The invention relates to a display unit comprising a flexible display having a depicting side for depicting visual information, the flexible display being deformable between a storage state wherein the flexible display is in a deformed position, and a depicting state wherein the depicting side of the flexible display is substantially flat, is visible from an exterior point of view and it is possible to control the visual information content on the depicting side.
Patent publication WO 2006/061786 discloses a flexible display on which visual information, e.g. e-mail messages, can be depicted. The display can be deformed between two states, viz. the depicting state for reading the display and the storage state for storing the display. In the depicting state the depicting side of the display is substantially flat, is visible from an exterior point of view with respect to the display unit and it is possible to control the content of the depicting side, so that a user can read information that is depicted on the display. In the storage state, the flexible display has been deformed to a compact volume, e.g. by rolling or wrapping the display and can be protected against external mechanical influences. If the depicting side of the flexible display is substantially inwardly oriented, in the storage state, that side is invisible from the exterior point of view.
However, for viewing information shown by the display unit on an active way, the flexible display has to be deformed from the storage state to the depicting state which is not convenient for a user who wants to regularly check information of the display unit, such as status information of a device or whether new messages have been received by a mobile device.
It is an object of the invention to provide a display unit according to the preamble wherein a user can more readily check information of the display.
According to a first aspect of the invention, there is provided a display unit comprising a flexible display having a depicting side for depicting visual information, the flexible display being deformable between a storage state wherein the flexible display is in a deformed position, and a depicting state wherein the depicting side of the flexible display is substantially flat, is visible from an exterior point of view and it is possible to control visual information content on the depicting side, wherein the display unit is further such arranged that the flexible display is deformable between the storage state and the depicting state to at least one additional state wherein a part of the depicting side of the flexible display is substantially flat, is visible from the exterior point of view and it is possible to control visual information content of that part on the depicting side.
According to a second aspect of the invention, there is provided a display unit comprising a flexible display having a depicting side for depicting visual information, the flexible display being deformable between a storage state wherein the flexible display is in a deformed position and a depicting state wherein the depicting side of the flexible display is substantially flat, visible from an exterior point of view and it is possible to control the visual information content on the depicting side, the unit further comprising a projector for at least partially projecting the depicting side of the flexible display to a substantially transparent part of the display unit that is visible from the exterior point of view.
The invention is based on the inventive insight to depict information on a depicting side of the flexible display that is visible from the exterior point of view when the flexible display is not in the depicting state, so that a user of the display unit according to the invention does not need to deform the flexible display from the storage state entirely to the depicting state, thereby saving time for deforming the display. The user can thus have in a convenient way a fast view on information of the display unit though the flexible display is not in the depicting state. Further, the life time of the display unit is lengthened, as the number of actions to deformation the flexible display towards the depicting state is reduced.
In a first embodiment, the flexible display is deformable to at least one additional state between the storage state and the depicting state, in the at least one additional state a part of the depicting side of the flexible display being substantially flat, is visible from the exterior point of view and it is possible to control visual information content on that part of the depicting side. By controlled depicting visible information in the at least one additional state, a user of the unit can retrieve visible information quickly by a reduced deformation action of the flexible display from the storage state.
In a second embodiment, the display unit further comprises a projector for at least partially projecting the depicting side of the flexible display to a substantially transparent part of the display unit that is visible from the exterior point of view. By introducing the substantially transparent part of the display unit and the projector, visible information can advantageously be shown to a user, even when the flexible display is not in the depicting state, but in another state, such as the storage state or the at least one additional state. By projecting the visible information on the substantially transparent part, a user does not need to deform the flexible display at all, e.g. for a fast information view, thereby further improving an information check performance of the display unit. As overall less deformation actions of the flexible display have to be performed, also the life time of the display unit further extends. In addition, a yet further display that is always visible is not required anymore.
According to a third aspect of the invention, there is provided a method of depicting information on a depicting side of a flexible display of a display unit, the flexible display being deformable between a storage state wherein the flexible display is in a deformed position, and a depicting state wherein the depicting side of the flexible display is substantially flat, visible from an exterior point of view and it is possible to control the visual information content on the depicting side, the method comprising the step of depicting information on only a part of the depicting side of the flexible display when the flexible display has been deformed to an additional state between the storage state and the depicting state.
According to a fourth aspect of the invention, there is provided a method of depicting information on a depicting side of a flexible display of a display unit, the flexible display being deformable between a storage state wherein the depicting side of the flexible display is in a deformed position, and a depicting state wherein the depicting side of the flexible display is substantially flat, visible from an exterior point of view and it is possible to control the visual information content on the depicting side, the method comprising the step of at least partially projecting the depicting side of the flexible display to a substantially transparent part of the display unit that is visible from the exterior point of view.
According to a fifth aspect of the invention, there is provided a computer program product comprising computer readable code causing a computer to perform a method of depicting information on a depicting side of a flexible display of a display unit, the flexible display being deformable between a storage state wherein the flexible display is in a deformed position and a depicting state wherein the depicting side of the flexible display is substantially flat, visible from an exterior point of view and it is possible to control the visual information content on the depicting side, the method comprising the step of depicting information on only a part of the depicting side of the flexible display when the flexible display has been deformed to an additional state between the storage state and the depicting state.
According to a sixth aspect of the invention, there is provided a computer program product comprising computer readable code causing a computer to perform a method of depicting information on a depicting side of a flexible display of a display unit, the flexible display being deformable between a storage state wherein the flexible display is in a deformed position, and a depicting state wherein the depicting side of the flexible display is substantially flat, visible from an exterior point of view and it is possible to control the visual information content on the depicting side, the method comprising the step of at least partially projecting the depicting side of the flexible display to a substantially transparent part of the display unit that is visible from the exterior point of view.
In order that the invention may be more fully understood, embodiments thereof will now be described by way of example only, with reference to the figures in which:
a shows a simplified schematic plan view of the display unit of
b shows a simplified schematic plan view of the display unit of
c shows a simplified schematic plan view of the display unit of
a shows a cross sectional side view of a further embodiment of the display unit according to the invention;
b shows a top view of the display unit of
c shows a cross sections side view of a further embodiment of the display unit according to the invention.
The figures are merely schematic views of preferred embodiments according to an embodiment of the invention. In the figures, the same reference numbers refer to equal or corresponding parts.
It is noted that the flexible display 2 can also be implemented rollable otherwise, e.g. around an external cylinder. It is further noted that with the expression ‘inwardly oriented’ is meant that the normal vector of the surface points to the interior of the display unit. Finally, it is noted that on alternative way the flexible display can be rolled with the depicting side substantially outwardly oriented.
The display unit 1 shown in
a, 3b, 3c show a simplified schematic plan view of the display unit 1 of
In the intermediate state, shown in
In the depicting state, shown in
Preferably, the display unit 1 is arranged such that the flexible display 2 is more or less secured in the intermediate state to provide a stable mechanical state of the unit 1. Thereto, the unit further comprises a stabilizer for enabling a stable mechanical position of the flexible display after deformation to the at least one additional operating state. It is noted that a corresponding rollable display can also be arranged such that the intermediate state is more or less stable, e.g. by providing more or less telescoping supporters having an intermediate stable position.
The additional state is for use in crowded environments and for having a good grip on the unit 1. Possible applications, that can be used in the intermediate, partial unwrapped state, are consulting sms and/or e-mail messages, phone contact list, and mp3 play list and volume control.
The display 2 comprises rigid and flexible sections to facilitate deformation of the display 2. In particular, the curved sections of the flexible display 2 in
Curve end points 8, 9, 12 are provided with a deformation detector for detecting the deformation of the flexible display 2 to the at least one additional state and for generating a detecting signal. By providing a deformation detector the state of the flexible display 2 can be determined, especially which depicting side area of the display 2 is visible from the exterior point 10.
Optionally, the display unit further comprises a display processor that is arranged to control visual information adapted for the at least one additional state of the flexible display 2. In particular, the display processor is arranged to control visual information on a substantially flat and visible part of the flexible display 2 from the exterior point 10 in response to a detecting signal of the orientation detector. In this way, the visual information is automatically shown on the visible part of the display 2 after performing the first unwrapping action. Alternatively, the visual information is shown on the visible part upon an additional user action, e.g. via a user interface.
It is noted that the process of depicting the visual information can be caused by hardware components and/or by software.
Further, the deformation detectors can be provided with lock and/or unlock functionality or another appropriate user interface action, such as page up/page down, see below.
The deformation detectors can each be implemented in various manners, among others as a:
(i) Hall sensor generating a signal proportional to the distance of magnet to the sensor when the magnet is close enough. The sensor can typically be integrated in the border edge around the display 2;
(ii) potential meter integrated in the curving zones in order to detect the position of the curving zone by a resistance measurement circuit, being an analogue measurement of the curving state of a flexible section and can optionally also be used to detect intermediate states during (un)wrapping actions;
(iii) light sensor detecting if a part of the display is unwrapped, being a typical digital measurement integrated in the border edge of the display;
(iv) pull strip or piezo element, the ‘pull strip’ changing its resistance depending on the strain (elongating or compressive) exerted on the strip. The strip can be integrated in the curved sections of the display 2. The piezo element works in a similar manner;
(v) reed relais being a digital switch that can be switched by a magnetic field. The reed relais can be integrated in the border edge of the display 2.
As a result, the deformation detectors can comprise an electronic measurement sensor and/or a magnetic field sensor.
In
In terms of functionality, a simple user interface can be added on the kernel 5 that is brought in the partially unwrapped state. This user interface can be dedicated for use of the partially unwrapped display part. As an example, it can be a simple four-way button that can be used to scroll through item lists on the display.
Further, in terms of functionality, a keyboard can be added. This is in particular advantageous as the unit in its partially unwrapped state is an ideal configuration for typing as the user can hold the unit in this configuration in an easy way in on or both hands. This would make the partially unwrapped state the ‘typing mode’ of the unit and the completely unwrapped state the ‘reading mode’. The applications could be configured in such a way that they automatically switch to the typing mode when the user switches to the partially unwrapped state. For example, when reading e-mail, going the partially unwrapped state automatically triggers the reply action. The same can be done in the sms application. The keyboard can also contain four navigation keys for navigation to an on-screen list of items.
In general, user interface elements can be located on a front and/or back surface of the flexible display, on or opposite to the depicting side, on side sections, on a top and/or on a bottom section of the display unit 1.
Practically, a user interface can be implemented by adding a display 14 with touch screen 15 to the unwrapped part of the device body, as shown in
As a further option, a wrap/unwrap action can also be used for interacting with the display 2. Especially the partially unwrapped state is ideal for this kind of interaction as only one curved section between curve end points 8, 9 is in principle free to pivot in that state. Moving the free display end 7 towards the wrapped state P1 by a certain number of degrees can, for example, be the page down action; moving the free display end the other way P2 can, for example, be the page up action, as shown in
In the partially unwrapped state, optionally a front light can be used, e.g. for use of the unit 1 during poor lighting conditions. In
In the intermediate state of the flexible display 2, a part of the depicting side, e.g. half of it, is not externally visible and therefore does not need to be updated by the unit 1. In general, the display comprises matrix pixels that are activated by column and row electrodes. Depending on the orientation, only a part of the column or row electrodes has to be used to show the visual information on the visible part of the display. Preferably, the visible part of the display is operated by a main display control processor, while the non-visible part of the display is operated by a separate display control processor, so that the separate display control processor can be switched off or turned to a zero volt state, thereby saving energy. After deforming the display in the depicting, the separate display control processor can be initialized for normal operation. Further, the amount of data that has to be sent to the display control processors is much less when only a part of the display has to be updated. This will also conserve energy.
It is noted that on alternative way the flexible display 2 can be wrapped with the depicting side substantially outwardly oriented with respect to the kernel 5 of the unit 1 with the same advantages of the additional state.
In
Optionally, a light source 19 can be added that creates a front light for the projected part of the display. The light source 19 might generate coloured or substantially white light. In
The additional display, that can be used as a preview screen, can be combined with a button functionality by making a button transparent. Alternatively a color filter, touch functionality of any other added feature could be added to the additional display that can be used for previewing actions. Alternatively or additionally with respect to a passive additional display, an active display can be provided for displaying information that is visible from the exterior point of view, e.g. information on a part of the depicting side of the flexible display. The active display can e.g. be arranged for displaying information when the display unit is in the intermediate state wherein a part of the depicting side of the flexible display is substantially flat or when the display unit is in the storage state.
In
It is noted that on alternative way the mirror can be oriented at an angle larger than approximately 45° with respect to the local orientation of the flexible display 2 or the angle can be adjusted by means of a button on the display unit 1, thus enabling a kind of zoom function.
Advantageously, the display unit 1 further comprises a processor that is arranged to depict visual information on the part of the depicting side of the flexible display 2 that is projected to the additional display 20, so that energy might be saved. The depicted and projected visual information might comprise e.g. on/off status of applications, receipt of SMS messages, etc.
By the embodiment of the display unit 1 shown in
While specific embodiments have been described above, it will be appreciated that the invention may be practiced otherwise than as described. The description is not intended to limit the invention. Any reference signs in the claims shall not be construed as limiting the scope.
Number | Date | Country | Kind |
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07103630.5 | Mar 2007 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/NL2008/050127 | 3/5/2008 | WO | 00 | 1/25/2010 |
Number | Date | Country | |
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60893293 | Mar 2007 | US |