Source: https://patents.google.com/patent/EP2340474B1/en
Timestamp: 2019-08-18 18:54:12
Document Index: 550204935

Matched Legal Cases: ['art 102', 'art 102', 'art 106', 'art 102', 'arts 102', 'arts 102', 'art 102', 'art 106', 'art 102', 'art 102', 'art 106', 'art 102', 'art 154', 'art 152', 'art 154', 'art 152', 'art 152', 'art 152', 'art 152', 'art 154', 'art 154', 'art 152', 'art 152', 'art 154', 'art 152', 'art 154', 'art 152', 'art 154', 'arts 152', 'arts 152', 'art 102', 'art 106', 'art 102', 'art 106', 'art 102', 'art 202', 'art 206', 'art 202', 'art 206', 'art 202', 'art 206', 'art 202', 'art 206', 'art 202', 'art 202', 'art 206', 'art 206', 'art 202', 'art 206', 'art 202', 'art 302', 'art 306', 'art 302', 'art 306', 'arts 302', 'arts 302', 'arts 302', 'arts 302', 'arts 302', 'art 306', 'arts 302', 'art 306', 'art 306', 'art 302', 'art 306', 'art 306', 'art 302', 'art 302', 'art 36', 'art 306', 'art 302', 'art 302', 'art 302', 'art 306', 'art 306', 'art 306', 'art 306', 'art 306', 'art 302', 'art 302', 'art 306', 'art 302', 'art 302', 'art 306', 'art 302', 'art 302', 'art 302', 'art 302', 'art 306']

EP2340474B1 - Apparatus for a portable electronic device - Google Patents
Apparatus for a portable electronic device Download PDF
EP2340474B1
EP2340474B1 EP20090809375 EP09809375A EP2340474B1 EP 2340474 B1 EP2340474 B1 EP 2340474B1 EP 20090809375 EP20090809375 EP 20090809375 EP 09809375 A EP09809375 A EP 09809375A EP 2340474 B1 EP2340474 B1 EP 2340474B1
EP20090809375
EP2340474A4 (en
EP2340474A1 (en
2008-08-29 Priority to PCT/EP2008/061439 priority Critical patent/WO2010022796A1/en
2008-12-19 Priority to US12/339,386 priority patent/US8385992B2/en
2009-08-05 Application filed by Nokia Technologies Oy filed Critical Nokia Technologies Oy
2009-08-05 Priority to EP20090809375 priority patent/EP2340474B1/en
2009-08-05 Priority to PCT/FI2009/050648 priority patent/WO2010023354A1/en
2011-07-06 Publication of EP2340474A1 publication Critical patent/EP2340474A1/en
2012-04-04 Publication of EP2340474A4 publication Critical patent/EP2340474A4/en
2015-04-29 Publication of EP2340474B1 publication Critical patent/EP2340474B1/en
The present disclosure relates to the field of user interfaces, and more particularly, to apparatus having a plurality of user interfaces that are exposed when the apparatus is in different configurations, associated methods, computer program products and apparatus.
Certain disclosed aspects/embodiments relate to portable electronic devices, in particular, so-called hand-portable electronic devices which may be hand-held in use (although they may be placed in a cradle in use). Such hand-portable electronic devices include so-called Personal Digital Assistants (PDAs).
The portable electronic devices/apparatus according to one or more disclosed aspects/embodiments may provide one or more audio/text/video communication functions (e.g. tele-communication, video-communication, and/or text transmission (Short Message Service (SMS)/ Multimedia Message Service (MMS)/emailing) functions), interactive/non-interactive viewing functions (e.g. web-browsing, navigation, TV/program viewing functions), music recording/playing functions (e.g. MP3 or other format and/or (FM/AM) radio broadcast recording/playing), downloading/sending of data functions, image capture function (e.g. using a (e.g. in-built) digital camera), and gaming functions.
Mobile telephones are known that include a top layer, a middle layer and a bottom layer that are slidably suspended from one another. The top layer can move between a retracted position in which a first keypad on the middle layer is covered and to a first extended position in which the first keypad is exposed. The top layer can also move to a second extended position in which a second keypad on the middle layer is exposed. Such a layered mobile device is disclosed in WO 2007/140911 (Nokia Corporation).
Another type of mobile device comprising movable elements is disclosed in GB 2 350 516 .
In a first aspect, there is provided an apparatus for a portable electronic device, the apparatus comprising a base member means, means for receiving user input comprising a QWERTY input means, and means for providing user output, characterised in that the apparatus configured to provide a first configuration in which the means for receiving user input is housed between the base member means and the means for providing user output, wherein the means for receiving user input and the means for providing user output are configured to slide in opposing directions with respect to the base member between the first configuration and second configuration and to overhang the base member in the second configuration, and wherein the means for providing user output is configured to be used both in the first configuration and second configuration.
The QWERTY input means may be activated for use on the means for receiving user input when the apparatus is in the second configuration, and may not be activated for use when the apparatus is in the first configuration. This can provide efficient use of overheads/resources, including power consumption as the means for receiving user input may not use power when it is unavailable for use, for example when it is concealed from a user of the apparatus.
Providing apparatus with user interfaces in this way can provide a convenient and efficient use of the user interfaces in different modes of operation. In addition, the apparatus may be economically sized and proportioned and still be capable of efficiently displaying information to a user and enabling a user to interact with the apparatus.
The apparatus may comprise mutually perpendicular longitudinal and lateral axes. The means for receiving user input may comprise a QWERTY input means configured to extend parallel to the longitudinal axis. The apparatus may be configured such that, in the second configuration, the means for receiving user input and the means for providing user output are configued to slide along the lateral axis. The QWERTY input means of the user,input may be for use with the landscape mode of use of the means for providing user output. The means for providing user output may be configured to align user output for viewing in an orientation in which the top of the user output is aligned with the longitudinal axis in the portrait mode of use.
The means for providing user output may be configured to align user output for viewing in an orientation in which the top of the user output is aligned with the lateral axis in the landscape mode of use.
The apparatus may comprise a motion coupler coupled between the means for receiving user input and the means for providing user output. The motion coupler may be configured to apply a force to the means for receiving user input when an external force is applied to the means for providing user output to change the configuration of the apparatus. The force applied to the means for receiving user input may be in the opposite direction to the force applied to the means for providing user output.
The motion coupler may comprise one or more rack and pinion mechanisms. The one or more rack and pinion mechanisms may be geared such that one of the user interfaces is configured to move faster than the other user interface.
The motion coupler may comprise: a first pin connected to the base; a second pin connected to the means for receiving user input; and a lever pivotally connected to the means for providing user output, wherein the lever comprises one or more slots configured to accommodate the first and second pins, such that movement of the lever about its pivot point as the apparatus changes configuration causes movement of the means for receiving user input and means for providing user output in opposite directions.
The apparatus may comprise two motion couplers, one on each side of the first and second parts.
The means for providing user output may be configured to conceal all of the means for receiving user input, or substantially all of the means for receiving user input, when the apparatus is in the first configuration.
All, or substantially all, of the means for providing user output may be exposed when the apparatus is in the first configuration.
The base member may also be known as a housing, the means for receiving user input may be associated with a first part of a device, and the means for providing user output may be associated with a second part of a device. The apparatus may have three layers, a first layer comprising the base member/housing, a second layer comprising the means for receiving user input /first part, and a third layer comprising the means for providing user output /second part.
The first layer may be a bottom layer, the second layer may be a middle layer, and the third layer may be a top layer. The top, middle and bottom locations may be defined in relation to the depth of the device when it is in an in-use orientation. In some embodiments, the depth of the device may be considered as a Z direction, and the layers may be displaced relative to each other in the Z direction.
In some embodiments, the footprint of the base member, first part and second part may all be of a similar size. The footprint may be considered as the shape of a part in a lateral and longitudinal direction, which may also be known as the X and Y directions. Providing the base member, first part and second part with a similar footprint can enable a mono- block form-factor to be achieved when the apparatus is in the first configuration. A mono- block form-factor may be a mechanically strong form-factor.
Both the means for receiving user input and the means for providing user output may overhang the base member when the apparatus is in the second configuration. Approximately half of the means for receiving user input may overhang a first side of the base member when the apparatus is in the second configuration. Approximately half of the means for providing user output may overhang a second side of the base member when the apparatus is in the second configuration.
In some embodiments all, or only part, of the area of user interfaces associated with an apparatus can be exposed with a reduced travel of the first and second user interfaces relative to the base member. This can provide a mechanically strong/robust form-factor.
The means for providing user output may be configured to provide portrait and landscape modes of use. The first configuration may provide the portrait mode of use. The second configuration may provide the landscape mode of use.
In the second configuration, the user input and output interfaces have been slid along the lateral axis and the QWERTY input means of the user input may be for use with the landscape mode of use of the means for providing user output.
The means for providing user output may be configured to align user output for viewing in an orientation in which the top of the user output is aligned with the longitudinal axis in the portrait mode of use. The means for providing user output may be configured to align user output for viewing in an orientation in which the top of the user output is aligned with the lateral axis in the landscape mode of use.
The apparatus may comprise tilting means in order to tilt the means for receiving user input and the means for providing use output relative to each other to define a third configuration, wherein the third configuration is a further landscape mode of use. In some embodiments, in the third configuration, the means for receiving user input and the means for providing user output may be exposed.
The means for receiving user input may be an input and output interface, and may comprise a touch sensitive screen. The means for providing user output may be an input and output interface, and may comprise a touch sensitive screen:
There may be provided a device comprising an apparatus disclosed herein.
There may be provided a module for a device, the module comprising an apparatus disclosed herein.
There may be provided a method of assembling an apparatus disclosed herein.
There may be provided a method of assembling a device disclosed herein.
In one embodiment, an apparatus comprisesa housing; a first part comprising a first user interface; a second part comprising a second user interface; and a motion coupler coupled between the first part and the second part; wherein the apparatus is configured such that the first part and second part are laterally slidable relative to each other, and also laterally slidable relative to the housing, to define first and second configurations; the second user interface being exposed and the first user interface being concealed by the second part, when the apparatus is in the first configuration; the first and second user interfaces being exposed when the apparatus is in the second configuration; wherein the motion coupler is configured to apply a force to the second part when an external force is applied to the first part to change the configuration of the apparatus, wherein the force applied to the second part is in the opposite direction to the force applied to the first part.
The above summary is intended to be merely exemplary and non-limiting
Figures 1a-1c illustrate a device according to an embodiment of the invention;
Figures 2a-2b illustrate a device according to another embodiment of the invention;
Figures 3a-3c illustrate a mechanism according to an embodiment of the invention; and Figures 4a-4d illustrate a further embodiment of a mechanism according to an embodiment of the invention.
Embodiments described herein include apparatus having a user input interface and a user output interface. In some embodiments, the user input interface is associated with a first part of a device and the user output interface is associated with a second part of the device. The user input interface and user output interface are slidable relative to each other, and also relative to a base member of the device to define first and second configurations of the apparatus.
The user input interface can include a QWERTY input that can extend laterally from the apparatus in order to provide convenient apparatus for receiving user input when the apparatus is in the second configuration.
The user output interface can provide portrait and landscape modes of use dependent upon the configuration of the user input interface and the user output interface. In a first configuration, the user input interface is housed between the base member and the user output interface, and the user output interface provides a portrait mode of use. In a second configuration, the user input and output interfaces have been slid in opposing directions with respect to the base member and the user output interface provides the landscape mode of use.
Providing the user interfaces in this way can enable the apparatus to be used in a relatively compact first configuration whereby the base member, user input interface and user output interface are provided all on top of each other. The apparatus can also be used in the second configuration wherein the user input interface and user output interface have been slid apart to increase the total user interface area. The second configuration may be mechanically robust as the base member may support both of the user input interface and user output interface.
Apparatus described herein can provide a portable electronic device with a robust form-factor both in an "open" and "closed" configuration.
Figure 1 illustrates three different views of a portable electronic device 100 according to an embodiment of the invention. In this embodiment, the device 100 is a mobile telephone. Figure 1a shows a plan view of the device 100 in a first/closed configuration, Figure 1b shows a plan view of the device 100 in a second/open configuration, and Figure 1c shows a perspective view of the device 100 in the second/open configuration.
When the device is in the closed configuration as in Figure 1a, a first user output interface 104 is visible to a user. The first user output interface 104 is located on a first part 102 of the device. The first part 102 is positioned above a second part (not shown in Figure 1a, but shown as reference 106 in Figure 1b), which is positioned above a base member (not shown in Figure 1a, but shown as reference 110 in Figure 1b). The first part substantially covers the second part 106, which substantially covers the base member 110. When the device 100 is in the closed configuration, it has a mono-block form-factor, and can be used for making and receiving calls using the microphone 114 and speaker 112. The device 100 may also have physical push buttons (not shown in this embodiment) on the first part 102 for operating the device.
In the first configuration, the user input interface 108 is housed between the base member 110 and the user output interface 104. In this embodiment, the user output interface may be configured for a portrait mode of use, as may be considered typical for a mono-block form-factor mobile telephone. The portrait mode of use may be considered as one where the information displayed on the user output interface 104 runs from top to bottom along a longitudinal axis 101 of the device.
Figures 1b and 1c show the device 100 in a second, open configuration. In order to transition from the first configuration to the second configuration, the first and second parts 102, 106 are laterally slid apart relative to each other, and at the same time, the two parts 102, 106 are laterally slid away from a base member 110.
When the device 100 is in the open configuration, the first user output interface 104 on the first part 102 is visible to a user, and a second user input interface 108 on a second part 106 of the device 100 is also visible to the user. The second user interface 108 has been exposed/uncovered from beneath the first part 102.
As can be seen more clearly in Figure 1c, the first part 102 and the second part 106 of the device 100 are slid apart relative to a base member 110 in order to expose the second user interface 108 from underneath the first part 102.
The user output interface 104 may be configured for a landscape mode of use when the device is in the second/open configuration. This may be a convenient layout for displaying information to a user of the device 100 whilst they can provide input to the device via the user input interface 108. The landscape mode of use may be considered as one where the information displayed on the user output interface 104 runs from side to side along a lateral axis 103 of the device, that is the user output interface moves parallel to axis 101.
It will be appreciated that the user input and output interfaces 104, 108 described herein can each be configured for both input and output, and may include a display screen, a touch sensitive display screen, a QWERTY keyboard, one or more buttons that can be pressed by a user, and any combination thereof.
Although not illustrated in Figure 1, it will be appreciated that the device 100 may have a controller that can provide output to cause information to be displayed on one or more of the user input and output interfaces 104, 108.
The controller may have one or more inputs configured to receive a signal from a transducer representative of the configuration of the device. For example, the output signal of the transducer may provide an indication of whether the device 100 is in an open or closed configuration. A first operating mode may be associated with the device being in a first configuration, and a second operating mode may be associated with the device being in a second configuration.
Figure 2 illustrates a device 150 according to a further embodiment of the invention. The device comprises a base member 160, on top of which is slidably mounted a second part 154 having a user input interface, on top of which is slidably mounted a first part 152 having a user output interface 156.
Figure 2a shows the device 150 in a closed configuration, whereby the base member 160, second part 154 and first part 152 are all stacked on top of each other such that the base member 160 and first part 152 house the second part 152. In particular, the first part 152 conceals a user interface 158 associated with the second part 154.
Each of the base member 160, second part 154 and first part 152 have similar lateral and longitudinal dimensions, which may be considered as dimensions in the X and Y direction, such that the closed configuration represents a mono-block form factor. Although in this embodiment, a user output interface 156 associated with the first part 152 displays information to a user in a landscape orientation, other embodiments of the user output interface 156 may be configured to display information to a user in a portrait orientation.
Figure 2b shows the device 150 in an open configuration. When the device 150 is in the open configuration, the second part 154 and first part 152 have been laterally slid in opposing directions relative to the base member 160. In this way a user input interface associated with the second part 154 has been exposed, and in this example the user input interface is a QWERTY keyboard 158. The QWERTY keyboard may be displayed on a touch sensitive screen, or may comprise physical push buttons. A QWERTY input may be known as a keymat.
As the first part 152 and second part 154 have been slid apart, they are both still supported by the base member 160. In this embodiment, approximately half of each of the first and second parts 152, 154 overhang the sides of the base member 160 such that the other halves of the first and second parts 152, 154 are still located over the base member 160 such that they can benefit from the mechanical support offered by the base member 160.
In this example, the device 150 has a lateral width of 50 millimeters, and each of the first and second parts have a lateral distance of travel of 20 millimeters in order to expose the user interface associated with the second part.
Further advantages associated with embodiments of the invention can include that at least one user interface is always visible to a user, and therefore the user can view information on a user interface, and in some embodiments provide input through the user interface, independent of the configuration of the device. This can provide the user with flexibility to expose and obscure different user interfaces depending upon their needs. For example, if they want to view more than one set of information at the same time, but doing so on a single user interface would not be possible/would not provide sufficient resolution, then they can change the configuration of the device so that two user interfaces are visible. The second user interface could also be exposed by opening the device when a user wants to run a different application to that being displayed on the first user interface.
As will be described in relation to the embodiments of a mechanism illustrated in Figures 3 and 4, in order for a user to change the configuration of a device according to embodiments of the invention, they need only apply a force to the first part 102 of the device 100 in the desired direction. When such an external force is applied by a user, a motion coupler according to an embodiment of the invention is configured to cause the second part 106 of the device 100 to move in the opposite direction to the first part 102. In this way, the motion coupler may be considered as applying an internal force to the second part 106 of the device 100 when an external force is applied to the first part 102 of the device 100.
Figure 3 illustrates an embodiment of a motion coupler/mechanism according to an embodiment of the invention. In this example, the motion coupler is a rack and pinion mechanism.
The device 200 illustrated in Figure 3a includes a base member 210, a first part 202 and a second part 206. The device 200 illustrated in Figure 3 is shown upside down compared to an in-use orientation in order to better illustrate the mechanism. The base member 210 is shown on top of the device 200 in Figure 3.
The mechanism/motion coupler comprises a gear wheel/pinion 220 mounted on a pin 222, and the pin 222 is attached to the base member 210. The gear wheel 220 can freely rotate around the pin 222 as the configuration of the device 200 changes. The mechanism also comprises a first rack portion 224 that is associated with the first part 202 of the device 200 and is configured to engage/mesh the gear wheel 220 on one side. The mechanism also includes a second rack portion 226 that is associated with the second part 206 of the device 200 and is configured to engage/mesh the gear wheel 220 on the opposite side to the first rack portion 224. It will be understood that movement of one rack portion will therefore cause movement of the other rack portion.
Figure 3a illustrates the base member 210, first part 202 and second part 206 of the device 200 in a closed configuration wherein the base member 210, first part 202 and second part 206 are all located on top of each other. Figure 3b also illustrates the device 200 in a closed configuration, but this time the base member 210 (and associated pin 222) is not shown in order to better illustrate the mechanism in use.
Figure 3c illustrates the apparatus of Figure 3b in an open configuration. In order to change the configuration of the device from the closed configuration illustrated in Figure 3b to the open configuration illustrated in Figure 3c, the user applies a force to the first part 202 to move the first part 202 away from the base member 210 in a lateral direction. A user applied force may be considered as an external force.
The user applied force causes the first rack portion 224 to move past the gear wheel 220, thereby causing the teeth of the first rack portion 224 to rotate the gear-wheel. As described above, the gear-wheel 220 is also engaged with the second rack portion 226 associated with the second part 206 such that as the gear-wheel 220 rotates, the second rack portion 226 moves in the opposite direction to the first rack portion 224, thereby causing the second part 206 to move in the opposite direction to the first part 202.
The rack and pinion mechanism may be considered as applying an internal force to the second part 206 as the first rack portion 224 associated with the first part 202 moves past the gear-wheel 220.
In some examples, a single gear may be used such that the two modules/parts (which may be a display and keymat) move at the same rate. In other embodiments, more than one interlocking or concentric gears can be used to change the ratio of travel of the two modules/parts.
Figure 4 illustrates a further embodiment of a motion coupler/mechanism fitted to a device 300 according to an embodiment of the invention.
Figure 4a shows the device 300 with the base member 310, first part 302 and second part 306 all visible. In order to more closely show operation of the mechanism, Figures 4b, 4c and 4d do not include the base member 310 and its associated pin (330).
The mechanism includes a first pin 330 that is connected to the base member 310. The first pin 330 is configured to maintain a desired position of the base member 310 relative to the first part 302 and the second part 306 of the device 300 in operation. In this example, the base member 310 is kept in the middle (in a lateral direction) of the first and second parts 302, 306. The base member 310 can provide support for the two parts 302, 306, especially when the device 300 is in the open configuration, and providing the base member centrally with regard to the first and second parts 302, 306 can enable the maximum offset/overhang of the two parts 302, 306 in relation to the base member 310 to be reduced, and in some embodiments to be kept to a minimum whilst still providing full exposure of the user interfaces associated with the first and second parts 302, 306.
In some embodiments, the apparatus can enable all of the user interface associated with the second part 306 to be exposed in the open configuration without requiring undue overhang of the first and second parts 302, 306 over the sides of the base member 310. Reducing the overhang can improve the mechanical strength of the device 300.
The mechanism also includes a second pin 332 that is connected to the second part 306 of the device 300.
Pivotally connected to the first part 306 of the device 300 is a lever 334. The lever 334 is pivotally connected at pivot point 340 to a corner of the first part 302. The lever 334 is pivotally connected to the first part such that it is positioned between the second part 306 and the housing 310 so that it can interact with the first and second pins 330, 332 as described below. In some embodiments, the second part 306 is smaller than the first part 302 such that the lever 334 can be pivotally connected to a region of the first part 302 that overlaps the second part 36.
In this embodiment, the second part 306 is longitudinally shorter than the first part 302 and the lever 334 is pivotally connected to a corner of the first part 302 that is at a longitudinal end of the first part 302 that overlaps a longitudinal end of the second part 306. In this way the lever can be located on top of (in Figure 4) the second part 306 such that it is located between the second part 306 and the base member 310.
The second part 306 includes a cut-out region 342 that confines the scope of movement of the lever 334. The cut-out region 342 is etched into the second part 306 to provide a recess in which the lever 334 can move, as discussed below.
The lever 334 has a first longitudinal slot 336 that accommodates the first base member pin 330 in use, and a second longitudinal slot 338 that accommodates the second part pin 332. It will be appreciated that the slots, 336, 338 in the lever 334 can accommodate movement of the pins 330, 332 along the length of the slots as the configuration of the device 300 is changed and the lever 334 pivots about its pivot point 340.
Figure 4b shows the device 300 with the mechanism in a first, closed configuration.
Figure 4c shows the same device 300 in a half-open/half-closed configuration. As shown in Figure 4c, an external user applied force has been applied to the first part 302 in a lateral direction. As the lateral force is applied to the first part 302, the pivotally connected lever 334 is caused to rotate about its pivot point 340 in order to retain the first base member pin 330 in the first longitudinal slot 336. When the lever 334 rotates in this way, it applies a force to the second part pin 332 that causes the second part 306 to move in the opposite direction to the first part 302. In this way, the user applied, external force applied to the first part 302 causes the mechanism to apply an internal force to the second part 306 that causes the first and second part 302, 306 to move in opposing directions with respect to the base member. An internal force may be considered as one that is provided by the mechanism/apparatus in response to a user applied external force.
As well as the lever pivoting about pivot point 340 relative to the first part, it may also be considered to pivot about the base member pin 330 such that the region of the lever to one side of the pin 330 applies a force to one part 302, 306 and the region of the lever to the other side of the base member pin 330 applies a force to the other part 302, 306. Figure 4d illustrates the device 300 in a fully open, second configuration whereby the first part 302 has reached a maximum extent of its travel as defined by one or more of the cut-out 342 in the second part 306 and/or the length of the slots 336, 338 in the lever 334.
In some embodiments, the ratio of the movement of the two parts can be modified by changing the lever and pin geometry. After a sliding mechanism described herein, the apparatus could be configured to provide a tilting mechanism in order to tilt the display/user output interface.
In some embodiments, when the display module of the device is slid open, a mechanism (there are several possibilities of mechanism including gears, levers, over-centre springs and magnets) forces the keymat module toward the user. The reverse happens when the screen is slid closed.
In some embodiments, the distance moved by the slide can be the same as the size of the keymat that is revealed.
It will be appreciated to the skilled reader that the apparatus/device/server and/or other features of particular apparatus/device/server may be provided by apparatus arranged such that they become configured to carry out the desired operations only when enabled, e.g. switched on, or the like. In such cases, they may not necessarily have the appropriate software loaded into the active memory in the non-enabled (e.g. switched off state) and only load the appropriate software in the enabled (e.g. on state). The apparatus may comprise hardware circuitry and/or firmware. The apparatus may comprise software loaded onto memory. Such software/computer programs may be recorded on the same memory/processor and/or on one or more memories/processors.
While there have been shown and described and pointed out fundamental novel features of the invention as applied to preferred embodiments thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices and methods described may be made by those skilled in the art without departing from the scope provided by the claims. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. Furthermore, in the claims means-plus-function clauses are intended to cover the structures described herein as performing the recited function and not only structural equivalents, but also equivalent structures. Thus although a nail and a screw may not be structural equivalents in that a nail employs a cylindrical surface to secure wooden parts together, whereas a screw employs a helical surface, in the environment of fastening wooden parts, a nail and a screw may be equivalent structures.
An apparatus for a portable electronic device (100), the apparatus comprising a base member means (110), means for receiving user input (108) comprising a QWERTY input means (158), and means for providing user output (104), characterised in that the apparatus configured to provide a first configuration in which the means for receiving user input (108) is housed between the base member means (110) and the means for providing user output (104), wherein the means for receiving user input (108) and the means for providing user output (104) are configured to slide in opposing directions with respect to the base member means (110) between the first configuration and second configuration and to overhang the base member means (110) in the second configuration, and wherein the means for providing user output (104) is configured to be used both in the first configuration and second configuration.
The apparatus of claim 1, wherein the QWERTY input means (158) is activated for use on the means for receiving user input (108) when the apparatus is in the second configuration, and is not activated for use when the apparatus is in the first configuration.
The apparatus of claim 1, comprising a motion coupler (220, 224, 226) coupled between the means for receiving user input (108) and the means for providing user output (104), wherein the motion coupler is configured to apply a force to the means for receiving user input (108) when an external force is applied to the means for providing user output (104) to change the configuration of the apparatus, wherein the force applied to the means for receiving user input (108) is in the opposite direction to the force applied to the means for providing user output (104).
The apparatus of claim 3, wherein the motion coupler (220, 224, 226) comprises one or more rack and pinion mechanisms (224, 226).
The apparatus of claim 3, wherein the motion coupler (220, 224, 226) comprises:
a first pin (330) connected to the base (310);
a second pin (332) connected to the means for receiving user input (108); and
a lever (334) pivotally connected to the means for providing user output (104), wherein the lever comprises one (336) or more slots (338) configured to accommodate the first and second pins (330, 332), such that movement of the lever about its pivot point (340) as the apparatus changes configuration causes movement of the means for receiving user input (108) and the means for providing user output (104) in opposite directions.
The apparatus of claim 1, wherein the means for providing user output (104) is configured to conceal the means for receiving user input (108) when the apparatus is in the first configuration.
The apparatus of claim 1, wherein all of the means for providing user output (104) is exposed when the apparatus is in the first configuration.
The apparatus of claim 7, wherein approximately half of the means for receiving user input (108) overhangs a first side of the base and approximately half of the means for providing user output (104) overhangs a second side of the base when the apparatus is in the second configuration.
The apparatus of claim 1, wherein the means for providing user output (104) is configured to provide portrait and landscape modes of use, wherein the first configuration provides the portrait mode of use, and the second configuration provides the landscape mode of use.
The apparatus of claim 9, wherein in the second configuration, the means for receiving user input (108) and the means for providing user output (104) are configured to slide along the lateral axis (103), and the QWERTY input means (158) of the means for receiving user input (108) is for use with the landscape mode of use of the means for providing user output.
The apparatus of claim 9, wherein the means for providing user output (104) is configured to align user output for viewing in an orientation in which the top of the user output is aligned with the longitudinal axis (101) in the portrait mode of use or aligned with the lateral axis in the landscape mode of use.
The apparatus of claim 1, further comprising tilting means in order to tilt the means for receiving user input (108) and the means for providing user output (104) relative to each other to define a third configuration, wherein the third configuration is a further landscape mode of use.
The apparatus of claim 1, wherein at least one of the means for receiving user input (108) and the means for providing user output (104) is an input and output interface, and comprises a touch sensitive screen.
EP20090809375 2008-08-29 2009-08-05 Apparatus for a portable electronic device Active EP2340474B1 (en)
PCT/EP2008/061439 WO2010022796A1 (en) 2008-08-29 2008-08-29 Device with auto-slide keypad
US12/339,386 US8385992B2 (en) 2008-12-19 2008-12-19 User interfaces and associated apparatus and methods
EP20090809375 EP2340474B1 (en) 2008-08-29 2009-08-05 Apparatus for a portable electronic device
PCT/FI2009/050648 WO2010023354A1 (en) 2008-08-29 2009-08-05 User interfaces and associated apparatus and methods
EP2340474A1 EP2340474A1 (en) 2011-07-06
EP2340474A4 EP2340474A4 (en) 2012-04-04
EP2340474B1 true EP2340474B1 (en) 2015-04-29
ID=41720874
EP20090809375 Active EP2340474B1 (en) 2008-08-29 2009-08-05 Apparatus for a portable electronic device
EP (1) EP2340474B1 (en)
KR (1) KR101251233B1 (en)
CN (1) CN102138115B (en)
RU (1) RU2476921C2 (en)
TW (1) TW201015423A (en)
WO (1) WO2010023354A1 (en)
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2009-08-05 CN CN 200980133374 patent/CN102138115B/en active Search and Examination
2009-08-05 EP EP20090809375 patent/EP2340474B1/en active Active
2009-08-05 WO PCT/FI2009/050648 patent/WO2010023354A1/en active Application Filing
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RU2011111183A (en) 2012-10-10
EP2340474A4 (en) 2012-04-04
RU2476921C2 (en) 2013-02-27
WO2010023354A1 (en) 2010-03-04
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KR101251233B1 (en) 2013-04-08
TW201015423A (en) 2010-04-16
EP2340474A1 (en) 2011-07-06
CN102138115B (en) 2014-03-19
US7079872B2 (en) 2006-07-18 Portable device having rotatable display
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