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Publication numberCN105185243 A
Publication typeApplication
Application numberCN 201510670951
Publication date23 Dec 2015
Filing date15 Oct 2015
Priority date15 Oct 2015
Publication number201510670951.4, CN 105185243 A, CN 105185243A, CN 201510670951, CN-A-105185243, CN105185243 A, CN105185243A, CN201510670951, CN201510670951.4
Inventors王尚
Applicant京东方科技集团股份有限公司
Export CitationBiBTeX, EndNote, RefMan
External Links: SIPO, Espacenet
Display substrate, display device and display method
CN 105185243 A
Abstract
The invention provides a display substrate, a display device and a display method, belongs to the technical field of display, and solves the problem that the conventional MEMS is low-pixel, narrow in the displayed gray scale variation range, and not exquisite in the displaying effect. In the display substrate, a plurality of diaphragms which are different in color are connected onto a stent of a pixel, overlapped diagrams can be controlled independently to move in the direction parallel to the underlayer, which allows a pixel to produce colored light; besides, by controlling the displacement of each diaphragm through a control module, gray scale variation is realized, and high color gamut and low energy consumption are realized. According to the display substrate, provided by the invention, when pixels need to be brightest when displaying, the pixels can allow lights to penetrate through without shading, the transmittance can allow the light energy of a backlight to be better utilized, and the displaying effect is exquisite; the display substrate provided by the invention is suitable for various display devices.
Claims(14)  translated from Chinese
1.一种显示基板,包括衬底,形成在该衬底上的多个微机电系统像素结构,其特征在于,每一所述微机电系统像素结构包括: 支架,所述支架上连接有多个膜片,所述多个膜片中包括至少两种不同颜色的彩色膜片; 控制模组,用于驱动每个膜片在平行于衬底的方向上移动。 A display substrate comprising a substrate, forming a plurality of MEMS pixel structure on the substrate, wherein each of said pixel MEMS structure comprising: a support connected to said plurality bracket a diaphragm, said diaphragm includes a plurality of at least two different colors of the color film; control module for driving each of the diaphragms move in a direction parallel to the substrate.
2.根据权利要求1所述的显示基板,其特征在于,所述相邻的两个支架控制各自的膜片相向移动,以控制两个支架之间的像素显示灰阶。 2. The substrate according to claim 1, characterized in that said control bracket of each two adjacent diaphragm moved towards each other to control the display of the pixel gray scale between two brackets.
3.根据权利要求1所述的显示基板,其特征在于,所述控制模组包括: 多个步进电机,每个步进电机与至少一个膜片连接; 驱动电路,用于控制所述步进电机工作。 3. The display substrate of claim 1, wherein said control module comprises: a plurality of stepping motors, each stepping motor is connected to at least one diaphragm; driving circuit for controlling the step stepping motor work.
4.根据权利要求1所述的显示基板,其特征在于,所述多个膜片还包括至少一个遮光膜片和/或至少一个反光膜片。 The display substrate according to claim 1, characterized in that the diaphragm further comprises at least a plurality of light-shielding film and / or at least one of the retroreflective sheeting.
5.根据权利要求1所述的显示基板,其特征在于,所述彩色膜片选自量子点膜片或荧光膜片。 5. The display substrate of claim 1, wherein said membrane is selected from the color or fluorescence quantum dot film diaphragm.
6.根据权利要求1所述的显示基板,其特征在于,所述膜片在其移动的方向上的宽度大于相邻两个支架的距离,所述支架上包括一个红色量子点膜片、一个绿色量子点膜片以及一个反光膜片。 6. The substrate according to claim 1, wherein said film width in the direction of movement is larger than the distance between two adjacent brackets, including a red quantum dot on the membrane holder, a green quantum dot film and a reflective diaphragm.
7.—种显示装置,包括背光模组,其特征在于,所述背光模组出光侧设有权利要求1-6任一项所述的显示基板。 7.- kinds of display devices, including backlight, wherein the backlight module has a light side claims to any display substrate 1-6.
8.根据权利要求7所述的显示装置,其特征在于,所述显示基板为权利要求6所述的显示基板,所述背光模组发蓝光。 The display device according to claim 7, characterized in that the display board as claimed in claim 6, wherein the display substrate, the backlight module emits blue light.
9.一种显示方法,其特征在于,应用权利要求7-8任一项所述的显示装置,其中,所述显示方法包括: 控制模组控制所述支架上的每个膜片在平行于显示基板的方向上的位移以指示所述显示装置显示灰阶。 9. A display method, comprising a display device according to any one application claims 7-8, wherein, said display method comprising: a control module controls each of the diaphragm is parallel to the bracket the displacement direction of the substrate on the display to indicate that the display means to display grayscale.
10.根据权利要求9所述的显示方法,其特征在于,所述显示装置包括权利要求3所述的显示基板,所述驱动电路给所述步进电机提供控制信号,所述步进电机根据控制信号控制所述支架上的每个膜片在平行于显示基板的方向上的位移以指示显示灰阶。 10. A display method according to claim 9, wherein said display means comprises a substrate 3 of the claim, the control signals to the drive circuit of the stepping motor, the stepping motor according to each diaphragm control signal for controlling the bracket parallel to the direction of displacement of the substrate on the display to indicate grayscale display.
11.根据权利要求9所述的显示方法,其特征在于,所述显示装置为权利要求8所述的显示装置,所述红色量子点膜片与绿色量子点膜片相对于支架位移最小,所述反光膜片或遮光膜片相对于支架位移最大时,该像素呈暗态。 11. A display method according to claim 9, wherein said display device is a display device as claimed in claim 8, the diaphragm and the red quantum dots quantum dots Green minimum displacement relative to the housing of the diaphragm, the said reflective film or the light-shielding film with respect to the maximum displacement of the stent, the pixel is dark state.
12.根据权利要求9所述的显示方法,其特征在于,所述显示装置为权利要求8所述的显示装置,所述红色量子点膜片相对于支架位移最大时,该像素发红光。 12. The display method according to claim 9, characterized in that the device is a display according to claim 8 said display means, the diaphragm and the red quantum dots to the maximum displacement of the stent, the pixel emits red light.
13.根据权利要求9所述的显示方法,其特征在于,所述显示装置为权利要求8所述的显示装置,所述绿色量子点膜片相对于支架位移最大时,该像素发绿光。 13. A display method according to claim 9, wherein said display device is a display device as claimed in claim 8, wherein said quantum dots of green diaphragm bracket with respect to the maximum displacement, the pixel emits green light.
14.根据权利要求9所述的显示方法,其特征在于,所述显示装置为权利要求8所述的显示装置,所述膜片相对于支架位移均为最小时,该像素发蓝光。 14. A display method according to claim 9, wherein said display device is a display device as claimed in claim 8, the displacement of the diaphragm relative to the housing are the minimum, the pixel emits blue light.
Description  translated from Chinese
一种显示基板、显示装置和显示方法 A display substrate, a display apparatus and a display method

技术领域 TECHNICAL FIELD

[0001] 本发明属于显示技术领域,具体涉及一种显示基板、显示装 [0001] The present invention belongs to the field of display technology, particularly relates to a display board, a display device

[0002] 置和显示方法。 [0002] is set and a display method.

背景技术 Background technique

[0003]目前,微机电系统(MEMS)的像素结构如图1所示,每个子像素上方都会设置一个挡光片10,挡光片10能够在导轨20上移动,其以平行错位的方式控制下方的像素区域中红绿蓝子像素的透光,从而改变屏幕的发光。 [0003] Currently, micro-electromechanical systems (MEMS) pixel structure shown in Figure 1, each sub-pixel will be set above a light barrier 10, the light blocking sheet 10 can be moved on the rail 20, which controls the parallel misalignment pixel area below the red, green and blue sub-pixel light, thereby changing the luminescent screen.

[0004] 发明人发现现有技术中至少存在如下问题:阵列设置红绿蓝子像素,像素较低,这使得屏幕的显示灰阶变化范围过小,显示效果不够细腻。 [0004] The inventors have found that at least the following problems of the prior art: an array of red, green and blue sub-pixel is set lower pixels, which makes the display screen gray scale variation range is too small, the display is not enough detail.

发明内容 SUMMARY

[0005] 本发明针对现有的MEMS像素低,显示灰阶变化范围过小,显示效果不细腻的问题,提供一种显示基板、显示装置和显示方法。 [0005] The present invention is directed to conventional MEMS pixels low, gray scale display range of variation is too small, the display is not delicate issue, there is provided a display substrate, display apparatus and a display method.

[0006] 解决本发明技术问题所采用的技术方案是: [0006] Solution to the problem of the present invention is used:

[0007] —种显示基板,包括衬底,形成在该衬底上的多个微机电系统像素结构,每一所述微机电系统像素结构包括: [0007] - display the kind of the substrate, including a substrate, forming a plurality of MEMS pixel structure on the substrate, each of said pixels MEMS structure comprising:

[0008] 支架,所述支架上连接有多个膜片,所述多个膜片中包括至少两种不同颜色的彩色膜片; [0008] a bracket connecting a plurality of diaphragms, the diaphragms comprises a plurality of at least two different colors of the color film;

[0009] 控制模组,用于驱动每个膜片在平行于衬底的方向上移动。 [0009] The control module for driving each movement of the diaphragm in a direction parallel to the substrate.

[0010] 优选的,所述相邻的两个支架控制各自的膜片相向移动,以控制两个支架之间的像素显示灰阶。 [0010] Preferably, the control of each of two adjacent diaphragm holder moved towards each other in order to control the pixel gray scale display between two brackets.

[0011] 优选的,所述控制模组包括: [0011] Preferably, the control module includes:

[0012] 多个步进电机,每个步进电机与至少一个膜片连接; [0012] a plurality of stepping motors, each stepping motor is connected to at least one of the diaphragm;

[0013] 驱动电路,用于控制所述步进电机工作。 [0013] The driving circuit for controlling the stepper motor.

[0014] 优选的,所述多个膜片还包括至少一个遮光膜片和/或至少一个反光膜片。 [0014] Preferably, the film further comprises at least a plurality of light-shielding film and / or at least one of the retroreflective sheeting.

[0015] 优选的,所述彩色膜片选自量子点膜片或荧光膜片。 [0015] Preferably, the color is selected from the diaphragm or membrane fluorescence quantum dot film.

[0016] 优选的,所述膜片在其移动的方向上的宽度大于相邻两个支架的距离,所述支架内包括一个红色量子点膜片、一个绿色量子点膜片以及一个反光膜片。 [0016] Preferably, the membrane width in the direction of movement is greater than the distance between adjacent two of the stent, the membrane comprising a red quantum dot, a quantum dot diaphragm and a green reflective film from said bracket .

[0017] 本发明还公开一种显示装置,包括背光模组,所述背光模组出光侧设有上述的显不基板。 [0017] The present invention also discloses a display device comprising a backlight, the backlight module is provided with the light side of the substrate is not significant.

[0018] 优选的,所述背光模组发蓝光。 [0018] Preferably, the backlight emits blue light.

[0019] 本发明还公开一种显示方法,采用上述的显示装置,其中,所述显示方法包括:控制模组控制所述支架内的每个膜片在平行于显示基板的方向上的位移以指示所述显示装置显示灰阶。 [0019] The present invention also discloses a display method using the above display device, wherein, the display method comprising: a control module controls each of the diaphragms of the stent is parallel to the direction of displacement of the substrate on the display to indicating the display means to display gray scale.

[0020] 优选的,所述驱动电路给所述步进电机提供控制信号,所述步进电机根据控制信号控制所述支架内多个膜片在平行于显示基板的方向上的位移以指示显示灰阶。 [0020] Preferably, the drive circuit provides a control signal to the stepping motor, the stepping motor according to a control signal for controlling the plurality of diaphragms stent in parallel to the direction of displacement of the display board to indicate its display gray.

[0021] 优选的,所述红色量子点膜片与绿色量子点膜片相对于支架位移最小,所述反光膜片或遮光膜片相对于支架位移最大时,该像素呈暗态。 [0021] Preferably, the green and red quantum dots quantum dots diaphragm Diaphragm minimum displacement relative to the housing, the light-blocking film or reflective film with respect to the maximum displacement of the stent, which was dark state pixel.

[0022] 优选的,所述红色量子点膜片相对于支架位移最大时,该像素发红光。 [0022] Preferably, the red quantum dot diaphragm relative to the housing when the maximum displacement of the pixels emits red light.

[0023] 优选的,所述绿色量子点膜片相对于支架位移最大时,该像素发绿光。 [0023] Preferably, the green quantum dot film holder with respect to the maximum displacement of the pixel glows green.

[0024] 优选的,所述膜片相对于支架位移均为最小时,该像素发蓝光。 [0024] Preferably, the displacement of the diaphragm relative to the housing are the minimum, the pixel emits blue light.

[0025] 本发明的显示基板中,一个像素的支架上连接有多个不同颜色的膜片,通过独立控制叠置的膜片沿平行于衬底的方向上移动,使得一个像素可以发出彩色的光,控制模组通过控制每个膜片的位移,实现灰阶变化,实现高色域、低功耗。 [0025] The display substrate of the present invention is connected to a plurality of different colored patch on one pixel of the stent, by independently controlling the stacked film in a direction parallel to the moving direction of the substrate, so that the color of a pixel can be issued light control module by controlling the displacement of each diaphragm to achieve gray scale change and achieve high color gamut and low power consumption. 本发明的显示基板,当像素需要最亮显示的时候,像素可以实现几乎无遮挡的光透过,此种透过率可以更好地对背光的光能量实现利用,且显示效果细腻。 The display substrate of the present invention, when the pixel needs of the most highlighted when the pixel can achieve almost unobstructed light transmission, such transmission may be better to use light energy to achieve the backlight and display fine. 本发明的显示基板适用于各种显示装置。 The display substrate of the present invention is applicable to various display devices.

附图说明 BRIEF DESCRIPTION

[0026] 图1为现有的MEMS显不基板的结构不意图; Existing MEMS structure was not a substrate [0026] FIG. 1 is not intended;

[0027] 图2为本发明的实施例2的显示基板的结构示意图; 2 show a configuration example of embodiment of the substrate [0027] Figure 2 is a schematic view of the invention;

[0028] 图3为本发明的实施例2的显不基板发绿光不意图; Significant Example 2 [0028] FIG. 3 is not a substrate of the present invention is not intended glows green;

[0029] 图4为本发明的实施例2的显示基板发红光示意图; The display substrate of Example 2 [0029] Figure 4 is a schematic diagram of red-emitting invention;

[0030] 图5为本发明的实施例2的显不基板的暗态不意图; Example 2 was dark state is not a substrate of embodiment [0030] FIG. 5 of the present invention is not intended;

[0031] 图6为本发明的实施例2的显不基板发一种白光不意图; [0031] FIG. 6 of the present invention of Example 2 was not substrate made one kind of white is not intended;

[0032] 图7为本发明的实施例2的显不基板发另一种白光不意图; Example 2 was [0032] FIG. 7 is not a substrate of the present invention is not intended to send another white light;

[0033] 图8为本发明的实施例2的显示基板发不同灰阶发光示意图; The display substrate of Example 2 [0033] FIG. 8 of the present invention different gray hair luminous schematic;

[0034] 其中,附图标记为:10、挡光片;20、导轨;1、衬底;2、支架;21、反蓝光膜片;22、绿色量子点膜片;23、红色量子点膜片;3、控制模组。 [0034] Reference Numerals: 10, a light blocking sheet; 20, guide rails; a substrate; 2, stent; 21, anti-blue film; 22, a green quantum dot film; 23, a red quantum dot film sheet; 3, the control module.

具体实施方式 detailed description

[0035] 为使本领域技术人员更好地理解本发明的技术方案,下面结合附图和具体实施方式对本发明作进一步详细描述。 [0035] to enable those skilled in the art to better understand the technical aspect of the present invention, the accompanying drawings and the following specific embodiments of the present invention will be described in further detail.

[0036] 实施例1: [0036] Example 1:

[0037] 本实施例提供一种显示基板,包括衬底,形成在该衬底上的多个MEMS像素结构,每一所述MEMS像素结构包括: Shows an embodiment there is provided a substrate, the substrate structure comprises a plurality of MEMS pixels, formed on the substrate, each of said pixel MEMS structure [0037] The present comprising:

[0038] 支架,所述支架上连接有多个膜片,所述多个膜片中包括至少两种不同颜色的彩色膜片; [0038] a bracket connecting a plurality of diaphragms, the diaphragms comprises a plurality of at least two different colors of the color film;

[0039] 控制模组,用于驱动每个膜片在平行于衬底的方向上移动。 [0039] Control module for driving each movement of the diaphragm in a direction parallel to the substrate.

[0040] 本实施例的显示基板中,一个像素的支架上连接有多个不同颜色的膜片,通过独立控制叠置的膜片沿平行于衬底的方向上移动,使得一个像素可以发出彩色的光,控制模组通过控制每个膜片的位移,实现灰阶变化,实现高色域、低功耗。 [0040] The display substrate of the present embodiment is connected to a plurality of different colors on a pixel diaphragm holder overlaid by independently controlling the diaphragm moves in a direction parallel to the substrate, so that a color pixel can be issued light control module by controlling the displacement of each diaphragm to achieve gray scale change and achieve high color gamut and low power consumption. 本发明的显示基板,当像素需要最亮显示的时候,像素可以实现几乎无遮挡的光透过,此种透过率可以更好地对背光的光能量实现利用,且显示效果细腻。 The display substrate of the present invention, when the pixel needs of the most highlighted when the pixel can achieve almost unobstructed light transmission, such transmission may be better to use light energy to achieve the backlight and display fine. 本发明的显示基板适用于各种显示装置。 The display substrate of the present invention is applicable to various display devices.

[0041] 实施例2: [0041] Example 2:

[0042] 本实施例提供一种显示基板,如图2-7所示,包括衬底1,形成在该衬底I上的多个MEMS像素结构,每一MEMS像素结构包括: [0042] The present embodiment provides a display substrate shown in Figure 2-7, comprises a substrate 1, a plurality of MEMS pixels formed on the substrate structure I, each pixel MEMS structure comprising:

[0043] 支架2,支架2上连接有多个膜片,所述多个膜片中包括至少两种不同颜色的膜片; [0043] bracket 2, the bracket 2 is connected to a plurality of diaphragms, the diaphragms comprises a plurality of at least two different colors of the diaphragm;

[0044] 控制模组3,用于驱动每个膜片在平行于衬底I的方向上移动。 [0044] a control module 3 for driving each movement of the diaphragm in a direction parallel to the substrate I direction.

[0045] 本实施例的显示基板中,一个像素的支架2上连接有多个不同颜色的膜片,通过独立控制叠置的膜片沿平行于衬底的方向上移动,使得一个像素可以发出彩色的光,控制模组3通过控制每个膜片的位移,实现灰阶变化,实现高色域、低功耗。 The display substrate [0045] of the present embodiment, a plurality of pixels connected to the bracket on the diaphragm 2 different colors, superposed independently controlled by movement of the diaphragm along a direction parallel to the substrate, so that a pixel can be issued colored light control module 3 by controlling the displacement of each diaphragm to achieve gray scale change and achieve high color gamut and low power consumption. 本发明的显示基板,当像素需要最亮显示的时候,像素可以实现几乎无遮挡的光透过,此种透过率可以更好地对背光的光能量实现利用,且显示效果细腻。 The display substrate of the present invention, when the pixel needs of the most highlighted when the pixel can achieve almost unobstructed light transmission, such transmission may be better to use light energy to achieve the backlight and display fine. 本发明的显示基板适用于各种显示装置。 The display substrate of the present invention is applicable to various display devices.

[0046] 优选的,控制模组3包括: [0046] Preferably, the control module 3 includes:

[0047]与每个膜片连接的多个步进电机,每个步进电机与至少一个膜片连接; [0047], each connected to each of the plurality of stepper motor stepper motor connected to the diaphragm and at least one diaphragm;

[0048] 控制步进电机工作的驱动电路。 [0048] controlled stepper motor drive circuit.

[0049] 也就是说,驱动电路提供信号,步进电机根据该信号控制膜片移动,其中,每个膜片都要与步进电机连接。 [0049] That is, the driving circuit provides a signal, the stepping motor control signal based on the movement of the diaphragm, wherein each diaphragm must be connected to the stepping motor.

[0050] 优选的,多个膜片还包括至少一个遮光膜片和/或至少一个反光膜片。 [0050] Preferably, a plurality of light-shielding film further comprises at least one membrane and / or at least one of the retroreflective sheeting.

[0051] 也就是说,当该像素需要呈暗态时,采用遮光膜片或反光膜片遮光。 [0051] That is, when the need was dark state pixels, using the light-shielding film or reflective film shading.

[0052] 优选的,彩色膜片选自量子点膜片或荧光膜片。 [0052] Preferably, the color film or membrane is selected from a quantum dot fluorescence diaphragm.

[0053] 也就是说,膜片可以根据具体显示装置的需要选自量子点膜片或荧光膜片。 [0053] That is, the diaphragm may need the device selected from the diaphragm or a fluorescent quantum dot film depending on the display.

[0054] 优选的,支架2内包括一个红色量子点膜片23、一个绿色量子点膜片22以及一个反光膜片或遮光膜片。 [0054] Preferably, the holder 2 includes a red quantum dots within the diaphragm 23, a diaphragm 22 and green quantum dot or a reflective film shading film.

[0055] 也就是说,膜片的颜色也可以根据具体显示装置的需要进行选择。 [0055] That is, the color of the membrane can also be selected according to the specific needs display device.

[0056] 优选的,所述相邻的两个支架2控制各自的膜片相向移动,以控制两个支架2之间的像素显示灰阶。 [0056] Preferably, the two adjacent control respective diaphragm holder 2 moved towards each other in order to control the pixels between the two brackets grayscale display.

[0057] 也就是说,如图8所示,左边的支架2控制其上的红色量子点膜片23向右移动,右边的支架2控制其上的反蓝光膜片21向左移动,两个支架2分别控制各自的膜片的位移值以控制两个支架2之间的像素显示灰阶。 [0057] That is, as shown, the left bracket 2 on which the control diaphragm 23 of the red quantum dots 8 moves to the right, to the right of the holder 2 which controls the diaphragm 21 anti blue moved to the left, two bracket 2 control the displacement of the diaphragm to control the respective pixels between two supports grayscale display.

[0058] 这样左边的支架2上的红色量子点膜片23发出的光直接射出,该红色量子点膜片23发出的光无需经过左边的支架2上的反蓝光膜片21,同时,采用右边的支架2上的反蓝光膜片21遮挡背光源的蓝光。 [0058] red light quantum dot diaphragm 2 on the left side of this bracket 23 issued direct injection, the red light emitted by the quantum dot diaphragm 23 without going through the anti-blue patch on the left side of the frame 2 of 21, while using the right side anti-2 Blu-ray film holder 21 on the Blu-ray shielding backlight. 同理,当需要调整灰阶时,只需改变左、右支架2上的膜片的位移即可实现,这种方式出光更纯,光能利用率更高。 Similarly, when the need to adjust the gray scale, simply by changing the left and displacement of the diaphragm 2 on the right stand can be realized in this way light is more pure, higher energy efficiency.

[0059] 实施例3: [0059] Example 3:

[0060] 本实施例提供一种显示装置,包括背光模组,背光模组出光侧设有上述实施例2的显示基板。 [0060] The present embodiment provides a display device comprising a backlight, backlight light side is provided with the above-described embodiment, the display substrate 2. 显示装置可以为:电子纸、手机、平板电脑、电视机、显示器、笔记本电脑、数码相框、导航仪等任何具有显示功能的产品或部件。 The display device can be: electronic paper, mobile phones, tablet computers, televisions, monitors, notebook computers, digital picture frames, navigation systems and other products or any component having a display function.

[0061] 本实施例的显示装置中,当像素需要最亮显示的时候,像素可以实现几乎无遮挡的光透过,此种透过率可以更好地对背光的光能量实现利用,且显示效果细腻。 The display device [0061] The present embodiment, when the pixel needs of the most highlighted when the pixel can achieve almost unobstructed light transmission, such transmission can achieve better utilization of light energy of the backlight and the display fine.

[0062] 优选的,背光模组发蓝光。 [0062] Preferably, the backlight emits blue light.

[0063] 也就是说,如图2所不,背光模组发蓝光,支架2内包括一个红色量子点膜片23、一个绿色量子点膜片22以及一个反蓝光膜片21。 [0063] In other words, not two, as shown in backlight blue hair, stent 2 comprises a red quantum dot diaphragm 23, a diaphragm 22 green quantum dots and a blue film anti-21.

[0064] 图2中,红色量子点膜片23、绿色量子点膜片22以及反蓝光膜片21相对于支架2的位移均为最小,这样蓝色背光通过,因此该像素该时刻发蓝光。 [0064] FIG. 2, the diaphragm 23 red quantum dots, quantum dots of green diaphragm 22 of the diaphragm 21 and inverse displacement with respect to the blue light holder 2 are minimal, so that through the blue backlight, so the timing of the pixel emits blue light.

[0065] 图3中,红色量子点膜片23相对于支架2的位移均为最小,绿色量子点膜片22以及反蓝光膜片21相对于支架2的位移均为最大,这样蓝色背光射向绿色量子点膜片22之后,激发绿色量子点膜片22中的量子点材料发出绿色的光,而蓝色背光被反蓝光膜片21遮挡,因此该像素该时刻发绿光。 [0065] FIG. 3, the red quantum dot holder 2 phase shift of the diaphragm 23 are the smallest, the green quantum dots 22 and the diaphragm 21 of the diaphragm with respect to anti-blue shift of the frame 2 are the greatest, so that the emitted blue backlight green quantum dots to the diaphragm 22, the diaphragm stimulate green quantum dots in quantum dot material 22 which emits green light, blue light and blue backlit by the anti-blocking diaphragm 21, so that the pixel that emits green light time.

[0066] 同理图4中,绿色量子点膜片22相对于支架2的位移均为最小,红色量子点膜片23以及反蓝光膜片21相对于支架2的位移均为最大,这样蓝色背光射向红色量子点膜片23之后,激发红色量子点膜片23中的量子点材料发出红色的光,而蓝色背光被反蓝光膜片21遮挡,因此该像素该时刻发红光。 [0066] Similarly, FIG. 4, the green quantum dot displacement of the diaphragm 22 with respect to the holder 2 are minimized, and the red quantum dot diaphragm 23 of the diaphragm 21 with respect to the anti-blue shift of the frame 2 are the greatest, so that the blue backlit red quantum dots fired after the diaphragm 23, diaphragm 23 to stimulate red quantum dots in quantum dot materials emit red light, blue light and blue backlit by the anti-blocking diaphragm 21, so that the pixel emits red light at that time.

[0067] 图5中,反蓝光膜片21相对于支架2的位移均为最大,红色量子点膜片23以及绿色量子点膜片22相对于支架2的位移均为最小,这样蓝色背光被反蓝光膜片21遮挡,因此该像素该时刻呈暗态。 [0067] FIG. 5, the counter 21 relative to displacement of the Blu-ray film holder 2 are maximum, the red and the green quantum dots quantum dots diaphragm 23 of the diaphragm 22 with respect to the displacement of the holder 2 are minimal, so that the backlight is blue anti-blue light blocking film 21, so that the pixel at that time was the dark state.

[0068] 基于相同的道理,图6、图7中,红绿蓝混合,从而该像素该时刻发白光。 [0068] For the same reason, 6, 7, red, green and blue mixed to emit white light at that time of the pixel.

[0069] 显然,上述各实施例的具体实施方式还可进行许多变化;例如:本实施例仅例举了膜片为量子点膜片,背光为蓝光的情况,本领域技术人员可以很容易想到背光为白光,膜片为荧光膜片,通过控制各个膜片的位移改变像素出光颜色。 [0069] Obviously, the above-described specific embodiments by way of example may also be many variations; for example: the present embodiment, only the case is exemplified for the diaphragm membrane quantum dot, blue backlight, skilled in the art can easily think of white backlight, the diaphragm is a fluorescent film, by controlling the displacement of each of the diaphragms changing pixels light color.

[0070] 实施例4: [0070] Example 4:

[0071] 本实施例提供了一种显示方法,其采用上述实施例3的显示装置,其中,显示方法包括:控制模组3控制支架2内的每个膜片在平行于显示基板的方向上的位移以指示显示装置显示灰阶。 [0071] The present embodiment provides a display method using the above-described embodiment, the display device 3, wherein the display method comprising: a control module 3 controls each bracket within the diaphragm 2 in a direction parallel to the display substrate displacement to indicate the display means to display grayscale.

[0072] 也就是说,每个膜片某时刻相对于支架2的位移由控制模组3控制,这样使得像素显不有序、准确。 [0072] That is, each time a displacement of the diaphragm with respect to the frame 2 by the control module 3 controls, so that the pixel was not orderly and accurate.

[0073] 优选的,驱动电路给步进电机提供控制信号,步进电机根据控制信号控制支架2内多个膜片在平行于显示基板的方向上的位移以指示显示灰阶。 [0073] Preferably, the drive circuit provides a control signal to the stepping motor, stepper motor control signal based on stent over two diaphragms parallel to the direction of displacement of the substrate on the display to indicate grayscale display.

[0074] 也就是说,步进电机根据驱动电路的信号控制多个膜片的位移,从而控制像素的颜色。 [0074] That is, the stepping motor driving circuit according to a control signal of a plurality of diaphragm displacement, thereby controlling the color of the pixel.

[0075] 优选的,红色量子点膜片23与绿色量子点膜片22相对于支架2位移最小,反光膜片或遮光膜片相对于支架2位移最大时,该像素呈暗态。 [0075] Preferably, the red and green quantum dot quantum dot diaphragm 23 of the diaphragm 22 relative to the holder 2 minimum displacement, reflective film or the light shielding film 2 with respect to the maximum displacement of the stent, the pixel is dark state.

[0076] 也就是说,如图5中所示,控制模组3控制反蓝光膜片21相对于支架2的位移均为最大,红色量子点膜片23以及绿色量子点膜片22相对于支架2的位移均为最小,这样蓝色背光被反蓝光膜片21遮挡,因此该像素该时刻呈暗态。 [0076] That is, as shown in FIG. 5, a control module 3 controls the diaphragm 21 with respect to the anti-blue shift of the frame 2 are maximum, the red and the green quantum dots quantum dots diaphragm 23 of the diaphragm 22 relative to the housing 2 displacement are minimal, so blue blue backlit by the anti-blocking diaphragm 21, so that the pixel at that time was the dark state.

[0077] 优选的,红色量子点膜片23相对于支架2位移最大时,该像素发红光。 [0077] Preferably, the red quantum dot diaphragm 23 with respect to the maximum displacement of the bracket 2, the pixel emits red light.

[0078] 也就是说,如图4中,控制模组3控制绿色量子点膜片22相对于支架2的位移均为最小,红色量子点膜片23以及反蓝光膜片21相对于支架2的位移均为最大,这样蓝色背光射向红色量子点膜片23之后,激发红色量子点膜片23中的量子点材料发出红色的光,而蓝色背光被反蓝光膜片21遮挡,因此该像素该时刻发红光。 [0078] That is, in FIG. 4, the control module controls green quantum dot 3 relative to the displacement of the diaphragm 22 of the frame 2 are minimized, and the red quantum dot diaphragm 23 of the diaphragm 21 with respect to the anti-blue bracket 2 the maximum displacement are so blue backlight fired after the red quantum dots diaphragm 23, diaphragm 23 to stimulate red quantum dots in quantum dot materials emit red light, blue light and blue backlit by the anti-blocking diaphragm 21, so that the the moment pixel emits red light.

[0079] 优选的,绿色量子点膜片22相对于支架2位移最大时,该像素发绿光。 [0079] Preferably, the green quantum dot diaphragm 22 with respect to the maximum displacement of the bracket 2, the pixel emits green light.

[0080] 也就是说,如图3中,控制模组3控制红色量子点膜片23相对于支架2的位移均为最小,绿色量子点膜片22以及反蓝光膜片21相对于支架2的位移均为最大,这样蓝色背光射向绿色量子点膜片22之后,激发绿色量子点膜片22中的量子点材料发出绿色的光,而蓝色背光被反蓝光膜片21遮挡,因此该像素该时刻发绿光。 [0080] That is, in Figure 3, the control module controls the red quantum dot 3 relative to the displacement of the diaphragm 23 of the frame 2 are the smallest, the green quantum dots 22 and the diaphragm 21 of the diaphragm with respect to anti-blue bracket 2 the maximum displacement are so blue backlight toward green quantum dots diaphragm 22, the diaphragm stimulate green quantum dots in quantum dot material 22 which emits green light, blue light and blue backlit by the anti-blocking diaphragm 21, so that the the moment pixel emits green light.

[0081] 优选的,膜片相对于支架2位移均为最小时,该像素发蓝光。 [0081] Preferably, the diaphragm displacement relative to the holder 2 are the most hours, the pixel emits blue light.

[0082] 也就是说,如图2中,控制模组3控制红色量子点膜片23、绿色量子点膜片22以及反蓝光膜片21相对于支架2的位移均为最小,这样蓝色背光通过,因此该像素该时刻发蓝光。 [0082] That is, in FIG. 2, the control module controls the red quantum dot 3 the diaphragm 23, the diaphragm 22 and the green quantum dot anti blue shift bracket 21 relative to the diaphragm 2 are the smallest, so blue backlight by this time so the pixel emits blue light.

[0083] 可以理解的是,以上实施方式仅仅是为了说明本发明的原理而采用的示例性实施方式,然而本发明并不局限于此。 [0083] will be appreciated that the above embodiments are merely illustrative of the principles of the invention and the use of the exemplary embodiments, but the present invention is not limited thereto. 对于本领域内的普通技术人员而言,在不脱离本发明的精神和实质的情况下,可以做出各种变型和改进,这些变型和改进也视为本发明的保护范围。 Those of ordinary skill in the art is concerned, without departing from the spirit and substance of the present invention may be made various modifications and improvements, such variations and modifications are also considered the scope of the present invention.

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Classifications
International ClassificationG09F9/37, G09F9/30
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