and one layer of flexible glue is coated in the upper surface of auxiliary line again, to form an auxiliary wiring layer.Wherein,
Metal mesh made of the route of auxiliary line is woven by metal fine forms.
S40, coats one layer of insulating protective film on auxiliary wiring layer, and the periphery of the insulating protective film is avoided metal mesh and passed
The part that sensor, patch type battery contact.
S50 coats one layer of waterproof membrane on insulating protective film.
In the present embodiment, step S10, flexible glue is same flexible glue in step S20 and step S30, which is rubber
Any one or more composition in glue, silica gel and AB glue.When in flexible glue including rubber, which is preferably solvent fluorine
It is rubber.It as a result, can be by combining fluorine class surfactant, so that conductive silver strip is precipitated in rubber surface as conductive silver particles simultaneously
One layer of conductive network is constituted, to provide good conductive path, the route for guaranteeing that elargol is constituted has good, stable electric conductivity
Energy.
The present invention also provides the production methods of another wearable flexible conductive fabric comprising following steps:
Waterproof membrane, insulating protective film are successively set on a release film by S10 '.
S20 ' coats one layer of flexible glue on the surface of insulating protective film, and is laid with one layer of auxiliary line, the auxiliary on flexible glue
The contact portion of route and sensor, patch type battery is exposed outside insulating protective film, then in one layer of coating on auxiliary line
Flexible glue forms auxiliary wiring layer.Wherein, metal mesh made of the route of auxiliary line is woven by metal fine forms.
S30 ' deploys following components by weight percentage: the flexible glue and curing agent of 21.6wt%~23.4wt%,
The coupling agent of 0.6wt%~1.8wt% and the conductive silver particles of 74.8wt%~77.8wt% prepare elargol, and will preparation
Good elargol forms elargol line layer, and the route with auxiliary wiring layer with the graphic printing of auxiliary line on auxiliary wiring layer
It is overlapped.Wherein, the ratio 1:1 of flexible glue and curing agent.
S40 ', in one layer of flexible glue of upper coating of elargol line layer.
Multilayer colloid on release film is printed on conductive fabric by S50 ' by way of hot pressing, so that auxiliary wiring layer
Melt with elargol line layer heat to the surface of conductive fabric.
Wherein, the flexible glue in step S20 ', step S30 ' and step S40 ' is same colloid, and the flexible glue is by rubber, silicon
Any one or more composition in glue and AB glue.When in flexible glue including rubber, which is preferably solvent fluorine system rubber
Glue.It as a result, can be by combining fluorine class surfactant, so that conductive silver strip is precipitated as conductive silver particles and constitutes in rubber surface
One layer of conductive network, to provide good conductive path, the route for guaranteeing that elargol is constituted has good, stable electric conductivity.
In the present embodiment, connection circuit is printed on the table of conductive fabric by the mode that hot pressing is carried out by using hot press
Face can make the circuit for being printed on conductive fabric surface more smooth, not influence the planarization of conductive fabric entirety, the company of reduction
Circuit is connect in the poor contact of human body surface, and improves the comfort of the intelligent clothing made of conductive fabric, improves wearing for user
Experience sense.
The above description is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all at this
Under the inventive concept of invention, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/use indirectly
It is included in other related technical areas in scope of patent protection of the invention.
Claims (5)
1. a kind of production method of wearable flexible conductive fabric, which comprises the steps of:
S10 coats one layer of flexible flexible glue on the surface of conductive fabric ontology, the colloid of flexible glue is made to invade conductive fabric sheet completely
In the fibre gap of body, and one layer of flexible glue layer is formed on the surface of conductive fabric ontology;
Conductive silver particles, coupling agent and flexible glue and curing agent are carried out hybrid modulation by S20 by a certain percentage, and preparation, which has, to be led
Electrical elargol, and the elargol is coated on flexible glue layer in a manner of connection line, and form one layer of conductive silver
Glue line layer;
S30 coats one layer of flexible glue on the surface of elargol line layer, the route of covering one and elargol line layer on the surface of the flexible glue
The auxiliary line of coincidence, and one layer of flexible glue is coated in the upper surface of auxiliary line again, to form an auxiliary wiring layer;Wherein, it assists
Metal mesh made of the route of route is woven by metal fine forms;
S40, coats one layer of insulating protective film on auxiliary wiring layer, and metal mesh and sensing are avoided in the periphery of the insulating protective film
The part that device, patch type battery contact;
S50 coats one layer of waterproof membrane on insulating protective film.
2. the production method of wearable flexible conductive fabric as described in claim 1, which is characterized in that the step S10
In, the flexible glue is made of any one or more in rubber, silica gel and AB glue.
3. the production method of wearable flexible conductive fabric as described in claim 1, which is characterized in that the step S20
In, the weight percent of the conductive silver particles in the elargol is 74.8wt%~77.8wt%, the weight percent of coupling agent
For 0.6wt%~1.8wt%, the weight percent of flexible glue and curing agent is 21.6wt%~23.4wt%;Wherein, the flexible glue
With the ratio 1:1 of the curing agent, the flexible glue includes rubber, silica gel and AB glue.
4. the production method of wearable flexible conductive fabric as claimed in claim 2 or claim 3, which is characterized in that the rubber
For solvent fluorine system rubber.
5. a kind of production method of wearable flexible conductive fabric, which comprises the steps of:
Waterproof membrane, insulating protective film are successively set on a release film by S10 ';
S20 ' coats one layer of flexible glue on the surface of insulating protective film, and is laid with one layer of auxiliary line, the auxiliary line on flexible glue
Expose outside insulating protective film with the contact portion of sensor, patch type battery, then coating one layer of flexible glue on auxiliary line,
Form auxiliary wiring layer;Wherein, the flexible glue includes rubber, silica gel and AB glue;The route of auxiliary line is compiled by metal fine
The composition of metal mesh made of knitting;
S30 ' deploys following components by weight percentage: the flexible glue and curing agent of 21.6wt%~23.4wt%,
The coupling agent of 0.6wt%~1.8wt% and the conductive silver particles of 74.8wt%~77.8wt% prepare elargol, and will preparation
Good elargol forms elargol line layer, and the route with auxiliary wiring layer with the graphic printing of auxiliary line on auxiliary wiring layer
It is overlapped;Wherein, the ratio 1:1 of the flexible glue and the curing agent, the flexible glue is by any in rubber, silica gel and AB glue
One or more compositions;
S40 ', in one layer of flexible glue of upper coating of elargol line layer;
Multilayer colloid on release film is printed on conductive fabric ontology by S50 ' by way of hot pressing, so that auxiliary wiring layer
Melt with elargol line layer heat to the surface of conductive fabric ontology.
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CN109121288A (en) * | 2018-09-28 | 2019-01-01 | 广东南海启明光大科技有限公司 | A kind of flexible printed circuit board and preparation method thereof |
TWI803745B (en) | 2020-04-22 | 2023-06-01 | 財團法人紡織產業綜合研究所 | Conductive textile and method for fabricating the same |
JP7222437B2 (en) * | 2020-05-21 | 2023-02-15 | 株式会社村田製作所 | Stretchable wiring board |
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CN201103012Y (en) * | 2007-09-13 | 2008-08-20 | 阮成斌 | Improved physiological conductive cloth structure |
CN106252236A (en) * | 2015-06-10 | 2016-12-21 | 全南大学校产学协力团 | Scalable circuit substrate and preparation method thereof |
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WO2010058360A1 (en) * | 2008-11-21 | 2010-05-27 | Koninklijke Philips Electronics N.V. | Textile electronic arrangement |
CN107949815B (en) * | 2015-09-23 | 2021-03-12 | 阿莫绿色技术有限公司 | Wearable device and manufacturing method thereof |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN201103012Y (en) * | 2007-09-13 | 2008-08-20 | 阮成斌 | Improved physiological conductive cloth structure |
CN106252236A (en) * | 2015-06-10 | 2016-12-21 | 全南大学校产学协力团 | Scalable circuit substrate and preparation method thereof |
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