JP2005107326A - Display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To observe different pieces of information by utilizing the entire part of one display picture without requiring the operation to switch pictures and without forming multi-pictures. <P>SOLUTION: The display device includes: a liquid crystal panel (a display section) 110 which is a dot matrix type in a display form; an image data source in which the prescribed image data is stored; and a display control means which reads out the image data from the image data source and drives the liquid crystal panel 110. The display picture 111 of the liquid crystal panel 110 is virtually divided into a plurality of lines L 1 to Ln; different images, for example, a background image and a clock image are displayed in the odd lines and even lines, respectively; and a slit plate 120 is arranged at either on the observation surface side or counter observation surface side of the liquid crystal panel 110. The display device is so constituted that, for example, the background image is observed at a specific first angle and that the clock image is observed at a specific second angle by changing the relative angles of the display picture 111 and a line of vision E. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a display device, and more particularly to a display device particularly suitable for a mobile phone that can observe different displays depending on the viewing angle.

  The progress of mobile phones has been remarkable, and recently, models equipped with two screens of a main display panel and a sub display panel are becoming mainstream. On the other hand, the display form of the display device using the liquid crystal panel has been devised in various ways, and one of them is a three-dimensional image (stereoscopic image) that can be seen with a parallax barrier method and a lenticular lens. (See Non-Patent Document 1 for the parallax barrier method).

  In any case, the display screen can be switched arbitrarily according to the button (or key) operation, but it is possible to observe different information on one display screen without performing such a switching operation. There is a multi-screen that divides a screen into a plurality of pieces and displays different information on each of the divided screens.

  However, when different information is displayed on a single display screen, in models with restrictions on the size and the number of pixels, such as a display panel for mobile phones, the split screen display becomes smaller and the resolution is reduced when the screen is made multi-screen. Since it falls, it is not preferable.

“Theory of Parallels Barriers”, J.A. SMPTE, vol. 59, no. 7, pp 11-21, 1952

  Accordingly, an object of the present invention is to provide a display in which different information can be observed using one entire display screen without requiring a screen switching operation by a button or a key, or without using a multi-screen. To provide an apparatus.

  In order to solve the above-described problems, the present invention provides a display unit whose display form is a dot matrix type, an image data source source storing predetermined image data, and reading image data from the image data source source to In the display device including the display control means for driving the display unit, the image data source source stores at least two kinds of original image data having different display information, and the direction connecting the eyes of the observer is the row direction. The display control means virtually divides the display screen of the display unit into a plurality of lines with a width of a predetermined number of pixels, and stores at least two types of original image data stored in the image data source source. Data corresponding to the divided odd rows is partially read out from one original image data, and data corresponding to the divided even rows is read out from the other original image data. The original image data and the other original image data are alternately displayed on the display screen of the display unit, and either the observation surface side or the counter-observation surface side of the display unit is displayed. And a slit plate formed by alternately arranging light-shielding portions and light-transmitting portions formed along the row direction with a predetermined width.

  According to this configuration, for example, an odd-numbered row image can be observed by viewing the display screen at a specific first angle, and by changing the angle to a specific second angle, for example, an even-numbered row image Can be observed.

  In the present invention, it is preferable from the viewpoint of visibility that the width of the light shielding portion is larger than the width of the light transmitting portion. The slit plate may be a fixed slit, but is preferably a switching liquid crystal panel that can be electrically formed and erased in order to provide a variety of displays.

  In the present invention, any of STN liquid crystal panel, TFT liquid crystal panel, and organic LED panel can be adopted as the display unit, and it is possible to use either monochrome display or color display. Further, either a transmission type having a backlight or a reflection type having a light reflection film may be used. The present invention is particularly suitable as a display device for a mobile phone.

  According to the present invention, the display screen is virtually divided into a plurality of lines and different information (for example, a background display image and a clock display image) is displayed on each of the odd and even lines, and the display unit is observed. For example, a background display image can be observed at a specific first angle by changing the relative angle between the display screen and the line of sight by disposing a slit plate on either the surface side or the anti-observation surface side. On the other hand, for example, a clock display image can be observed at a specific second angle. Therefore, there is provided a display device capable of observing different information by using the entire display screen without requiring a screen switching operation with a button or key or without making a multi-screen.

  Next, embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited thereto.

  First, FIG. 1 shows an example in which the present invention is applied to a sub display panel 10 of a mobile phone. The sub-display panel 10 is for a so-called incoming call waiting screen. By changing the angle of the line of sight E to view the sub display panel 10, for example, a background image showing the seaside landscape shown in FIG. 2A at the first line-of-sight angle position θ1. P1 is observed, and a clock image P2 shown in FIG. 2B is observed at the second viewing angle position θ2.

  FIG. 3 shows an exploded perspective view of the sub display panel 10, and FIG. 4 shows a control drive system 20 thereof. The sub display panel 10 includes a liquid crystal panel 110 and a slit plate 120 as a basic configuration. In this example, the sub display panel 10 is a transmission type, and further includes a backlight 130.

  The liquid crystal panel 110 may be any of an STN liquid crystal panel, a TFT liquid crystal panel, and an organic LED panel as long as the display form is a dot matrix display, and may be monochrome display or color display. The backlight 130 is preferably a thin sidelight type or EL light emitting panel.

  The control drive system 20 shown in FIG. 4 includes an image data source 210, a CPU 220 as a central processing means, and a drive circuit 230 that actually drives the liquid crystal panel 110. Note that a microcomputer may be used as the CPU 220. The image data source 210 stores the image data of the original image A of the background image P1 and the original image B of the clock image P2.

  In displaying the background image P1 and the original image B of the clock image P2 on the liquid crystal panel 110, the CPU 220 sets a plurality of rows L in the display screen 111 of the liquid crystal panel 110 with the direction connecting the eyes of the observer as the row direction. This is virtually divided into (L1 to Ln).

  That is, each of the lines L1 to Ln is parallel to the direction connecting the eyes of the observer, and is horizontal when the display screen 111 is viewed straight (when viewed from the front). The division width (the width of one row) is preferably one pixel in the dot matrix display from the viewpoint of display resolution, but may be a plurality of pixels.

  In the slit plate 120, light transmitting portions 121 and light shielding portions 122 are alternately formed so as to correspond to the respective rows L1 to Ln in the display screen 111. In this example, the light transmission part 121 and the light shielding part 122 have the same width and the arrangement pitch is equal to the division width of the display screen 111. It is preferable to make the width of the light shielding part 122 larger than the width of the light transmission part 121 so that the original image A and the original image B can be separated and observed with good visibility. Further, it is preferable that the total of the width of the light transmitting portion 121 and the width of the light shielding portion 122 at this time is equal to the width of two pixels on the display screen 111.

  The slit plate 120 is disposed at a predetermined interval with respect to the liquid crystal panel 110. As in this example, when the liquid crystal panel 110 is a transmission type, the slit plate 120 is on either the observation surface side (front surface side) or the counter observation surface side (between the liquid crystal panel 110 and the backlight 130). Although it may be arranged, in the case of a reflection type, it is arranged on the observation surface side of the liquid crystal panel 110.

  In this example, the slit plate 120 is a fixed slit, but a switching liquid crystal panel (not shown) is used for the slit plate 120, and the CPU 220 controls the switching liquid crystal panel to electrically connect the light transmitting portion 121 and the light shielding portion 122. It can also be formed / disappearable.

  Next, the operation of the present invention will be described with reference to FIG. The CPU 220 virtually divides the original image A and the original image B in the image data source source 210 in correspondence with the respective lines L1 to Ln of the display screen 111 as shown in FIGS.

  For example, for the original image A, the odd-numbered image data A1, A3, A5... Are read, and for the original image B, the even-numbered image data B2, B4, B6. As a result, a composite image in which the odd-numbered rows are the original image A and the even-numbered rows is the original image B is displayed on the display screen 111 of the liquid crystal panel 110 as shown in FIG.

  Therefore, as shown in FIG. 6A, for example, if the even-numbered rows of the display screen 111 and the light transmission portions 121 of the slit plate 120 are overlapped without positional displacement, the display screen 111 is viewed from the frontal position. 2B is observed by the original image B, and the background image P1 shown in FIG. 2A by the original image A is observed when the display screen 111 is viewed obliquely. Will be.

  Further, as shown in FIG. 6B, the viewing angles of the background image P1 and the clock image P2 are adjusted by relatively shifting the display screen 111 and the slit plate 120 in the vertical direction (vertical direction). Can do. The original image of the incoming call display image is included in the image data source 210, and when there is an incoming call, either the background image P1 or the clock image P2 can be switched to the incoming call display image.

  In the present invention, the display resolution of the liquid crystal panel 110 is preferably 100 dpi (100 dots per inch) or more, and the display examples of FIGS. 2A and 2B have 6RGB colors having 128 RGB × 128 pixels. This is a case where a switching liquid crystal panel in which ITO wiring is formed at a pitch of 0.18 mm is disposed on the back side of an STN liquid crystal panel capable of color display (division pitch 0.18 mm, display resolution 140 dpi) to form a slit. .

  When a switching liquid crystal panel is used as the slit plate 120, the original image A, B or other original image (for example, the incoming display image) is displayed on the liquid crystal panel 110 as it is, with the slit appropriately disappeared and the entire surface as a light transmission part. Can be made.

  In order to do the same with the fixed slit, the slit plate 120 may be detachable as illustrated in FIG. Although not shown, a pair of rolls may be provided on both sides of the liquid crystal panel 110 so that a sheet on which a fixed slit portion and an opening having a size corresponding to the display screen 111 are formed can be rolled up.

  In the above embodiment, the case where the two original images A and B are combined on the display screen 111 of the liquid crystal panel 110 has been described. However, for example, three original images A, B, and C can also be combined. In this case, among the plurality of lines divided in the display screen 111, the original image A is assigned to the 3n + 1 line, the original image B is assigned to the 3n + 2 line, and the original image C is assigned to the 3n + 3 line (where n is 0). Including integer).

  As with the above embodiment, the slit plate 120 may have a configuration in which the light transmission portions 121 and the light shielding portions 122 are alternately arranged at a division pitch of the display screen 111, but the liquid crystal panel 110 in the vertical direction (vertical direction). As for the relative position, only the original image A can be visually recognized at the specific first visual angle position, only the original image B can be visually recognized at the specific second visual angle position, and the specific third visual angle position. Then, the original image C is arranged so that only the original image C is visible.

  The display device of the present invention is suitable as a sub display panel of the mobile phone described in the above embodiment, but can be widely applied to display devices other than the mobile phone as well as the main display panel of the mobile phone. .

The perspective view which shows the external appearance of the mobile telephone provided with the display apparatus by this invention as a sub display panel. The screen figure which illustrated two display screens visually recognized at a different angle of the above-mentioned sub display panel. The disassembled perspective view which shows the said sub display panel. The block diagram which shows the control drive system of the display apparatus of this invention. Explanatory drawing which shows the procedure which synthesize | combines two original images in this invention. The operation explanatory view of the present invention. The schematic diagram which shows another embodiment of this invention.

Explanation of symbols

10 Sub display panel (display device)
DESCRIPTION OF SYMBOLS 110 Liquid crystal panel 111 Display screen 120 Slit board 121 Light transmission part 122 Light-shielding part 130 Backlight 20 Control drive system 210 Image data source source 220 CPU
230 Driving circuit P1 Background screen P2 Clock screen

Claims (6)

A display unit having a dot matrix type display; an image data source source storing predetermined image data; and display control means for reading the image data from the image data source source and driving the display unit. In the display device,
The image data source source stores at least two types of original image data having different display information, and the display control means sets the display screen of the display unit to a predetermined direction with the direction connecting the eyes of the observer as the row direction. Are divided into a plurality of rows with a width in units of the number of pixels of the original image data of at least two types of original image data stored in the image data source source, and the divided odd rows Is partially read out, and the data corresponding to the divided even rows is partially read out from the other original image data, and the one original image data and the other original image data are displayed on the display screen of the display unit. The original image data is displayed alternately, and the light-shielding part and the light-transmitting part formed along the row direction on either the observation surface side or the counter-observation surface side of the display part are alternately arranged with a predetermined width. Display device characterized by comprising placing a slit plate formed with an array.   The display device according to claim 1, wherein a width of the light shielding portion is larger than a width of the light transmitting portion.   The display device according to claim 1, wherein the slit plate is a switching liquid crystal panel that can be electrically formed and erased.   4. The display device according to claim 1, wherein the display unit is formed of any one of an STN liquid crystal panel, a TFT liquid crystal panel, and an organic LED panel.   5. The display device according to claim 1, wherein the display unit is either a transmissive type having a backlight or a reflective type having a light reflecting film. 6.   The display device according to claim 1, wherein the display unit is used for a mobile phone.

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