CN105158979B - A kind of display device - Google Patents

Abstract

The invention discloses a kind of display devices comprising: electromagnetic wave generation module is used to generate the first electromagnetic wave；Visible light generation module can generate visible light under the action of the first electromagnetic wave；Wherein, it when visible light generation module is in first state, is configured to generate the visible light of corresponding color under the action of the first electromagnetic wave.Compared to existing display device, this display device has higher penetrance, therefore in the case where providing same brightness, the overall power of the display device is also just lower.

Description

A kind of display device

Technical field

The present invention relates to display technical field of imaging, specifically, being related to a kind of display device.

Background technique

Liquid crystal display, which has, radiates low, small in size and low power consumption and other advantages, has gradually replaced traditional cathode Ray tube display and be widely used on the products such as flat panel TV, PC and mobile display panel.

Existing liquid crystal display is mainly based upon the liquid crystal display of thin film transistor (TFT), i.e. TFT-LCD, and Fig. 1 is shown The structural schematic diagram of this kind of liquid crystal display.

As shown in Figure 1, the visible light (usually white light) that light source 101 issues injects light guide plate in existing TFT-LCD 102, the linear light source that light source 101 generates is converted to area source by light guide plate 102, and is exported by surface thereof to brightness enhancement film 103. The visible light that brightness enhancement film 103 exports successively passes through down polaroid 104, tft array substrate 105, liquid crystal layer 106 and color membrane substrates 107 are converted to the visible light of required color, and are finally exported outward by upper polaroid 108.In existing TFT-LCD, If necessary, it is also necessary to add reflector 109, under light guide plate 102 to improve the brightness for the light for injecting brightness enhancement film 103.

Since the light projected by light guide plate 102 needs successively by down polaroid 104, tft array substrate 105, liquid crystal The multilayered structures such as layer 106, color membrane substrates 107 and upper polaroid 108, therefore for existing TFT-LCD, actually wear Saturating rate usually only has 4% or so.In order to make up the too low problem of penetrance, existing TFT-LCD is usually using raising light source The mode of 101 brightness, and this mode obviously will increase the power consumption of light source 101, and then shorten the continuous of whole display device ETS estimated time of sailing.

Summary of the invention

The technical problem to be solved by the present invention is to show to solve existing TFT-LCD because penetrance is too low The problem of cruise duration of device shortens.To solve the above problems, one embodiment of the present of invention provide firstly it is a kind of new Display device comprising:

Electromagnetic wave generation module is used to generate the first electromagnetic wave；

Visible light generation module can generate visible light under the action of first electromagnetic wave；

Wherein, when the visible light generation module is in first state, it is configured to the work in first electromagnetic wave With the lower visible light for generating corresponding color.

According to one embodiment of present invention, when the visible light generation module is in the second state, first electricity Magnetic wave can directly pass through the visible light generation module.

According to one embodiment of present invention, described device further include:

Electro-magnetic wave absorption module is used to absorb first electromagnetism not absorbed by the visible light generation module Wave.

According to one embodiment of present invention, described device further include:

Light guide plate is used to from its first surface export first electromagnetic wave inputted by its first side to institute State visible light generation module.

According to one embodiment of present invention, the electromagnetic wave generation module includes ultraviolet light generator.

According to one embodiment of present invention, the visible light generation module includes control unit, transmittance section and shutter, institute Stating shutter configuration is that the transmittance section is blocked or exposed under the control of the control unit,

Wherein, when the shutter blocks the transmittance section, the shutter generates under the action of first electromagnetic wave Visible light.

According to one embodiment of present invention, the shutter includes the light-transmitting plate coated with quanta point material, can be The visible light of corresponding color is generated under the action of first electromagnetic wave.

According to one embodiment of present invention, in the display device, quanta point material coated by different shutters Size is not all the same, to generate the visible light of different colours under the action of first electromagnetic wave.

According to one embodiment of present invention, adjacent several shutters constitute a pixel unit, in the pixel unit Shutter caused by visible light color it is different.

According to one embodiment of present invention, the control unit is configured to the switching frequency by controlling the shutter to control Make the grayscale that the visible light generation module is presented.

Compared to existing display device, material layer that display device provided by the present invention is passed through by visible light Negligible amounts, thickness reduce, therefore it is with higher penetrance.And since it is with higher penetrance, it is providing In the case where same brightness, compared to existing display device, the overall power of display device provided by the present invention is also just more It is low.Specifically, the overall power of the display device only has the 1/6 of TFT-LCD shown in FIG. 1.

Further, since display device provided by the present embodiment generates the visible of different colours using quanta point material Light, therefore compared to existing display, with higher colour gamut.Specifically, the colour gamut of existing common LED display can Reach 72%NTSC, the colour gamut of OLED display can then reach 100%NTSC, and display device provided by the present embodiment Colour gamut can then reach 110%NTSC.Therefore, display device provided by the present embodiment can have better display effect.

Other features and advantages of the present invention will be illustrated in the following description, also, partly becomes from specification It obtains it is clear that understand through the implementation of the invention.The objectives and other advantages of the invention can be by specification, right Specifically noted structure is achieved and obtained in claim and attached drawing.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is required attached drawing in technical description to do simple introduction:

Fig. 1 is the structural schematic diagram of existing liquid crystal display device；

Fig. 2 is the structural schematic diagram of display device according to an embodiment of the invention；

Fig. 3 is structural schematic diagram when display device sub-pixel according to an embodiment of the invention is opened；

Fig. 4 is structural schematic diagram when display device sub-pixel according to an embodiment of the invention is closed.

Specific embodiment

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings and examples, how to apply to the present invention whereby Technological means solves technical problem, and the realization process for reaching technical effect can fully understand and implement.It needs to illustrate As long as not constituting conflict, each feature in each embodiment and each embodiment in the present invention can be combined with each other, It is within the scope of the present invention to be formed by technical solution.

Meanwhile in the following description, for illustrative purposes and numerous specific details are set forth, to provide to of the invention real Apply the thorough understanding of example.It will be apparent, however, to one skilled in the art, that the present invention can not have to tool here Body details or described ad hoc fashion are implemented.

Fig. 2 shows the structural schematic diagrams of display device provided by the present embodiment.

As shown in Fig. 2, display device provided by the present embodiment include: electromagnetic wave generation module 201, light guide plate 202, can Light-exposed generation module 203 and electro-magnetic wave absorption module 204.Wherein, electromagnetic wave generation module 201 can generate preset wavelength Electromagnetic wave (i.e. the first electromagnetic wave).In the present embodiment, electromagnetic wave generation module 201 preferably includes ultraviolet light generator, i.e., electric First electromagnetic wave caused by magnetic wave generation module 201 is preferably ultraviolet lights UV.

It should be pointed out that in other embodiments of the invention, the first electromagnetism caused by electromagnetic wave generation module 201 Wave can also be the electromagnetic wave of other reasonable wavelength, and the invention is not limited thereto.

The first electromagnetic wave that electromagnetic wave generation module 201 generates is input to light guide plate by the first side of light guide plate 202 In 202, light guide plate 202 can export the first electromagnetic wave inputted by its first side to visible photogenerated from its first surface Module 203.In the present embodiment, the first side of light guide plate 202 refers to opposite with the output end of electromagnetic wave generation module 201 Side, the first surface of light guide plate 202 are referred to by the surface of near visible generation module 203.Wherein, the of light guide plate 202 Multiple output ends are distributed in one surface, in this way, light guide plate 202 is also achieved that caused by electromagnetic wave generation module 201 One electromagnetic wave by line to face conversion.

Visible light generation module 203 receive light guide plate 202 transmit come the first electromagnetic wave after, according to its own State, it is seen that photogenerated module 203 can visible light is generated under the action of the first electromagnetic wave, or allow the first electromagnetic wave directly through Itself.

The first electromagnetic transmission goes out display device and impacts to user or other external devices in order to prevent, this implementation Display device provided by example is also configured with electro-magnetic wave absorption module 204.Electro-magnetic wave absorption module 204 is arranged in visible photogenerated Module 203 is close to the side of light output face, the first electromagnetism that can not will also not absorbed in this way by visible light generation module 203 Wave all absorbs, to prevent the first electromagnetic wave loss from going out display device, and then avoid the first electromagnetic wave to user or other The influence of external devices.

It should be pointed out that in other embodiments of the invention, according to actual needs, can also be unworthy of in display device Light guide plate 202 and/or electro-magnetic wave absorption module 204 are set, the invention is not limited thereto.

For example, in one embodiment of the invention, when the output end of electromagnetic wave generation module 201 is arranged in dot matrix, Electromagnetic wave generation module 201 can also export multiple first electromagnetic waves simultaneously in this way, and at this moment electromagnetic wave generation module 201 is also Area source can be considered as, therefore can not also be reconfigured light guide plate 202 to convert to the first electromagnetic wave.

Equally, in one embodiment of the invention, first electromagnetic wave caused by the electromagnetic wave generation module 201 is not Ultraviolet light, but when other will not be to the safer electromagnetic wave that user or external devices impact, in display device Electro-magnetic wave absorption module 204 can not be reconfigured.It is not only does this facilitate the structure of simplified whole display device, additionally aids drop The volume and cost of low whole device.

In the present embodiment, when visible light generation module 203 is in first state, it is seen that photogenerated module 203 will be The visible light of corresponding color is generated under the action of one electromagnetic wave.And when visible light generation module 203 is in the second state, it is seen that Photogenerated module 203 will allow the first electromagnetic wave directly through itself, and can't make other responses to the first electromagnetic wave.

Specifically, in the display device provided by the present embodiment, it is seen that photogenerated module 203 is using micro-electromechanical switch Form is realized.As shown in Fig. 2, in the present embodiment, it is seen that photogenerated module 203 include: control unit 301, shutter 302 and thoroughly Light portion 303.Wherein, shutter 302 can correspondingly be acted under the control of control unit 301, to block or expose light transmission Portion 303.And when shutter 302 shelters from transmittance section 303, shutter 302 will generate accordingly under the action of the first electromagnetic wave at this time Visible light.

In the present embodiment, as shown in figure 3, when sheltering from transmittance section 303 under control of the shutter 302 in control unit 301, this Shi Kuaimen 302 is in closed state, it is seen that photogenerated module 203 is in first state.In this state, light guide plate 202 transmits The first electromagnetic wave come will input shutter 302, and shutter 302 can then generate under the action of the first electromagnetic wave and accordingly may be used at this time It is light-exposed.This sub-pixel for being also equivalent at the position is lit, i.e., the sub-pixel is in the open state.

As shown in figure 4, shutter 302 is at this time when exposing transmittance section 302 under control of the shutter 302 in control unit 301 Opening state, it is seen that photogenerated module 203 is in the second state.In this state, the first electromagnetic wave that the transmission of light guide plate 202 comes It will be unable to be irradiated to shutter 302 directly through transmittance section 303, therefore shutter 302 also just can not be in the effect of the first electromagnetic wave Lower generation visible light.This sub-pixel for being also equivalent at the position is not lit, which remains off.

In the present embodiment, shutter 302 is preferably realized using the light-transmitting plate for being coated with predetermined material.It is applied on light-transmitting plate The material covered can generate visible light under the action of the first electromagnetic wave.Specifically, mould is generated by electromagnetic wave in this present embodiment First electromagnetic wave generated of block 201 is ultraviolet light, therefore material coated on light-transmitting plate is preferably quanta point material, should Quanta point material can generate visible light under the excitation of ultraviolet light.

Quantum dot is a kind of low-dimensional quantum material, it be it is molecular by a limited number of original, size is received 1~100 Between rice.In quantum dot, carrier is all unable to free movement by the constraint of potential barrier in three dimensions.In quantum dot Energy of the carrier in three dimensions be all it is quantized, density-of-states distribution be a series of separate functions, be similar to original Sub-light spectral property.

Since quantum-dot structure has strong three-dimensional quantum restriction effect to carrier therein (such as electronics, hole and exciton), It can show the physical characteristic of a series of novel, such as skin effect, quantum confined effect, quantum tunneling effect and amount Sub- dimensional effect etc..Wherein, quantum confined effect is a critical nature of quanta point material, it refers to the energy state of quantum dot Density changes with the variation of its size.That is, the size of quantum dot size determines the light, electricity, magnetic of quanta point material Characteristic.Therefore, by the size of quantum point also can quantum point material emission wavelength, that is, pass through quantum Point size also can quantum point material luminescent color.

Therefore, according to the color for needing the visible light generated at different location, the display device provided by the present embodiment In, the size of quantum dot is not all the same in quanta point material coated by the shutter at different location, so also can so that Shutter at different location can generate the visible light of different wave length, that is, generate the visible light of different colours.

Several adjacent shutters, which can also be considered as, constitutes a pixel unit, shutter institute included in the pixel unit The color of the visible light of generation is different.It specifically, include three shutters and light transmission in a pixel unit in the present embodiment Portion, these three shutters generate red visible, green visible and blue visible light respectively under the action of the first electromagnetic wave.

Certainly, in other embodiments of the invention, the quantity of shutter and transmittance section included in pixel unit is also It can be other reasonable values, meanwhile, shutter included in pixel unit is generated visible under the action of the first electromagnetic wave The color of light can be other colors, and the invention is not limited thereto.

Further, since display device provided by the present embodiment generates the visible of different colours using quanta point material Light, therefore compared to existing display, with higher colour gamut.Specifically, the colour gamut of existing common LED display can Reach 72%NTSC, the colour gamut of OLED display can then reach 100%NTSC, and display device provided by the present embodiment Colour gamut can then reach 110%NTSC.Therefore, display device provided by the present embodiment can have better display effect.

It, can (this be usually 2 by adjusting the size of quantum dot included in shutter at different location in the present embodiment Between~20 nanometers) so that the three primary colours (i.e. red, green and blue) that shutter can generate in total in display device are visible Light.

Specifically, as shown in figure 3, in the present embodiment, shutter corresponding to transmittance section 303a and transmittance section 303d can Red visible R is generated under the action of the first electromagnetic wave, and transmittance section 303b and transmittance section 303c then can be in the first electricity Green visible G and blue visible light B are generated under the action of magnetic wave respectively.In this way, transmittance section 303a, transmittance section 303b and thoroughly As soon as light portion 303c and its shutter are also just respectively equivalent to a sub-pixel, these three sub-pixels also constitute a pixel.

In the display device course of work, control unit can by control different location at shutter 301 open the light frequency come So that grayscale required for being imaged out at different location.

Since, comprising multiple shutters 302 and transmittance section 303, control unit 301 can also pass through in display device Shutter 302 at control different location comes so that corresponding position generates the visible light and grayscale of required color, to make It obtains display device and finally shows corresponding image.

Compared to existing display device, material layer that display device provided by the present invention is passed through by visible light Negligible amounts, thickness reduce, therefore it is with higher penetrance.And since it is with higher penetrance, it is providing In the case where same brightness, compared to existing display device, the overall power of display device provided by the present invention is also just more It is low.Specifically, the overall power of the display device only has the 1/6 of TFT-LCD shown in FIG. 1.

Further, since display device provided by the present embodiment generates the visible of different colours using quanta point material Light, thus compared to existing display, also there is higher colour gamut, and this is also just established to provide better display effect Basis.

It should be understood that disclosed embodiment of this invention is not limited to specific structure disclosed herein, processing step Or material, and the equivalent substitute for these features that those of ordinary skill in the related art are understood should be extended to.It should also manage Solution, term as used herein is used only for the purpose of describing specific embodiments, and is not intended to limit.

" one embodiment " or " embodiment " mentioned in specification means the special characteristic described in conjunction with the embodiments, structure Or characteristic is included at least one embodiment of the present invention.Therefore, the phrase " reality that specification various places throughout occurs Apply example " or " embodiment " the same embodiment might not be referred both to.

For convenience, multiple projects, structural unit and/or component units as used herein may alternatively appear in common list. However, these lists should be interpreted that each element in the list is respectively identified as independent unique member.Therefore, not anti- Face illustrate in the case where, no one of list member can be based only upon they appear in just be interpreted in common list it is identical The practical equivalent of any other member of list.In addition, the reference that can also come together herein together with the substitution for each element Various embodiments of the present invention and example.It should be understood that these embodiments, example and substitution be not construed as it is mutual etc. Jljl, and it is considered as independent autonomous representative of the invention.

Although above-mentioned example is used to illustrate principle of the present invention in one or more application, for the technology of this field For personnel, without departing from the principles and ideas of the present invention, hence it is evident that can in form, the details of usage and implementation It is upper that various modifications may be made and does not have to make the creative labor.Therefore, the present invention is defined by the appended claims.

Claims (9)

1. a kind of display device, which is characterized in that described device includes:

Electromagnetic wave generation module is used to generate the first electromagnetic wave；

Visible light generation module can generate visible light under the action of first electromagnetic wave；

When the visible light generation module is in first state, it is configured to generate phase under the action of first electromagnetic wave Answer the visible light of color；

The visible light generation module includes control unit, transmittance section and shutter, and the shutter configuration is in the control unit The transmittance section is blocked or exposed under control,

Wherein, when the shutter blocks the transmittance section, the visible light generation module is in first state, and the shutter exists Visible light is generated under the action of first electromagnetic wave.

2. display device as described in claim 1, which is characterized in that when the visible light generation module is in the second state When, first electromagnetic wave can directly pass through the visible light generation module.

3. display device as claimed in claim 1 or 2, which is characterized in that described device further include:

Electro-magnetic wave absorption module is used to absorb first electromagnetic wave not absorbed by the visible light generation module.

4. display device as claimed in claim 1 or 2, which is characterized in that described device further include:

Light guide plate is used for first electromagnetic wave that will be inputted by its first side, from its first surface export to it is described can Light-exposed generation module.

5. display device as claimed in claim 1 or 2, which is characterized in that the electromagnetic wave generation module includes ultraviolet light hair Raw device.

6. display device as described in claim 1, is characterized in that, the shutter includes the light transmission coated with quanta point material Plate can generate the visible light of corresponding color under the action of first electromagnetic wave.

7. display device as claimed in claim 6, which is characterized in that in the display device, coated by different shutters The size of quanta point material is not all the same, to generate the visible light of different colours under the action of first electromagnetic wave.

8. the display device as described in any one of claim 6~7, which is characterized in that several adjacent shutters constitute one The color of pixel unit, visible light caused by the shutter in the pixel unit is different.

9. the display device as described in any one of claim 6~7, which is characterized in that the control unit is configured to pass through control The switching frequency of the shutter is made to control the grayscale that the visible light generation module is presented.