CN103839722A - Light-emitting keyboard - Google Patents
Light-emitting keyboard Download PDFInfo
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- CN103839722A CN103839722A CN201210483069.5A CN201210483069A CN103839722A CN 103839722 A CN103839722 A CN 103839722A CN 201210483069 A CN201210483069 A CN 201210483069A CN 103839722 A CN103839722 A CN 103839722A
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Abstract
The invention provides a light-emitting keyboard comprising multiple direct illumination-type light-emitting elements, an induction circuit layer, multiple keys and a light-transmitting supporting plate. When the keys are close to the induction circuit layer, the induction circuit layer correspondingly generates a non-contact type key signal. Besides, each direct illumination-type light-emitting element is corresponding to one key and arranged below the corresponding key. The light-transmitting supporting plate is arranged between the multiple direct illumination-type light-emitting elements and the multiple keys. Light beams of each direct illumination-type light-emitting element penetrate through the light-transmitting supporting plate and then are projected to the corresponding key. Use efficiency of light can be effectively enhanced by the light-emitting keyboard.
Description
Technical field
The present invention relates to a kind of keyboard, relate in particular to a kind of keyboard with lighting function.
Background technology
In recent years, because the information industry development is rapid, many users may use portable type information device, such as notebook computer, mobile phone or personal digital assistant etc. under varying environment.At the weak environment of light, user may not see the numeral and the word that on Chu's keyboard, indicate, thereby causes operational difficulty, and severe patient even may allow visual impairment because identification button reluctantly indicates.Therefore, the release of illuminated keyboard can improve user in the inconvenience of insufficient light place use keyboard.What is more, by different luminous configurations, can make and use the massaging device of illuminated keyboard to seem more attractive in appearance, and then increase its market.
Refer to Fig. 1, the structural profile schematic diagram that it is existing illuminated keyboard.Illuminated keyboard 1 comprises reflector 11, light guide plate 12, supporting bracket 13, film circuit board 14, multiple button 15 and side direction type illuminating element 16, wherein, film circuit board 14 comprises lower plywood 141, top plate 142 and the la m between lower plywood and top plate 143, and lower plywood 141, la m 143 and top plate 142 are all made by transparent light guide material, transparent light guide material can be Merlon (PC) or polyethylene (PET) etc.
Moreover, please synchronously consult Fig. 2, it is the three-dimensional exploded view of the film circuit board of illuminated keyboard shown in Fig. 1, lower plywood 141 has the first circuit pattern 1411 being made up of multiple elargol circuits 14111 and multiple lower contacts 14112, and top plate 142 has the second circuit pattern 1421 being made up of multiple elargol circuits 14211 and multiple upper contacts 14212, again, la m 143 has the contact perforate 1431 with multiple upper contacts 14212 corresponding to multiple lower contacts 14122, wherein, the common thin film switch 144 that forms of lower contact 14112 that each upper contact 14212 is corresponding with it.
Again, supporting bracket 13 is arranged at the below of film circuit board 14, and has multiple perforation 131, first fixed structure 132 and the second fixed structure 133; And each button 15 comprises keycap 151, elastomer 152 and scissor Connection Element 153, and keycap 151 comprises the first keycap fixed structure 1511 and the second keycap fixed structure 1512; And scissor Connection Element 153 comprises the first framework 1531 and the second framework 1532; In addition, elastomer 152 is between keycap 151 and film circuit board 141.
Wherein, film circuit board 14 has the through hole 145 and the through hole 146 that supply respectively first fixed structure 132 and the second fixed structure 133 to pass wherein, can be connected in the second fixed structure 133 for one end 15311 of the first framework 1531, and its other end 15312 can be connected in the first keycap fixed structure 1511, and can be connected in first fixed structure 132 for one end 15321 of the second framework 1532, and its other end 15322 can be connected in the second keycap fixed structure 1512.
When arbitrary button 15 touched and while moving down with respect to supporting bracket 13, the first framework 1531 and second framework 1532 of scissor Connection Element 153 change to closed state by folding condition, and the keycap 151 moving down can make elastomer 152 support its corresponding upper contact 14212 by extruding elastomer 152, and then make its corresponding upper contact 14212 contact corresponding lower contact 14122 via corresponding contact perforate 1431, make by this corresponding thin film switch 144 reach and electrically conduct, so that illuminated keyboard 1 produces a corresponding push button signalling.And in the time that button 15 is no longer touched, keycap 151 can up move with respect to supporting bracket 13 according to the elastic force of elastomer 152, now the first framework 1531 and the second framework 1532 change to folding condition by closed state, and keycap 151 can set back.
Moreover side direction type illuminating element 16 is arranged at the side of light guide plate 12, in order to provide light beam to inject light guide plate 12.And light guide plate 12 is arranged on reflector 11, and its lower surface has the multiple light guiding points 121 in order to gathering and scattered beam.Multiple light guiding points 121 are set up according to the position of corresponding multiple buttons 15.Wherein, in the time that light beam is injected light guide plate 12, light beam is flooded to whole light guide plate 12, and multiple light guiding points 121 can because of its relation for ink material by light beam up and down scattering, up the light beam of scattering can sequentially be projected to multiple buttons 15 by multiple perforation 131 and the film circuit board 14 of supporting bracket 13, and down the light beam of scattering can upwards reflect light beam via the auxiliary of reflector 11 again, so that can being improved, the light beam that side direction type illuminating element 16 provides utilizes.As mentioned above, can make multiple buttons 15 produce luminous effect.Only, existing illuminated keyboard 1 has shortcoming as described below:
Although a reflector 11 can assist the light beam of multiple light guiding points 121 downward scatterings to reflect upward, but the material of the reflector 11 of existing illuminated keyboard 1 still can allow a little light beam penetrate, therefore a part can penetrate reflector 11 by the light beam of multiple light guiding points 121 downward scatterings and cause the loss of light quantity.
Although can be flooded to whole light guide plate 12 when two light beams are injected light guide plate 12, but because the light guiding points 121 nearer apart from side direction type illuminating element 16 reflects segment beam outside light guide plate 12, make the light quantity in light guide plate 12 middle distance side direction type illuminating elements 16 region far away not as coming sufficiently in the region nearer apart from side direction type illuminating element 16.
Three, because the running stroke of scissor Connection Element 153 is longer, therefore must having enough spaces, illuminated keyboard 1 can make scissor Connection Element 153 normal operations, but but therefore cannot effectively reduce the thickness of illuminated keyboard 1, to such an extent as to cannot meet now electronic product towards external form demand light, thin, short and small development.
Explanation for above-mentioned first and second point is known, although existing illuminated keyboard 1 sees through the cooperation of side direction type illuminating element 16 and light guide plate 12 and makes multiple buttons 15 produce luminous effect, efficiency of light is not good.Base this, how improve under the thinking of efficiency of light, attempt substituting side direction type illuminating element 16 with straight-down negative light-emitting component, and make straight-down negative light-emitting component be arranged at the below of button 15, could directly provide light beam to button 15, obtain by this preferably efficiency of light; But, in such practice, straight-down negative light-emitting component is the shift motion that is arranged in button 15, therefore user just cannot reach corresponding thin film switch 144 to electrically conduct by pressing down keycap 151, therefore substitute side direction type illuminating element 16 and directly provide the way of light beam cannot be embodied on existing illuminated keyboard 1 towards button 15 with straight-down negative light-emitting component.
Moreover, because above-mentioned thirdly described defect, now existing a kind of capacitor induction type keyboard is suggested, and the electric field that changes the corresponding capacitance-type switch in the circuit board of keyboard in its process being pressed down by keycap makes circuit board produce the corresponding push button signalling of output one; Wherein, because capacitor induction type keyboard not necessarily will use the related elements such as scissor Connection Element, the integral thickness of capacitor induction type keyboard can effectively be reduced; But, not yet there is now the capacitor induction type keyboard of tool illumination effect to be suggested, therefore under the weak environment of light, user may not see numeral and the word that the button on Chu's capacitor induction type keyboard indicates, thereby causes operational difficulty or visual impairment.
Summary of the invention
For problems of the prior art, main purpose of the present invention is providing a kind of illuminated keyboard, especially about a kind of illuminated keyboard that promotes efficiency of light and noncontact induction form.
In a preferred embodiment, the invention provides a kind of illuminated keyboard, comprising:
One sensor circuit layer, in order to produce at least one contactless push button signalling;
At least one button, in order to touched and make this sensor circuit layer produce this at least one contactless push button signalling;
At least one straight-down negative light-emitting component, is arranged at the below of this at least one button, in order to a light beam to be provided; And
One transparent support board, is arranged between this sensor circuit layer and this at least one button, uses for this at least one button and is connected in this supporting bracket;
Wherein, this light beam of this at least one straight-down negative light-emitting component is projected to this at least one button through after this transparent support board.
In a preferred embodiment, this sensor circuit layer comprises a sensor circuit pattern and a sensor circuit plate, and this sensor circuit pattern is formed on this sensor circuit plate.
In a preferred embodiment, this sensor circuit layer also comprises a light emitting element driving circuit pattern, and this light emitting element driving circuit pattern is formed on this sensor circuit plate, in order to drive this at least one straight-down negative light-emitting component that this light beam is provided.
In a preferred embodiment, illuminated keyboard also comprises a light emitting element driving circuit plate and a light emitting element driving circuit pattern, and this light emitting element driving circuit pattern is formed on this light emitting element driving circuit plate, in order to drive this at least one straight-down negative light-emitting component that this light beam is provided; Wherein, this sensor circuit plate is between this light emitting element driving circuit plate and this at least one button.
In a preferred embodiment, this sensor circuit layer has at least one circuit layer perforation corresponding to this at least one straight-down negative light-emitting component.
In a preferred embodiment, this sensor circuit pattern comprises at least one the first polar circuit pattern and at least one the second polar circuit pattern, and in the time that this sensor circuit layer is energized, between this at least one first polar circuit pattern and this at least one the second polar circuit pattern, produce an electric field; Wherein, when this at least one button is touched, when this sensor circuit pattern, this electric field changes and makes this sensor circuit layer produce this at least one contactless push button signalling.
In a preferred embodiment, this sensor circuit layer comprises a sensor circuit pattern and a sensor film wiring board, and this sensor circuit pattern is formed on this sensor film wiring board.
In a preferred embodiment, this sensor circuit layer also comprises a light emitting element driving circuit pattern, and this light emitting element driving circuit pattern is formed on this sensor film wiring board, in order to drive this at least one straight-down negative light-emitting component that this light beam is provided.
In a preferred embodiment, illuminated keyboard also comprises a light emitting element driving circuit plate and a light emitting element driving circuit pattern, and this light emitting element driving circuit pattern is formed on this light emitting element driving circuit plate, in order to drive this at least one straight-down negative light-emitting component that this light beam is provided; Wherein, this sensor film wiring board is between this light emitting element driving circuit plate and this at least one button.
In a preferred embodiment, this sensor circuit layer has at least one circuit layer perforation corresponding to this at least one straight-down negative light-emitting component.
In a preferred embodiment, this sensor film wiring board is made by polyethylene terephthalate (PET) material, Merlon (PC) material, thermoplastic polyurethanes (TPU) or acryl plastic cement (PMMA) material.
In a preferred embodiment, this sensor circuit pattern comprises one first polar circuit pattern and one second polar circuit pattern, and in the time that this sensor circuit layer is energized, between this first polar circuit pattern and this second polar circuit pattern, produces an electric field; Wherein, when this at least one button is touched, when this sensor circuit pattern, this electric field changes and makes this sensor circuit layer produce this at least one Non-contact key switch signal.
In a preferred embodiment, this at least one button comprises:
One keycap, is revealed in the outside of this illuminated keyboard; And
One conductor, is arranged between this keycap and this sensor circuit layer, and along with this keycap moves; Wherein, in the time that this keycap is touched, this conductor makes this sensor circuit layer produce this at least one contactless push button signalling near this sensor circuit layer downwards.
In a preferred embodiment, this conductor comprises a conductive material, and this conductive material is a conducting foam, a metal material or a metallic paint.
In a preferred embodiment, this at least one button also comprises a Connection Element, is connected between this transparent support board and this keycap, and this keycap is moved up and down with respect to this supporting bracket.
In a preferred embodiment, this Connection Element is a scissor Connection Element.
In a preferred embodiment, this at least one button also comprises multiple elastic arms, with so that this keycap move up and down with respect to this sensor circuit layer; Wherein, each elastic arm comprises that a stiff end is connected in this transparent support board and a free end is connected in this keycap.
In a preferred embodiment, this at least one button also comprises:
One key frame, has a containing hole, and this containing hole is used for this keycap and is embedded in this containing hole; And
Multiple elastic arms, with so that this keycap moves up and down with respect to this sensor circuit layer, each elastic arm comprises an interior fixing arm, an outer movable arm and one jiao of transition part, and this angle transition part is connected between this interior fixing arm and this outer movable arm.
In a preferred embodiment, in this transparent support board, be formed with multiple micro-structurals, in order to change the direct of travel through this light beam of this transparent support board.
In a preferred embodiment, any one in the plurality of micro-structural is V-arrangement cutting (V-CUT) structure or a texture structure.
In a preferred embodiment, in this transparent support board, be provided with at least one lenticular body corresponding to this at least one light-emitting component, in order to change the transmission path through this light beam of this transparent support board.
In a preferred embodiment, this transparent support board has at least one lens section corresponding to this at least one light-emitting component, in order to change the transmission path through this light beam of this transparent support board; Wherein, at least one lens section is integrally formed makes for this transparent support board and this.
In a preferred embodiment, illuminated keyboard also comprises a metal base plate, is arranged at this sensor circuit layer below.
In a preferred embodiment, this at least one light-emitting component is a light-emitting diode.
In a preferred embodiment, illuminated keyboard is a capacitor induction type illuminated keyboard.
In a preferred embodiment, illuminated keyboard also comprises a shading element, and it is formed at the surface of this transparent support board.
In a preferred embodiment, this shading element is a black out ink.
Beneficial effect of the present invention is, known according to above explanation, illuminated keyboard design of the present invention is directly arranged at straight-down negative light-emitting component the below of button, and use adopts the design of printing opacity to connect the supporting bracket of button, so the light beam of straight-down negative light that light-emitting component is carried can, directly in being projected to button through after the supporting bracket of printing opacity, effectively promote the service efficiency of light; In addition, because illuminated keyboard of the present invention is the sensor circuit layer that adopts noncontact induction form, therefore the below that straight-down negative light-emitting component is directly arranged to button can't affect the running of sensor circuit layer, the keyboard that has simultaneously also improved existing noncontact induction form is not had a defect of lighting function, is in fact one to have the invention of industry applications.
Brief description of the drawings
Fig. 1: be the structural profile schematic diagram of existing illuminated keyboard.
Fig. 2: be the three-dimensional exploded view of the film circuit board of illuminated keyboard shown in Fig. 1.
Fig. 3: be the structure side view of illuminated keyboard of the present invention in the first preferred embodiment.
Fig. 4: be the sensor circuit layer of illuminated keyboard shown in Fig. 3 and the structural representation of drive circuit board.
Fig. 5: be the structure vertical view of the keycap of illuminated keyboard shown in Fig. 3.
Fig. 6: for making can diffuse to through the light beam of transparent support board a better enforcement conceptual schematic view of the transmission region of keycap.
Fig. 7: for making can diffuse to through the light beam of transparent support board another better enforcement conceptual schematic view of the transmission region of keycap.
Fig. 8: the structural representation that is a better texture patterning.
Fig. 9: be the structure side view of illuminated keyboard of the present invention in the second preferred embodiment.
Figure 10: be the structure side view of illuminated keyboard of the present invention in the 3rd preferred embodiment.
Figure 11: be the structure side view of illuminated keyboard of the present invention in the 4th preferred embodiment.
Figure 12: be the structural representation of the sensor circuit layer of illuminated keyboard shown in Figure 11.
Figure 13: be the structure side view of illuminated keyboard of the present invention in the 5th preferred embodiment.
Figure 14: be the structure side view of illuminated keyboard of the present invention in the 6th preferred embodiment.
Figure 15: be the perspective exploded view of the button of illuminated keyboard shown in Figure 14.
Figure 16: be the button of illuminated keyboard shown in Figure 14 view when not touched.
Figure 17: be the button of illuminated keyboard shown in Figure 14 view when touched.
Figure 18: be the button of illuminated keyboard of the present invention in the 7th preferred embodiment and the perspective exploded view of transparent support board.
Figure 19: be the structure side view of illuminated keyboard of the present invention in the 8th preferred embodiment.
Wherein, description of reference numerals is as follows:
1 illuminated keyboard 2 illuminated keyboards
2A illuminated keyboard 2B illuminated keyboard
2C illuminated keyboard 2D illuminated keyboard
2E illuminated keyboard 2G illuminated keyboard
11 reflector 12 light guide plate
13 supporting bracket 14 film circuit boards
15 button 16 side direction type illuminating elements
20 shading element 21 bases
22 light emitting element driving circuit plate 23 transparent support board
24 sensor circuit layer 24C sensor circuit layers
25 button 25F buttons
26 straight-down negative light-emitting component 28 metal base plates
29 buttons 131 are bored a hole
132 first fixed structure 133 second fixed structures
141 lower plywood 142 top plates
143 la m 144 thin film switches
145 through hole 146 through holes
151 keycap 152 elastomers
153 scissor Connection Element 221 light emitting element driving circuit patterns
232 first fixed structure 233 second fixed structures
234 lens section 235 lenticular bodies
236 micro-structural 237 texture patternings
241 sensor circuit plate 242 sensor circuit patterns
243 circuit layers, the 244 sensor film wiring boards of boring a hole
245 sensor film wiring board 251 keycaps
252 conductor 253 Connection Elements
254 elastic arm 291 keycaps
293 key frame 294 elastic arms
1411 first circuit pattern 1421 second circuit patterns
1431 contact perforate 1,511 first keycap fixed structures
1512 second keycap fixed structure 1,531 first frameworks
1532 second framework 2,421 first polar circuit patterns
2422 second polar circuit pattern 2423 capacitance key switches
2511 first keycap fixed structure 2,512 second keycap fixed structures
2513 transmission region 2,531 first frameworks
The stiff end of 2532 second framework 2541 elastic arms
The outer movable arm of 2941 interior fixing arm 2942
2943 jiaos of transition part 14111 elargol circuits
14112 times contact 14211 elargol circuits
One end of 14212 upper contact 15,311 first frameworks
One end of the other end 15,321 second frameworks of 15312 first frameworks
One end of the other end 25,311 first frameworks of 15322 second frameworks
One end of the other end 25,321 second frameworks of 25312 first frameworks
The other end of 25322 second frameworks
Embodiment
Refer to Fig. 3 and Fig. 4, Fig. 3 is the structure side view of illuminated keyboard of the present invention in the first preferred embodiment, and Fig. 4 is the sensor circuit layer of illuminated keyboard shown in Fig. 3 and the structural representation of drive circuit board.Illuminated keyboard 2 comprises and from bottom to top sequentially comprises base 21, light emitting element driving circuit plate 22, sensor circuit layer 24, transparent support board 23 and multiple button 25, and illuminated keyboard 2 also comprises the multiple straight-down negative light-emitting components 26 corresponding to multiple buttons 25; Wherein, base 21 is in order to carry light emitting element driving circuit plate 22, sensor circuit layer 24, transparent support board 23, multiple button 25 and multiple straight-down negative light-emitting component 26, and on light emitting element driving circuit plate 22, be formed with light emitting element driving circuit pattern 221, each straight-down negative light-emitting component 26 is electrically connected at light emitting element driving circuit pattern 221, straight-down negative light-emitting component 26 can be driven by light emitting element driving circuit plate 22 and light beam is provided.
Again, because transparent support board 23 has the effect of printing opacity, as made with light-transmitting materials, therefore the light beam that each straight-down negative light-emitting component 26 provides can be in being projected to corresponding button 25 through after transparent support board 23.In this preferred embodiment, straight-down negative light-emitting component 26 is light-emitting diode, but not as limit, and the quantity of button 25 and straight-down negative light-emitting component 26 is also not defined identically, and those skilled in the art can carry out according to practical application request any variation design being equal to.
Moreover in this preferred embodiment, illuminated keyboard 2 is a condenser type illuminated keyboard, and sensor circuit layer 24 is a capacitive induction circuit layer, and comprises sensor circuit plate 241 and be formed at the sensor circuit pattern 242 on sensor circuit plate 241, wherein, sensor circuit plate 241 is one to include the printed circuit board (PCB) (as traditional circuit board) of metal-insulator substrate, but not as limit, and sensor circuit pattern 242 comprises multiple the first polar circuit patterns 2421 and multiple the second polar circuit patterns 2422 corresponding to multiple the first polar circuit patterns 2421, wherein, between each first polar circuit pattern 2421 and corresponding the second polar circuit pattern 2422, there is a spacing distance, and each first polar circuit pattern 2421 forms a capacitance key switch 2423 with the second corresponding polar circuit pattern 2422, in the time that sensor circuit layer 24 is energized, between each first polar circuit pattern 2421 and corresponding the second polar circuit pattern 2422 thereof, can produce an electric field, if now wherein an electric field is changed, corresponding capacitance key switch 2423 can be excited, make sensor circuit layer 24 produce output one contactless push button signalling, in addition, sensor circuit layer 24 also includes the multiple circuit layer perforation 243 corresponding to multiple straight-down negative light-emitting components 26, and the light beam providing for straight-down negative light-emitting component 26 passes wherein.
What remark additionally is, although above-mentioned each first polar circuit pattern 2421 and the second corresponding polar circuit pattern 2422 thereof are spaced apart with the arrangement mode in same level, but not as limit, each first polar circuit pattern 2421 and the second corresponding polar circuit pattern 2421 thereof can also be on different level arrangement mode spaced apart, that is to say each first polar circuit pattern 2421 can be arranged at its second corresponding polar circuit pattern 2422 above or below, and can between each first polar circuit pattern 2421 and corresponding the second polar circuit pattern 2422 thereof, coat or print an interval parts (as UV glue), make each first polar circuit pattern 2421 and 2422 corresponding, the second polar circuit pattern thereof be perpendicular separation.
In addition, it is above-mentioned that by capacitive induction, mode and the operating principle thereof of output key signal is as known to those of skill in the art would knowing, no longer repeated at this, only the pattern of sensor circuit shown in Fig. 4 242 is only an embodiment, do not limit to the form of sensor circuit pattern with this, those skilled in the art can carry out according to practical application request any variation design being equal to.For instance, also to can be electromagnetic type sensor circuit layer etc. be the sensor circuit layer of non-contact induction form to sensor circuit layer 24 equally.
Please consult once again Fig. 3, transparent support board 23 use connect thereon for multiple buttons 25, and multiple button 25 is arranged at corresponding to multiple capacitance key switch 2423 parts, and each button 25 all has keycap 251, conductor 252 and Connection Element 253; Wherein, each Connection Element 253 is arranged between transparent support board 23 and corresponding keycap 251, in order to connect transparent support board 23 and corresponding keycap 251, and corresponding keycap 251 can be moved up and down with respect to transparent support board 23, and each conductor 252 is connected in corresponding keycap 251 belows, move with the keycap 251 along with corresponding, and conductor 252 comprises a conductive material, as conducting foam, metal material, graphite or metallic paint etc., but not as limit.
In this preferred embodiment, Connection Element 253 is a scissor Connection Element, and comprises the first framework 2531 and the second framework 2532; And transparent support board 23 also has first fixed structure 232 and the second fixed structure 233, and the keycap 251 of each button 25 all comprises one first keycap fixed structure 2511 and one second keycap fixed structure 2512.Wherein, one end 25311 of the first framework 2531 can be connected in the second fixed structure 233, and its other end 25312 can be connected in the first keycap fixed structure 2511, and one end 25321 of the second framework 2532 can be connected in first fixed structure 232, and its other end 25322 can be connected in the second keycap fixed structure 2512.Certainly, above are only an enforcement aspect, do not limit the connection relationship of 251 of this case Connection Element 253, transparent support board 23 and keycaps with this.
Again, in this preferred embodiment, when arbitrary keycap 251 touched and while moving down with respect to transparent support board 23, the first framework 2531 and second framework 2532 of corresponding Connection Element 253 change to closed state by folding condition, and corresponding conductor 252 can move down and close sensor circuit pattern 242 along with this arbitrary keycap 251, now the electric field between corresponding the first polar circuit pattern 2421 and the second polar circuit pattern 2422 can produce change, and then corresponding capacitance key switch 2423 is excited, make sensor circuit layer 24 produce the corresponding contactless push button signalling of output.
In this preferred embodiment, illuminated keyboard 2 also comprises a keycap recovery ways, be used to this arbitrary keycap 251 when no longer touched, keycap 251 is up moved with respect to sensor circuit layer 24, now the first framework 2531 and the second framework 2532 can change to folding condition by closed state, and keycap 251 recovers meeting original position, in addition, the feedback feel that this keycap recovery ways also can provide user to press keycap 251; Wherein, keycap recovery ways can be an elastic force or a magnetic force etc., that is to say that keycap 251 can set back according to this elastic force or this magnetic force, and so its embodiment, by the personage who knows this skill is known, is no longer repeated at this.
Refer to Fig. 5, it is the structure vertical view of the keycap of illuminated keyboard shown in Fig. 3.Keycap 251 has at least one transmission region 2513, and transmission region 2513 can comprise a symbol shape, a numerical switch or a word shape; Be with, the light beam providing when arbitrary straight-down negative light-emitting component 26 is in being sequentially projected to after corresponding keycap 251 through corresponding circuit layer perforation 243 and transparent support board 23, those light beams can outwards be exported from the transmission region 2513 of this corresponding keycap 251, user just can see symbol luminous on button 25, numeral or word by this, has overcome the operational difficulty causing under the weak environment of light.
In general, transmission region 2513 designs in the corner of keycap 251, but, because transparent support board 23 is too short with the distance of keycap 251, therefore cannot effectively refract to through the light beam after transparent support board 23 transmission region 2513 that is positioned at keycap 251 corners, that is to say, most light beam is the zone line that is projected to keycap 251, and therefore the service efficiency of light is comparatively not good.
Base this, in this preferred embodiment, transparent support board 23 has corresponding to multiple straight-down negative sides optical element 26 the multiple lens sections 234 integrally formed with transparent support board 23
Furthermore, by each lens section 234 of special design (as meniscus, but not as limit) shape and make each lens section 234 there is lens function, in order to change the transmission path through the light beam of lens section 234, that is to say, make can advance towards the direction of the transmission region of keycap 251 2513 through the light beam of lens section 234.Certainly, above are only a kind of execution mode that makes can diffuse to through the light beam of transparent support board 23 transmission region 2513 of keycap 251, and lens section 234 is not that the necessity that limits this case is implemented means, those skilled in the art can carry out according to practical application request any variation design being equal to.
For instance, refer to Fig. 6, it is a better enforcement conceptual schematic view that makes can diffuse to through the light beam of transparent support board the transmission region of keycap.Fig. 6 has illustrated to be also provided with multiple lenticular bodies 235 in transparent support board 23, therefore light beam is in following through lenticular body 235 through meeting after transparent support board 23, change by this transmission path of light beam, that is to say, make can advance towards the direction of the transmission region of keycap 251 2513 through the light beam of lenticular body 235.
Again for instance, refer to Fig. 7, it is another the better enforcement conceptual schematic view that makes can diffuse to through the light beam of transparent support board the transmission region of keycap.Fig. 7 has illustrated to have multiple micro-structurals 236 in transparent support board 23, and therefore light beam, in through changing the direction of advancing after multiple micro-structurals 273, that is to say, makes can advance towards the direction of the transmission region of keycap 251 2513 through the light beam of micro-structural 236.Supplementary notes, the micro-structural 236 shown in Fig. 7 is V-arrangement cutting (V-CUT) structure, but not as limit, as micro-structural also can be texture patterning 237, it is as shown in Figure 8.Only, the above-mentioned various embodiment that make can to diffuse to through the light beam of transparent support board 23 transmission region 2513 of keycap 251 are the use of example explanation, not in order to limit scope of the present invention.
Refer to Fig. 9, it is the structure side view of illuminated keyboard of the present invention in the second preferred embodiment.Wherein, the illuminated keyboard 2A of this preferred embodiment is roughly similar to person described in this case the first preferred embodiment, is no longer repeated at this.And this preferred embodiment is with aforementioned the first preferred embodiment difference, illuminated keyboard 2A also comprises metal base plate 28, it is arranged at the below of sensor circuit layer 24, prevents that in order to the worn-out effect of a screen to be provided wantonly two adjacent capacitance key switches 2423 from the interference on electric field occurring.
Special instruction, those skilled in the art all can be by the enlightenment obtaining in this second preferred embodiment, and the metal base plate in the second preferred embodiment 28 is applied in following each preferred embodiment.
Refer to Figure 10, it is the structure side view of illuminated keyboard of the present invention in the 3rd preferred embodiment.Wherein, the illuminated keyboard 2B of this preferred embodiment is roughly similar to person described in this case the first preferred embodiment, is no longer repeated at this.And this preferred embodiment is with aforementioned the first preferred embodiment difference, the sensor circuit plate 241 that this preferred embodiment substitutes in the first preferred embodiment with sensor film wiring board 244; Preferably, sensor film wiring board 244 can be made by polyethylene terephthalate (PET) material, Merlon (PC) material, thermoplastic polyurethanes (TPU) or acryl plastic cement (PMMA) material, but not as limit.
Special instruction, those skilled in the art all can be by the enlightenment obtaining in this 3rd preferred embodiment, and the sensor film wiring board 244 in the 3rd preferred embodiment is applied in above-mentioned and following each preferred embodiment.
Refer to Figure 11 and Figure 12, Figure 11 is the structure side view of illuminated keyboard of the present invention in the 4th preferred embodiment, and Figure 12 is the structural representation of the sensor circuit layer of illuminated keyboard shown in Figure 11.Wherein, the illuminated keyboard 2C of this preferred embodiment is roughly similar to person described in this case the first preferred embodiment, is no longer repeated at this.And this preferred embodiment is with aforementioned the first preferred embodiment difference, light emitting element driving circuit pattern 221 is formed on sensor circuit plate 241, in detail, light emitting element driving circuit pattern 221 be formed at sensor circuit pattern 242 above or below, and can between light emitting element driving circuit pattern 221 and sensor circuit pattern 242, coat or print a upper interval parts (as UV glue), making light emitting element driving circuit pattern 221 and sensor circuit pattern 242 be perpendicular separation.Therefore in this preferred embodiment, straight-down negative light-emitting component 26 is directly arranged on sensor circuit layer 24, that is to say, this preferred embodiment does not need the light emitting element driving circuit plate 22 in the first preferred embodiment, and sensor circuit layer 24C need not holes.
Special instruction, those skilled in the art all can be by the enlightenment obtaining in this 4th preferred embodiment, and the interelement relativeness in the 4th preferred embodiment is applied in above-mentioned and following each preferred embodiment.
Refer to Figure 13, it is the structure side view of illuminated keyboard of the present invention in the 5th preferred embodiment.Wherein, the illuminated keyboard 2D of this preferred embodiment is roughly similar to person described in this case the 4th preferred embodiment, is no longer repeated at this.And this preferred embodiment is with aforementioned the 4th preferred embodiment difference, the sensor circuit plate 241 that this preferred embodiment substitutes in the 4th preferred embodiment with sensor film wiring board 245; Preferably, sensor film wiring board 245 can be made by polyethylene terephthalate (PET) material, Merlon (PC) material, thermoplastic polyurethanes (TPU) or acryl plastic cement (PMMA) material, but not as limit.
What specify is, although be to make keycap 251 and conductor 252 move up and down with respect to sensor circuit layer 24,24C by the collocation of transparent support board 23 and scissor Connection Element 253 in the various embodiments described above, but this is only a kind of enforcement means that keycap 251 and conductor 252 are moved up and down with respect to sensor circuit layer 24,24C, those skilled in the art can carry out according to practical application request any variation design being equal to, and scissor Connection Element 253 is not the necessary element that limits this case.
For instance, refer to Figure 14 ~ Figure 17, Figure 14 is the structure side view of illuminated keyboard of the present invention in the 6th preferred embodiment, Figure 15 is the perspective exploded view of the button of illuminated keyboard shown in Figure 14, Figure 16 is the button of illuminated keyboard shown in Figure 14 view when not touched, and Figure 17 is the button of illuminated keyboard shown in Figure 14 view when touched.Wherein, the illuminated keyboard 2E of this preferred embodiment is roughly similar to person described in the better enforcement of this case first, is no longer repeated at this.
This preferred embodiment is with aforementioned the first preferred embodiment difference, illuminated keyboard 2E does not comprise scissor Connection Element 253, and each button 29 has keycap 291, conductor 292, key frame 293 and multiple elastic arm 294, and each elastic arm 294 is flat rib-like, and comprise interior fixing arm 2941, and the vertical outer movable arm 2942 of interior fixing arm 2941 and be connected in interior fixing arm 2941 and outer movable arm 2942 between angle transition part 2943; Wherein, it is in the inner chimeric for keycap 251 that key frame 293 has containing hole 2931, the fixing arm 2941 of each elastic arm 294 is fixed on the bottom of keycap 251, and the outer movable arm 2942 of each elastic arm 294 exposes from the bottom of keycap 251 and be fixed on key frame 293, and a part for the angle transition part 2943 of each elastic arm 294 is exposed from the exterior angle of keycap 251 bottoms.
Moreover in the time that arbitrary keycap 251 is not touched, outer movable arm 2942 and the angle transition part 2943 of each elastic arm 294 all do not deform, it as shown in figure 16, and in the time that this arbitrary keycap 251 is touched, the angle transition part 2943 of each elastic arm 294 can be oppressed in the exterior angle of keycap 251 bottoms, make outer movable arm 2942 and the angle transition part 2943 of each elastic arm 294 that strain all occur, it as shown in figure 17, and conductor 292 can approach towards sensor circuit layer 24 along with keycap 251, now corresponding capacitance key switch can be excited and make the corresponding contactless push button signalling of sensor circuit layer 24 generation output (in figure, not indicate capacitance key switch, so its operating principle is as being same as person described in the first preferred embodiment).Again, after this arbitrary keycap 251 is stopped and presses, each elastic arm 294 and corresponding light transmission elastic body 27 can provide elastic force, and this arbitrary keycap 251 is set back.
What specify is, this preferred embodiment provides a kind of concrete enforcement means that do not adopt scissor Connection Element and keycap and conductor can be moved up and down with respect to sensor circuit layer, therefore can effectively make illuminated keyboard slimming more, so it is only a kind of embodiment, not as limit.Again, those skilled in the art all can be by the enlightenment obtaining in this 6th preferred embodiment, and the press-key structure in the 6th preferred embodiment is applied in aforementioned the first preferred embodiment to the five preferred embodiments.
Again for instance, refer to Figure 18, it is the button of illuminated keyboard of the present invention in the 7th preferred embodiment and the perspective exploded view of transparent support board.Wherein, the illuminated keyboard of this preferred embodiment is roughly similar to person described in the better enforcement of this case first, is no longer repeated at this.
This preferred embodiment and aforementioned the first preferred embodiment difference be, illuminated keyboard does not comprise scissor Connection Element 253, and each button 25F also has the multiple elastic arms 254 between keycap 251 and transparent support board 23; Wherein, each elastic arm 254 comprises stiff end 2541 and free end 2542, and the stiff end 2541 of each elastic arm 254 is connected in transparent support board 23, and the free end 2542 of each elastic arm 254 is connected in the bottom of keycap 251.Moreover, in the time that arbitrary keycap 251 is touched, the free end 254 of each elastic arm 254 can be squeezed and along with keycap 251 moves down, and provide elastic force to give this arbitrary keycap 251, and after this arbitrary keycap 251 is stopped and presses, 251 elastic forces that provide according to each elastic arm 254 of this arbitrary keycap set back.
Special instruction, those skilled in the art all can be by the enlightenment obtaining in this 7th preferred embodiment, and the press-key structure in the 7th preferred embodiment is applied in aforementioned the first preferred embodiment to the five preferred embodiments.
Next refer to Figure 19, it is the structure side view of illuminated keyboard of the present invention in the 8th preferred embodiment.Wherein, the illuminated keyboard 2G of this preferred embodiment is roughly similar to person described in the better enforcement of this case first, is no longer repeated at this.This preferred embodiment is with aforementioned the first preferred embodiment difference, the outer surface of transparent support board 23 is also formed with shading element 20, as black out ink, make the light beam that straight-down negative light-emitting component 26 provides cannot pass the region with shading element 20, and only have the region that is not formed with shading element 20 to pass through for light beam, so to prevent that light beam that straight-down negative light-emitting component 26 provided from outbound flowing towards the direction in light requirement source not.In addition, although shading element 20 is the outer surfaces that are formed at transparent support board 23 in this preferred embodiment, but this is only an embodiment, those skilled in the art can carry out according to practical application request any variation design being equal to, and are designed to shading element to be formed at the inner surface of transparent support board 23 as variable.
What specify is, those skilled in the art all can be by the enlightenment obtaining in this 8th preferred embodiment, and the shading element 20 in the 8th preferred embodiment is applied in aforementioned each preferred embodiment, that is to say, the surface of the transparent support board in aforementioned each preferred embodiment also can form shading element, to prevent that light beam that straight-down negative light-emitting component 26 provided from outbound flowing towards the direction in light requirement source not.
Known according to above explanation, illuminated keyboard design of the present invention is directly arranged at straight-down negative light-emitting component the below of button, and use adopts the design of printing opacity to connect the supporting bracket of button, so the light beam of straight-down negative light that light-emitting component is carried can, directly in being projected to button through after the supporting bracket of printing opacity, effectively promote the service efficiency of light; In addition, because illuminated keyboard of the present invention is the sensor circuit layer that adopts noncontact induction form, therefore the below that straight-down negative light-emitting component is directly arranged to button can't affect the running of sensor circuit layer, the keyboard that has simultaneously also improved existing noncontact induction form is not had a defect of lighting function, is in fact one to have the invention of industry applications.
The foregoing is only preferred embodiment of the present invention, not in order to limit claim of the present invention, therefore all other do not depart from being equal to change or modifying of completing under disclosed spirit, all should be contained in claim of the present invention.
Claims (27)
1. an illuminated keyboard, comprising:
One sensor circuit layer, in order to produce at least one contactless push button signalling;
At least one button, in order to touched and make this sensor circuit layer produce this at least one contactless push button signalling;
At least one straight-down negative light-emitting component, is arranged at the below of this at least one button, in order to a light beam to be provided; And
One transparent support board, is arranged between this sensor circuit layer and this at least one button, uses for this at least one button and is connected in this supporting bracket;
Wherein, this light beam of this at least one straight-down negative light-emitting component is projected to this at least one button through after this transparent support board.
2. illuminated keyboard as claimed in claim 1, wherein this sensor circuit layer comprises a sensor circuit pattern and a sensor circuit plate, and this sensor circuit pattern is formed on this sensor circuit plate.
3. illuminated keyboard as claimed in claim 2, wherein this sensor circuit layer also comprises a light emitting element driving circuit pattern, and this light emitting element driving circuit pattern is formed on this sensor circuit plate, in order to drive this at least one straight-down negative light-emitting component that this light beam is provided.
4. illuminated keyboard as claimed in claim 2, also comprise a light emitting element driving circuit plate and a light emitting element driving circuit pattern, and this light emitting element driving circuit pattern is formed on this light emitting element driving circuit plate, in order to drive this at least one straight-down negative light-emitting component that this light beam is provided; Wherein, this sensor circuit plate is between this light emitting element driving circuit plate and this at least one button.
5. illuminated keyboard as claimed in claim 4, wherein this sensor circuit layer has at least one circuit layer perforation corresponding to this at least one straight-down negative light-emitting component.
6. illuminated keyboard as claimed in claim 2, wherein this sensor circuit pattern comprises at least one the first polar circuit pattern and at least one the second polar circuit pattern, and in the time that this sensor circuit layer is energized, between this at least one first polar circuit pattern and this at least one the second polar circuit pattern, produce an electric field; Wherein, when this at least one button is touched, when this sensor circuit pattern, this electric field changes and makes this sensor circuit layer produce this at least one contactless push button signalling.
7. illuminated keyboard as claimed in claim 1, wherein this sensor circuit layer comprises a sensor circuit pattern and a sensor film wiring board, this sensor circuit pattern is formed on this sensor film wiring board.
8. illuminated keyboard as claimed in claim 7, wherein this sensor circuit layer also comprises a light emitting element driving circuit pattern, and this light emitting element driving circuit pattern system is formed on this sensor film wiring board, in order to drive this at least one straight-down negative light-emitting component that this light beam is provided.
9. illuminated keyboard as claimed in claim 7, also comprise a light emitting element driving circuit plate and a light emitting element driving circuit pattern, and this light emitting element driving circuit pattern is formed on this light emitting element driving circuit plate, in order to drive this at least one straight-down negative light-emitting component that this light beam is provided; Wherein, this sensor film wiring board is between this light emitting element driving circuit plate and this at least one button.
10. illuminated keyboard as claimed in claim 9, wherein this sensor circuit layer has at least one circuit layer perforation corresponding to this at least one straight-down negative light-emitting component.
11. illuminated keyboards as claimed in claim 7, wherein this sensor film wiring board is made by polyethylene terephthalate material, Merlon material, thermoplastic polyurethanes or acryl plastic cement material.
12. illuminated keyboards as claimed in claim 7, wherein this sensor circuit pattern comprises one first polar circuit pattern and one second polar circuit pattern, and in the time that this sensor circuit layer is energized, between this first polar circuit pattern and this second polar circuit pattern, produce an electric field; Wherein, when this at least one button is touched, when this sensor circuit pattern, this electric field changes and makes this sensor circuit layer produce this at least one Non-contact key switch signal.
13. illuminated keyboards as claimed in claim 1, wherein this at least one button comprises:
One keycap, is revealed in the outside of this illuminated keyboard; And
One conductor, is arranged between this keycap and this sensor circuit layer, and along with this keycap moves; Wherein, in the time that this keycap is touched, this conductor makes this sensor circuit layer produce this at least one contactless push button signalling near this sensor circuit layer downwards.
14. illuminated keyboards as claimed in claim 13, wherein this conductor comprises a conductive material, this conductive material comprises a conducting foam, a metal material or a metallic paint.
15. illuminated keyboards as claimed in claim 13, wherein this at least one button also comprises a Connection Element, is connected between this transparent support board and this keycap, and this keycap is moved up and down with respect to this supporting bracket.
16. illuminated keyboards as claimed in claim 15, wherein this Connection Element is a scissor Connection Element.
17. illuminated keyboards as claimed in claim 13, wherein this at least one button also comprises multiple elastic arms, with so that this keycap move up and down with respect to this sensor circuit layer; Wherein, each elastic arm comprises that a stiff end is connected in this transparent support board and a free end is connected in this keycap.
18. illuminated keyboards as claimed in claim 13, wherein this at least one button also comprises:
One key frame, has a containing hole, and this containing hole is used for this keycap and is embedded in this containing hole; And
Multiple elastic arms, with so that this keycap moves up and down with respect to this sensor circuit layer, each elastic arm comprises an interior fixing arm, an outer movable arm and one jiao of transition part, and this angle transition part is connected between this interior fixing arm and this outer movable arm.
19. illuminated keyboards as claimed in claim 1, are wherein formed with multiple micro-structurals in this transparent support board, in order to change the direct of travel through this light beam of this transparent support board.
20. illuminated keyboards as claimed in claim 19, wherein any one in the plurality of micro-structural is a V-arrangement cutting structure or a texture structure.
21. illuminated keyboards as claimed in claim 1, are wherein provided with at least one lenticular body corresponding to this at least one light-emitting component in this transparent support board, in order to change the transmission path through this light beam of this transparent support board.
22. illuminated keyboards as claimed in claim 1, wherein this transparent support board has at least one lens section corresponding to this at least one light-emitting component, in order to change the transmission path through this light beam of this transparent support board; Wherein, at least one lens section is integrally formed makes for this transparent support board and this.
23. illuminated keyboards as claimed in claim 1, also comprise a metal base plate, are arranged at this sensor circuit layer below.
24. illuminated keyboards as claimed in claim 1, wherein this at least one light-emitting component is a light-emitting diode.
25. illuminated keyboards as claimed in claim 1 are a capacitor induction type illuminated keyboard.
26. illuminated keyboards as claimed in claim 1, also comprise a shading element, and it is formed at the surface of this transparent support board.
27. illuminated keyboards as claimed in claim 26, wherein this shading element is a black out ink.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201210483069.5A CN103839722B (en) | 2012-11-23 | 2012-11-23 | Illuminated keyboard |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201210483069.5A CN103839722B (en) | 2012-11-23 | 2012-11-23 | Illuminated keyboard |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN103839722A true CN103839722A (en) | 2014-06-04 |
| CN103839722B CN103839722B (en) | 2016-07-13 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201210483069.5A Expired - Fee Related CN103839722B (en) | 2012-11-23 | 2012-11-23 | Illuminated keyboard |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN103839722B (en) |
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