CN102779490A - Hybrid displayer capable of displaying dynamic and static images and dynamic and static image displaying method - Google Patents

Hybrid displayer capable of displaying dynamic and static images and dynamic and static image displaying method Download PDF

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CN102779490A
CN102779490A CN2011101235068A CN201110123506A CN102779490A CN 102779490 A CN102779490 A CN 102779490A CN 2011101235068 A CN2011101235068 A CN 2011101235068A CN 201110123506 A CN201110123506 A CN 201110123506A CN 102779490 A CN102779490 A CN 102779490A
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display
module
dynamic
layer
sub
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CN2011101235068A
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Chinese (zh)
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夏兴隆
孙刚
王欢欢
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苏州汉朗光电有限公司
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Priority to CN2011101235068A priority Critical patent/CN102779490A/en
Publication of CN102779490A publication Critical patent/CN102779490A/en

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Abstract

The invention discloses a hybrid displayer capable of displaying dynamic and static images and a dynamic and static image displaying method. The displayer comprises a dynamic video display module, wherein a static image display module is laminated on a display surface of the dynamic video display module; the static image display module comprises a first substrate layer and a second substrate layer; a mixed layer is arranged between the first substrate layer and the second substrate layer; and one side of the first substrate layer facing the mixed layer is provided with a first conducting electrode layer, one side of the second substrate layer facing the mixed layer is provided with a second conducting electrode layer, and the first conducting electrode layer and the second conducting electrode layer form a pixel point array used for displaying static images. The method comprises the following steps of identifying the content to be displayed in the aspects of file format, image conversion rate and color range, so that the content to be displayed is displayed in an appointed range in a dynamic or static form. The displayer can display a dynamic video and a static image, the requirements for dynamic menu enjoyment and electronic paper reading are met, and the requirement of displaying the dynamic and static images through the displayer can be met by the method.

Description

可实现动静态图像显示的混合型显示器及动静态图像显示方法 Still image display can be achieved movable hybrid dynamic and static display and image display method

技术领域 FIELD

[0001] 本发明涉及一种图像显示设备及基于该设备的图像显示方法,具体地说,是涉及一种可实现动静态图像显示的混合型显示器以及基于该混合型显示器实现的动静态图像显示方法。 [0001] The present invention relates to an image display apparatus and an image display apparatus based on the method of, in particular, relates to a still image display can be achieved movable hybrid dynamic and static image display and display the hybrid implemented based on the display method.

背景技术 Background technique

[0002]目前,市场上的显示器终端一般都为单一性显示器,即一个显示器输出。 [0002] Currently, display of the terminal on the market are generally unitary display, i.e. a display output.

[0003] 市场上公知的动态显示器大都为TFT-IXD彩色液晶显示器,其被广泛应用于电视、电脑、手机、MP4、MP5等个人手持终端、设备、仪表上,其能够实现彩色和动态视频内容的显示。 [0003] commercially known dynamic display of mostly TFT-IXD color liquid crystal displays, which are widely used in TVs, computers, mobile phones, MP4, MP5 and other personal handheld terminals, equipment, instruments, which enables color and dynamic video content display. 然而,公知的动态显示器是需要背光源被动发光的,其虽然可以用作电子纸显示屏之类的阅读设备,但是背光源实现的内容显示在阅读过程中很容易造成阅读者的视觉疲劳,并且,背光源极其耗电,在阅读的整个过程中都需要对背光源持续地供电,因此,阅读设备的电池损耗较多,一次充电后一般只能连续工作不到一天的时间,给阅读者带来需要不断充电的麻烦。 However, the dynamic display is well known that the passive light sources require a backlight, which can be used although the electronic paper display device or the like to read, but the content of the display backlight to achieve the reader is likely to cause visual fatigue in the reading process, and , extremely backlight power, require continuous power to the backlight in the process of reading, therefore, battery consumption more reading devices, typically only one charge less than a day continuous operation, a tape reader We need to continue to charge trouble.

[0004] 另外,市场上出现的适于阅读的静态显示器(可称作电子纸)大多为使用Eink技术制作,这种电子纸的优点是其为反射性显示器,功耗极低,阅读舒适感较强,只在切换显示内容的时候供电,正常阅读时不耗电,但是,这种电子纸显示的内容较为单一,只能显示黑白内容或者灰阶数很低的伪彩色内容,而不能显示色彩丰富的多灰阶数和动态视频的内容,可见,其也存在一定的功能性缺陷。 [0004] Further, suitable for reading static display appearing on the market (may be referred to as electronic paper) is often used Eink production technology, the advantages of this is the electronic paper is a reflective display, low power consumption, reading comfort strong, only power, no power when switching the display content of the normal reading, however, the content of such an electronic paper display more single, monochrome display content or only a very low number of pseudo-gray color content, can not be displayed rich, multi-color and gray-scale number-motion video, we can see that there are some functional defects.

[0005] 总之,动态显示器在全彩色高分辨率或动态视频内容显示方面可达到功能和效率上的最佳理想状态,而静态显示器在相对静态内容显示方面可达到功能和功耗上的最佳理想状态。 [0005] In summary, a display to display aspects may be the best and ideal functional efficiency or high resolution full-color dynamic video content, the display shows the static aspects may be the best functional and power consumption in a relatively static content ideal state. 因此,在实际中,大部分消费者会根据不同的需求,来单独购买适合的显示器,例如,若需要电子纸静态阅读,就单独购买一个电子纸阅读器(静态显示器),若需要观看动态彩色视频等,就单独购买一个动态显示器。 Therefore, in practice, most consumers will be based on different needs to be purchased separately for the display, for example, if you need to read e-paper still, on the purchase of an electronic paper reader (static display) alone, if you need to watch the dynamic color video, on a dynamic display purchased separately. 但是,大多的消费者会同时拥有观看电子纸和动态图像两个方面的需求,这样就导致他们必须购买和携带两个、甚至更多的显示器才行。 However, most consumers will also have to watch both the needs of electronic paper and moving images, thus causing them to have to buy and carry two or even more monitors the job. 这不仅给消费者带来了不断更换显示器的麻烦,还直接导致消费者支出费用的上涨。 This not only gives consumers a constantly changing display of trouble, but also a direct result of rising consumer spending costs.

[0006] 由此可见,设计出一种能够同时具备动、静态显示功能的综合性显示器是目前应解决的问题。 [0006] Thus, the design of which can also have dynamic and static display of the integrated monitor is to be solved.

发明内容 SUMMARY

[0007] 本发明的目的在于提供一种可实现动静态图像显示的混合型显示器及基于该混合型显示器实现的动静态图像显示方法,基于该动静态图像显示方法,该显示器可对动态和静态图像进行灵活显示。 [0007] The object of the present invention may be implemented to provide a hybrid dynamic and static display moving image display and still image display method of the hybrid display-based implementation, the method based on static and dynamic image display, the display can be dynamic and static flexible image display.

[0008] 为了实现上述目的,本发明采用了以下技术方案: [0008] To achieve the above object, the present invention employs the following technical solution:

[0009] 一种可实现动静态图像显示的混合型显示器,其特征在于:它包括与外部的驱动控制电路连接的动态视频显示模块,该动态视频显示模块的显示面上叠设有静态图像显示模块,其中:该静态图像显示模块包括第一基体层和第二基体层,该第一基体层与该第二基体层之间设有混合层,该混合层由近晶相液晶、导电物、隔离物混合而成或者该混合层包括封装在聚合物结构中由近晶相液晶、导电物和隔离物组成的混合物,该第一基体层朝向该混合层的一侧设有第一导电电极层,该第二基体层朝向该混合层的一侧设有第二导电电极层,该第一导电电极层和第二导电电极层与该驱动控制电路连接,该第一导电电极层、第二导电电极层分别由M、N个电极组成,该M个电极与N个电极之间形成用于显示静态图像的像素点阵列。 [0009] A hybrid type display achieve dynamic and static image display, characterized in that: it comprises an external driving dynamic control circuit connected to the video display module, the dynamic video display surface of the module stack is provided with still image display module, wherein: the still image display module comprises a first substrate layer and the second base layer, a mixed layer is provided between the first substrate layer and the second base layer, the hybrid layer of smectic liquid crystal, a conductive material, mixed or the spacer layer comprises a mixture of a mixed encapsulated in the polymer structure of smectic liquid crystal, a conductive material and a spacer composed of the base layer toward the first side of the mixed layer of the first conductive electrode layer is provided , the second side of the substrate layer towards the mixed layer is provided with a second conductive electrode layer, the first conductive electrode layer and the second conductive electrode layer and the drive control circuit connected to the first conductive electrode layer, a second conductive M respectively, by electrode layers, composed of N electrodes forming an array of pixels for displaying a still image between the electrodes M and N electrodes.

[0010] 一种基于混合型显示器实现的动静态图像显示方法,其特征在于:该方法包括以下步骤: [0010] An image display method for dynamic and static mixing type display based implementation, which is characterized in that: the method comprising the steps of:

[0011] 步骤I :对接收到的待显示内容进行识别,具体为: [0011] Step I: displaying the received content to be identified, specifically:

[0012] 步骤1-1 :判断待显示内容的文件格式:如果是明显的动态显示格式,则判断待显示内容为动态显示内容而直接转到步骤3;如果不是明显的动态显示格式,则继续下一步骤1-2 ;步骤1-2 :判断待显示内容的图像变化率:如果其图像变化率大于等于设定阈值,则判断待显示内容为动态显示内容而直接转到步骤3 ;如果其图像变化率小于设定阈值或无变化,则不能确定是动态显示内容还是静态显示内容,继续下一步骤1-3 ;步骤1-3 :判断待显示内容的色彩范围:如果色彩范围为大于二维或大于64灰阶,则判断待显示内容为动态显示内容而直接转到步骤3 ;如果色彩范围为小于等于二维或不高于64灰阶,则判断待显示内容为静态显示内容,进入步骤2 ; [0012] Step 1-1: determining a file format of contents to be displayed: if the apparent dynamic display format, the content is determined to be displayed as the dynamic display content directly to step 3; if it is not apparent to the dynamic display format, continued the next step 1-2; step 1-2: rate of change in the image content is determined to be displayed: an image if it is equal to the rate of change is greater than the threshold value, it is determined that the contents to be displayed as the dynamic display content directly to step 3; if it image change rate is less than the set threshold value or no, can not determine the display content is dynamic or static display contents, proceeds to the next step 1-3; step 1-3: determining the color range to be displayed content: if the color range is greater than two dimensional grayscale or greater than 64, it is determined that the contents to be displayed as the dynamic display content directly to step 3; If the color range is not less than 64 or a two-dimensional gray scale, the display content is determined to be a static display of content, into the step 2;

[0013] 步骤2 :所述驱动控制电路停止向所述动态视频显示模块供电,所述动态视频显示模块关闭而整体呈现为黑色,作为所述静态图像显示模块的黑色背板,同时,所述驱动控制电路通过对所述静态图像显示模块中的电极进行控制,将待显示内容显示在所述静态图像显示模块上,然后停止向所述静态图像显示模块供电,待显示内容保持已显示状态,随后返回步骤1,进入下一待显示内容的显示过程; [0013] Step 2: The driving control circuit stops the power supply module to display the motion video, the video display module is closed and the dynamic rendering whole black, black as the still image display backplane module, while the drive control circuit through the electrode module in still image display control, the display content to be displayed on the still image display module, and the power supply module to stop displaying the still image contents to be displayed have been held display state, then returns to step 1, the process proceeds to the next display content to be displayed;

[0014] 步骤3 :所述驱动控制电路通过对所述静态图像显示模块中的电极进行控制,使所述静态图像显示模块整体呈现为全透明状态,同时,所述驱动控制电路通过对所述动态视频显示模块的控制,将待显示内容显示在所述动态视频显示模块上,随后返回步骤1,进入下一待显示内容的显示过程。 [0014] Step 3: the drive control circuit by an electrode module controls the still image display, the static image display is rendered integral module completely transparent state, while the drive by the control circuit dynamic video display control module, to be displayed on the content display module, and then returns to the step 1, the process proceeds to the next content to be displayed in the live video display.

[0015] 一种基于混合型显示器实现的动静态图像显示方法,其特征在于:该方法包括以下步骤: [0015] An image display method for dynamic and static mixing type display based implementation, which is characterized in that: the method comprising the steps of:

[0016] 步骤I :对接收到的待显示内容进行识别,具体为: [0016] Step I: displaying the received content to be identified, specifically:

[0017] 步骤1-1 :判断待显示内容的文件格式:如果是明显的动态显示格式,则判断待显示内容为动态显示内容而直接转到步骤2;如果不是明显的动态显示格式,则继续下一步骤1-2 ;步骤1-2 :判断待显示内容的图像变化率:如果其图像变化率大于等于设定阈值,则判断待显示内容为动态显示内容而直接转到步骤2 ;如果其图像变化率小于设定阈值或无变化,则不能确定是动态显示内容还是静态显示内容,继续下一步骤1-3 ;步骤1-3 :判断待显示内容的色彩范围:如果色彩范围为大于二维或大于64灰阶,则判断待显示内容为动态显示内容而直接转到步骤2 ;如果色彩范围为小于等于二维或不高于64灰阶,则判断待显示内容为静态显示内容,进入步骤2 ;[0018] 步骤2 :确定显示待显示内容的子显示模块的数量和位置,然后进入步骤3 ; [0017] Step 1-1: determining a file format of contents to be displayed: if the apparent dynamic display format, the content is determined to be displayed as the dynamic display content directly to step 2; if not significant dynamic display format, continued the next step 1-2; step 1-2: rate of change in the image content is determined to be displayed: an image if it is equal to the rate of change is greater than the threshold value, it is determined that the contents to be displayed as the dynamic display content directly to step 2; if it image change rate is less than the set threshold value or no, can not determine the display content is dynamic or static display contents, proceeds to the next step 1-3; step 1-3: determining the color range to be displayed content: if the color range is greater than two dimensional grayscale or greater than 64, it is determined that the contents to be displayed as the dynamic display content directly to step 2; if the color range is not less than 64 or a two-dimensional gray scale, it is determined that the contents to be displayed as a static display contents into step 2; [0018] step 2: determining the display sub-content to be displayed and a display position of the module number, then proceeds to step 3;

[0019] 步骤3 :开始进行图像显示,具体为: [0019] Step 3: image display is started, specifically:

[0020] 若待显示内容判断为静态显示内容,则:对于该静态显示内容对应的所述动态视频显示模块中的子显示模块来说,所述驱动控制电路停止向该子显示模块供电,该子显示模块关闭而呈现为黑色,作为静态图像显示的黑色背板;同时,对于该静态显示内容对应的所述静态图像显示模块中的子显示模块来说,所述驱动控制电路通过对该子显示模块的电极进行控制,将待显示内容显示在该子显示模块上,然后停止向该子显示模块供电,待显示内容保持已显示状态;随后返回步骤1,进入下一待显示内容的显示过程; [0020] When determining the content to be displayed as a static display, then: For the static display dynamic video content corresponding to the display sub-module of the display module, the control circuit stops the driving power to the display sub-module, which the display module is closed and the sub-backsheet appear black as black, displayed as a still image; the same time, the static display of the static image contents corresponding to the display sub-module is a display module, the drive control circuit by the sub 1 display process then returns to step into the next content to be displayed; control electrodes of the display module, the display content to be displayed on the sub display module, and stops power supply to the display sub-module, has been shown to be displayed content holding state ;

[0021] 若待显示内容判断为动态显示内容,则:对于该动态显示内容对应的所述静态图像显示模块中的子显示模块来说,所述驱动控制电路通过对该子显示模块的电极进行控制,使该子显示模块呈现为全透明状态;同时,对于该动态显示内容对应的所述动态视频显示模块中的子显示模块来说,所述驱动控制电路通过对该子显示模块的控制,将待显示内容显示在该子显示模块上;随后返回步骤1,进入下一待显示内容的显示过程。 [0021] If the content is determined to be displayed as a dynamic display, then: for the dynamic display of the static image contents corresponding to the display sub-module display module, the control circuit by the drive electrodes of the display sub-module is controlling the sub-display module presents the full transparent state; the same time, for the dynamic content corresponding to the display dynamic video display modules for sub display module, the drive control circuit by the sub-display control module, the contents to be displayed on the display module in the sub display; then returns to step 1, the process proceeds to the next display contents to be displayed.

[0022] 本发明的优点是: [0022] The advantage of the present invention are:

[0023] 本发明混合型显示器的成本低、功耗低,既可显示动态视频内容,又可显示静态图像内容,而且,对显示内容既可进行全屏显示,又可进行特定区域(某些子显示区域)的显示,另外,还可在不同的子显示区域上分别显示动态视频内容、静态图像内容,实现了动、静态混合显示的需求,既满足了人们对动态色彩丰富的画面的观赏需求,又满足了人们对低能耗、不伤眼的电子纸阅读的需求。 Low cost [0023] The present invention is a mixed type display, low power consumption, can display dynamic video content, but also display a still image content, and, for full-screen display can display content, but also for a specific region (sub certain display area), and the other, show dynamic video content, still image content on the region, the need to achieve dynamic and static display of mixed, both to meet the needs of people watch the rich picture of the dynamic color can also be displayed in different sub , low energy consumption and meet the people, not hurt the eyes of the e-paper reader needs.

[0024] 本发明方法通过快速对待显示内容的判断,即可确定待显示内容的显示状态(动态或静态),并且根据实际显示需要,将待显示内容显示在指定的子显示区域(包括全屏情形)上,满足了本发明混合型显示器显示动态视频内容或静态图像内容的需求,以及同时显示动态视频内容和静态图像内容的需求。 Display state [0024] The method of the present invention is determined by the display content quickly treated, can determine the content to be displayed (dynamic or static), and display the actual needs, the contents of the display area to be displayed (in the case of a full screen including the specified child on) to meet the needs of the present invention is a hybrid video display to display dynamic content or still image content, and simultaneously displaying video content needs dynamic and static image content.

附图说明 BRIEF DESCRIPTION

[0025] 图I是本发明混合型显示器的第一实施例的组成示意图; [0025] FIG. I is a schematic view of a first embodiment of the composition of the present invention is a mixed type display;

[0026] 图2是本发明混合型显示器的第二实施例的组成示意图; [0026] FIG. 2 is a schematic view of a second embodiment of the composition of the present invention is a mixed type display;

[0027] 图3是排列成横竖点阵列状的第一和第二导电电极层示意图; [0027] FIG. 3 is a schematic view of a first dot array are arranged in horizontal, and the second conductive electrode layer;

[0028] 图4是RGBW型彩色像素层的结构示意图; [0028] FIG. 4 is a schematic diagram of the RGBW type color pixel layer;

[0029] 图5是RGB型彩色像素层的结构示意图; [0029] FIG. 5 is a schematic diagram of the RGB type color pixel layer;

[0030] 图6是RGBY型彩色像素层的结构示意图; [0030] FIG. 6 is a schematic diagram of RGBY type color pixel layer;

[0031] 图7是CMYK型彩色像素层的结构示意图。 [0031] FIG. 7 is a schematic view of CMYK type color pixel layer.

具体实施方式 Detailed ways

[0032] 如图I所示,本发明可实现动静态图像显示的混合型显示器包括与外部的驱动控制电路500连接的动态视频显示模块200,该动态视频显示模块200的显示面上叠设有静态图像显示模块100,其中:该静态图像显示模块100包括第一基体层111和第二基体层112,该第一基体层111与该第二基体层112之间设有混合层113,该混合层113由近晶相液晶(近晶相液晶又可称为近晶态液晶,微观下为近晶相液晶分子,见下述)、导电物、隔尚物混合而成或者该混合层113包括封装在聚合物结构(微观下由聚合分子构成,见下述)中由近晶相液晶、导电物和隔离物组成的混合物,该第一基体层111朝向该混合层113的一侧设有第一导电电极层114,该第二基体层112朝向该混合层113的一侧设有第二导电电极层115,该第一导电电极层114和第二导电电极层115的控制端与该驱动控制电路500的相应 [0032] As shown in FIG I, the present invention can realize hybrid dynamic and static display of the image display comprises an external driving control circuit 500 connected to the dynamic video display module 200, the dynamic video display surface 200 of the module stack is provided with still image display module 100, wherein: the still image display module 100 includes a first base layer 111 and the second substrate layer 112, a mixed layer 113 is provided between the first base layer 111 and the second base layer 112, the mixing layer 113 by the smectic liquid crystal (smectic liquid crystal may be called a smectic liquid crystal, smectic liquid crystal molecules is, microscopically see below), a conductive material, spacers were still mixed or the mixed layer 113 comprises package (composed of microscopic polymeric molecules, see below) in the mixture of the polymer structure smectic liquid crystal, a conductive material and a spacer composed of the base layer 111 toward the first side of the first mixed layer 113 is provided one side of a conductive electrode layer 114, the second substrate layer 112 towards the mixed layer 113 is provided with a second electrode conductive layer 115, the first conductive layer 114 and the control electrode of the second electrode conductive layer 115 and the driving control circuit 500 of the corresponding 制端子连接,该驱动控制电路500由电源电路600提供电能,该驱动控制电路500还可与其它处理器件、控制器件等(图中未示出)连接,该第一导电电极层114、第二导电电极层115分别由M、N个(M、N为正整数,可相同或不同)电极组成,该M个电极与N个电极之间形成用于显示静态图像的像素点阵列。 Terminal connection system, the driving control circuit 500 to provide power from the power circuit 600, the driving circuit 500 may also control other processing devices, control devices, etc. (not shown) connected to the first conductive electrode layer 114, a second respectively, by conductive electrode layer M 115, the N (M, N is a positive integer, it may be the same or different) electrode composition, formed array of pixels for displaying a still image between the electrodes M and N electrodes.

[0033] 在本发明中,该动态视频显示模块200可为IXD、TFT或STN等可动态显示视频图像的显示器,该动态视频显示模块200包括上、下基板及上、下基板间的显示器件,显示器件的控制端与驱动控制电路500的相应控制端子连接,动态视频显示模块200的组成为公知技术,不在这里详述。 [0033] In the present invention, the dynamic video display module 200 may be IXD, like TFT or STN dynamic display to display video images, the dynamic video display module 200 comprises upper and lower substrates, and on the display device between the lower substrate the control terminal of the drive control circuit of the display device corresponding control terminal 500, the dynamic video display module 200 is composed of a known technique, not described in detail here.

[0034] 第一基体层111、第二基体层112可为透明的高分子薄膜或玻璃。 [0034] The first base layer 111, second substrate layer 112 may be transparent glass or polymer film. 第一基体层111、第二基体层112可同时为玻璃制成或同时为高分子薄膜制成,当然,也可一个为玻璃制成,另一个为高分子薄膜制成。 The first base layer 111, second substrate layer 112 may be simultaneously made of glass or a polymer film is formed simultaneously, of course, also be made of a glass, a polymer film is further formed. 高分子薄膜为聚对苯二甲酸乙二醇酯(Polyethykeneterephthalate, PET)、聚碳酸酯(Polycarbonate, PC)、聚酸亚胺(Polyimide, PI)或聚甲基丙烯酸甲酯(PolymethylMethacrylate, PMMA)中的任一种。 The polymer film is a polyethylene terephthalate (Polyethykeneterephthalate, PET), polycarbonate (Polycarbonate, PC), polyimides (Polyimide, PI) or polymethyl methacrylate (PolymethylMethacrylate, PMMA) in any one. 或者,第一基体层111、第二基体层112可为复合薄膜,如在PET上镀覆氧化铝、二氧化硅、氧化锌或聚酰亚胺等。 Alternatively, the first base layer 111, second substrate layer 112 may be a composite film, such as aluminum oxide coated on PET, silica, zinc oxide, or polyimide. 该第一、第二基体层111、112的厚度范围为大于Ocm且小于等于5cm。 The thickness of the first range of the second base layer is more than 111 and less than or equal to Ocm 5cm. 该第一、第二基体层111、112上可镀设或贴设有增透膜(如抗反射膜AR或抗眩光膜AG),也可设有微球状颗粒薄膜,还可掺杂金属粒子或其他粒子来增加强度或透光性。 The first set may be plated with anti-reflection coating or overlay (e.g., anti-glare or anti-reflective film AR film AG), microspheroidal particles may also be provided on the second base film layer 111, 112, may be doped with metal particles or other particles to increase the strength or translucent. 另外,若第一基体层111、第二基体层112为玻璃制成,其还可以进行雾化处理。 Further, when the first base layer 111, second substrate layer 112 is made of glass, which can be atomized treatment.

[0035] 第一导电电极层114、第二导电电极层115是透明的,其材料可为IT0(氧化铟锡),也可为由碳纳米管掺杂的聚合物分子材料等具备透明导电性能的有机材料、无机材料或复合材料制成,或者在上述两种材料中的任一种的基础上添加含铜、银、金、碳等金属或非金属中的任一种或任几种构成的导电材料制成。 [0035] The first conductive electrode layer 114, a second conductive layer 115 is a transparent electrode, which material may be IT0 (indium tin oxide), doped carbon nanotubes may also be a polymer molecule comprising a transparent conductive material or the like properties organic material, or a composite material made of an inorganic material, or add any of copper, silver, gold, and other metals or non-carbon or any of several forms the basis of any one of the above two materials on made of electrically conductive material. 第一导电电极层114、第二导电电极层115的电极形状可任意,各个电极的形状可相同或不同。 A first conductive electrode layer 114, an electrode shape of the second conductive electrode layer 115 may be any shape of each electrode may be the same or different. 在实际应用中,一般地,第一导电电极层114由M个平行排列的条状行电极1141组成,第二导电电极层115由N个平行排列的条状列电极1151组成,该M个行电极1141与N个列电极1151相正交,以形成一个MXN的像素点阵列。 In practice, generally, the first conductive electrode layer 114 is composed of M stripe electrodes 1141 arranged in parallel rows consisting of the second conductive electrode layer 115 of N strip electrodes arranged in parallel columns composed 1151, the M row N column electrodes 1141 and 1151 are orthogonal electrodes to form an array of pixels of a MXN.

[0036] 对于混合层113而言,该混合层113的厚度为微米级,其可有两种组分组成形式。 [0036] For the mixed layer 113, the thickness of the hybrid layer 113 micron, which may have the form of two components.

[0037] 第一种组分组成形式是混合层113由近晶相液晶、导电物、隔离物混合而成。 [0037] The first component is a composition in the form of mixed layer 113 of smectic liquid crystal mixture, a conductive material, formed by spacers. 近晶相液晶为A类近晶相液晶,例如,带硅基的化合物、四氰基四辛基联苯或四乙酸癸酯四氰基联苯中的任一种或任几种的混合。 A smectic liquid crystal is a smectic liquid crystal type, e.g., four cyanobiphenyl compounds with silicon-based, tetracyanoquinodimethane tetraoctylammonium biphenyl acid decyl ester, or any one or any of several mixing. 导电物为带导电特性的无机纳米粒子、碳纳米管、石墨烯、碳酸钠、十六烷基三乙基溴化铵乙基三苯基碘化膦、(二茂铁基甲基)三甲基碘化铵、1,2-二甲基-3-丁基咪唑六氟磷酸盐、四乙基胺对甲苯磺酸酯、苯基三乙基碘化铵、I-辛基-3-甲基咪唑六氟磷酸盐、双(四正丁基胺)双(I,3-二噻环戊二烯-2-硫酮-4,5-二硫醇)钯(II)、四正丁基合双(I,3-二噻环戊二烯-2-硫酮-4,5-二硫醇)镍(III)、双(四正丁基铵)合双(1,3_ 二硫杂环戊烯-2-硫酮-4,5-二硫醇)锌、双(四正丁基铵)合四氰基二苯酚醌二甲烷、四丁基溴化铵、十六烷基高氯酸铵、十六烷基溴化四铵、I-丁基-3-甲基咪唑四氯高铁酸盐、甲基三苯基碘化鱗或四苯基碘化膦中的任一种或任几种的混合。 Inorganic conductive material with conductive properties of nanoparticles, carbon nanotubes, graphene, sodium carbonate, cetyl triethyl ammonium bromide, ethyl iodide, triphenyl phosphine, (ferrocenyl methyl) trimethyl ammonium iodide, 1,2-dimethyl-3-butylimidazolium hexafluorophosphate, tetraethylammonium p-toluenesulfonate, phenyl triethyl ammonium iodide, I- octyl-3-carboxylic imidazolium hexafluorophosphate, bis (tetra-n-butylamine) bis (I, 3- thiazol two cyclopentadienyl-4,5-dithiol-2-thione) palladium (II), tetra-n-butyl co bis (I, 3- thiazol two cyclopentadienyl-2-thione-4,5-dithiol) nickel (III), bis (tetrabutylammonium) co bis (1,3_ dithiole penten-2-thione-4,5-dithiol) zinc, bis (tetrabutylammonium) tetracyclic dicyano phenol quinodimethane, tetrabutylammonium bromide, cetyl perchlorate ammonium, cetyl ammonium bromide, I- butyl-3-methylimidazolium tetrachloro either ferrate, methyltriphenylphosphonium iodide, tetraphenylphosphonium iodide or scales or any one of several species mixed. 隔离物为聚酯类材料或聚苯乙烯类高分子材料或玻璃材质制成的透明的隔离球或隔离棒。 Spacer is a polyester or a polystyrene-based transparent material of the spacers or spacer bars made of a polymer material or glass.

[0038] 第一种组分组成形式的混合层113的组成为:近晶相液晶占混合总重量的0. 0002% -99. 99%,导电物占混合总重量的0. 0001 % -10%,隔离物占混合总重量的0. 0001% -90%。 Composition [0038] in the form of a mixed layer consisting of a first component 113 is: smectic liquid crystal accounts for 0.0002% -9999% of the total weight of the mixture, a conductive material representing 0.0001% of the total weight of the mixed -10 %, accounting spacer 0.0001% -90% of the total weight of the mixture. 例如,该近晶相液晶可占混合总重量的99. 99%,该导电物占混合总重量的0. 0001 %,隔尚物占混合总重量的0. 0099 %。 For example, the smectic liquid crystal may constitute 99.99% of the total weight of the mixture, and the conductive material accounted 0.0001% of the total weight of the mixture, was still accounted spacer 0.0099% of the total weight of the mixture. 又例如,该近晶相液晶可占混合总重量的0. 0002%,该导电物占混合总重量的9. 9998%,隔离物占混合总重量的90%。 As another example, the smectic liquid crystal may comprise 0.0002% of the total weight of the mixture, and the conductive material accounted 9.9998% of the total weight of the mixture, the spacer 90% of the total weight of the mixture. 再例如,该近晶相液晶可占混合总重量的89. 9999 %,该导电物占混合总重量的10 ,隔尚物占混合总重量的0. 0001%。 As another example, the smectic liquid crystal may comprise 89.9999% of the total weight of the mixture, which accounted for 10 of the total weight of the electrically conductive material is mixed, still spacer was accounted 0.0001% of the total weight of the mixture. 再例如,该近晶相液晶可占混合总重量的15%,该导电物占混合总重量的7%,隔离物占混合总重量的78%。 As another example, the smectic liquid crystal may be 15% of the total weight of the mixture, and the conductive material 7% of the total weight of the mixture, spacers 78% of the total weight of the mixture. 再例如,较佳地,该近晶相液晶可占混合总重量的80 %,该导电物占混合总重量的7 %,隔离物占混合总重量的13 %。 As another example, Preferably, the smectic liquid crystal may be 80% of the total weight of the mixture, and the conductive material 7% of the total weight of the mixture, the separator was 13% of the total weight of the mixture.

[0039] 对于第一种组分组成形式的混合层而言:导电物主要是增加混合层113的导电性,在电压作用下导电物被驱动产生运动而改变近晶相液晶分子的排列形态,从而改变近晶相液晶的光电性能,所以导电物的用量应适量。 [0039] For the mixed layer composed of a first component of the form: the conductive material is mainly to increase the conductivity of the mixed layer 113, the conductive material under the action of the voltage is driven in motion and changing the arrangement of liquid crystal molecules form a smectic phase, thereby changing the optical properties of the smectic liquid crystal, the amount of the conductive material should be adequate. 若导电物占混合总重量的比例小于0. 0001%,则由于导电物太少,导电物中的离子根据行列电极间电势差变化产生的往复运动无法改变近晶相液晶分子的排列形态,即无法控制子像素点的颜色显示。 If the conductive material accounted for mixing the total weight of the proportion is less than 0.0001%, since the conductive material is too small, the conductive material of the ion can not change the array pattern of smectic liquid crystal molecules according to a reciprocating movement between row and column electrodes a potential difference change generated, i.e. not the control sub-pixel color display. 若该导电物占混合总重量的比例大于10%,则第一与第二导电电极层之间将有可能因为大量的导电物而短路、无法驱动,同时,大量的导电物会使混合层113的电阻率降低,影响了其使用寿命。 If the total weight of the conductive material mixed ratio account for greater than 10%, it will be possible between the first electrode and the second conductive layer and the conductive material because a large number of short-circuit, can not be driven at the same time, a large amount of the conductive material layer 113 will mixed the resistivity decreased, affecting its service life. 隔离物是起支撑作用的,用来控制混合层113的厚度。 Spacers play a supportive role is to control the thickness of the mixed layer 113. 在实际应用中,隔离物的用量少些为宜,只要能达到控制混合层113厚度的作用即可。 In practice, some with less appropriate spacer, as long as to control the thickness of the mixed layer 113 can effect. 隔离物的直径即是混合层的厚度,隔离物的数量应根据预达到的混合层厚度和采用球或棒的选择而适当确定。 I.e., the diameter of the spacer is the thickness of the mixed layer, the number of the spacers should be determined appropriately in accordance with the pre-mixed to achieve layer thicknesses and the selection of ball or rod. 当近晶相液晶分子规则排列时,由于隔离物的光折射系数与近晶相液晶分子的光折射系数非常相近,所以隔离物不会影响光线的透射性,近晶相液晶分子的光学属性不会受到影响,而且隔离物也不会影响静态图像显示模块100的散光性和“多稳态”特性。 When a smectic liquid crystal are regularly arranged molecules, since the coefficient of the optical refractive index of light refraction of the spacer and smectic liquid crystal molecules are very similar, so that the spacer does not affect the light transmittance, smectic liquid crystal molecules in the optical properties is not It will be affected, but the spacers do not affect astigmatism and "multi-stable" feature still image display module 100. 而近晶相液晶是起到调光、图像显示作用的,因此,在实际应用中,近晶相液晶的用量较多为宜。 And a smectic liquid crystal light control functions, image display effect, and therefore, in practical applications, smectic liquid crystal used in an amount more appropriate.

[0040] 第二种组分组成形式是混合层113包括封装在聚合物结构中由近晶相液晶、导电物和隔离物组成的混合物。 [0040] The second component is a composition in the form of a mixed layer comprising a mixture of 113 encapsulated in the polymer structure of smectic liquid crystal, a conductive material and a spacer thereof. 近晶相液晶为A类近晶相液晶,例如,带硅基的化合物、四氰基四辛基联苯或四乙酸癸酯四氰基联苯中的任一种或任几种的混合。 A smectic liquid crystal is a smectic liquid crystal type, e.g., four cyanobiphenyl compounds with silicon-based, tetracyanoquinodimethane tetraoctylammonium biphenyl acid decyl ester, or any one or any of several mixing. 导电物为带导电特性的无机纳米粒子、碳纳米管、石墨稀、碳酸纳、十TK烧基二乙基漠化按乙基二苯基鹏化勝、(_■茂铁基甲基)三甲基碘化铵、1,2_ 二甲基-3-丁基咪唑六氟磷酸盐、四乙基胺对甲苯磺酸酯、苯基三乙基碘化铵、I-辛基-3-甲基咪唑六氟磷酸盐、双(四正丁基胺)双(1,3-二噻环戊二烯-2-硫酮-4,5-二硫醇)钯(II)、四正丁基合双(I,3-二噻环戊二烯-2-硫酮-4,5- 二硫醇)镍(III)、双(四正丁基铵)合双(1,3- 二硫杂环戊烯-2-硫酮-4,5- 二硫醇)锌、双(四正丁基铵)合四氰基二苯酚醌二甲烷、四丁基溴化铵、十六烷基高氯酸铵、十六烷基溴化四铵、I-丁基-3-甲基咪唑四氯高铁酸盐、甲基三苯基碘化鱗或四苯基碘化膦中的任一种或任几种的混合。 Inorganic conductive material with conductive properties of nanoparticles, carbon nanotubes, graphene, sodium carbonate, ten TK burn-yl diethyl ethyl diphenyl desertification by Peng of wins, (_ ■ ferrocenyl methyl) tris methyl ammonium iodide, 1,2_-dimethyl-3-butylimidazolium hexafluorophosphate, tetraethylammonium p-toluenesulfonate, phenyl triethyl ammonium iodide, I- octyl-3-carboxylic imidazolium hexafluorophosphate, bis (tetra-n-butylamine) bis (1,3-thiazol-cyclopenta-4,5-dithiol-2-thione) palladium (II), tetra-n-butyl co bis (I, 3- thiazol two cyclopentadienyl-2-thione-4,5-dithiol) nickel (III), bis (tetrabutylammonium) co bis (1,3-dithia cyclopenten-2-thione-4,5-dithiol) zinc, bis (tetrabutylammonium) tetracyclic dicyano phenol quinodimethane, tetrabutylammonium bromide, cetyl perchlorate ammonium, cetyl ammonium bromide, I- butyl-3-methylimidazole according to any one or any of tetrachloro ferrate, methyltriphenylphosphonium iodide, tetraphenylphosphonium iodide or scales of several mixed. 隔离物为聚酯类材料或聚苯乙烯类高分子材料或玻璃材质制成的透明的隔离球或隔离棒。 Spacer is a polyester or a polystyrene-based transparent material of the spacers or spacer bars made of a polymer material or glass. 聚合物结构是透明的,其由单分子体材料或(热塑性)聚合分子材料通过直接印刷或刻蚀或纳米压印或喷撒打点在相应层(例如,第一和/或第二导电电极层、彩色像素层)的内侧面上,热固化或紫外固化为具有设定结构的聚合分子材料而形成,该单分子体材料为环氧树脂、聚丙烯酸酯或聚甲基丙烯酸酯类单体中的任一种。 Polymer structure is transparent and single molecule or material (thermoplastic) polymeric molecules material by direct printing or etching or nano-imprint or sprayed in the respective dot layer (e.g., the first and / or second conductive electrode layer , the inner surface of the color pixel layer), thermal curing or UV curing a polymeric material having a molecular structure of the set is formed, the monomolecular material is an epoxy resin, polyacrylates or polymethacrylates monomers any one. 该聚合物结构形成有容纳近晶相液晶、导电物和隔离物组成的混合物的容纳腔室,聚合物结构可以是规则的球状、微圆柱状、丝状、半球状、平行条状、立方体、长方体、交叉线装、网络结构(如六角蜂窝墙结构)、方形格子结构、不规则多边形结构或上述多种结构的混合结构中的任一种,该聚合物结构可以是均匀的,也可是不均匀的。 Receiving chamber of the receiving polymer structure is formed with a mixture of smectic liquid crystal, a conductive material and a spacer composed of the polymer structure may be spherical regular, slightly cylindrical, filament, hemispherical, parallel strips, cubes, rectangular, cross wire-bound network structure (such as hexagonal honeycomb wall structure), any of a hybrid structure square lattice structure, or an irregular polygonal configuration of the above-described various structures, the polymer structure may be uniform, but also non-uniform of. 该聚合物结构与近晶相液晶、导电物和隔离物之间可以是相互混溶、分散、相互接触或间隔等。 Between the polymer structure and smectic liquid crystal, a conductive material, and spacers may be mutually miscible, dispersion, contact with each other, or spaced the like.

[0041] 第二种组分组成形式的混合层的组成为:近晶相液晶占混合总重量的0. 0002% -99. 99%,聚合分子材料占混合总重量的0. 0001% -80 %,导电物占混合总重量的0. 0001% -10%,隔离物占混合总重量的0. 0001% -80%。 Composition [0041] The composition of the mixed layer to form a second component: smectic liquid crystal accounts for 0.0002% -9999% of the total weight of the mixture, the polymeric material comprises molecules -80 0.0001% of the total weight of the mixed %, a conductive material representing 0.0001% -10% of the total weight of the mixture, the spacer representing 0.0001% -80% of the total weight of the mixture. 例如,近晶相液晶占混合总重量的99. 99%,聚合分子材料占混合总重量的0. 0098%,导电物占混合总重量的0. 0001%,隔离物占混合总重量的0. 0001%。 E.g., near 0 Total weight of the mixed liquid crystal phase accounts for 99.99% of the total weight of the mixture, the polymeric material comprises molecules of 0.0098% of the total weight of the mixture, a conductive material representing 0.0001% of the total weight of the mixture, the spacer accounting. 0001%. 又例如,近晶相液晶占混合总重量的0. 0002%,聚合分子材料占混合总重量的45%,导电物占混合总重量的9. 9998%,隔离物占混合总重量的45%。 Also for example, smectic liquid crystal accounts for 0.0002% of the total weight of the mixture, the polymeric material is 45% of the total molecular weight of the mixture, a conductive material representing 9.9998% of the total weight of the mixture, spacers 45% of the total weight of the mixture. 又例如,近晶相液晶占混合总重量的15%,聚合分子材料占混合总重量的80%,导电物占混合总重量的3%,隔离物占混合总重量的2%。 Also for example, smectic liquid crystal 15% of the total weight of the mixture, the polymeric material accounted for 80% of the total molecular weight of the mixture, the electrically conductive material 3% of the total weight of the mixture, the spacer 2% of the total weight of the mixture. 又例如,近晶相液晶占混合总重量的85 %,聚合分子材料占混合总重量的0. 0001 %,导电物占混合总重量的10 %,隔离物占混合总重量的4. 9999%。 Also for example, smectic liquid crystal accounts for 85% of the total weight of the mixture, the polymeric material comprises molecules of 0.0001% of the total weight of the mixture, the conductive composition 10% of the total weight of the mixture, the spacer representing 4.9999% of the total weight of the mixture. 又例如,近晶相液晶占混合总重量的15%,聚合分子材料占混合总重量的3 %,导电物占混合总重量的2 %,隔离物占混合总重量的80 %。 Also for example, smectic liquid crystal 15% of the total weight of the mixture, the polymeric material accounted for 3% of the total molecular weight of the mixture, 2% conductive material by weight of the total mixture, the separator was 80% of the total weight of the mixture. 又例如,近晶相液晶占混合总重量的55%,聚合分子材料占混合总重量的30%,导电物占混合总重量的5%,隔离物占混合总重量的10 %。 Also for example, smectic liquid crystal, 55% of the total weight of the mixture, the polymeric material accounted for 30% of the total molecular weight of the mixture, the electrically conductive composition of 5% of the total weight of the mixture, spacers 10% of the total weight of the mixture.

[0042] 对于第二种组分组成形式的混合层而言:导电物主要是增加混合层113的导电性,在电压作用下导电物被驱动产生运动而改变近晶相液晶分子的排列形态,从而改变近晶相液晶的光电性能,所以导电物的用量应适量。 [0042] For the mixed second component in the form of layers: a conductive substance mainly to increase the conductivity of the mixed layer 113, the conductive material under the action of the voltage is driven in motion and changing the arrangement of liquid crystal molecules form a smectic phase, thereby changing the optical properties of the smectic liquid crystal, the amount of the conductive material should be adequate. 若导电物占混合总重量的比例小于0. 0001%,则由于导电物太少,导电物中的离子根据行列电极间电势差变化产生的往复运动无法改变近晶相液晶分子的排列形态,即无法控制子像素点的颜色显示。 If the conductive material accounted for mixing the total weight of the proportion is less than 0.0001%, since the conductive material is too small, the conductive material of the ion can not change the array pattern of smectic liquid crystal molecules according to a reciprocating movement between row and column electrodes a potential difference change generated, i.e. not the control sub-pixel color display. 若该导电物占混合总重量的比例大于10%,则第一与第二导电电极层之间将有可能因为大量的导电物而短路、无法驱动,同时,大量的导电物会使混合层113的电阻率降低,影响了其使用寿命。 If the total weight of the conductive material mixed ratio account for greater than 10%, it will be possible between the first electrode and the second conductive layer and the conductive material because a large number of short-circuit, can not be driven at the same time, a large amount of the conductive material layer 113 will mixed the resistivity decreased, affecting its service life. 隔离物是起支撑作用的,用来控制混合层113的厚度。 Spacers play a supportive role is to control the thickness of the mixed layer 113. 在实际应用中,隔离物的用量少些为宜,只要能达到控制混合层113厚度的作用即可。 In practice, some with less appropriate spacer, as long as to control the thickness of the mixed layer 113 can effect. 隔离物的直径即是混合层的厚度,隔离物的数量应根据预达到的混合层厚度和采用球或棒的选择而适当确定。 I.e., the diameter of the spacer is the thickness of the mixed layer, the number of the spacers should be determined appropriately in accordance with the pre-mixed to achieve layer thicknesses and the selection of ball or rod. 当近晶相液晶分子规则排列时,由于隔离物的光折射系数与近晶相液晶分子的光折射系数非常相近,所以隔离物不会影响光线的透射性,近晶相液晶分子的光学属性不会受到影响,而且隔离物也不会影响静态图像显示模块100的散光性和“多稳态”特性。 When a smectic liquid crystal are regularly arranged molecules, since the coefficient of the optical refractive index of light refraction of the spacer and smectic liquid crystal molecules are very similar, so that the spacer does not affect the light transmittance, smectic liquid crystal molecules in the optical properties is not It will be affected, but the spacers do not affect astigmatism and "multi-stable" feature still image display module 100. 聚合物结构是起粘合并支撑两个基体层作用的。 Polymer binder and the support structure from two layers of matrix effect. 在混合层113中,当近晶相液晶分子规则排列时,由于聚合分子的光折射系数与近晶相液晶分子的光折射系数非常相近,所以聚合分子不会影响光线的透射性,近晶相液晶分子的光学属性不会受到影响,即不会影响调光能力(指透光能力和散光能力),当近晶相液晶分子不规则排列时,光线不会透射过混合层113是因为近晶相液晶分子本身的分子轴两个方向上的光折射系数不同而形成的,与聚合分子无关。 In the mixed layer 113, when the smectic liquid crystal molecules are regularly arranged, since the refractive index of the optical refractive index of light polymeric molecules to the smectic liquid crystal molecules are very similar, so the polymeric molecules will not affect the light transmittance, a smectic phase the optical properties of the liquid crystal molecules is not affected, i.e., does not affect the dimming capability (capability means the ability to transmit light and astigmatism), when the smectic liquid crystal molecules are arranged irregularly, the light does not transmit through the mixed layer 113 because smectic liquid crystal molecules form a different light refractive index of the molecules in the two directions of the shaft itself, irrespective of the polymeric molecules. 而静态图像显示模块100的“多稳态”特性是近晶相液晶分子的属性,与聚合分子无关。 And still image display module 100 "multistable" attribute is a characteristic smectic liquid crystal molecules, regardless of the polymeric molecules. 但是,聚合分子材料越多,用于图像显示的面积所占整体比例就越小,显示效果自然就会变差。 However, the more molecules polymeric materials, for image display area occupied by the smaller overall ratio, display will naturally deteriorate. 因此,在实际应用中,聚合分子材料的用量适量为宜,不能太多。 Thus, in practical applications, the polymeric material is preferably used in an amount suitable amount molecule, not too much. 而近晶相液晶是起到调光、图像显示作用的,因此,在实际应用中,近晶相液晶的用量较多为宜。 And a smectic liquid crystal light control functions, image display effect, and therefore, in practical applications, smectic liquid crystal used in an amount more appropriate.

[0043] 在实际实施中,在第一导电电极层114的其中一侧或第二导电电极层115的其中一侧可设有使静态图像显示模块100显示彩色静态图像的彩色像素层116,该彩色像素层116可为RGBW型彩色像素层或RGB型彩色像素层或RGBY型彩色像素层或CMYK型彩色像素层。 [0043] In actual practice, in which a side of the second conductive electrode layer 115 or the first conductive electrode layer 114 may be provided so that one side of the still image display module 100 displaying a color pixel layer of the color still image 116, the a color pixel layer 116 may be a layer RGBW type color pixel or RGB type color pixel layer type or RGBY color pixel layer type or CMYK color pixel layer. 当然,彩色像素层116也可为由任意几种颜色构成的某种类型的彩色像素层,颜色组成形式可按实际需要设定。 Of course, the color pixel layer 116 may also be a certain type of color pixel layer formed of any of several colors, colors of the form set according to actual needs.

[0044] 图2不出的是彩色像素层116设置在第一导电电极层114朝向第一基体层111 一侧的表面上的情形。 [0044] FIG. 2 is a case where no color pixel layer 116 is disposed on a surface of the first conductive electrode layer 114 toward the substrate 111 side of the first layer. 彩色像素层116设置在第一导电电极层114朝向混合层113的一侧以及第二导电电极层115的其中一侧的情形未给出图示,请参考图2所示情形理解,不在这里赘述。 Case of the color pixel layer 116 is disposed on a side on which the first electrode layer 114 toward the mixing conductive layer 113 and the second conductive electrode layer 115 is not shown shown, refer to the situation shown in FIG. 2 understood not repeated here . 无论彩色像素层116设置在第一导电电极层114的其中一侧,还是设置在第二导电电极层115的其中一侧,它们均可以实现彩色静态图像显示的有益效果。 Whether the color pixel layer 116 is disposed on one side of one side of the first conductive electrode layer, 114 is disposed in the second conductive electrode layer 115, which may be implemented beneficial effect of a color still image display. [0045] 若彩色像素层116为RGBW型彩色像素层,如图4所示,则:RGBW型彩色像素层由MXN个显色单元1161(图4中的圆圈示出了一个显色单元1161,显色单元以MXN矩阵结构排列)组成,每个该显色单元1161由排列成2X2矩阵结构的R(红色)色块、G(绿色)色块、B (蓝色)色块、W色块四个色块组成。 [0045] When the color pixel layer 116 to RGBW type color pixel layer, shown in Figure 4, then: RGBW type color pixel layer is composed of a color developing units 1161 MXN (circled in FIG. 4 shows a color developing unit 1161, MXN color units arranged in a matrix configuration), each of the color developing unit 1161 arranged in a 2X2 matrix structure R (red) color, G (green) color, B (blue) color, W color four color blocks. 若彩色像素层116采用RGBW型彩色像素层,则第一导电电极层114、第二导电电极层115需要进行如下设置:第一导电电极层114由2M个平行排列的条状行电极1141组成(相邻行电极间具有一定间距),第二导电电极层115由2N个平行排列的条状列电极1151组成(相邻列电极间具有一定间距),第一导电电极层114的2M个条状行电极1141与第二导电电极层115的2N个条状列电极1151相正交,以使第一导电电极层114与第二导电电极层115形成一个2MX2N的子像素点阵列。 If the color pixel layer 116 using the RGBW color pixel layer, the first conductive electrode layer 114, the second conductive electrode layer 115 needs to be set as follows: a first conductive electrode layer 114 made of 2M strip electrodes 1141 arranged in parallel rows consisting of ( adjacent rows having a spacing between the electrodes), the second conductive electrode layer 115 is composed of the 2N 1151 strip electrodes arranged in parallel composition (between adjacent column electrodes having a certain pitch) column, a first conductive electrode strip layer 114 of 2M 2N th row electrode 1141 and the second conductive strip layer 115 of the electrode column electrodes 1151 are orthogonal to the first conductive electrode layer 114 and the second conductive electrode layer 115 is formed a sub-pixel array of 2MX2N. 如图3,图中示意性地示出了行列电极所形成的子像素点阵列,图中标号120所指部分即为一个子像素点。 3, which schematically illustrates an array of sub-pixels of row and column electrodes are formed, reference numeral 120 is the portion in the figure indicated a subpixel site. 第一导电电极层114与第二导电电极层115所构成的2MX2N个子像素点120与RGBff型彩色像素层116的2MX 2N个色块——对应,也就是RGBW型彩色像素层的一个色块与相对应的一个子像素点120对应,而一个该显色单元1161中的四个色块所对应的四个子像素点120构成一个像素点。 2MX2N sub-pixel electrode of the first conductive layer 114 and the second conductive layer 115 constituting the electrode 120 and the color pieces 2MX 2N RGBff type color pixel layer 116 - corresponds, i.e. a color RGBW type color pixel layer and corresponding to the point 120 corresponds to a sub-pixel, and a color developing unit 1161 of the four color sub-pixels corresponding to the four points constituting a pixel 120. 对于采用RGBW型彩色像素层116的静态图像显示模块100而言,像素点为显示静态图像的基本单位,所显示的静态图像由若干个像素点组成的,而一个像素点是由与其相应的四个色块分别对应的四个子像素点共同构造的。 For using the RGBW color pixel layer 116 of the still image display module 100, the display pixel is the basic unit of a still image, the still image displayed by a plurality of pixel dots, and a pixel by its corresponding four a color corresponding to each of four sub-pixels of a common structure. 该第一、第二导电电极层114、115与中间的混合层113间形成了一个面积很大的电容结构,而每个像素点中的四个子像素点位置处又形成了四个单独的面积很小的电容结构。 The first, between the second conductive electrode 114, 115 and the intermediate layer 113 is formed of a mixed layer of a large area of ​​the capacitor structure, and at the positions of the four sub-pixels in each pixel and the formation of four separate area small capacitor structure.

[0046] 彩色像素层116也可为RGB型彩色像素层。 [0046] The color pixel layer 116 may be an RGB type color pixel layer. 如图5所示,RGB型彩色像素层116由MXN个显色单元1162(图5中的圆圈示出了一个显色单元1162,显色单元以MXN矩阵结构排列)组成,每个该显色单元1162由排列成1X3矩阵结构的R色块、G色块、B色块三个色块组成。 5, the RGB type color pixel layer 116 of a color developing unit 1162 MXN (circled in FIG. 5 shows a color developing unit 1162, a color unit arranged in a configuration to MXN matrix), each of the color 1162 color units arranged in a 1X3 matrix structure R, G and color, B color three color components. 若彩色像素层采用RGB型彩色像素层,则第一导电电极层114、第二导电电极层115需要进行如下设置:第一导电电极层114由M个平行排列的条状行电极1141组成(相邻行电极间具有一定间距),第二导电电极层115由3N个平行排列的条状列电极1151组成(相邻列电极间具有一定间距),第一导电电极层114的M个条状行电极1141与第二导电电极层115的3N个条状列电极1151相正交,以使第一导电电极层114与第二导电电极层115形成一个MX3N的子像素点阵列。 When a color pixel layer of the RGB type color pixel layer, the first conductive electrode layer 114, the second conductive electrode layer 115 needs to be set as follows: a first conductive electrode layer 114 is composed of M stripe electrodes 1141 arranged in parallel rows composition (phase interproximal row electrodes with a certain pitch), the second conductive electrode layer 115 is composed of 3N arranged in parallel strip electrodes 1151 composition (between adjacent column electrodes having a certain pitch) column, a first conductive strip line electrode layer 114 of the M a second conductive electrode 1141 and the electrode layer 115 of 3N strip column electrodes 1151 are orthogonal to the first conductive electrode layer 114 is formed a sub-pixel array MX3N the second conductive electrode layer 115. 如图3,图中示意性地示出了行列电极所形成的子像素点阵列,图中标号120所指部分即为一个子像素点。 3, which schematically illustrates an array of sub-pixels of row and column electrodes are formed, reference numeral 120 is the portion in the figure indicated a subpixel site. 第一导电电极层114与第二导电电极层115所构成的MX 3N个子像素点120与RGB型彩色像素层的MX 3N个色块——对应,也就是RGB型彩色像素层的一个色块与相对应的一个子像素点120对应,而一个该显色单元1162中的三个色块所对应的三个子像素点120构成一个像素点。 The MX 3N sub-pixel electrode of the first conductive layer 114 and the second conductive layer 115 constituting the electrode 120 and the MX type RGB color pixel layer, a color 3N - correspond, i.e. a color-type RGB color pixel layer and corresponding to the point 120 corresponds to a sub-pixel, and a color developing unit 1162 which of the three color sub-pixels corresponding to the three point 120 constituting a pixel. 对于采用RGB型彩色像素层的静态图像显示模块100而言,像素点为显示静态图像的基本单位,所显示的静态图像由若干个像素点组成的,而一个像素点是由与其相应的三个色块分别对应的三个子像素点共同构造的。 For the RGB type color pixel layer still image display module 100, the display pixel is the basic unit of a still image, the still image displayed by a plurality of pixel dots, and a pixel is composed of three corresponding thereto corresponding to each of three color sub-pixels of a common structure. 该第一、第二导电电极层114、115与中间的混合层113间形成了一个面积很大的电容结构,而每个像素点中的三个子像素点位置处又形成了三个单独的面积很小的电容结构。 The first, between the second conductive electrode 114, 115 and the intermediate layer 113 is formed of a mixed layer of a large area of ​​the capacitor structure, and the positions of the three sub-pixels at each pixel and is formed in three separate areas small capacitor structure.

[0047] 若彩色像素层116为RGBY型彩色像素层,如图6所示,则:RGBY型彩色像素层由MXN个显色单元1163(图6中的圆圈示出了一个显色单元1163,显色单元以MXN矩阵结构排列)组成,每个该显色单元1163由排列成2X2矩阵结构的R(红色)色块、G(绿色) 色块、B (蓝色)色块、Y(黄色)色块四个色块组成。 [0047] When the color pixel layer 116 is a RGBY color pixel layer type, as shown in FIG. 6, the: type RGBY color pixel shown by a circle in layer 1163 (FIG. 6 Bank of Mexico MXN a color developing units out of a color unit 1163, MXN color units arranged in a matrix configuration), each of the color developing unit 1163 arranged in a 2X2 matrix structure R (red) color, G (green) color, B (blue) color, Y (yellow ) color four color blocks. 若彩色像素层116采用RGBY型彩色像素层,则第一导电电极层114、第二导电电极层115需要进行如下设置:第一导电电极层114由2M个平行排列的条状行电极1141组成(相邻行电极间具有一定间距),第二导电电极层115由2N个平行排列的条状列电极1151组成(相邻列电极间具有一定间距),第一导电电极层114的2M个条状行电极1141与第二导电电极层115的2N个条状列电极1151相正交,以使第一导电电极层114与第二导电电极层115形成一个2MX2N的子像素点阵列。 If the color pixel layer 116 using type RGBY color pixel layer, the first conductive electrode layer 114, the second conductive electrode layer 115 needs to be set as follows: a first conductive electrode layer 114 made of 2M strip electrodes 1141 arranged in parallel rows consisting of ( adjacent rows having a spacing between the electrodes), the second conductive electrode layer 115 is composed of the 2N 1151 strip electrodes arranged in parallel composition (between adjacent column electrodes having a certain pitch) column, a first conductive electrode strip layer 114 of 2M 2N th row electrode 1141 and the second conductive strip layer 115 of the electrode column electrodes 1151 are orthogonal to the first conductive electrode layer 114 and the second conductive electrode layer 115 is formed a sub-pixel array of 2MX2N. 如图3,图中示意性地示出了行列电极所形成的子像素点阵列,图中标号120所指部分即为一个子像素点。 3, which schematically illustrates an array of sub-pixels of row and column electrodes are formed, reference numeral 120 is the portion in the figure indicated a subpixel site. 第一导电电极层114与第二导电电极层115所构成的2MX2N个子像素点120与RGBY型彩色像素层116的2MX 2N个色块——对应,也就是RGBY型彩色像素层的一个色块与相对应的一个子像素点120对应,而一个该显色单元1163中的四个色块所对应的四个子像素点120构成一个像素点。 2MX2N sub-pixel electrode of the first conductive layer 114 and the second conductive layer 115 constituting the electrode 120 and the type RGBY color pixel layer 116 of the color pieces 2MX 2N - corresponds, i.e. a RGBY color type and color pixel layer corresponding to the point 120 corresponds to a sub-pixel, and a color developing unit 1163 of the four color sub-pixels corresponding to the four points constituting a pixel 120. 对于采用RGBY型彩色像素层116的静态图像显示模块100而言,像素点为显示静态图像的基本单位,所显示的静态图像由若干个像素点组成的,而一个像素点是由与其相应的四个色块分别对应的四个子像素点共同构造的。 For type using RGBY color pixel layer 116 of the still image display module 100, the display pixel is the basic unit of a still image, the still image displayed by a plurality of pixel dots, and a pixel by its corresponding four a color corresponding to each of four sub-pixels of a common structure. 该第一、第二导电电极层114、115与中间的混合层113间形成了一个面积很大的电容结构,而每个像素点中的四个子像素点位置处又形成了四个单独的面积很小的电容结构。 The first, between the second conductive electrode 114, 115 and the intermediate layer 113 is formed of a mixed layer of a large area of ​​the capacitor structure, and at the positions of the four sub-pixels in each pixel and the formation of four separate area small capacitor structure.

[0048] 若彩色像素层116为CMYK型彩色像素层,如图7所示,则:CMYK型彩色像素层由MXN个显色单元1164(图7中的圆圈示出了一个显色单元1164,显色单元以MXN矩阵结构排列)组成,每个该显色单元1164由排列成2X2矩阵结构的C(青色)色块、M(品红色)色块、Y(黄色)色块、K(黑色)色块四个色块组成。 [0048] When the color pixel layer 116 is a CMYK color pixel layer type shown in Figure 7, then: CMYK type color pixel shown by a circle in layer 1164 (FIG. 7 Bank of Mexico MXN a color out of a color developing unit cell 1164, MXN color units arranged in a matrix configuration), each of the color developing unit 1164 arranged by the C (cyan) color 2X2 matrix structure, M (magenta) color, Y (yellow) color, K (black ) color four color blocks. 若彩色像素层116采用CMYK型彩色像素层,则第一导电电极层114、第二导电电极层115需要进行如下设置:第一导电电极层114由2M个平行排列的条状行电极1141组成(相邻行电极间具有一定间距),第二导电电极层115由2N个平行排列的条状列电极1151组成(相邻列电极间具有一定间距),第一导电电极层114的2M个条状行电极1141与第二导电电极层115的2N个条状列电极1151相正交,以使第一导电电极层114与第二导电电极层115形成一个2MX2N的子像素点阵列。 If the color pixel layer 116 using the CMYK color pixel layer type, the first conductive electrode layer 114, the second conductive electrode layer 115 needs to be set as follows: a first conductive electrode layer 114 made of 2M strip electrodes 1141 arranged in parallel rows consisting of ( adjacent rows having a spacing between the electrodes), the second conductive electrode layer 115 is composed of the 2N 1151 strip electrodes arranged in parallel composition (between adjacent column electrodes having a certain pitch) column, a first conductive electrode strip layer 114 of 2M 2N th row electrode 1141 and the second conductive strip layer 115 of the electrode column electrodes 1151 are orthogonal to the first conductive electrode layer 114 and the second conductive electrode layer 115 is formed a sub-pixel array of 2MX2N. 如图3,图中示意性地示出了行列电极所形成的子像素点阵列,图中标号120所指部分即为一个子像素点。 3, which schematically illustrates an array of sub-pixels of row and column electrodes are formed, reference numeral 120 is the portion in the figure indicated a subpixel site. 第一导电电极层114与第二导电电极层115所构成的2MX2N个子像素点120与CMYK型彩色像素层116的2MX 2N个色块——对应,也就是CMYK型彩色像素层的一个色块与相对应的一个子像素点120对应,而一个该显色单元1164中的四个色块所对应的四个子像素点120构成一个像素点。 2MX2N sub-pixel electrode of the first conductive layer 114 and the second conductive layer 115 constituting the electrode 120 with a 2MX 2N CMYK color type color pixel layer 116 - corresponds, i.e. a CMYK color type and color pixel layer corresponding to the point 120 corresponds to a sub-pixel, and a color developing unit 1164 of the four color sub-pixels corresponding to the four points constituting a pixel 120. 对于采用CMYK型彩色像素层116的静态图像显示模块100而言,像素点为显示静态图像的基本单位,所显示的静态图像由若干个像素点组成的,而一个像素点是由与其相应的四个色块分别对应的四个子像素点共同构造的。 For type using CMYK color pixel layer 116 of the still image display module 100, the display pixel is the basic unit of a still image, the still image displayed by a plurality of pixel dots, and a pixel by its corresponding four a color corresponding to each of four sub-pixels of a common structure. 该第一、第二导电电极层114、115与中间的混合层113间形成了一个面积很大的电容结构,而每个像素点中的四个子像素点位置处又形成了四个单独的面积很小的电容结构。 The first, between the second conductive electrode 114, 115 and the intermediate layer 113 is formed of a mixed layer of a large area of ​​the capacitor structure, and at the positions of the four sub-pixels in each pixel and the formation of four separate area small capacitor structure.

[0049] 在实际实施时,上述色块可为滤光片制成。 [0049] In the practical embodiment, it can be made to the above-described color filter. 在本发明中,除了对彩色像素层进行的上述描述外,关于彩色像素层的其他方面均属于公知技术,不再详细描述。 In the present invention, in addition to the above description of the color pixel layer, the other aspects of the color pixel layer belong to a known technique, not described in detail.

[0050] 彩色像素层116可采用印刷或涂覆在导电电极层上的方式制作,第一、第二导电电极层114、115可采用溅镀在相应层表面上的方式制作,混合层113可采用灌制夹层的方式或涂覆的方式制作。 [0050] The color pixel layer 116 can be printed or coated on the production methods of the conductive electrode layer, first and second conductive electrode layers 114, 115 can be sputtered on the surface layer of the respective production manner, a mixed layer 113 may be irrigation system by way of or coated in a manner making a sandwich.

[0051] 在实际中,动态视频显示模块200与静态图像显示模块100可通过无缝粘合的透明粘合层(如图I和图2,图中的标号300为透明粘合层)连接。 [0051] In practice, dynamic video display module 200 and the still image display module 100 via a transparent adhesive layer may be a seamless bonding (FIG. I and 2, a reference numeral 300 is a transparent adhesive layer) are connected. 透明粘合层可采用透明性高的光学胶(0CA,与玻璃折射率相近,不影响整体显示效果)或水胶。 Transparent adhesive layer may be highly transparent optical adhesive (0CA, similar to the refractive index of glass, does not affect the overall display) or water gel. 或者,动态视频显示模块200与静态图像显示模块100可通过一个透明基板连接。 Alternatively, dynamic video display module 200 and the still image display module 100 may be connected through a transparent substrate. 或者,动态视频显示模块200的上基板(图中未示出)为静态图像显示模块100的第二基体层112,也就是动态视频显示模块200与静态图像显示模块100之间通过共用一个基板(透明的)的方式进行连接。 Alternatively, by sharing a dynamic video display module 100 on the substrate between the substrate (not shown) is still image display module 100 of the second base layer 112, i.e. dynamic video display module 200 and the still image display module 200 ( transparent) connected manner. 或者,动态视频显示模块200与静态图像显示模块100可通过固定装置(图中未示出)连接,该固定装置使得动态视频显示模块200与静态图像显示模块100间增加一层用于增强折射而提高显示效果的空气层。 Alternatively, dynamic video display module 200 module 100 may be connected by fixing means (not shown) and the still image display, the fixing means such that the video display module 200 and the dynamic still image display module 100 increases the refractive layer for enhancing the improving the display effect of the air layer.

[0052] 如图2所示,在动态视频显示模块200与静态图像显示模块100间还可增设用于增强显示效果的透明的光学镀膜层400。 [0052] As shown, the display module 200 and the two motion video still image display module 100 may also be used to enhance the display effect of the addition of transparent optical layer 400 coating. 该光学镀膜层400包括透明的基板,该基板的一侧或两侧上镀覆透明的增光镀膜。 The optical coating layer 400 includes a transparent substrate, a transparent brightness enhancement film plated on one or both sides of the substrate. 该基板为透明的高分子薄膜或玻璃。 The substrate is a transparent glass or polymer film. 高分子薄膜为聚对苯二甲酸乙二醇酯、聚碳酸酯、聚酰亚胺或聚甲基丙烯酸甲酯中的任一种。 The polymer film is a polyethylene terephthalate, polycarbonate, polyimide, or any of a polymethyl methacrylate. 该增光镀膜为镀覆的金属或金属氧化物。 The brightness enhancement film is plated metal or metal oxide. 金属为铝、金、银、锌或锡中的任一种或任几种的混合,金属氧化物为二氧化娃(SiliconDioxide)、二氧化钦(Titanium Dioxide)、氧化铟锡(Indium TinOxide, ITO)、氧化锋招(Aluminum Zinc Oxide, AZO)、惨氟二氧化锡(F-doped Tin Oxide,FT0)或多元透明导电氧化物(Transparent Conducting Oxide, TC0)中的任一种。 Metal is aluminum, gold, any one of silver, zinc, or tin, or any of several mixed metal oxide is silica Wa (SiliconDioxide), Chin dioxide (Titanium Dioxide), indium tin oxide (Indium TinOxide, ITO ), oxidation front strokes (Aluminum Zinc oxide, AZO), fluorine tin oxide miserable (F-doped tin oxide, FT0) or polycarboxylic transparent conductive oxide (transparent conducting oxide, either TC0) in. 基板与增光镀膜间可预先镀设有一个利于增光镀膜镀覆的透明中间层,该中间层的厚度控制在0. 0001 u m-200 ii m,该中间层为氧化招、二氧化娃、氧化锌或聚酰亚胺中的任一种。 Between brightness enhancement film and the substrate may be previously coated with a transparent intermediate layer facilitates credit plating film, the thickness of the intermediate layer is controlled 0. 0001 u m-200 ii m, the intermediate layer is an oxide strokes, baby dioxide oxide either zinc or polyimide. 另外,也可将多个光学镀膜层400层叠后设置在动态视频显示模块200与静态图像显示模块100间,以用来增强显示效果。 Further, a plurality of optical coating layers may be laminated after 400 provided on the video display module 200 and the dynamic still image display module 100, in order to enhance the display.

[0053] 如图2所示,在混合型显示器的上下两面的其中一面上还可设置有透明的触摸屏700,该触摸屏700的控制端与驱动控制电路500的相应控制端子连接。 [0053] As shown in FIG. 2, the upper and lower sides of the hybrid type display may also be provided on one side with a transparent touch screen 700, the touch screen 700 of the control terminal of the drive control circuit 500 is connected to a respective control terminal. 使用者可通过触摸屏700对本发明混合型显示器进行设置、操作等。 A user can be set, operation of the hybrid type display 700 through the touch screen of the present invention. 触摸屏700可为电容式触摸屏,也可为电阻式触摸屏,还可为电磁式触摸屏,甚至是表面超声类型的触摸屏。 The touch screen 700 may be a capacitive touch screen, may also be a resistive touch screen, a touch screen may also be an electromagnetic type, ultrasonic type or even a touch screen surface.

[0054] 在实际中,本发明混合型显示器可设置为只拥有一个显示区域,静态图像显示模块100、动态视频显示模块200不再划分子显示模块,总是全屏显示图像。 [0054] In practice, the hybrid of the present invention may be configured to display only has one display area, still image display module 100, display module 200 dynamic video display is no longer divided into sub-module, always displayed in full screen. 在本发明中,将这种混合型显示器称为全屏制式混合型显示器。 In the present invention, such a hybrid type display full screen format called hybrid type display.

[0055] 另外,还可对静态图像显示模块100、动态视频显示模块200再进行子显示模块的划分,具体划分为:动态视频显示模块200和静态图像显示模块100均由可独立控制的X个子显示模块构成,动态视频显示模块200的每个子显示模块与静态图像显示模块100的相应一个子显示模块相对应叠设;动态视频显示模块200中的一个子显示模块与其叠设的静态图像显示模块100中的一个子显示模块共同对外呈现为一个子显示区域;最终显示图像的显示区域由一个或多个子显示区域构成;一个子显示区域通过与其相应的动态视频显示模块200中的子显示模块或与其相应的静态图像显示模块100中的子显示模块来显示图像;当动态视频显示模块200中的子显示模块显示图像时,与动态视频显示模块200中的该子显示模块对应的静态图像显示模块100中的子显示模块为全透明状态;当静 [0055] Further, also on the still image display module 100, dynamic video display module 200 then displays sub-division module, specifically divided into: a dynamic video display and still image display module 200 X 100 sub-modules may be independently controlled by display modules, dynamic video display in each sub-module 200 of the display module and still image display corresponding to a sub-module 100 of the display module corresponding to a stacked set; dynamic video displays a sub-modules 200 a display module and static images are stacked inside the display module a sub-display module 100 presents a common external sub-display region; finally displayed by the display region of an image composed of one or more sub display area; a region through its respective sub display dynamic video display module 200 or the sub display module its corresponding still image display module 100 sub-display module to display an image; when the dynamic video display module 200 sub-display module to display an image, dynamic video display module 200, the sub-display a still image block corresponding to a display module the sub-display module 100 is completely transparent state; when the static 图像显示模块100中的子显示模块显示图像时,与静态图像显示模块100中的该子显示模块对应的动态视频显示模块200中的子显示模块为黑屏状态(即处于关闭,作为静态图像显示模块100的子显示模块的黑色背板)。 Image display module 100 sub-display module to display an image, the still image display module 100 of the sub-display module corresponding dynamic video display module 200 sub display module black state (i.e., is off, the display module as a still image the sub-display 100 in black back sheet module). 总之,经过上述子显示模块的划分后,本发明混合型显示器便可在某一范围(一个或几个子显示区域)内显示动态内容或静态内容,或者,在某一范围内显示动态内容而在另一范围内显示静态内容。 In short, the sub-display through said dividing module, the present invention can be mixed in a display range (display region of one or several sub) static content or dynamic content displayed within, or, display dynamic content in a certain range in display static content within another range. 在本发明中,将这种混合型显示器称为子区域制式混合型显示器。 In the present invention, such a hybrid type display sub-regions called hybrid type display formats.

[0056] 对于全屏制式混合型显示器,本发明提出了一种动静态图像显示方法,该方法包括以下步骤: [0056] For full-screen display of standard hybrid type, the present invention provides a dynamic and static image display, the method comprising the steps of:

[0057] 步骤I :对接收到的待显示内容(可存储在显示缓存内)进行识别,具体为: [0057] Step I: display content to be received (the buffer may be stored in the display) to identify, in particular:

[0058] 步骤1-1 :判断待显示内容的文件格式:如果是明显的动态显示格式(例如,文件格式为AVI、RMVB、MP4或FLASH等视频格式便可直接判断为明显的动态显示格式),则判断待显示内容为动态显示内容而直接转到步骤3 ;如果不是明显的动态显示格式(例如,文件格式为jpg、bmp、txt、word或pdf等静态图像或文本格式时,便不能直接判断为明显的动态显示格式,当然也不能判断为静态显示格式,而要通过对待显示内容的其它方面进行再判断来确定),则继续下一步骤1-2 ; [0058] Step 1-1: determining a file format of contents to be displayed: if the apparent dynamic display format (e.g., file format AVI, RMVB, MP4 FLASH or other video format can be directly determined that significant dynamic display format) , the content is determined to be displayed as the dynamic display content directly go to step 3; if not significant dynamic display format (e.g., file format jpg, bmp, txt, word, or other text or still image pdf format, can not be directly Analyzing obvious dynamic display format, of course, not static display format is determined, and re-judgment is determined to be treated by other aspects of the display contents), proceed with the next step 1-2;

[0059] 步骤1-2 :判断待显示内容的图像变化率:如果其图像变化率大于等于设定阈值(一般为毫秒每次级别),则判断待显示内容为动态显示内容而直接转到步骤3 ;如果其图像变化率小于设定阈值或无变化,则不能确定是动态显示内容还是静态显示内容,继续下一步骤1-3 ; [0059] Step 1-2: rate of change in the image content is determined to be displayed: an image if it is equal to the rate of change is greater than the set threshold value (typically milliseconds per level), it is determined that the contents to be displayed as the dynamic display content directly to step 3; if it is less than a set threshold rate of change in the image or no value, it can not determine the display content is dynamic or static display contents, proceeds to the next step 1-3;

[0060] 步骤1-3 :判断待显示内容的色彩范围:如果色彩范围为大于二维(例如RGB三维)或大于64灰阶,则判断待显示内容为动态显示内容而直接转到步骤3 ;如果色彩范围为小于等于二维或不高于64灰阶(伪彩色),则判断待显示内容为静态显示内容,进入步骤2 ; [0060] Step 1-3: determining the color range to be displayed content: greater than if the two-dimensional color range (e.g., RGB three-dimensional) or greater than 64 gray scale, it is determined that the display content to be displayed as a dynamic content directly to step 3; If the color range is less than or equal to a two-dimensional gray scale of not higher than 64 (false color), it is determined that the contents to be displayed as a static display, proceeds to step 2;

[0061] 步骤2 :驱动控制电路500停止向动态视频显示模块200供电,动态视频显示模块200关闭而整体呈现为黑色,作为静态图像显示模块100的黑色背板,同时,驱动控制电路500通过对静态图像显示模块100中的电极(行列电极)进行控制,将待显示内容(按实际需要进行解码等处理)显示在静态图像显示模块100上,然后停止向静态图像显示模块100供电,待显示内容保持已显示状态,随后返回步骤1,进入下一待显示内容的显示过程; [0061] Step 2: display drive control circuit 500 stops the power supply to the dynamic video module 200, dynamic video display module 200 is closed and the whole rendered black, black display backplane module 100 as a still image, while the drive control circuit 500 by still image display module 100 electrode (row electrode) is controlled to be displayed content (according to the actual need for decoding processing) on ​​the display module 100 in the still image display, and then stops the display 100 is powered module to a still image, to be displayed content display state has been maintained, and then returns to the step 1, the process proceeds to the next display content to be displayed;

[0062] 步骤3 :驱动控制电路500通过对静态图像显示模块100中的电极(行列电极)进行控制,使静态图像显示模块100整体呈现为全透明状态,同时,驱动控制电路500通过对动态视频显示模块200的控制,将待显示内容(按实际需要进行解码等处理)显示在动态视频显示模块200上,随后返回步骤1,进入下一待显示内容的显示过程。 [0062] Step 3: the drive control circuit 500 is controlled by the module 100 electrode (row electrode) displaying a static image, so that the still image display module 100 as a whole appears as completely transparent state, at the same time, the drive control circuit 500 through dynamic video the display control module 200, the contents to be displayed (actual required decoding process) on the display module 200 in a dynamic video display, and then returns to the step 1, the process proceeds to the next display contents to be displayed.

[0063] 对于步骤1-2,举例说明,若待显示内容为tif文件,其内存在时间帧和动态变化的信息,如tif文件共包含5张子图片且5张子图片的时间帧变换为5S —张,图像变化率小于设定阈值,则由此不能确定其是动态显示内容还是静态显示内容。 [0063] For step 1-2, an example, if the content to be displayed as a tif file, the time information in the frame memory, and dynamic changes, such as tif file contains 5 sub-pictures and the sub-picture 5 is converted into a time frame 5S - sheets, the image change rate is less than a set threshold, whereby it is not determined to be a static or dynamic display content the display content.

[0064] 对于子区域制式混合型显示器,本发明也提出了一种动静态图像显示方法,该方法包括以下步骤: [0064] For the sub-region standard hybrid type display, the present invention also provides a dynamic and static image display, the method comprising the steps of:

[0065] 步骤I :对接收到的待显示内容(可存储在显示缓存内)进行识别,具体为: [0065] Step I: display content to be received (the buffer may be stored in the display) to identify, in particular:

[0066] 步骤1-1 :判断待显示内容的文件格式:如果是明显的动态显示格式(例如,文件格式为AVI、RMVB、MP4或FLASH等视频格式便被直接判断为明显的动态显示格式),则判断待显示内容为动态显示内容而直接转到步骤2 ;如果不是明显的动态显示格式(例如,文件格式为jpg、bmp、txt、word或pdf等静态图像或文本格式时,便不能直接判断为明显的动态显示格式,当然也不能判断为静态显示格式,而要通过对待显示内容的其它方面进行再判断来确定),则继续下一步骤1-2 ; [0066] Step 1-1: determining a file format of contents to be displayed: if the apparent dynamic display format (e.g., file format AVI, RMVB, MP4 FLASH or other video formats will be apparent to directly determines the dynamic display format) , the content is determined to be displayed as the dynamic display content directly to step 2; if not significant dynamic display format (e.g., file format jpg, bmp, txt, word, or other text or still image pdf format, can not be directly Analyzing obvious dynamic display format, of course, not static display format is determined, and re-judgment is determined to be treated by other aspects of the display contents), proceed with the next step 1-2;

[0067] 步骤1-2 :判断待显示内容的图像变化率:如果其图像变化率大于等于设定阈值(一般为毫秒每次级别),则判断待显示内容为动态显示内容而直接转到步骤2 ;如果其图像变化率小于设定阈值或无变化,则不能确定是动态显示内容还是静态显示内容,继续下一步骤1-3 ; [0067] Step 1-2: rate of change in the image content is determined to be displayed: an image if it is equal to the rate of change is greater than the set threshold value (typically milliseconds per level), it is determined that the contents to be displayed as the dynamic display content directly to step 2; if it is less than a set threshold rate of change in the image or no value, it can not determine the display content is dynamic or static display contents, proceeds to the next step 1-3;

[0068] 步骤1-3 :判断待显示内容的色彩范围:如果色彩范围为大于二维(例如RGB三维)或大于64灰阶,则判断待显示内容为动态显示内容而直接转到步骤2 ;如果色彩范围为小于等于二维或不高于64灰阶(伪彩色),则判断待显示内容为静态显示内容,进入步骤2 ; [0068] Step 1-3: determining the color range to be displayed content: greater than if the two-dimensional color range (e.g., RGB three-dimensional) or greater than 64 gray scale, it is determined that the display content to be displayed as a dynamic content directly to step 2; If the color range is less than or equal to a two-dimensional gray scale of not higher than 64 (false color), it is determined that the contents to be displayed as a static display, proceeds to step 2;

[0069] 步骤2 :通过待显示内容自身携带的显示区域信息来确定显示待显示内容的子显示模块的数量和位置(即判定待显示内容是在哪些子显示区域内进行显示,包括全屏显示。),然后进入步骤3; [0069] Step 2: to be displayed and the display area information content itself carried determines display to be displayed contents of a sub-display the number and position of the module (i.e., it is determined to be displayed content display region displays, including full-screen display in which sub. ), then proceeds to step 3;

[0070] 步骤3 :开始进行图像显示,具体为: [0070] Step 3: image display is started, specifically:

[0071] 若待显示内容判断为静态显示内容,则:对于该静态显示内容对应的动态视频显示模块200中的子显示模块来说,驱动控制电路500停止向该子显示模块供电,该子显示模块关闭而呈现为黑色,作为静态图像显示的黑色背板;同时,对于该静态显示内容对应的静态图像显示模块100中的子显示模块来说,驱动控制电路500通过对该子显示模块的电极(行列电极)进行控制,将待显示内容显示在该子显示模块上,然后停止向该子显示模块供电,待显示内容保持已显示状态;随后返回步骤1,进入下一待显示内容的显示过程; [0071] If the content is determined to be displayed as a static display, then: For the static display dynamic content corresponding to the video display module 200 displays the sub-module, the drive control circuit 500 stops the power supply to the display sub-module, the sub-display Close module presented in black, black backsheet displayed as a still image; the same time, the still display a still image corresponding to the display contents of the display sub-module module 100, the electrode 500 by the sub-circuit controls the display driving module (row electrodes) controls the display contents to be displayed on the sub display module, and stops power supply to the display sub-module, has been shown to be displayed content holding state; then returns to step 1, proceeds to the next process of displaying the contents to be displayed ;

[0072] 若待显示内容判断为动态显示内容,则:对于该动态显示内容对应的静态图像显示模块100中的子显示模块来说,驱动控制电路500通过对该子显示模块的电极(行列电极)进行控制,使该子显示模块呈现为全透明状态;同时,对于该动态显示内容对应的动态视频显示模块200中的子显示模块来说,驱动控制电路500通过对该子显示模块的控制,将待显示内容显示在该子显示模块上;随后返回步骤1,进入下一待显示内容的显示过程。 [0072] When determining the display content to be displayed as a dynamic content, then: For the dynamic display of a still image content corresponding to the display sub-module 100 for a display module, an electrode (row electrode 500 through the sub-circuit controls the display driving module ) performs control so that the sub-display module presents full transparent state; the same time, the dynamic display for dynamic content corresponding to the video display module 200 displays the sub-module, the drive control circuit 500 through the display control sub-module, the contents to be displayed on the display module in the sub display; then returns to step 1, the process proceeds to the next display contents to be displayed.

[0073] 当然,需要提及的是,对于同一范围(一个或几个子显示区域,可相邻或不相邻,或者是全屏)而言,该范围内不能同时显示动态和静态显示内容(动态与静态显示内容不能重叠显示原则),只能择一显示。 [0073] Of course, to be mentioned that, for the same range (or a number of the sub display area, may be adjacent or not, or full screen), it can not display dynamic and static display contents (dynamic range simultaneously within the and display a static display content can not overlap principle), can only choose a display. 当动态显示内容显示在动态视频显示模块200上的一些子显示区域上时,这些子显示区域对应的静态图像显示模块100的子显示模块为全透明状态,这样,观看者就可观看到动态显示内容了,全透明状态的子显示模块不会影响观看者对动态显示内容的观看。 When some of the dynamic display contents displayed on the sub-module 200 when the display area, the sub-display a still image region corresponding to the display sub-module of the display module 100 is completely transparent state, so that the motion video, the viewer can watch the dynamic display the contents of the sub-transparent display module will not affect the status of the viewer watches the display of dynamic content. 当静态显示内容显示在静态图像显示模块100上的一些子显示区域上时,这些子显示区域对应的动态视频显示模块200的子显示模块为黑屏状态(关闭),作为静态图像显示模块100显示图像用的黑色背板,这时,观看者就可直接观看静态图像了。 When the static display contents displayed in the still image of some sub-on module 100 display area, the sub-display areas corresponding to the dynamic video display module 200 displays module black state (closed), the display module 100 displays an image as a still image black backboard, then the viewer can direct viewing still images.

[0074] 当然,动态视频显示模块200、静态图像显示模块100上划分的子显示模块的数量可相同或不同,但是都要遵守动态与静态显示内容不能重叠显示原则。 [0074] Of course, dynamic video display module 200, the divided still image display module 100 displays the number of sub-modules may be the same or different, but must abide by the dynamic and static content can not be displayed superimposed display principle.

[0075] 对于动态视频显示模块200,其动态视频显示控制技术为本领域的公知技术,故在这里不再详述。 [0075] For dynamic video display module 200, which dynamically control the video display well-known techniques known to those techniques, it is not described in detail here.

[0076] 对于静态图像显示模块100,其图像显示原理见下述。 [0076] module 100 for still image display, image display principles which see below. [0077] 下面以静态图像显示模块100中不设置彩色像素层116、具有MXN的像素点阵列(第一导电电极层114由M个平行排列的条状行电极1141组成,第二导电电极层115由N个平行排列的条状列电极1151组成,该M个行电极1141与N个列电极1151相正交)的全屏制式混合型显示器为例对静态图像显示模块100的图像显示过程进行说明: [0077] In the still image displayed below the module 100 is not provided in the color pixel layer 116, having (a first conductive electrode layer 114 MXN pixel point array of M stripe electrodes 1141 arranged in parallel rows consisting of the second conductive electrode layer 115 of N arranged in parallel strip-shaped column electrodes 1151 composed of the M row electrodes 1141 and N column electrodes orthogonal to 1151) of the full-screen display as an example of a hybrid format still image display module 100 of the image display process will be described:

[0078] 当通过驱动控制电路500在第一导电电极层114的一个条状行电极1141与第二导电电极层115的一个条状列电极1151上施加低频高压电信号(例如100v、50Hz左右的正负双向脉冲,行列电极上施加的低频高压电信号叠加后形成的电压波形的电压幅值大于阈值电压幅值,阈值电压是为使近晶相液晶分子被驱动而发生排列形态改变的电压值,其是根据混合层的组成和厚度来确定的,一般为5V以上。),电压作用时间不到I秒钟时,该行、列电极形成的像素点对应的混合层113部分中的近晶相液晶分子便发生扭转,形成乱序排列形态。 [0078] When the control circuit 500 by the drive 114 in a strip-like row electrodes of the first conductive electrode layer 1141 a low frequency high voltage signal (e.g. 100v is applied to the upper electrode 1151 and a second conductive strip layer 115 of the electrode column, the right and left 50Hz positive and negative bidirectional pulses, the voltage amplitude of the voltage waveform formed after high-voltage signal superimposed low frequency applied to the row electrodes is greater than a threshold voltage magnitude, the threshold voltage is a voltage value that the smectic liquid crystal molecules are arranged to be driven changes in morphology , which is based on the composition and thickness of the mixed layer is determined, more typically 5V.) when less than I second voltage is applied, the row and column smectic portion corresponding to the mixed pixel electrode layer 113 is formed in the liquid crystal molecules will be twisted, the formation of disordered array pattern. 因为近晶相液晶分子的各向相异性(即由于入射光线通过各液晶的长光轴不同,各液晶的光折射角度不同,因而各液晶的折射率不同),使得入射各近晶相液晶分子的光线的折射存在着很大的差异,即在该微薄厚度的混合层部分内,光折射率产生着剧烈的变化,因而光线发生了强烈的散射,宏观上呈现一种如磨砂毛玻璃般的雾状避光状态,在动态视频显示模块200相应部分充当的黑色背板的映衬下,该像素点对外呈现为白色。 Since (i.e., due to the different length of the incident light by the liquid crystal optical axis of each different, each liquid crystal light refraction angle, and therefore different refractive indices of the liquid crystal) of each of the anisotropic smectic liquid crystal molecules, so that each incident smectic liquid crystal molecules the refractive there is a considerable difference in light, i.e., the mixed layer in the portion of the modest thickness, the refractive index of the light produced drastic changes occur and thus a strong light scattering, rendering ground glass frosted a mist-like macro shaped dark state, against the background of the display module 200 serve as respective portions of the backsheet black, the white pixel assumes a dynamic video.

[0079] 当通过驱动控制电路500在第一导电电极层114的一个条状行电极1141与第二导电电极层115的一个条状列电极1151上施加高频高压电信号(例如100v、lkHz左右的正负双向脉冲,行列电极上施加的高频高压电信号叠加后形成的电压波形的电压幅值大于阈值电压幅值),电压作用时间不到I秒钟时,该行、列电极形成的像素点对应的混合层113部分中的近晶相液晶分子便变为规则排列形态,此时,近晶相液晶分子的长光轴垂直于第 [0079] When the drive control circuit 500 via a high-frequency high voltage applied to the left and right signals in a first conductive strip line electrode layer 114 a strip electrode 1141 and the second conductive electrode layer 115 column electrodes 1151 (e.g. 100v, lkHz when the sign of the bidirectional pulses, the magnitude of the voltage waveform of high-voltage high-frequency signal is formed after the row and column electrodes applied to the superposed voltage amplitude greater than the threshold), less than I second voltage is applied, the row and column electrodes formed part of the mixed layer 113 corresponding pixels in the smectic liquid crystal molecules will become regular arrangement configuration wherein the long axis perpendicular to the smectic liquid crystal molecules in the first

一、第二导电电极层114、115平面,入射各近晶相液晶分子的光线的折射不产生剧烈变化,宏观呈现一种全透明状态,入射的光线可以自由透过该混合层113部分,在动态视频显示模块200相应部分充当的黑色背板的映衬下,完全透射过该混合层113部分的大部分光线被黑色背板吸收,因此,该像素点对外呈现为黑色。 First, the plane 114 and 115, the respective light refraction smectic liquid crystal molecules is incident on the second electrode conductive layer does not produce dramatic changes, macroscopic assume a transparent state, incident light can freely pass through the portion of the mixed layer 113, in Against the background of the dynamic video display module 200 serve as respective portions of the black back sheet, the total transmission of light through the majority of the hybrid layer 113 is absorbed by the black portions of the back plate, and therefore, this assumes a black pixel.

[0080] 当然,通过合理控制某一像素点对应的行、列电极上的电压信号(如幅值大小、频率、脉冲对个数和作用时间等),还可使该像素点对应的混合层部分中的近晶相液晶分子的排列形态变为部分扭曲,以产生不同程度的散光效应,宏观表现为在雾状避光状态与全透明状态两个状态间产生具有不同灰度阶的多种渐进状态,如半透明状态等,从而使该像素点可呈现出不同灰度的颜色。 [0080] Of course, through the rational control line corresponding to a pixel, a voltage signal (e.g., magnitude of the amplitude, frequency, pulse number and time, etc.) on the column electrodes, but also the mixed layer of the pixel corresponding to the array pattern of smectic liquid crystal molecules becomes part of the portion of twist, to produce different degrees of astigmatic effect, to produce a macro performance having different grayscale order between the transparent state and a dark mist two states progressive state, and other such translucent, so that the pixel may exhibit different gray colors.

[0081] 对于整个静态图像显示模块100来说,逐行扫描驱动(也可采用其他顺序扫描驱动,例如逆序、随机等,属于公知技术)行电极1141,在驱动一个行电极1141的同时相应驱动各个列电极1151,就可使静态图像显示模块100上的各个像素点逐行变为所需显示状态,从而使得静态图像显示模块100显示出需要的静态文字或图案。 [0081] for the entire still image display module 100, the progressive scan driver (scan driver other sequences may be employed, for example, reverse, random, etc., are well-known technique) the row electrodes 1141, a row driving respective drive electrodes at the same time 1141 each of the column electrodes 1151, can make the still image display of each pixel row on the module 100 becomes a desired display state, so that the still image display module 100 displays the static text or pattern desired.

[0082] 当给第一、第二导电电极层114、115的各个电极加载电压信号且像素点被驱动发生变化后,便可撤去施加的电压信号。 [0082] When the first to the respective signal electrodes to voltage and the second pixel electrode conductive layer 114, 115 are driven changes, the voltage signal is applied can be removed. 而像素点的这种光效应的保持是不需要电压信号来维持的,即撤去电压信号后,像素点仍能够保持加载电压信号时产生的光效应,而作用的电压信号只是为了改变近晶相液晶分子的排列形态。 Such optical effects while maintaining the pixel is not required to maintain the voltage signal, i.e. the signal voltage removed, capable of maintaining pixel optical effects generated when the applied voltage signal, the voltage signal is applied only to change the smectic phase a liquid crystal molecules are arranged. 在本发明中,将这种不需要电驱动而维持光效应的状态称为“多稳态”或“准静态”。 In the present invention, the electrically driven such unwanted light while maintaining the effect known as "multi-stable" or "quasi-static." 而这种“多稳态”是因为混合层113中添加了导电物,当施加电压信号时,带导电特性的导电物中的离子根据电势差变化产生往复运动,这种运动可以改变液晶分子的排列形态,而变化后的液晶分子排列形态并不需要离子的持续运动来维持,是稳定的。 This "multi-stable" because the mixed layer 113 is a conductive material is added, when a voltage signal is applied, a conductive material with conductive properties in accordance with reciprocating motion of the ion generating a potential difference change, such movement can change the arrangement of the liquid crystal molecules form, while the liquid crystal molecules changes in morphology do not need to maintain continuous motion of the ions, it is stable.

[0083] 对于子区域制式混合型显示器来说,静态图像显示模块100的子显示模块对图像的显示是单独控制或采用其他控制方式实现的,每个子显示模块的图像显示原理与上述的全屏制式混合型显示器中的静态图像显示模块的图像显示原理相同,在这里不再赘述。 [0083] For the sub-region of the hybrid format display, the still image display module 100 displays the image display module is individually controlled or controlled by other manner, each of the sub-module display image display principle described above full screen format hybrid still image display image display module displays the same principle, here omitted.

[0084] 关于混合层内的调光原理(即近晶相液晶分子如何被驱动进行相应的排列)还可参阅专利申请号为200710175959. 9的中国发明专利申请“一种电控调光介质”以及专利申请号为200810102000. 7的中国发明专利申请“电控调光介质”等中的相应描述来理解。 [0084] For the mixing principle dimming layer (i.e., how the smectic liquid crystal molecules are driven corresponding arrangement) See also Patent Application No. 200710175959.9 the Chinese invention patent application "An electrically controlled light modulating medium" and the corresponding description of Patent application No. 200810102000.7 the Chinese invention patent application "electrically controlled dimming medium" or the like to understand.

[0085] 对于静态图像显示模块100中设置彩色像素层116的本发明混合型显示器来说,静态图像显示模块100中的一个像素点对外呈现的颜色是由该像素点对应的几个(三个或四个)子像素点共同构成的,而一个子像素点的颜色是其对应的色块根据对应的混合层部分呈现的状态(雾状避光状态或全透明状态或其他渐进状态)而显示出的。 [0085] For a static image display module 100 is provided in the color pixel layer 116 of the present invention is a mixed-type display, a still image display in a pixel module 100 assumes a color by the corresponding number of pixel points (three or four) sub-pixels together constitute the color of a sub-pixel is the corresponding color according to the corresponding portions of the mixed layer exhibits a state (dark state or mist state or other progressive completely transparent state) display out. 例如,一个色块为红色,其对应的混合层部分为雾状避光状态,那么,该色块对应的子像素点对外显示出红色。 For example, a red color, the mixed layer portion corresponding to the dark mist state, then the corresponding color sub-pixel indicated by a red outside. 又例如,一个色块为绿色,其对应的混合层部分为全透明状态,那么该色块对应的子像素点对外显示出黑色(显示黑色背板的颜色)。 As another example, a green color, the corresponding portions of the mixed layer is completely transparent state, the color sub-pixel corresponding to the external display black color (black display backplane color). 由于像素点的面积很小,为微米级,例如107±5 ym,因此,对于一个像素点而言,像素点中的各个子像素点分别显示的颜色混合在一起所构成的颜色即为该像素点最终对外显示出的颜色,即观看者能实际看到的颜色。 Since the small area pixel, the order of micrometers, for example 107 ± 5 ym, therefore, for a pixel, each pixel sub-pixel points are shown in a color constituting the mixed color of the pixel is the the final point of the external show of color, that is, the viewer can actually see the color. 另夕卜,不同类型的彩色像素层116可对外显示出不同的颜色,彩色像素层116的颜色显示原理为熟知技术,不在这里赘述。 Another Bu Xi, different types of external color pixel layer 116 may exhibit a different color, the color of the color pixel layer 116 are well known art display principle, not here repeated.

[0086] 在实际设计中,混合层113还可混合有二色性染料,较佳地,二色性染料可占混合总重量的5%,通过将适量的二色性染料混合入混合层113,可使本发明显示器的混合层实现全透明、有色遮光、各种有色灰度阶之间的切换。 [0086] In the actual design, the mixed layer 113 may also be mixed with a dichroic dye, preferably, the dichroic dye may be 5% of the total weight of the mixture, by adding an appropriate amount of dichroic dye mixed into the mixed layer 113 enables display of the mixed layer of the present invention to switch between transparent, colored shading, a variety of colored gray order. 对于混合层113中混合有二色性染料的本发明显示器而言,其静态图像显示模块100中的一个像素点对外呈现的颜色是由该像素点对应的几个(三个或四个)子像素点共同构成的,而一个子像素点显示的颜色是其对应的色块与对应的混合层部分中二色性染料的颜色叠加后,并根据对应的混合层部分呈现的状态(雾状避光状态或全透明状态或其他渐进状态)而显示出的。 For the display of the present invention is mixed in the mixed layer 113, the dichroic dye, the static image display in a pixel module 100 assumes a color corresponding to several pixels from the (three or four) sub together constitute the pixels, and the color of a sub-pixel is displayed with mixed color layer portion corresponding to the corresponding color dichroic dye is superimposed, and the state of the corresponding portions of the mixed layer is present (mist avoidance full light state or transparent state or other progressive state) exhibited. 混合层113中混合有二色性染料的本发明显示器的图像显示原理与未添加二色性染料的本发明是基本相同的,因此,不再在这里详述。 Mixed layer 113 is mixed with the dichroic dye of the present invention, the image display principle of the display of the present invention without adding dichroic dyes are substantially identical, and therefore, will not be detailed here.

[0087] 另外,混合层113内还可混合有二向性增白剂、粘度调节剂、塑性调节剂、消泡剂中的任一种或任几种的混合。 [0087] Further, the mixed layer 113 may also be mixed with any of a dichroic brighteners, viscosity modifiers, ductility modifiers, defoamers, or any mixture of several. 二向性增白剂具有增加对比度的作用。 Brighteners having dichroic increase in contrast effect. 粘度调节剂可调节混合物的粘度,使混合物便于涂覆,且其改善了混合层的驱动效果。 Viscosity modifiers can adjust the viscosity of the mixture, the mixture was coated to facilitate, and which improves the driving effect of the mixed layer. 塑性调节剂用于改变静态图像显示模块100在高温时的塑性,便于贴合。 Plastic modulator for changing a still image display module 100 at a high temperature plastic, to facilitate bonding. 消泡剂用于减少混合层的气泡,提高生产率。 Antifoaming agents for reducing air bubbles mixed layer, improving productivity. 这些添加剂可占混合总重量的0%-10% (其他组分按照原先比例相应减少一些,以使所有组分重量相加之和为100% )。 These additives may comprise from 0% to 10% of the total weight of the mixture (ratio of the other components in accordance with a corresponding reduction in number of the original, so that the sum of all the components is 100% by weight).

[0088] 本发明的优点是: [0088] The advantage of the present invention are:

[0089] 本发明混合型显示器的成本低、功耗低,既可显示动态视频内容,又可显示静态图像内容,而且,对显示内容既可进行全屏显示,又可进行特定区域(某些子显示区域)的显示,另外,还可在不同的子显示区域上分别显示动态视频内容、静态图像内容,实现了动、静态混合显示的需求,既满足了人们对动态色彩丰富的画面的观赏需求,又满足了人们对低能耗、不伤眼的电子纸阅读的需求。 Low cost [0089] The hybrid type display of the present invention, low power consumption, can display dynamic video content, but also display a still image content, and, for full-screen display can display content, but also for a specific region (sub certain display area), and the other, show dynamic video content, still image content on the region, the need to achieve dynamic and static display of mixed, both to meet the needs of people watch the rich picture of the dynamic color can also be displayed in different sub , low energy consumption and meet the people, not hurt the eyes of the e-paper reader needs.

[0090] 对于设置有彩色像素层的静态图像显示模块而言,与传统的液晶显示器和已有的能彩色显示图像的近晶相液晶显示装置相比,其没有使用偏光片,也没有使用多层结构,因此,大幅减少了由于偏光片或多层结构造成的光能损失,极大提高了光能的利用率,增加了亮度和色彩饱和度,改善了静态图像显示模块的彩色显示效果。 [0090] For still image display module is provided with a layer in terms of color pixels, with the conventional liquid crystal display capable of color display and conventional smectic liquid crystal image display device as compared to that without using a polarizing plate, there is no multi- layer structure, and therefore, significantly reduce the energy loss due to the polarizer or a multilayer structure resulting, greatly increasing the utilization of solar energy, increased color saturation and brightness, improving the color still image display module display. 另外,本发明显示器通过使用单层彩色像素层便可使静态图像显示模块达到全色彩显示静态图像的效果,消除了已有的能彩色显示图像的近晶相液晶显示装置由于多层结构所产生的视差缺陷,图像显示清晰,对比度高,外围驱动电路简单、不复杂,制作工艺复杂度和制作成本低。 Further, display of the invention by using a single layer so that the color pixel layer can still achieve full color image display module still image display, capable of eliminating the conventional smectic liquid crystal color display device display an image generated due to the multilayer structure parallax defect, bright display, high contrast, a peripheral driving circuit is simple, uncomplicated, low production process complexity and manufacturing cost.

[0091] 由于本发明显示器的静态图像显示模块设计有混合层,因而,静态图像显示模块也具有因混合层而带来的许多优点,例如,多稳态特性,能耗低,无电磁辐射,健康环保,切换速度快等。 [0091] Because the static image display of the present invention is a mixed layer display module design, and thus still image display module also has a number of advantages brought by the mixed layer, e.g., multi-stable characteristic, low energy consumption, electromagnetic radiation, health and environmental protection, switching speed and so on.

[0092] 本发明方法通过快速对待显示内容的判断,即可确定待显示内容的显示状态(动态或静态),并且根据实际显示需要,将待显示内容显示在指定的子显示区域(包括全屏情形)上,满足了本发明混合型显示器显示动态视频内容或静态图像内容的需求,以及同时显示动态视频内容和静态图像内容的需求。 Display state [0092] The method of the present invention is determined by the display content quickly treated, can determine the content to be displayed (dynamic or static), and display the actual needs, the contents of the display area to be displayed (in the case of a full screen including the specified child on) to meet the needs of the present invention is a hybrid video display to display dynamic content or still image content, and simultaneously displaying video content needs dynamic and static image content.

[0093] 上述是本发明的较佳实施例及其所运用的技术原理,对于本领域的技术人员来说,在不背离本发明的精神和范围的情况下,任何基于本发明技术方案基础上的等效变换、简单替换等显而易见的改变,均属于本发明保护范围之内。 [0093] The above-described embodiments and that the present invention is the use of the technical principles of the preferred embodiments, those skilled in the art, without departing from the spirit and scope of the present invention, any aspect of the present invention is based on the basis of equivalent transformation apparent change, simply replacing the like, fall within the scope of the present invention.

Claims (10)

1. 一种可实现动静态图像显示的混合型显示器,其特征在于:它包括与外部的驱动控制电路连接的动态视频显示模块,该动态视频显示模块的显示面上叠设有静态图像显示模块,其中: 该静态图像显示模块包括第一基体层和第二基体层,该第一基体层与该第二基体层之间设有混合层,该混合层由近晶相液晶、导电物、隔离物混合而成或者该混合层包括封装在聚合物结构中由近晶相液晶、导电物和隔离物组成的混合物,该第一基体层朝向该混合层的一侧设有第一导电电极层,该第二基体层朝向该混合层的一侧设有第二导电电极层,该第一导电电极层和第二导电电极层与该驱动控制电路连接,该第一导电电极层、第二导电电极层分别由M、N个电极组成,该M个电极与N个电极之间形成用于显示静态图像的像素点阵列。 1. A hybrid type display achieve dynamic and static image display, characterized in that: it comprises an external driving dynamic control circuit connected to the video display module, the dynamic video display surface of the module stack is provided with still image display module wherein: the still image display module comprises a first substrate layer and the second base layer, a mixed layer is provided between the first substrate layer and the second base layer, the hybrid layer of smectic liquid crystal, a conductive material, the isolation It was mixed layer or the mixed liquid crystal comprises encapsulated in the polymer structure of the smectic mixture of conductive material and a spacer composed of the base layer toward the first side of the mixed layer of the first conductive electrode layer is provided, the second side of the substrate layer towards the mixed layer is provided with a second conductive electrode layer, the first conductive electrode layer and the second conductive electrode layer and the drive control circuit connected to the first conductive electrode layer, a second conductive electrode M of each layer, composed of N electrodes forming an array of pixels for displaying a still image between the electrodes M and N electrodes.
2.如权利要求I所述的可实现动静态图像显示的混合型显示器,其特征在于: 在所述第一导电电极层的其中一侧或所述第二导电电极层的其中一侧设有使所述静态图像显示模块显示彩色静态图像的彩色像素层,该彩色像素层为RGBW型彩色像素层或RGB型彩色像素层或RGBY型彩色像素层或CMYK型彩色像素层。 I as claimed in claim 2 can achieve a hybrid dynamic and static display of the image display, characterized in that: wherein one side of the first conductive electrode layer or the side of the second conductive electrode layer which is provided the still image display module displays a color pixel layer of the color still image, the color pixel layer is a layer RGBW type color pixel or RGB type color pixel layer type or RGBY color pixel layer type or CMYK color pixel layer.
3.如权利要求I或2所述的可实现动静态图像显示的混合型显示器,其特征在于: 所述动态视频显示模块与所述静态图像显示模块通过无缝粘合的透明粘合层连接;或者,所述动态视频显示模块与所述静态图像显示模块通过基板连接;或者,所述动态视频显示模块的上基板为所述静态图像显示模块的第二基体层;或者,所述动态视频显示模块与所述静态图像显示模块通过固定装置连接,该固定装置使得所述动态视频显示模块与所述静态图像显示模块间增加一层用于增强折射效果的空气层。 As claimed in claim 3 or I 2 may be implemented hybrid dynamic and static display of the image display, characterized in that: the motion video display module and the still image display module via the transparent adhesive layer adhered seamlessly ; or a dynamic video display module and the still image display module is connected through the substrate; or the dynamic video display layer on the second base substrate module to the static image display module; or the motion video the display module of the still image display module is connected by fixing means, the fixing means such that the dynamic video display module and the still image display module increases between the refractive layer for enhancing the effect of an air layer.
4.如权利要求I或2所述的可实现动静态图像显示的混合型显示器,其特征在于: 在所述动态视频显示模块与所述静态图像显示模块间增设用于增强显示效果的光学镀膜层。 As claimed in claim 4 or I 2 may be implemented hybrid dynamic and static display of the image display, characterized in that: the display and still image display module between the module for additional optical coating to enhance the display effect in the dynamic video Floor.
5.如权利要求I或2所述的可实现动静态图像显示的混合型显示器,其特征在于: 当所述混合层由近晶相液晶、导电物、隔离物混合而成时: 所述近晶相液晶为带硅基的化合物、四氰基四辛基联苯或四乙酸癸酯四氰基联苯中的任一种或任几种的混合, 所述导电物为带导电特性的无机纳米粒子、碳纳米管、石墨烯、碳酸钠、十六烷基三乙基溴化铵乙基三苯基碘化膦、(二茂铁基甲基)三甲基碘化铵、1,2- 二甲基-3- 丁基咪唑六氟磷酸盐、四乙基胺对甲苯磺酸酯、苯基三乙基碘化铵、I-辛基-3-甲基咪唑六氟磷酸盐、双(四正丁基胺)双(I,3-二噻环戊二烯-2-硫酮-4,5-二硫醇)钯(II)、四正丁基合双(I,3-二噻环戊二烯-2-硫酮-4,5-二硫醇)镍(III)、双(四正丁基铵)合双(1,3_ 二硫杂环戊烯-2-硫酮-4,5-二硫醇)锌、双(四正丁基铵)合四氰基二苯酚醌二甲 As claimed in claim 5 or I 2 may be implemented hybrid dynamic and static display of the image display, characterized in that: when the mixed layer of smectic liquid crystal mixture, a conductive material, spacers made: the near silicon-containing compound is a liquid crystal phase, any one of four four-cyanobiphenyl-cyano biphenyl or four octyl decyl tetraacetic acid or any of several mixing, the conductive substance is a conductive property with an inorganic nanoparticles, carbon nanotubes, graphene, sodium carbonate, cetyl triethyl ammonium bromide, ethyl iodide, triphenyl phosphine, (ferrocenyl methyl) trimethylammonium iodide, 1,2 - dimethyl-3-butylimidazolium hexafluorophosphate, tetraethylammonium p-toluenesulfonate, phenyl triethyl ammonium iodide, I- octyl-3-methylimidazolium hexafluorophosphate, bis (tetra-n-butylamine) bis (I, 3- thiazol two cyclopentadienyl-4,5-dithiol-2-thione) palladium (II), tetra-n-butyl-co-bis (I, 3- two thiazol-cyclopenta-2-thione-4,5-dithiol) nickel (III), bis (tetrabutylammonium) co bis (1,3_ dithiole-2-thione - 4,5-dithiol) zinc, bis (tetrabutylammonium) tetracyclic quinone dimethyl phenol dicyano 、四丁基溴化铵、十六烷基高氯酸铵、十六烷基溴化四铵、I-丁基-3-甲基咪唑四氯高铁酸盐、甲基三苯基碘化鱗或四苯基碘化膦中的任一种或任几种的混合, 所述隔离物为聚酯类材料或聚苯乙烯类高分子材料或玻璃材质制成的隔离球或隔离棒, 所述混合层的组成为:所述近晶相液晶占混合总重量的0. 0002% -99. 99%,所述导电物占混合总重量的0. 0001% -10%,所述隔离物占混合总重量的0. 0001% -90% ;当所述混合层包括封装在聚合物结构中由近晶相液晶、导电物和隔离物组成的混合物时: 所述近晶相液晶为带硅基的化合物、四氰基四辛基联苯或四乙酸癸酯四氰基联苯中的任一种或任几种的混合, 所述导电物为带导电特性的无机纳米粒子、碳纳米管、石墨烯、碳酸钠、十六烷基三乙基溴化铵乙基三苯基碘化膦、(二茂铁基甲基)三甲基碘化铵、1,2- 二甲基-3- , Tetrabutylammonium bromide, cetyl ammonium perchlorate, tetra-ammonium cetyl, I- butyl-3-methylimidazolium tetrachloro ferrate, methyltriphenylphosphonium iodide scales any one or tetraphenylphosphonium iodide or any of several mixing, the spacer is a polyester material or a polymer material made from polystyrene or glass material or the spacers of the spacer rods, the composition of the mixed layer: 0.0002% -9999% of the total weight of the mixture smectic liquid crystal accounted for, the electrically conductive material accounts for 0.0001% -10% of the total weight of the mixture, mixing the spacer accounted 0.0001% -90% of the total weight; when the mixed layer comprises a mixture of encapsulated in the polymer structure of smectic liquid crystal, a conductive material and a spacer composed of: the smectic liquid crystal is a silicon ribbon compounds, in any one or any of several four-cyanobiphenyl four cyano biphenyl or octyl four tetraacetic acid decyl ester, the conductive material is an inorganic nanoparticle with conductive properties, carbon nanotubes, graphite ene, sodium carbonate, cetyl triethyl ammonium bromide, ethyl triphenyl phosphine iodide, (ferrocenyl methyl) trimethylammonium iodide, 1,2-dimethyl-3 基咪唑六氟磷酸盐、四乙基胺对甲苯磺酸酯、苯基三乙基碘化铵、I-辛基-3-甲基咪唑六氟磷酸盐、双(四正丁基胺)双(I,3-二噻环戊二烯-2-硫酮-4,5-二硫醇)钯(II)、四正丁基合双(I,3-二噻环戊二烯-2-硫酮-4,5-二硫醇)镍(III)、双(四正丁基铵)合双(1,3_ 二硫杂环戊烯-2-硫酮-4,5-二硫醇)锌、双(四正丁基铵)合四氰基二苯酚醌二甲烷、四丁基溴化铵、十六烷基高氯酸铵、十六烷基溴化四铵、I- 丁基-3-甲基咪唑四氯高铁酸盐、甲基三苯基碘化鱗或四苯基碘化膦中的任一种或任几种的混合, 所述隔离物为聚酯类材料或聚苯乙烯类高分子材料或玻璃材质制成的隔离球或隔离棒, 所述聚合物结构由单分子体材料或聚合分子材料通过直接印刷或刻蚀或纳米压印或喷撒打点在相应层的内侧面上,热固化或紫外固化为具有设定结构的聚合分子材料而 Imidazolium hexafluorophosphate, tetraethylammonium p-toluenesulfonate, phenyl triethyl ammonium iodide, I- octyl-3-methylimidazolium hexafluorophosphate, bis (tetra-n-butylamine) bis (I, 3- thiazol two cyclopentadienyl-4,5-dithiol-2-thione) palladium (II), tetra-n-butyl-co-bis (I, 3- thiazol two cyclopentadienyl -2- thione-4,5-dithiol) nickel (III), bis (tetrabutylammonium) co bis (1,3_ dithiole-2-thione-4,5-dithiol) zinc, bis (tetrabutylammonium) tetracyclic dicyano phenol quinodimethane, tetrabutylammonium bromide, cetyl ammonium perchlorate, tetra-ammonium cetyl, I- butyl - 3- methylimidazolium tetrachloro ferrate, methyltriphenylphosphonium iodide, tetraphenylphosphonium iodide scales or in any one or any of several mixing, the spacer material is a polyester or polyphenylene made of ethylene-based polymer material or a glass material or the spacers spacer rods, the polymer structure monomolecular or polymeric material molecular materials by etching or the direct print dot nano-imprint or sprayed in the respective layer on the side, a thermosetting or ultraviolet-curable material having a polymeric molecular structure and set 成,该单分子体材料为环氧树脂、聚丙烯酸酯或聚甲基丙烯酸酯类单体中的任一种, 所述混合层的组成为:所述近晶相液晶占混合总重量的0. 0002% -99. 99%,所述聚合分子材料占混合总重量的0. 0001% -80%,所述导电物占混合总重量的0. 0001% -10%,所述隔离物占混合总重量的0. 0001% -80%。 Into the monomolecular material is an epoxy resin, a polyacrylate or polymethacrylate type monomer in any one of the mixed layer is composed of: mixing the total weight of the smectic liquid crystal representing 0 . 0002% -99 99%, the material comprises polymeric molecules 0.0001% -80% of the total weight of the mixture, the conductive material accounts for 0.0001% -10% of the total weight of the mixture, mixing the spacer accounted 0.0001% -80% of the total weight.
6.如权利要求5所述的可实现动静态图像显示的混合型显示器,其特征在于: 所述聚合物结构形成有容纳所述近晶相液晶、导电物和隔离物组成的混合物的容纳腔室,所述聚合物结构是规则的球状、微圆柱状、丝状、半球状、平行条状、立方体、长方体、交叉线装、网络结构、方形格子结构、不规则多边形结构或上述多种结构的混合结构中的任一种;所述聚合物结构均匀或不均匀;所述聚合物结构与所述近晶相液晶、导电物和隔离物之间相互混溶或分散或相互接触或间隔。 The polymer structure formed receiving chamber for accommodating a mixture of the smectic liquid crystal, a conductive material and a spacer consisting of: as claimed in claim 5, wherein the static mixer may be implemented movable type image display of a display, wherein chamber, the polymer structure is a regular spherical, micro cylindrical, filament, hemispherical, parallel strip, cube, rectangular parallelepiped, the cross wire-bound network structure, square lattice structure, or an irregular polygonal configuration of the above-described various structures any of a hybrid structure; the homogeneous or heterogeneous polymer structure; dispersed or miscible with one another or in mutual contact or spacing between the polymer structure and the smectic liquid crystal, a conductive material and the spacer.
7.如权利要求I或2所述的可实现动静态图像显示的混合型显示器,其特征在于: 所述动态视频显示模块和所述静态图像显示模块均由可独立控制的X个子显示模块构成,所述动态视频显示模块的每个子显示模块与所述静态图像显示模块的相应一个子显示模块相对应叠设; 所述动态视频显示模块中的一个子显示模块与其叠设的所述静态图像显示模块中的一个子显示模块共同对外呈现为一个子显示区域;最终显示图像的显示区域由一个或多个子显示区域构成; 一个子显示区域通过与其相应的所述动态视频显示模块中的子显示模块或与其相应的所述静态图像显示模块中的子显示模块来显示图像;当所述动态视频显示模块中的子显示模块显示图像时,与所述动态视频显示模块中的该子显示模块对应的所述静态图像显示模块中的子显示模块为全透明状态;当 As claimed in claim 7 or I 2 may be implemented hybrid dynamic and static display of the image display, characterized in that: said display dynamic video and the still image display module by module can be independently controlled display sub-modules X the dynamic video display sub-module of each display module and displaying the still image corresponding to a display sub-module corresponding to the module stack is provided; the dynamic video display module stack is provided thereto a still image of the display sub-module a sub-display module, a display module to present a common external sub-display region; final display area of ​​the image displayed by the one or more sub regions constituted; a sub display area corresponding thereto by said display dynamic video display sub-module module corresponding thereto or the still image display module sub-display module to display an image; dynamic video display when the sub-module display module to display an image, a display sub-module in this module correspond to the dynamic video display still image display of the sub display module is completely transparent state module; when 述静态图像显示模块中的子显示模块显示图像时,与所述静态图像显示模块中的该子显示模块对应的所述动态视频显示模块中的子显示模块为黑屏状态。 Said still image display module displays image sub display module, the module sub-module displaying the motion video display modules corresponding to the display sub-module of the black screen still image display.
8.如权利要求I或2所述的可实现动静态图像显示的混合型显示器,其特征在于: 在所述混合型显示器的上下两面的其中一面上设置有透明的触摸屏,该触摸屏与所述驱动控制电路连接。 As claimed in claim 8 or I 2 may be implemented hybrid dynamic and static display of the image display, characterized in that: on both sides of one side of a transparent touch panel is provided in the upper and lower hybrid type display, the touch screen and the The drive control circuit.
9. 一种基于权利要求I或2所述的混合型显示器实现的动静态图像显示方法,其特征在于:该方法包括以下步骤: 步骤I :对接收到的待显示内容进行识别,具体为: 步骤1-1 :判断待显示内容的文件格式:如果是明显的动态显示格式,则判断待显示内容为动态显示内容而直接转到步骤3 ;如果不是明显的动态显示格式,则继续下一步骤1-2 ; 步骤1-2 :判断待显示内容的图像变化率:如果其图像变化率大于等于设定阈值,则判断待显示内容为动态显示内容而直接转到步骤3 ;如果其图像变化率小于设定阈值或无变化,则不能确定是动态显示内容还是静态显示内容,继续下一步骤1-3 ; 步骤1-3 :判断待显示内容的色彩范围:如果色彩范围为大于二维或大于64灰阶,则判断待显示内容为动态显示内容而直接转到步骤3 ;如果色彩范围为小于等于二维或不高于64灰阶,则 A still image display based on the method as claimed in claim I or claim 2 movable hybrid type display is realized, characterized in that: the method comprises the following steps: Step I: displaying the received content to be identified, specifically: step 1-1: determining a file format of contents to be displayed: if the apparent dynamic display format, the content is determined to be displayed as the dynamic display content directly to step 3; if it is not apparent to the dynamic display format, proceed with the next step 1-2; step 1-2: rate of change in the image content is determined to be displayed: an image if it is equal to the rate of change is greater than the threshold value, it is determined that the contents to be displayed as the dynamic display content directly to step 3; if its rate of change in the image or no less than a set threshold value, it can not determine the display content is dynamic or static display contents, proceeds to the next step 1-3; step 1-3: determining the color range to be displayed content: if the color range of greater than or greater than a two-dimensional 64 gray scale is determined to be displayed content dynamic display content directly go to step 3; If the color range is not less than 64 or a two-dimensional gray scale, the 断待显示内容为静态显示内容,进入步骤2 ; 步骤2 :所述驱动控制电路停止向所述动态视频显示模块供电,所述动态视频显示模块关闭而整体呈现为黑色,作为所述静态图像显示模块的黑色背板,同时,所述驱动控制电路通过对所述静态图像显示模块中的电极进行控制,将待显示内容显示在所述静态图像显示模块上,然后停止向所述静态图像显示模块供电,待显示内容保持已显示状态,随后返回步骤1,进入下一待显示内容的显示过程; 步骤3 :所述驱动控制电路通过对所述静态图像显示模块中的电极进行控制,使所述静态图像显示模块整体呈现为全透明状态,同时,所述驱动控制电路通过对所述动态视频显示模块的控制,将待显示内容显示在所述动态视频显示模块上,随后返回步骤1,进入下一待显示内容的显示过程。 Off the display contents to be displayed as static content, proceeds to step 2; Step 2: The driving control circuit stops the power supply module to display the motion video, the video display module is closed and the dynamic presentation of the entire black display as the static image black backplane module, while the drive electrodes by the control circuit module for controlling the still image display, display contents to be displayed on the still image display module and module to stop displaying the static image power supply, has been shown to be displayed content holding state, and then returns to the step 1, the process proceeds to the next content to be displayed on the display; step 3: the drive control circuit through the electrode module in still image display control, the still image display is rendered integral module completely transparent state, while the drive control circuit by the control module of the dynamic video display, display contents to be displayed on said display dynamic video module, then returns to step 1, the next a process of displaying the content to be displayed.
10. 一种基于权利要求7所述的混合型显示器实现的动静态图像显示方法,其特征在于:该方法包括以下步骤: 步骤I :对接收到的待显示内容进行识别,具体为: 步骤1-1 :判断待显示内容的文件格式:如果是明显的动态显示格式,则判断待显示内容为动态显示内容而直接转到步骤2;如果不是明显的动态显示格式,则继续下一步骤1-2 ; 步骤1-2 :判断待显示内容的图像变化率:如果其图像变化率大于等于设定阈值,则判断待显示内容为动态显示内容而直接转到步骤2 ;如果其图像变化率小于设定阈值或无变化,则不能确定是动态显示内容还是静态显示内容,继续下一步骤1-3 ; 步骤1-3 :判断待显示内容的色彩范围:如果色彩范围为大于二维或大于64灰阶,则判断待显示内容为动态显示内容而直接转到步骤2 ;如果色彩范围为小于等于二维或不高于64灰阶,则判 10. An image display based on static and dynamic method of claim 7, the hybrid type display implemented claims, characterized in that: the method comprises the following steps: Step I: displaying the received content to be identified, specifically: Step 1 -1: determining a file format of contents to be displayed: if the apparent dynamic display format, the content is determined to be displayed as the dynamic display content directly to step 2; if not significant dynamic display format, proceed with the next step 1- 2; step 1-2: rate of change in the image content is determined to be displayed: an image if it is equal to the rate of change is greater than the threshold value, it is determined that the contents to be displayed as the dynamic display content directly to step 2; if it is less than the rate of change in the image provided predetermined threshold value or no, can not determine the display content is dynamic or static display contents, proceeds to the next step 1-3; step 1-3: determining the color range to be displayed content: if the color range of greater than 64 or greater than a two-dimensional gray order, it is determined that the contents to be displayed as the dynamic display content directly to step 2; if the color range is not less than 64 or a two-dimensional gray scale, the penalty 待显示内容为静态显示内容,进入步骤2 ; 步骤2 :确定显示待显示内容的子显示模块的数量和位置,然后进入步骤3 ; 步骤3 :开始进行图像显示,具体为: 若待显示内容判断为静态显示内容,则:对于该静态显示内容对应的所述动态视频显示模块中的子显示模块来说,所述驱动控制电路停止向该子显示模块供电,该子显示模块关闭而呈现为黑色,作为静态图像显示的黑色背板;同时,对于该静态显示内容对应的所述静态图像显示模块中的子显示模块来说,所述驱动控制电路通过对该子显示模块的电极进行控制,将待显示内容显示在该子显示模块上,然后停止向该子显示模块供电,待显示内容保持已显示状态;随后返回步骤1,进入下一待显示内容的显示过程; 若待显示内容判断为动态显示内容,则:对于该动态显示内容对应的所述静态图像显示模 To be displayed content static display content, proceeds to step 2; Step 2: determining the display to be displayed contents of a sub-display the number and position of the module, and then proceeds to step 3; Step 3: Start the image display, in particular: determining if to be displayed content static display, then: for the static display dynamic video content corresponding to the display sub-module of the display module, the control circuit stops the driving power to the display sub-module, the sub-display module presented close to black black backsheet displayed as a still image; the same time, the static display of the static image contents corresponding to the display sub-module is a display module, the drive circuit is controlled by the control sub-module of the display electrodes, the display content to be displayed on the sub display module, and stops power supply to the display sub-module, it has been shown to be displayed content holding state; then returns to step 1, the process proceeds to the next content to be displayed; determining if the dynamic content to be displayed display, then: for the dynamic display of the static image contents corresponding to the display mode 块中的子显示模块来说,所述驱动控制电路通过对该子显示模块的电极进行控制,使该子显示模块呈现为全透明状态;同时,对于该动态显示内容对应的所述动态视频显示模块中的子显示模块来说,所述驱动控制电路通过对该子显示模块的控制,将待显示内容显示在该子显示模块上;随后返回步骤1,进入下一待显示内容的显示过程。 Block sub display module, the control circuit driving the display electrode through the sub-modules is controlled such that the display sub-module is rendered completely transparent state; the same time, the content corresponding to the dynamic display dynamic video display sub-module display module, the control circuit by the drive control module of the sub-display, display contents to be displayed on the sub display module; then returns to step 1, the process of entering the display contents to be displayed next.
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