Utility model content
Technical problem to be solved in the utility model is to provide a kind of telepilot based on contact panel, has the function that can realize text event detection efficiently.
To achieve these goals, the utility model embodiment provides following technical scheme:
The utility model has supplied a kind of telepilot based on contact panel, comprise the first touch control component and second touch control component of mutually stacked and back-to-back setting, described first touch control component comprises the first change-over switch, the first contact panel and remote control interface ink layer, the outside surface of described first contact panel is used for providing remote control interface, described remote control interface ink layer is arranged at the inside surface of described first contact panel, and described first change-over switch wakes described remote control interface up; Described second touch control component comprises the second change-over switch, the second contact panel and inputting interface ink layer, the outside surface of described second contact panel is used for providing inputting interface, described inputting interface ink layer is arranged at the inside surface of described second contact panel, and described second change-over switch is used for waking described inputting interface up.
Wherein, described inputting interface ink layer comprises white and hides ink layer, white hollow type inputting interface patterned layer and black hollow type inputting interface patterned layer, described white hollow type inputting interface patterned layer is stacked to be arranged between described white covering ink layer and described black hollow type inputting interface patterned layer, described second touch control component also comprises backlight, described inputting interface ink layer is between described backlight and described second contact panel, and described white covering ink layer is close to described second contact panel, described black hollow type inputting interface patterned layer is close to described backlight.
Wherein, the thickness that described white hides ink layer is 4-6 micron.
Wherein, described inputting interface ink layer comprises the black of stacked setting or colored hides ink layer and black hollow type inputting interface patterned layer, described second touch control component also comprises backlight, described inputting interface ink layer is between described backlight and described second contact panel, and described black or the colored ink layer that hides are close to described second contact panel, described black hollow type inputting interface patterned layer is close to described backlight.
Wherein, described black or the colored thickness hiding ink layer are 4-6 micron.
Wherein, described first contact panel comprises the first transparent cover plate and the first capacitor layers, and described remote control interface ink layer is stacked to be arranged between described first transparent cover plate and described first capacitor layers.
Wherein, described first contact panel comprises the first transparent cover plate and the first capacitor layers, described first capacitor layers is attached at the inside surface of described first transparent cover plate, the stacked side away from described first transparent cover plate being arranged on described first capacitor layers of described remote control interface ink layer.
Wherein, the described telepilot based on contact panel also comprises the side frame be connected between described second contact panel and described second contact panel, and described first change-over switch and described second change-over switch are arranged at described side frame.
Wherein, the described telepilot based on contact panel also comprises mainboard, described mainboard is arranged control circuit for controlling described first touch control component and described second touch control component work, described mainboard is provided with acoustical generator or Vib., described acoustical generator or Vib. are electrically connected to described first touch control component and described second touch control component, for pointing out the generation of touch-control action.
Wherein, described mainboard is arranged near described side frame, described mainboard is provided with control chip, and described first change-over switch and described second change-over switch are all electrically connected to described control chip, by described control chip described first touch control component of manipulation and described second touch control component.
Wherein, described inputting interface is handwriting interface or keyboard interface or mouse disk interface.
Wherein, the described telepilot based on contact panel also comprises an antagonism fingerprint film, is attached at the outside surface of described first contact panel and the outside surface of described second contact panel respectively.
The utility model is by mutually stacked and the first touch control component of back-to-back setting and the second touch control component, also inputting interface is comprised while making the telepilot based on contact panel of the utility model comprise remote control interface, utilize the distant control function that can realize based on contact panel based on the telepilot interface of contact panel, utilize inputting interface can realize input function efficiently.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described.
The utility model has supplied a kind of telepilot based on contact panel, has both remote control interface and inputting interface, and remote control interface is used for RTV remote television, and inputting interface is for inputting information, and described inputting interface can be handwriting interface or keyboard interface or mouse disk interface.
Be described in detail as follows to the telepilot based on contact panel that the utility model provides.
Fig. 1 is the schematic cross-section of the utility model based on the telepilot of contact panel, and Fig. 2 to Fig. 4 is respectively the floor map of the described front based on the telepilot of contact panel, reverse side and a side.The described telepilot 100 based on contact panel comprises the first touch control component 10 and the second touch control component 20 of mutually stacked and back-to-back setting, first touch control component 10 and the second touch control component 20 are integrated in one based in the telepilot 100 of contact panel, the using function of the telepilot 100 based on contact panel of the utility model is expanded, and is no longer single distant control function.
Described first touch control component 10 comprises the first change-over switch 12, first contact panel 14 and remote control interface ink layer 16.The outside surface of described first contact panel 14 is used for providing remote control interface, and for user's touch control operation, described remote control interface ink layer 16 is arranged at the inside surface of described first contact panel 14.Described first change-over switch 12 is for waking described remote control interface up, the concrete function of the first change-over switch 12 can design according to demand, such as the first change-over switch 12 can as the button of turn television machine, and the first change-over switch 12 wakes described remote control interface up while opening TV.
Described second touch control component 20 comprises the second change-over switch 22, second contact panel 24 and inputting interface ink layer 26.The outside surface of described second contact panel 24 is used for providing inputting interface, and described inputting interface ink layer 26 is arranged at the inside surface of described second contact panel 24, and described second change-over switch 22 is for waking described inputting interface up.Remote control interface is locked while second change-over switch 22 also can be designed as and wakes inputting interface up, inputting interface is locked while same first change-over switch 12 also can be designed as and wakes remote control interface up, like this, false touch inputting interface in the process using remote control interface can be avoided, form the running of maloperation impact based on telepilot 100 system of contact panel.
The utility model is by mutually stacked and the first touch control component 10 and the second touch control component 20 of back-to-back setting, also inputting interface is comprised while making the telepilot 100 based on contact panel of the utility model comprise remote control interface, utilize telepilot 100 interface based on contact panel can realize the distant control function of the telepilot 100 based on contact panel, utilize inputting interface can realize input function efficiently.
The described telepilot 100 based on contact panel also comprises the side frame (not shown) be connected between described second contact panel 24 and described second contact panel 24, and described first change-over switch 12 and described second change-over switch 22 are arranged at described side frame.First change-over switch 12 and the second change-over switch 22 can be arranged on same side, also can be provided separately, be separately positioned on relative both sides.In other embodiment, first change-over switch 12 also can be arranged on the first contact panel 14, second change-over switch 22 is arranged on the second contact panel 24, specific implementation can be: on corresponding panel, change-over switch is installed in perforate, or change-over switch is designed to the switch of touch.
Described first contact panel 14 and the second contact panel 24 are transparent glass plate, the inside surface that remote control interface ink layer 16 is located at the first contact panel 14 thinks that user provides discernible Touch control key, first touch control component 10 can not arrange backlight 28, identifies the pattern on remote control interface ink layer 16 by surround lighting.
Specifically, in a kind of embodiment, described first contact panel 14 comprises the first transparent cover plate 142 and the first capacitor layers 144, and described remote control interface ink layer 16 is stacked to be arranged between described first transparent cover plate 142 and described first capacitor layers 144, as shown in Figure 1.
Specifically, in another kind of embodiment, described first contact panel 14 comprises the first transparent cover plate 142 and the first capacitor layers 144, described first capacitor layers 144 is attached at the inside surface of described first transparent cover plate 142, the stacked side away from described first transparent cover plate 142 being arranged on described first capacitor layers 144 of described remote control interface ink layer 16, as shown in Figure 5.
Specifically, in a kind of embodiment, described second contact panel 24 comprises the second transparent cover plate 242 and the second capacitor layers 244, and described inputting interface ink layer 26 is stacked to be arranged between described second transparent cover plate 242 and described second capacitor layers 244, as shown in Figure 1.
Specifically, in another kind of embodiment, described second contact panel 24 comprises the second transparent cover plate 242 and the second capacitor layers 244, described second capacitor layers 244 is attached at the inside surface of described second transparent cover plate 242, the stacked side away from described second transparent cover plate 242 being arranged on described second capacitor layers 244 of described inputting interface ink layer 26, as shown in Figure 5.
Refer to Fig. 5, the described telepilot 100 based on contact panel also comprises mainboard 30, described mainboard 30 is arranged control circuit for controlling described first touch control component 10 and described second touch control component 20 works, described mainboard 30 is provided with acoustical generator or Vib., described acoustical generator or Vib. are electrically connected to described first touch control component 10 and described second touch control component 20, for pointing out the generation of touch-control action.Mainboard 30 shown in Fig. 5 is stacked to be arranged between the first touch control component 10 and the second touch control component 20.In order to reduce the thickness of the telepilot 100 based on contact panel, also mainboard 30 can be designed to bar shaped, and described mainboard 30 is arranged near the side frame based on the telepilot of contact panel.Described mainboard 30 is provided with control chip, and described first change-over switch 12 and described second change-over switch 22 are all electrically connected to described control chip, by described control chip described first touch control component 10 of manipulation and described second touch control component 20.
Described inputting interface ink layer 26 can be designed to concealed white ink structure or concealed black or colored ink structure, specifically describes as follows.
Refer to Fig. 6, wherein being designed to of concealed white ink structure: described inputting interface ink layer 26 comprises white and hides ink layer 262, white hollow type inputting interface patterned layer 264 and black hollow type inputting interface patterned layer 266, described white hollow type inputting interface patterned layer 264 is stacked to be arranged between described white covering ink layer 262 and described black hollow type inputting interface patterned layer 266, described second touch control component 20 also comprises backlight 28, described inputting interface ink layer 26 is between described backlight 28 and described second contact panel 24, and described white covering ink layer 262 is close to described second contact panel 24, described black hollow type inputting interface patterned layer 266 is close to described backlight 28.
The thickness that described white hides ink layer 262 is 4-6 micron.
Refer to Fig. 8, in white hollow type inputting interface patterned layer 264 and black hollow type inputting interface patterned layer 266, void region A is character shape, light can penetrate from void region A, in black hollow type inputting interface patterned layer 266, non-void region B is light tight region, and the non-void region B of white hollow type inputting interface patterned layer 264 is used for blocking non-void region B in black hollow type inputting interface patterned layer 266.When backlight is not energized, whole panel is white, and white hides ink layer 262 and blocked white hollow type inputting interface patterned layer 264.When backlight is energized, void region A has light to penetrate, and other region is still white panel, is provided the button of user's touch-control by the void region A of the character shape of luminescence.
Refer to Fig. 7, wherein being designed to of concealed black or colored ink structure: described inputting interface ink layer 26 comprises the black of stacked setting or coloredly hides ink layer 261 and black hollow type inputting interface patterned layer 266, described second touch control component 20 also comprises backlight 28, described inputting interface ink layer 26 is between described backlight 28 and described second contact panel 24, and described black or the colored ink layer 261 that hides are close to described first contact panel 14, described black hollow type inputting interface patterned layer 266 is close to described backlight 28.
Described black or the colored thickness hiding ink layer 261 are 4-6 micron.
Refer to Fig. 8, in black hollow type inputting interface patterned layer 266, void region A is character shape, light can penetrate from void region A, in black hollow type inputting interface patterned layer 266, non-void region B is light tight region, when backlight is not energized, whole panel is black or colour.When backlight is energized, void region A has light to penetrate, and other region is still black or color panel, is provided the button of user's touch-control by the void region A of the character shape of luminescence.
Telepilot 100 based on contact panel of the present utility model also comprises solar cell, sun power is utilized to provide the energy for the first touch control component 10 and the second touch control component 20, have the advantage of environmental protection and energy saving, solar cell once can be used for the telepilot 100 based on contact panel to use several days or a few weeks through the sun shines.
Telepilot 100 based on contact panel of the present utility model also comprises bluetooth module or WIFI module, by bluetooth module WIFI module and televisor wireless connections, realizes wirelessly transmitting data.
The described telepilot 100 based on contact panel also comprises an antagonism fingerprint film 50, is attached at the outside surface of described first contact panel 14 and the outside surface of described second contact panel 24 respectively.
The above is preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.