CN102595071B - Qwerty remote control - Google Patents

Abstract

The invention provides a qwerty remote control, which is rotatable and is provided with two different operating zones, wherein the two operating zones are nonopaque. When the operating zones are pressed, a remote control signal is output by the qwerty remote control; when the qwerty remote control is turned to be vertical, light can be emitted from the first operating zone on the qwerty remote control; and when the qwerty remote control is turned to be horizontal, light can be emitted from the second operating zone on the qwerty remote control, so that which operating zone used by the qwerty remote control at present can be clearly known. According to the qwerty remote control, the power consumption of a first light source and a second light source can be reduced, and the remote control signal can be converted into an infrared remote control signal which is more stable and more power--saving through an infrared emitter suite.

Description

Qwerty remote control

Technical field

The invention relates to a kind of remote controller, and a kind of Qwerty remote control particularly.

Background technology

The current remote controller for Web TV, be categorized as with keyboard pattern: (1) is input type continuously: repeatedly press button and could confirm the key symbols of being inputted, for example press the same button of secondary, could determine that the key symbols of inputting is B, press same button three times, could determine that the key symbols of inputting is C; (2) double-layer slip cover formula: keyboard is hidden in the interlayer of remote controller; (3) double-sided overturn type: keyboard is arranged at the back side of remote controller; (4) virtualized keyboard: see through digital picture and present various operator schemes.

Generally speaking, input type remote controller is very not convenient in the use continuously; Double-layer slip cover formula remote controller need to shorten remote controller length by dwindling button size, just can make slide construction smooth-going; Double-sided overturn type remote controller can produce foreign body sensation in the time gripping; Virtualized keyboard has been difficult for the word input of whole, whole section.In addition, the remote controller that function is more powerful more easily has power consumption problem, but the design that collocation seat fills to improve power consumption problem is but against the usage behavior pattern of remote controller.

Summary of the invention

The object of the present invention is to provide a kind of Qwerty remote control, Qwerty remote control is rotating, has two kinds of dissimilar operating spaces on Qwerty remote control, and these two kinds of operating spaces are all the designs that adopts light-permeable.In the time of pressing operation district, Qwerty remote control will be exported remote signal, when Qwerty remote control turns to when vertical, the first operating space on Qwerty remote control just has light and penetrates, in the time of Qwerty remote control steering horizontal, the second operating space on Qwerty remote control just has light and penetrates, and what therefore can cheer and bright Qwerty remote control use at present is any operating space.

For reaching above-mentioned purpose of the present invention, the present invention proposes a kind of Qwerty remote control, and Qwerty remote control comprises panel, the first luminous plaque, the second luminous plaque, touch pad and control module.Panel is soft light-transmitting materials, the upper surface of panel is provided with multiple the first operating spaces and multiple the second operating space, the first operating space is positioned at the diverse location of the upper surface of panel, the second operating space is also positioned at the diverse location of the upper surface of panel, and the first operating space and the second operating space do not overlap mutually, the upper surface of panel all scribbles the lighttight coating of one deck outside the first operating space and the second operating space.The first luminous plaque is positioned at the below of panel, the first luminous plaque is soft light-transmitting materials, the first luminous plaque has multiple the first light sources, the first incidence surface, the first reflective surface and the first exiting surface, the first exiting surface is positioned at the upper surface of the first luminous plaque, the first reflective surface is positioned at the lower surface of the first luminous plaque, the first incidence surface is positioned at the side of the first luminous plaque, multiple the first light sources are positioned at the first incidence surface outer periphery, the first exiting surface is provided with multiple lighttight the first veils, each first veil is respectively vertically corresponding to each the second operating space, in the time that the light of the first light source ejaculation is projected in the first luminous plaque by the first incidence surface, the first reflective surface is by reflecting by ray guidance upwards.The second luminous plaque is positioned at the below of the first luminous plaque, the second luminous plaque is soft light-transmitting materials, the second luminous plaque has multiple secondary light sources, the second incidence surface, the second reflective surface and the second exiting surface, the second exiting surface is positioned at the upper surface of the second luminous plaque, the second reflective surface is positioned at the lower surface of the second luminous plaque, the second incidence surface is positioned at the side of the second luminous plaque, multiple secondary light sources are positioned at the second incidence surface outer periphery, the second exiting surface is provided with multiple lighttight the second veils, each second veil vertically corresponds to respectively each first operating space, in the time that the light of secondary light source ejaculation is projected in the second luminous plaque by the second incidence surface, the second reflective surface is by reflecting by ray guidance upwards.Touch pad is positioned at the below of the second luminous plaque, and when press panel, the first luminous plaque and second luminous plaque of soft materials from the upper surface of panel, touch pad detects the position of pressing, and output simultaneously presses signal.Control module comprises controller and transducer, controller receives while pressing signal can export remote signal extremely by remote control thing, the direction that transducer turns in order to sensing Qwerty remote control, in the time that transducer senses direction that Qwerty remote control presents and is first direction, transducer output first direction signal is to controller, controller receives first direction signal and exports the first control signal, the first control signal is in order to drive the first light source luminescent, make the light of the first light source be projected to panel via the first luminous plaque, and then make the first operating space of printing opacity penetrate light, in the time that transducer senses direction that Qwerty remote control presents and is second direction, transducer output second direction signal is to controller, controller receives second direction signal and exports the second control signal, the second control signal is in order to drive secondary light source luminous, make the light of secondary light source be projected to panel via the second luminous plaque, and then make the second operating space of printing opacity penetrate light.

Qwerty remote control described above, wherein first direction is vertical, second direction is level.

Qwerty remote control described above, wherein the first operating space and the second operating space are that laser carved hollow out forms.

Qwerty remote control described above, wherein the first light source and secondary light source are light-emitting diodes.

Qwerty remote control described above, wherein the first incidence surface and the second incidence surface have respectively multiple the first optical microstructures, and the first optical microstructures is in order to improve incident uniformity of light, and the first optical microstructures is zigzag.

Qwerty remote control described above, wherein the first reflective surface and the second reflective surface have respectively multiple the second optical microstructures, and the second optical microstructures is that the second optical microstructures is triangular shape towards exiting surface in order to limit the direction of light reflection.

Qwerty remote control described above, wherein the first veil and the second veil are light tight ink or light tight coating.

Qwerty remote control described above, wherein the first veil and the second veil be adopt staggered, and on vertical line mutual nonoverlapping set-up mode.

Qwerty remote control described above is wherein Web TV by remote control thing.

Qwerty remote control described above, its middle controller is electrically connected timer, controller, in the time sending the first control signal to the first light source or send the second control signal to secondary light source, synchronously triggers timer, to calculate the luminous time of the first light source or secondary light source.

In sum, Qwerty remote control of the present invention can utilize panel, the first luminous plaque, the second luminous plaque, control module provides two kinds of dissimilar operating spaces for user, and can make it switch different operating spaces towards different directions through rotatable key disc type remote controller, Qwerty remote control also can see through controller collocation timer and control the first light source and luminous time of secondary light source, therefore can reduce the power consumption of the first light source and secondary light source, also can see through infrared transmitter external member is converted to remote signal more stable, more save the infrared remote control signal of electric weight.

For above and other object of the present invention, feature and advantage can be become apparent, preferred embodiment cited below particularly, and coordinate accompanying drawing, be described in detail below.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of Qwerty remote control of the present invention.

Fig. 2 is the first incidence surface of the luminous version of the present invention first and the optical microstructures schematic diagram of the first reflective surface

Fig. 3 is the opticpath schematic diagram of the first luminous plaque of Qwerty remote control of the present invention.

Fig. 4 is the second incidence surface of the luminous version of the present invention second and the optical microstructures schematic diagram of the second reflective surface.

Fig. 5 is the opticpath schematic diagram of the second luminous plaque of Qwerty remote control of the present invention.

Fig. 6 is the configuration schematic diagram of the first luminous plaque and second luminous plaque of Qwerty remote control of the present invention.

Fig. 7 is that the signal of Qwerty remote control of the present invention transmits schematic diagram.

Description of reference numerals:

10: 11: the first operating spaces of panel

20: the first luminous plaques in 12: the second operating spaces

21: 22: the first incidence surfaces of multiple the first light sources

24: the first exiting surfaces of 23: the first reflective surfaces

25: the first veils 26,36: the first optical microstructures

27,30: the second luminous plaques of 37: the second optical microstructures

31: 32: the second incidence surfaces of multiple secondary light sources

34: the second exiting surfaces of 33: the second reflective surfaces

35: the second veils 40: touch pad

50: control module 51: transducer

52: controller 53: timer

Embodiment

The invention provides a kind of Qwerty remote control, Qwerty remote control is rotating, has two kinds of dissimilar operating spaces on Qwerty remote control, and these two kinds of operating spaces are all the designs that adopts light-permeable.In the time of pressing operation district, Qwerty remote control will be exported remote signal.In order to be convenient for people to control dissimilar operating space, Qwerty remote control can be turned to vertically, make the first operating space on Qwerty remote control penetrate light; If again by Qwerty remote control steering horizontal, the second operating space on Qwerty remote control just has ejaculation light, and what therefore can cheer and bright Qwerty remote control use at present is any operating space.

Fig. 1 is the schematic diagram of Qwerty remote control of the present invention, refers to Fig. 1, and Qwerty remote control comprises panel 10, the first luminous plaque 20, the second luminous plaque 30, touch pad 40 and control module 50.Panel 10 is soft light-transmitting materials, and the upper surface of panel 10 is provided with multiple the first operating spaces 11 and multiple the second operating space 12.The first operating space 11 represents the operating space of the first type, for example operating space of general keyboard for remote control (for example 1,2,3,4).The second operating space 12 represents the operating space of the second type, for example operating space of general standard keyboard (for example A, B, C, D).

Wherein, multiple the first operating spaces 11 are positioned at the diverse location of the upper surface of panel 10, and multiple the second operating spaces 12 are also positioned at the diverse location of the upper surface of panel 10, and the first operating space 11 and the second operating space 12 do not overlap mutually; That is to say, any operating space is all arranged at the diverse location of panel 10 upper surfaces, staggers mutually.And the upper surface of panel 10 is in the first operating space 11 and the outer lighttight coating of one deck that all scribbles in the second operating space 12

Certainly, in other embodiments, touch pad 40 can be also the operating space of joystick, and in addition, the first operating space 11 and the second operating space 12 can also be respectively the words of two kinds of different languages, and for example Chinese is with English.The first operating space 11 and the second operating space 12 are all the designs that adopts light-permeable, for example, be to form with laser carved hollow out.Because the upper surface of panel 10 scribbles the lighttight coating of one deck, so the light up projecting from panel 10 belows only can penetrate via the first operating space 11 and 12 places, the second operating space, leave the upper surface of panel 10.

Please continue to refer to Fig. 1, the first luminous plaque 20 is positioned at the below of panel 10, and the first luminous plaque 20 is soft light-transmitting materials, and the first luminous plaque 20 has multiple the first light sources 21, the first incidence surface 22, the first reflective surface 23 and the first exiting surface 24.The first exiting surface 24 is positioned at the upper surface of the first luminous plaque 20, and the first reflective surface 23 is positioned at the lower surface of the first luminous plaque 20, and the first incidence surface 22 is positioned at the side of the first luminous plaque 20, and multiple the first light sources 21 are positioned at the outer periphery of the first incidence surface 22.The first light source 21 is the inside of light-emitting diode in order to throw light to the first luminous plaque 20.

The first reflective surface 23 is the designs that adopt part light-permeable, is utilize special substance to make the first reflective surface 23 or add special micro-structural at the first reflective surface 23, makes the first reflective surface 23 have the characteristic of the reflective and part printing opacity of part.The first exiting surface 24 is positioned at the lower surface of panel 10, and the first exiting surface 24 is provided with multiple the first veils 25, and each first veil 25 is respectively vertically up and down corresponding to each the second operating space 12.The first veil 25 is to adopt lighttight design, and the first veil 25 can be light tight ink or light tight coating.

Fig. 2 is the first incidence surface of the first luminous plaque and the optical microstructures schematic diagram of the first reflective surface, refer to Fig. 2, the first incidence surface 22 can also have multiple the first optical microstructures 26, the first optical microstructures 26 is in order to improve incident uniformity of light, and the first optical microstructures 26 can be zigzag.The first reflective surface 23 can also have multiple the second optical microstructures 27, the second optical microstructures 27 and can reflect the first light source 21 and inject the light of the first luminous plaque 20 inside, and light is up penetrated towards the first exiting surface 24.The second optical microstructures 27 can be triangular shape.

Fig. 3 is the opticpath schematic diagram of the first luminous plaque of Qwerty remote control of the present invention.Please contrast again Fig. 1 and Fig. 3 simultaneously, the light penetrating when the first light source 21 is projected to the first luminous plaque 20 when interior by the first incidence surface 22, the first reflecting surface 23 can be by reflection by ray guidance upwards, make light be projected to equably whole the first exiting surface 24, therefore, the first exiting surface 24 has the character of whole even bright dipping.After light reflection to the first exiting surface 24, except the light being stopped by the first veil 25, all the other all can be penetrated by the first exiting surface 24, are then projected to equably panel 10.Come again, because the upper surface of panel 10 scribbles one deck shading coating, and lighttight first veil 25 vertically the second operating spaces 12 of corresponding light-permeable of difference, so when the first light source 21 is lighted ejaculation light, light is being projected to after panel 10 via the first luminous plaque 20, multiple the second operating spaces 12 can't penetrate light, only have the first operating space 11 of printing opacity can penetrate light.

Please continue to consult Fig. 1, the second luminous plaque 30 is positioned at the below of the first luminous plaque 20 again, and the second luminous plaque 30 is soft light-transmitting materials, and the second luminous plaque 30 has multiple secondary light sources 31, the second incidence surface 32, the second reflective surface 33 and the second exiting surface 34.The second exiting surface 34 is positioned at the upper surface of the second luminous plaque 30, and the second reflective surface 33 is positioned at the lower surface of the second luminous plaque 30, and the second incidence surface 32 is positioned at the side of the second luminous plaque 30, and multiple secondary light sources 31 are positioned at the outer periphery of the second incidence surface 32.Secondary light source 31 can be light-emitting diode, in order to the inside of throw light to the second luminous plaque 30.

The second reflective surface 33 is the designs that adopt part light-permeable, is utilize special substance to make the first reflective surface 33 or add special micro-structural at the first reflective surface 33, makes the first reflective surface have the characteristic of the reflective and part printing opacity of part.The second exiting surface 34 is positioned at the lower surface of the first luminous plaque 20, and the second exiting surface 34 is provided with multiple the second veils 35, each second veil 35 vertically up corresponds to respectively each first operating space 11, the second veil 35 is to adopt lighttight design, and the second veil 35 can be light tight ink or light tight coating.

Fig. 4 is the second incidence surface of the present invention's the second luminous plaque and the optical microstructures schematic diagram of the second reflective surface.Refer to Fig. 4, the second incidence surface 32 can also have the first optical microstructures 36, the first optical microstructures 36 in order to improve incident uniformity of light, and the first optical microstructures 36 can be zigzag.The second reflective surface 33 can also have the second optical microstructures 37, the second optical microstructures 37 and can reflect secondary light source 31 and inject the light of the second luminous plaque 30 inside, and light is up penetrated towards the second exiting surface 34.The second optical microstructures 37 can be triangular shape.

Fig. 5 is the opticpath schematic diagram of the second luminous plaque of Qwerty remote control of the present invention.Please contrast again Fig. 1 and Fig. 5 simultaneously, the light penetrating when secondary light source 31 is projected to the second luminous plaque 30 when interior by the second incidence surface 32, the second reflecting surface 33 can be by reflection by ray guidance upwards, make light be projected to equably whole the second exiting surface 34, therefore, the second exiting surface 34 has the character of whole even bright dipping.After light reflection to the second exiting surface 34, except the light being stopped by the second veil 35, all the other all can be penetrated by the second exiting surface 34, are then projected to equably panel 10.Because the upper surface of panel 10 scribbles one deck shading coating, and lighttight second veil 35 vertically the first operating spaces 11 of corresponding light-permeable of difference, so when secondary light source 31 is lighted ejaculation light, light is being projected to after panel 10 via the second luminous plaque 30, the first operating space 11 can't penetrate light, only has the second operating space 12 of printing opacity can penetrate light.

Fig. 6 is the configuration schematic diagram of the first luminous plaque and second luminous plaque of Qwerty remote control of the present invention, refer to Fig. 6, the second veil 35 that the first veil 25 that the first exiting surface 24 is provided with as shown in Figure 6 and the second exiting surface 34 are provided be adopt staggered, and on vertical line mutual nonoverlapping set-up mode.

Fig. 7 is that the signal of Qwerty remote control of the present invention transmits schematic diagram.Please consult Fig. 1 and Fig. 7, touch pad 40 is positioned at the below of the second luminous plaque 30, i.e. the below of the second reflective surface 33 simultaneously again.Touch pad 40 can be resistive touch plate 40 or capacitive type touch pad 40.Because panel 10, the first luminous plaque 20 and the second luminous plaque 30 are all soft materials, when so the upper surface of pressing panel 10 from the top of panel 10 as people is pressed the panel 10, the first luminous plaque 20 of soft soft materials and the second luminous plaque 30, touch pad 40 can detect the position of pressing indirectly, and output simultaneously presses signal.

Control module 50 includes transducer 51, controller 52 and timer 53.Controller 52 is electrically connected the first luminous plaque 20, the second luminous plaque 30 and touch pad 40.Controller 52 receive touch pad 40 press signal time can export remote signal to by remote control thing, can be Web TV by remote control thing, remote signal can be used for controlling Web TV, makes Web TV can carry out input characters search, chats, fills in the various functions such as suggestion etc. or channel selection, adjustment volume.

In a preferred embodiment, transducer 51 is gravity sensor (G-sensor), the direction that transducer 51 turns in order to sensing Qwerty remote control, for example, when user rotates wrist while making Qwerty remote control on hand turn to first direction (being vertical direction), the transducer 51 of control module 50 can sense direction that Qwerty remote control presents for vertical, transducer 51 exports first direction signal to controller 52, the first direction signal of controller 52 receiving sensors 51 and export the first control signal, the first control signal is in order to drive the first light source 21 luminous, make the light of the first light source 21 be projected to panel 10 via the first luminous plaque 20, and then make the first operating space 11 of printing opacity penetrate light.

Thereupon, for example, when user rotates wrist while making Qwerty remote control on hand turn to second direction (being the direction of level), it is level that the transducer 51 of control module 50 can sense the direction that Qwerty remote control presents, transducer 51 exports second direction signal to controller 52, the second direction signal of controller 52 receiving sensors 51 and export the second control signal, the second control signal is in order to drive secondary light source 31 luminous, make the light of secondary light source 31 be projected to panel 10 via the second luminous plaque 30, and then make the second operating space 12 of printing opacity penetrate light.So, when Qwerty remote control is in the time turning to different directions, the different operating district on remote controller can be luminous, and what people can cheer and bright Qwerty remote control use at present is any operating space.

Please continue to refer to Fig. 7, in order to control the fluorescent lifetime of the first light source 21 and secondary light source 31, controller 52 can also be electrically connected timer 53, controller 52 is in the time sending the first control signal to the first light source 21 or send the second control signal to secondary light source 31, the synchronous timer 53 that triggers, to calculate the first light source 21 and luminous time of secondary light source 31.Therefore the temporal information that can utilize timer 53 to provide is adjusted the first light source 21 and luminous time of secondary light source 31, to reduce the power consumption of the first light source 21 and secondary light source 31.

For instance, controller 52 sees through timer 53 and learns the first light source 21 and secondary light source 31 luminous two hours, and all do not receive the signal that presses of touch pad 40 in this two hours internal controller 52, controller 52 can send the first control signal to the first light source 21 or the second control signal to secondary light source 31, require the first light source 21 or secondary light source 31 to close, to reduce the power consumption of the first light source 21 or secondary light source 31.

Control module 50 also can comprise infrared transmitter external member, and infrared transmitter external member is in order to the controller 52 of arranging in pairs or groups, and remote signal that controller 52 is exported is more stable and more save electric weight.Infrared transmitter external member and controller 52 are electrically connected, and controller 52 receives pressing signal and can exporting remote signal to infrared transmitter external member of touch pad 40, and infrared transmitter external member can be converted to infrared remote control signal by the remote signal receiving.

In sum, remote controller of the present invention can utilize panel, the first luminous plaque, the second luminous plaque, control module to provide two kinds of dissimilar operating spaces for user, and can make it switch different operating spaces towards different directions through rotating remote controller, remote controller also can see through controller collocation timer and control the first light source and luminous time of secondary light source, therefore can reduce the power consumption of the first light source and secondary light source, more can see through infrared transmitter external member remote signal is converted to more stable, more to save electric weight infrared remote control signal.

Although the present invention is open in above preferred embodiment; so it is not in order to limit the present invention; any those skilled in the art; without departing from the spirit and scope of the present invention; when doing various modifications and retouching, therefore protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.

Claims (10)

1. a Qwerty remote control, is characterized in that, comprising:

One panel, this panel is soft light-transmitting materials, the upper surface of this panel is provided with multiple the first operating spaces and multiple the second operating space, described the first operating space is positioned at the diverse location of the upper surface of this panel, described the second operating space is also positioned at the diverse location of the upper surface of this panel, and described the first operating space and described the second operating space do not overlap mutually, the upper surface of this panel all scribbles the lighttight coating of one deck outside described the first operating space and described the second operating space;

One first luminous plaque, this the first luminous plaque is positioned at the below of this panel, this first luminous plaque is soft light-transmitting materials, this first luminous plaque has multiple the first light sources, one first incidence surface, one first reflective surface and one first exiting surface, this the first exiting surface is positioned at the upper surface of this first luminous plaque, this the first reflective surface is positioned at the lower surface of this first luminous plaque, this the first incidence surface is positioned at the side of this first luminous plaque, described the first light source is positioned at this first incidence surface outer periphery, this first exiting surface is provided with multiple lighttight the first veils, each this first veil is respectively vertically corresponding to each this second operating space, in the time that the light of described the first light source ejaculation is projected in this first luminous plaque by this first incidence surface, this first reflective surface is by reflecting by ray guidance upwards,

One second luminous plaque, this the second luminous plaque is positioned at the below of this first luminous plaque, this second luminous plaque is soft light-transmitting materials, this second luminous plaque has multiple secondary light sources, one second incidence surface, one second reflective surface and one second exiting surface, this the second exiting surface is positioned at the upper surface of this second luminous plaque, this the second reflective surface is positioned at the lower surface of this second luminous plaque, this the second incidence surface is positioned at the side of this second luminous plaque, described secondary light source is positioned at this second incidence surface outer periphery, this second exiting surface is provided with multiple lighttight the second veils, each this second veil vertically corresponds to respectively each this first operating space, in the time that the light of described secondary light source ejaculation is projected in this second luminous plaque by this second incidence surface, this two reflective surface is by reflecting by ray guidance upwards,

One touch pad, this touch pad is positioned at the below of this second luminous plaque, and when press this panel, this first luminous plaque of soft materials and this second luminous plaque from the upper surface of this panel, this touch pad detects the position of pressing, and exports one simultaneously and presses signal; And

One control module, comprise a controller and a transducer, this controller can be exported a remote signal to by remote control thing when this presses signal in reception, the direction that this transducer turns in order to this Qwerty remote control of sensing, in the time that this transducer senses direction that this Qwerty remote control presents and is a first direction, this transducer is exported a first direction signal to this controller, this controller receives this first direction signal and exports one first control signal, this first control signal is in order to drive described the first light source luminescent, make the light of described the first light source be projected to this panel via this first luminous plaque, and then make the first operating space of described printing opacity penetrate light, in the time that this transducer senses direction that this Qwerty remote control presents and is a second direction, this transducer is exported a second direction signal to this controller, this controller receives this second direction signal and exports one second control signal, this second control signal is in order to drive described secondary light source luminous, make the light of described secondary light source be projected to this panel via this second luminous plaque, and then make described second operating space of printing opacity penetrate light.

2. Qwerty remote control as claimed in claim 1, is characterized in that, this first direction is vertical, and this second direction is level.

3. Qwerty remote control as claimed in claim 1, is characterized in that, described the first operating space and described the second operating space are that laser carved hollow out forms.

4. Qwerty remote control as claimed in claim 1, is characterized in that, described the first light source and described secondary light source are light-emitting diodes.

5. Qwerty remote control as claimed in claim 1, it is characterized in that, this first incidence surface and this second incidence surface have respectively multiple the first optical microstructures, and described the first optical microstructures is in order to improve incident uniformity of light, and described the first optical microstructures is zigzag.

6. Qwerty remote control as claimed in claim 1, it is characterized in that, this first reflective surface and this second reflective surface have respectively multiple the second optical microstructures, and described the second optical microstructures is that described the second optical microstructures is triangular shape towards exiting surface in order to limit the direction of light reflection.

7. Qwerty remote control as claimed in claim 1, is characterized in that, described the first veil and described the second veil are light tight ink or light tight coating.

8. Qwerty remote control as claimed in claim 1, is characterized in that, described the first veil and described the second veil be adopt staggered, and on vertical line mutual nonoverlapping set-up mode.

9. Qwerty remote control as claimed in claim 1, is characterized in that, this is Web TV by remote control thing.

10. Qwerty remote control as claimed in claim 1, it is characterized in that, this controller is electrically connected a timer, this controller is in the time sending this first control signal to described the first light source or send this second control signal to described secondary light source, synchronous this timer that triggers, to calculate described the first light source or luminous time of described secondary light source.

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