CN103677358A - Display module - Google Patents

Abstract

The invention discloses a display module which comprises a touch assembly, protection glass, a decorative layer, at least one optical module and a display panel. The touch assembly is arranged on the lower side of the protection glass and used for generating a touch signal. The decorative layer is arranged below the protection glass and is provided with a first hole and at least one second hole. The touch assembly corresponds to the first hole which is larger than the second hole. Each optical module is arranged below the protection glass, corresponds to the second hole and is used for generating an image signal. The display panel is arranged below the decorative layer and the touch assembly and used for executing a corresponding action according to the touch signal or the image signal. The display module integrates a 2D touch function (the touch assembly) and a 3D remote control function (the optical module) at the same time, and therefore the display module has low weight and low cost and saves electricity.

Description

Display apparatus module

Technical field

The present invention relates to a kind of display apparatus module, espespecially a kind of integration 2D touch controllable function and 3D distant control function, and there is lighter weight, lower cost and the display apparatus module of power saving.

Background technology

Please refer to Fig. 1, Fig. 1 is the schematic diagram for DESCRIPTION OF THE PRIOR ART display apparatus module 100.As shown in Figure 1, display apparatus module 100 comprises a 2D contact panel 102, a 3D remote control unit 104, a signal processor 106 and a display panel 108.As shown in Figure 1,2D contact panel 102 is the tops that are arranged at display panel 108,3D remote control unit 104 is to be arranged at outside 2D contact panel 102 and display panel 108, and the picture signal that the touching signals that wherein 2D contact panel 102 produces and 3D remote control unit 104 produce is to be sent to signal processor 106.Then, signal processor 106 can judgement priority processing touching signals or picture signal.In addition, 2D contact panel 102 and 3D remote control unit 104 need alignment mechanisms, when the picture signal producing with the touching signals avoiding producing when 2D contact panel 102 and 3D remote control unit 104 is changed mutually, occur the touch point that produces according to touching signals with according to the inconsistent situation of touch point of picture signal generation.

Therefore, display apparatus module 100 has following shortcoming: the first, because 2D contact panel 102,3D remote control unit 104 and signal processor 106 do not have integrated, so display apparatus module 100 has heavier weight and higher cost; The second, because 2D contact panel 102 and 3D remote control unit 104 are to work simultaneously, so display apparatus module 100 is compared with power consumption.

Summary of the invention

Technical matters to be solved by this invention is: in order to make up the deficiencies in the prior art, provide a kind of display apparatus module.This display apparatus module comprises a touch control component, a cover glass, a decorative layer, at least one optical module and a display panel.The downside of this cover glass configures this touch control component, and wherein this touch control component is to produce a touching signals; This decorative layer is the below that is arranged at this cover glass, has one first hole and at least one the second hole, and wherein this touch control component is corresponding to this first hole, and this first hole is to be greater than this at least one the second hole; Each optical module in this at least one optical module is the below that is arranged at this cover glass, and corresponding to one second hole, in order to produce a picture signal; This display panel is the below that is arranged at this decorative layer and this touch control component, in order to according to this touching signals or this picture signal, carries out a corresponding action.

An also embodiment of the present invention provides a kind of display apparatus module.This display apparatus module comprises a cover glass, a decorative layer, a touch control component, at least one optical module and a display panel.This decorative layer is the below that is arranged at this cover glass, has one first hole and at least one the second hole, and this first hole is to be greater than this at least one the second hole; This display panel is the below that is arranged at this decorative layer; This touch control component is the top that is arranged at this display panel, corresponding to this first hole, and in order to produce a touching signals; Each optical module in this at least one optical module is the below that is arranged at this cover glass, and corresponding to one second hole, in order to produce a picture signal; This display panel is in order to according to this touching signals or this picture signal, carries out a corresponding action.

Display apparatus module of the present invention is to integrate a 2D touch controllable function (touch control component) and a 3D distant control function (at least one optical module) simultaneously, so compared to prior art, the present invention has following advantages: the first, this display apparatus module provided by the present invention has lighter weight; The second, because this display apparatus module is to integrate this 2D touch controllable function and this 3D distant control function, so the signaling interface of this display apparatus module can be reduced, cause this display apparatus module to there is lower cost; Three, because this display apparatus module is to integrate this 2D touch controllable function and this 3D distant control function, so calibrate this display apparatus module ratio, be easier to; Four, because this 2D touch controllable function and this 3D distant control function can not move simultaneously, so the relatively power saving of this display apparatus module.

Accompanying drawing explanation

Fig. 1 is the schematic diagram for DESCRIPTION OF THE PRIOR ART display apparatus module.

Fig. 2 illustrates a kind of cross section schematic diagram of A---A ' of display apparatus module for one embodiment of the invention.

Fig. 3 is the cross section schematic diagram of B---B ' for explanation display apparatus module.

Fig. 4 is the schematic diagram of getting a bird's eye view for explanation display apparatus module.

Fig. 5, Fig. 6 and Fig. 7 are the schematic diagram for different embodiments of the invention explanation processor.

Fig. 8 illustrates a kind of cross section schematic diagram of A---A ' of display apparatus module for an also embodiment of the present invention.

Fig. 9 is the cross section schematic diagram of B---B ' for explanation display apparatus module.

Wherein, description of reference numerals is as follows:

100,200,800 display apparatus modules

102 2D contact panels

104 3D remote control unit

106 signal processors

108,210 display panels

202 cover glasses

204 decorative layers

208 optical modules

212 processors

214 touch control components

805 touch control components

807 transparent colloids

2042 first holes

2044,2,046 second holes

2082 camera lenses

2084 imageing sensors

2086 image processors

2088 infrared light optical filters

2121 printed circuit board (PCB)s

2122 first processing units

2124 second processing units

2126 the 3rd processing units

A---A ', B---B ' square section

CS control signal

FS first signal

IS picture signal

SS secondary signal

TS touching signals

Embodiment

Please refer to Fig. 2, Fig. 3 and Fig. 4, Fig. 2 illustrates a kind of cross section schematic diagram of A---A ' of display apparatus module 200 for one embodiment of the invention, Fig. 3 is the cross section schematic diagram of B---B ' for explanation display apparatus module 200, and Fig. 4 is the schematic diagram of getting a bird's eye view for explanation display apparatus module 200.Display apparatus module 200 comprises a cover glass 202 (being illustrated in Fig. 2 and Fig. 3), a decorative layer 204 (being illustrated in Fig. 2, Fig. 3 and Fig. 4), an optical module 208 (being illustrated in Fig. 2), a display panel 210 (being illustrated in Fig. 2 and Fig. 3) and a processor 212 (being illustrated in Fig. 3).As shown in Figure 2, Figure 3 and Figure 4, the downside of cover glass 202 configures a touch control component 214, and wherein touch control component 214 is to produce a touching signals TS; Decorative layer 204 is the belows that are arranged at cover glass 202, has one first hole 2042 and 2 second holes 2044,2046, and wherein touch control component 214 is corresponding to the first hole 2042; Optical module 208 is the belows that are arranged at cover glass 202, and corresponding to the second hole 2046, in order to produce picture signal IS, wherein optical module 208 is to can be Charged Coupled Device (Charge Coupled Device, CCD) sensor or a CMOS semiconductor sensor (CMOS sensor); Processor 212 can be coupled to touch control component 214 and optical module 208 by a printed circuit board (PCB) 2121, the picture signal IS that the touching signals TS producing in order to reception and processing touch control component 214 and optical module 208 produce, and the picture signal IS that produces of the touching signals TS producing according to touch control component 214 or optical module 208, produce a control signal CS (CS be by processor 212 generation and be passed to the control signal of display panel 210), wherein printed circuit board (PCB) 2121 is to be a flexible printed wiring board.Display panel 210 is the belows that are arranged at decorative layer 204 and touch control component 214, in order to the control signal CS producing according to processor 212, carry out a corresponding action, wherein the active region of display panel 210 (active area) is corresponding to the first hole 2042.

As shown in Figure 2, optical module 208 comprises a camera lens 2082, an imageing sensor 2084, an image processor 2086 and an infrared light optical filter 2088.Infrared light optical filter 2088 is to fit between cover glass 202 and camera lens 2082, in order to filtering, produces the infrared light in the light of at least one object; Camera lens 2082 is the downsides that are arranged at cover glass 202, in order to by the second hole 2046, receives the light (filtering infrared light) producing from least one object; Imageing sensor 2084 is the belows that are arranged at camera lens 2082, in order to sensing, produces the light from least one object, and according to the light producing from least one object, produces a sensing signal; Image processor 2086 is to be coupled to imageing sensor 2084, in order to the sensing signal producing according to sensor 2084, carries out an image and processes to produce picture signal IS.Therefore the picture signal IS that, optical module 208 produces can be sent to by the wire (not being illustrated in Fig. 2) of decorative layer 204 belows processor 212 or be sent to processor 212 by being integrated in the wire (not being illustrated in Fig. 2) of touch control component 214.In addition, in an also embodiment of the present invention, infrared light optical filter 2088 is to be integrated in cover glass 202.In addition, also an optical module (not illustrating) is also arranged at the below of cover glass 202, and corresponding to the second hole 2044.But the present invention is not limited to display apparatus module 200 comprises two optical modules, that is display apparatus module 200 can comprise at least one optical module.In addition, corresponding to the optical module of the second hole 2044, be identical with optical module 208, do not repeat them here.

Please refer to Fig. 5, Fig. 6 and Fig. 7, Fig. 5, Fig. 6 and Fig. 7 are the schematic diagram for different embodiments of the invention explanation processor 212.As shown in Figure 5, processor 212 comprises one first processing unit 2122, one second processing unit 2124 and one the 3rd processing unit 2126.The first processing unit 2122 is to receive touching signals TS, and processes and location touching signals TS, to produce a first signal FS; The second processing unit 2124 is to receive picture signal IS, and processing and positioning image signal IS, to produce a secondary signal SS; The 3rd processing unit 2126 is to be coupled to the first processing unit 2122 and the second processing unit 2124, in order to receive and to process first signal FS or secondary signal SS, and according to first signal FS or secondary signal SS, produces control signal CS.That is when processor 212 receives touching signals TS, now processor 212 judgement display apparatus modules 100 are in 2D control mode touch mode, so processor 212 cuts out optical module 208 and goes back an optical module, cause the 3rd processing unit 2126 to receive first signal FS, and according to first signal FS, produce control signal CS; When processor 212 receives picture signal IS, now processor 212 judgement display apparatus modules 100 are in 3D remote control mode, so processor 212 cuts out the sensor of touch control component 214, cause the 3rd processing unit 2126 to receive secondary signal SS, and according to secondary signal SS, produce control signal CS.Yet when processor 212 receives the touching signals TS that produced by an object and picture signal IS, processor 212 can be ignored picture signal IS simultaneously.

As shown in Figure 6, processor 212 comprises one first processing unit 2122 and the second processing unit 2124, wherein, because the second processing unit 2124 is to be a graphics processing unit, its function ratio is more powerful, so the second processing unit 2124 can replace the 3rd processing unit 2126 in Fig. 5.The first processing unit 2122 is to receive touching signals TS, and processes and location touching signals TS, to produce a first signal FS; The second processing unit 2124 is to be coupled to the first processing unit 2122, in order to receive picture signal IS or first signal FS, and processing and positioning image signal IS or first signal FS, to produce a control signal CS.That is when processor 212 receives touching signals TS, now processor 212 judgement display apparatus modules 100 are in 2D control mode touch mode, so processor 212 cuts out optical module 208 and goes back an optical module, cause the second processing unit 2124 to receive first signal FS, and according to first signal FS, produce control signal CS; When processor 212 receives picture signal IS, now processor 212 judgement display apparatus modules 100 are in 3D remote control mode, so processor 212 cuts out the sensor of touch control component 214, cause the second processing unit 2124 to receive picture signal IS, and according to picture signal IS, produce control signal CS.Yet when processor 212 receives the touching signals TS that produced by an object and picture signal IS, processor 212 can be ignored picture signal IS simultaneously.

As shown in Figure 7, because processor 212 is the first processing unit 2122, the second processing unit 2124 and the 3rd processing unit 2126 in integration map 5, so the signal wire in processor 212 and power lead can be simplified.So, the processor 212 of Fig. 7 not only area can be reduced, also has electricity-saving function.In addition, all the other principle of operation of the processor 212 of Fig. 7 are all identical with the processor 212 of Fig. 5, do not repeat them here.

Please refer to Fig. 8 and Fig. 9, Fig. 8 illustrates a kind of cross section schematic diagram of A---A ' of display apparatus module 800 for an also embodiment of the present invention, with Fig. 9 be for explanation display apparatus module 800 the cross section schematic diagram of B---B ', wherein display apparatus module 800 get a bird's eye view schematic diagram and display apparatus module 200 to get a bird's eye view schematic diagram identical, do not repeat them here.As shown in Figure 8 and Figure 9, the difference of display apparatus module 800 and display apparatus module 200 is that display apparatus module 800 is to utilize a touch control component 805 to produce a touching signals TS.As shown in Figure 8 and Figure 9; touch control component 805 is the tops that are arranged at display panel 210, and in order to produce touching signals TS, wherein the first hole 2042 on touch control component 805 can be an air layer; or fill a transparent colloid 807, that is touch control component 805 is to be independent of outside cover glass 202.When processor 212 receives touching signals TS, now processor 212 judgement display apparatus modules 100 are in 2D control mode touch mode, so processor 212 cuts out optical module 208 and goes back an optical module; When processor 212 receives picture signal IS, now processor 212 judgement display apparatus modules 100 are in 3D remote control mode, so processor 212 cuts out the sensor of touch control component 805.In addition, all the other principle of operation of display apparatus module 800 are all identical with display apparatus module 200, do not repeat them here.

In sum, display apparatus module provided by the present invention is to integrate 2D touch controllable function (touch control component) and 3D distant control function (optical module) simultaneously, so compared to prior art, the present invention has following advantages: the first, display apparatus module provided by the present invention has lighter weight; The second, because display apparatus module is to integrate 2D touch controllable function and 3D distant control function, so the signaling interface of display apparatus module can be reduced, cause display apparatus module to there is lower cost; Three, because display apparatus module is to integrate 2D touch controllable function and 3D distant control function, so calibrating display module ratio is easier to; Four, because 2D touch controllable function and 3D distant control function in display apparatus module can not move simultaneously, so relatively power saving of display apparatus module.The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (14)

1. a display apparatus module, is characterized in that, comprising:

One touch control component;

One cover glass, the downside of this cover glass configures this touch control component, and wherein this touch control component is to produce a touching signals;

One decorative layer, is arranged at the below of this cover glass, has one first hole and at least one the second hole, and wherein this touch control component is corresponding to this first hole, and this first hole is to be greater than this at least one the second hole;

At least one optical module, each optical module is the below that is arranged at this cover glass, and corresponding to one second hole, in order to produce a picture signal; And

One display panel, is arranged at the below of this decorative layer and this touch control component, in order to according to this touching signals or this picture signal, carries out a corresponding action.

2. a display apparatus module, is characterized in that, comprising:

One cover glass;

One decorative layer, is arranged at the below of this cover glass, has one first hole and at least one the second hole, and wherein this first hole is to be greater than this at least one the second hole;

One display panel, is arranged at the below of this decorative layer;

One touch control component, is arranged at the top of this display panel, and corresponding to this first hole, in order to produce a touching signals;

At least one optical module, each optical module is the below that is arranged at this cover glass, and corresponding to one second hole, in order to produce a picture signal; And

This display panel, in order to according to this touching signals or this picture signal, is carried out a corresponding action.

3. display apparatus module as claimed in claim 2, is characterized in that, this first hole is to fill a transparent colloid.

4. display apparatus module as claimed in claim 1 or 2, is characterized in that, this optical module comprises:

One camera lens, is arranged at the downside of this cover glass, in order to by this second hole, receives the light producing from least one object; And

One imageing sensor, is arranged at the below of this camera lens, in order to sensing, produces the light from this at least one object, and according to the light producing from this at least one object, produces a sensing signal; And

One image processor, in order to according to this sensing signal, carries out an image and processes to produce this picture signal.

5. display apparatus module as claimed in claim 4, is characterized in that, this imageing sensor is to be a Charged Coupled Device sensor or a CMOS semiconductor sensor.

6. display apparatus module as claimed in claim 4, is characterized in that, this optical module also comprises:

One infrared light optical filter, fits between this cover glass and this camera lens, in order to filtering, produces the infrared light in the light of this at least one object.

7. display apparatus module as claimed in claim 1 or 2, also comprises:

One processor, is coupled to this touch control component and this optical module by a printed circuit board (PCB), in order to receive and to process this touching signals and this picture signal, and according to this touching signals or this picture signal, produces a control signal.

8. display apparatus module as claimed in claim 7, is characterized in that, this display, according to this touching signals or this picture signal, is carried out this corresponding action, is the control signal producing according to this processor for this display, carries out this corresponding action.

9. display apparatus module as claimed in claim 7, is characterized in that, this processor comprises:

One first processing unit, in order to receive and to process this touching signals, and produces a first signal;

One second processing unit, in order to receive and to process this picture signal, and produces a secondary signal; And

One the 3rd processing unit, is coupled to this first processing unit and this second processing unit, in order to receive and to process this first signal or this secondary signal, and according to this first signal or this secondary signal, produces this control signal.

10. display apparatus module as claimed in claim 7, is characterized in that, this processor comprises:

One first processing unit, in order to receive and to process this touching signals, and produces a first signal; And

One second processing unit, is coupled to this first processing unit, in order to receive and to process this picture signal or this first signal, and produces this control signal.

11. display apparatus modules as claimed in claim 7, is characterized in that, this printed circuit board (PCB) is to be a flexible printed wiring board.

12. display apparatus modules as claimed in claim 7, is characterized in that, when this processor receives this touching signals, this processor cuts out this optical module.

13. display apparatus modules as claimed in claim 7, is characterized in that, when this processor receives this picture signal, this processor cuts out the sensor of this touch control component.

14. display apparatus modules as claimed in claim 1 or 2, is characterized in that, the active region of this display panel is corresponding to this first hole.

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