CN2831376Y - Improved luminous key structure - Google Patents

Improved luminous key structure Download PDF

Info

Publication number
CN2831376Y
CN2831376Y CN 200520114952 CN200520114952U CN2831376Y CN 2831376 Y CN2831376 Y CN 2831376Y CN 200520114952 CN200520114952 CN 200520114952 CN 200520114952 U CN200520114952 U CN 200520114952U CN 2831376 Y CN2831376 Y CN 2831376Y
Authority
CN
China
Prior art keywords
improved luminous
layer
described improved
button
transparent base
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 200520114952
Other languages
Chinese (zh)
Inventor
何俊强
邓力升
林明俊
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
TEEHWA TECHNOLOGY CORP
Original Assignee
TEEHWA TECHNOLOGY CORP
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by TEEHWA TECHNOLOGY CORP filed Critical TEEHWA TECHNOLOGY CORP
Priority to CN 200520114952 priority Critical patent/CN2831376Y/en
Application granted granted Critical
Publication of CN2831376Y publication Critical patent/CN2831376Y/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Push-Button Switches (AREA)

Abstract

The utility model relates to an improved luminous key structure, one side of transparent base material is printed with an organic conductive film and the other side of the conductive film is printed with a luminescent layer again. The bottom surface of the luminescent layer forms a dielectric layer again, the bottom end of the dielectric layer is provided with a back light electrode layer which is electrically connected with the luminescent layer, the lower margin of a back electrode layer forms a protective layer and the electric conduction of the backlight electrode layer and the organic conductive film causes electron of the luminescent layer to transform between ground state and excited state to release energy to emit light. Because the transparent base material is printed with the organic conductive film, the transparent base material with thin thickness is used and the thickness of the printed organic conductive film can also be reduced effectively. Thus, except the height of the key can be reduced effectively and the materials input of the organic conductive film is reduced to reduce the cost. The reelability of a luminescent structure is also increased, causing the key to have elasticity to have convenient use.

Description

Improved luminous button structure
Technical field
The utility model relates to a kind of luminous button structure, relates in particular to a kind of improved luminous button structure.
Background technology
The data input of the mobile phone of commonly using, palmtop computer 3C Products such as (PDA) is mainly imported with button, and often be in light and insufficient place when using, and the luminous of light-emitting diode under button arranged, again by key symbols place printing opacity, its luminosity difference and inhomogeneous, light source colour is dull and change to be difficult for, and light-emitting diode is to stick on substrate, need change substrate during as if fault, and real not easy-maintaining and assembling also raise the cost; If often place the wetness height, or mobile phone is met water because of carelessness during rainy day, and water and aqueous vapor all can be via the trickle space infiltration mobile phone inside of button and phone housing, is disappearance such as system and influence that circuit board in the mobile phone operates.So just like Fig. 1, the utility model of improved luminous button structure shown in 2, the surface of this button 1 is to paste elastic film 11, on elastic film 11, post luminescence component 2 again, this luminescence component 2 tools one luminescent layer 21, and be connected in a power supply 22, frequency converter 23, and light non-transmittable layers 12 is arranged in luminescent layer 21 surface printings, and on the light non-transmittable layers 12 and have a key symbols 121 of light-permeable, and the transparent base 211 ' that contains polyester macromolecule of its luminescent layer 21, the about 0.08mm of its thickness~0.125mm surface evaporation has one deck to contain the inorganic thin film 212 ' of ITO metal, the about 1000A of its thickness.The dust person; This inorganic thin film 212 ' another side then republishes luminescent layer 213, and these luminescent layer 213 bottom surfaces then form a dielectric layer 214 again, in the bottom of dielectric layer 214 is to have the electrode layer backlight 215 that can electrically connect with luminescent layer 213.Mat has light non-transmittable layers 12 in luminescence component 2 surface printings, and on the light non-transmittable layers 12 and have the key symbols 121 of light-permeable, so power-on 22 is luminous through frequency converter 23 driven for emitting lights layers 21, then luminous light can be from key symbols 121 place's printing opacities.Transparent base 211 surfaces of this luminescent layer 21 are that first evaporation has one deck inorganic thin film 212 ' as the ITO metallic film, not only the employed transparent base 211 of evaporation is that polyester material is thicker, and the also thicker and ITO waste material of its ITO metallic film, whole again luminescent layer 21 is also thicker and lack flexibility and coiling property, must cause the inconvenience of button manufacturing processing earlier through the processing of special evaporation again.
This shows that the above-mentioned article of commonly using still have many disappearances, real non-one kindhearted design, and demand urgently being improved.
This case creator commonly uses every shortcoming that improved luminous button structure is derived in view of above-mentioned, is urgently to think to be improved innovation, and after concentrating on studies through taking great pains to attain one's goal for many years, successfully the improved luminous button structure of this part is finished in research and development finally.
Summary of the invention
It is a kind of in improved luminous button structure that the purpose of this utility model promptly is to provide, the thin transparent base of knowing 211 of luminescence component 2 tools of its button 1, about 0.02mm~the 0.03mm of its thickness, it simultaneously prints one deck electroconductive organic film 212, and these conduction electroconductive organic film 212 another sides then republish the luminous button of luminescent layer 213.But and the thin transparent base of used thickness, and the thickness of the electroconductive organic film of printing also can effectively reduce, therefore remove the height that can effectively reduce button, and the materials that can reduce electroconductive organic film are to reduce cost, also can increase the reelability of its ray structure, make button have more elasticity and convenient the use.
It is a kind of in improved luminous button structure that another purpose of the present utility model promptly is to provide, and it is that one side in luminescence component 2 directly is printed with electroconductive organic film 212, must can effectively not simplify button and make procedure earlier through the processing of special evaporation.
Can reach the improved luminous button structure of above-mentioned novel purpose; it is simultaneously to be printed with electroconductive organic film in transparent base; this electroconductive organic film another side then republishes luminescent layer; this luminescent layer bottom surface then forms a dielectric layer again; the bottom of dielectric layer is to have the electrode layer backlight that can electrically connect with luminescent layer; the lower edge of its dorsum electrode layer then forms a protective layer; the electronics that makes luminescent layer by the conduction of electrode layer backlight conversion and releasing energy with luminous between ground state and excite state makes button or key symbols be able to printing opacity.
Improved luminous button structure provided by the utility model is commonly used article mutually relatively the time with other, has more following advantage:
1. the utility model is to be the printing electroconductive organic film on transparent base, but and the thin transparent base of used thickness, and the thickness of the electroconductive organic film of printing also can effectively reduce, therefore remove the height that can effectively reduce button, and the materials that can reduce electroconductive organic film are to reduce cost, also can increase the reelability of its ray structure, make button have more elasticity and convenient the use.
2. the utility model is to be printing one deck electroconductive organic film in transparent base, and it is for containing the organic polymer conductive film of PEDOT, and must can not simplify button and make procedure earlier through the processing of special evaporation.
See also the detailed description and the accompanying drawing thereof of following relevant the utility model one preferred embodiment, can further understand technology contents of the present utility model and purpose effect thereof.
Description of drawings
Fig. 1 is a schematic perspective view of commonly using luminous button structure;
Fig. 2 is a luminescence component schematic diagram of commonly using luminous button structure;
Fig. 3 is the schematic perspective view of improved luminous button structure of the present utility model;
Fig. 4 shows schematic diagram for the luminescence component of the utility model luminous button cuts open;
Fig. 5 shows schematic diagram for the luminescence component of tool electron transfer layer of the present utility model cuts open.
Description of reference numerals: 1 button; 11 elastic films; 12 light non-transmittable layers; 121 key symbols; 2 luminescence components; 21 luminescent layers; 22 power supplys; 23 frequency converters; 211,211 ' transparent base; 212 electroconductive organic films; 212 ' inorganic thin film; 213 luminescent layers; 214 dielectric layers; 215 electrode layers; 216 protective layers; 217 electric transmission; 2 circuit boards; 3 elastic strip bodies.
Embodiment
At first, see also shown in Fig. 3,4, be a kind of improved luminous button structure provided by the utility model, it mainly is to paste an elastic film 11 in button 1 bottom surface, be provided with luminescence component 2 again in circuit board 3 tops in elastic film 11 belows, then be provided with elastic strip body 4 in luminescence component 2 one sides and just be positioned at button 1 below, this elastic strip body 4 can be located at luminescence component 2 upsides or downside, usually this elastic strip body 4 is to be located at luminescence component 2 downsides, and is printed with light non-transmittable layers 12 above the button 1 and has the key symbols 121 of light-permeable;
Wherein, this luminescence component 2 includes as shown in Figure 4:
Transparent base 211 is to be one deck organic polymer film, and this organic polymer film then contains Polyethylene Naphthalate (PEN) usually, and its thickness is about 0.02mm~0.03mm;
Electroconductive organic film 212 is for containing the high molecular electroconductive organic film of PEDOT, and is printed in the one side of transparent base 211;
Luminescent layer 213 is mainly phosphide luminous element (Phosphor), is the another side that is printed in electroconductive organic film 212;
Dielectric layer 214 is for containing the coating of barium titanate powder, and the surface that it is printed in luminescent layer 213 is used for the insulation of 215 of luminescent layer 213 and electrode layers backlight;
Electrode layer 215 backlight; it is the coating that contains conduction carbon paste or (reaching) elargol; and be printed in dielectric layer 214 and 216 inner edge side faces of protective layer or surface; and can be electrically connected at a power supply 22, frequency converter 23 with luminescent layer 213, again in the another side of electrode layer 215 backlight then form a protective layer 216 and manifold card on button 1.
Power-on 22 makes electrode layer 215 conductings backlight with the conversion and release energy with luminous that button is able to is luminous between ground state and excite state of the electronics of driven for emitting lights layer 21 through frequency converter 23.
Secondly, see also shown in Figure 5, be a kind of another embodiment of improved luminous button structure provided by the utility model, it mainly is in transparent base 211 and 212 inner edge side faces of electroconductive organic film or surface printing electron transfer layer 217 to be arranged, and this electron transfer layer 217 is the coatings that contain conduction carbon paste or (reaching) elargol; Use making conduction evenly, and then promote light transmittance.
Be to be understood that, below explanation in conjunction with the embodiments is for the utility model illustrative and nonrestrictive just, in not breaking away from spirit and scope of the present utility model, can make many changes and modification to the utility model, it all will drop in the scope of the present utility model that is limited by following claim.

Claims (10)

1. improved luminous button structure, it is characterized in that, be to paste an elastic film in the button bottom surface, be provided with luminescence component again in the circuit board top in the elastic film below, one side of luminescence component then is provided with elastic strip body in the button below, and is printed with light non-transmittable layers above the button and has the key symbols of light-permeable;
Wherein, this luminescence component then has transparent base with the printing electroconductive organic film; this electroconductive organic film another side then republishes luminous element; this luminous element bottom surface then forms a dielectric layer again; the bottom of dielectric layer is to have the electrode layer backlight that can electrically connect with luminescent layer, and the lower edge of its electrode layer backlight then forms a protective layer.
2. as claims 1 described improved luminous button structure, it is characterized in that this transparent base is to be the organic polymer film.
3. as claims 2 described improved luminous button structures, it is characterized in that this organic polymer film is to contain Polyethylene Naphthalate (PEN).
4. as claims 1 described improved luminous button structure, it is characterized in that this electroconductive organic film is to be electroconductive organic film.
5. as claims 4 described improved luminous button structures, it is characterized in that this electroconductive organic film then contains PEDOT.
6. as claims 1 described improved luminous button structure, it is characterized in that this luminous element is to be phosphide luminous element (Phosphor).
7. as claims 1 described improved luminous button structure, it is characterized in that this dielectric layer is the coating that contains barium titanate powder.
8. as claims 1 described improved luminous button structure, it is characterized in that this electrode layer backlight is the coating that contains conduction carbon paste or (reaching) elargol.
9. as claims 1 described improved luminous button structure, it is characterized in that inner edge side face or surface printing have electron transfer layer between transparent base and electroconductive organic film.
10. as claims 9 described improved luminous button structures, it is characterized in that this electron transfer layer is the coating that contains conduction carbon paste or (reaching) elargol.
CN 200520114952 2005-07-29 2005-07-29 Improved luminous key structure Expired - Fee Related CN2831376Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200520114952 CN2831376Y (en) 2005-07-29 2005-07-29 Improved luminous key structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200520114952 CN2831376Y (en) 2005-07-29 2005-07-29 Improved luminous key structure

Publications (1)

Publication Number Publication Date
CN2831376Y true CN2831376Y (en) 2006-10-25

Family

ID=37136303

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 200520114952 Expired - Fee Related CN2831376Y (en) 2005-07-29 2005-07-29 Improved luminous key structure

Country Status (1)

Country Link
CN (1) CN2831376Y (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107479769A (en) * 2017-09-26 2017-12-15 鹤山市意达电子薄膜器件有限公司 One kind uses self-luminous touch control panel made of thin-film light emitting circuit
CN110267405A (en) * 2019-06-21 2019-09-20 广东彩乐智能包装科技有限公司 A kind of all print electroluminescent device and preparation method thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107479769A (en) * 2017-09-26 2017-12-15 鹤山市意达电子薄膜器件有限公司 One kind uses self-luminous touch control panel made of thin-film light emitting circuit
CN110267405A (en) * 2019-06-21 2019-09-20 广东彩乐智能包装科技有限公司 A kind of all print electroluminescent device and preparation method thereof

Similar Documents

Publication Publication Date Title
CN107994129B (en) The preparation method of flexible OLED display panel
JP5174229B2 (en) Transparent conductor and method for producing the same
KR101092968B1 (en) Display apparatus, mobile device having the same
TWI396217B (en) Electroluminescent lamp membrane switch
KR101097453B1 (en) Keypad apparatus, mobile device having the same and keypad control method
JP2011192567A (en) Organic el device
CN108766244B (en) Flexible display panel, preparation method thereof and display device
CN102592513B (en) OLED (organic light emitting diode) display screen with touch function and manufacturing method thereof
KR20050039014A (en) Electrode for organic light emitting device and organic light emitting device comprising the same
JP2004265758A (en) El element
CN2831376Y (en) Improved luminous key structure
CN1596042A (en) Light emitting electronic component
CN101625463A (en) Compound adhesive tape and display device
US20130140541A1 (en) Layer structure comprising electrotechnical components
CN2867631Y (en) Thermal transfer printing wireless radio-frequency lable
CN107978687A (en) The preparation method of flexible OLED display panel
CN200990630Y (en) Electronic device and sheet thin film thereof
CN105452755A (en) Printed circuit board and illumination unit comprising same printed circuit board
US20130187539A1 (en) Electroluminescent display and method for production
CN208044576U (en) A kind of hole connection and capacitance touch screen and display using hole connection
CN207638951U (en) A kind of cold-light sheet structure that emergent ray reversely projects
CN206039472U (en) Antistatic and high touch accuracy's OLED touch -control display module assembly
CN2845138Y (en) Improved button structure with amplification symbols
WO2008011097A1 (en) Electroluminescent lamp
US10474309B2 (en) Conductive element, input device, and electronic apparatus

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
C19 Lapse of patent right due to non-payment of the annual fee
CF01 Termination of patent right due to non-payment of annual fee