Patent Grant
7232271
The present invention relates to a writing implement, and in particular a writing implement including detection means for detecting when the writing implement is in close proximity to a particular surface.
A great number of electronic devices utilise an input stylus in conjunction with an input screen as a means for inputting data to the electronic device. One such example is a personal digital assistant, PDA, in which an input stylus is used to input data by bringing the stylus into contact with a touch sensitive input screen. The stylus is used to either select one or more options from a menu displayed on the screen, or is used to directly input data, for example using handwriting or character recognition. A combination of input methods may of course be also used.
The input stylus used in such electronic devices does not operate as a conventional pen and can therefore only be used in conjunction with the intended input screen of the electronic device. Equally it is extremely undesirable to use conventional writing implements, such as a pen, for inputting data to such electronic devices instead of the provided input stylus. This is because not only is it clearly undesirable to deposit ink on the surface of the input screen, but also because the shape and construction of conventional pens make it very likely that they will damage the input screen if used as an input stylus.
This lack of cross functionality between a writing implement and input stylus is particularly disadvantageous for those users that use electronic devices requiring an input stylus at frequent intervals in a working day, but also make use of a conventional writing implement at other times. Such users therefore require two separate input devices, i.e. an input stylus and a conventional writing implement, and must ensure that they use the correct input device at the correct time. There is therefore a requirement for these users to continually swop between the two different types of input devices. Such users therefore perceive a need for an input device that may be used both as a conventional writing implement and as an input stylus suitable for use with a touch sensitive input screen.
Such an input device has been proposed in U.S. Pat. No. 6,050,735. This patent discloses a writing implement that includes an integrally formed stylus tip for inputting information into electronic devices. A conventional cartridge style pen with a push button spring actuator is provided with a stylus tip moulded into the writing end thereof. When the ink cartridge is retracted, the stylus tip is available for use. However, when the ink cartridge is extended, it extends beyond the stylus tip and can thus be used with writing media. A disadvantage with the writing implement described in U.S. Pat. No. 6,050,735 is that manual activation is required to retract the ink cartridge each time it is desired to use the stylus tip. This therefore does not remove the need for a user to remember to perform this manual operation before using the writing implement as an input stylus before inputting data into an electronic device. Should the user forget to retract the ink cartridge before using the writing implement as an input stylus then the same detrimental effects will occur as if a conventional writing implement had been used to input data to the electronic device. In this sense, the writing implement of U.S. Pat. No. 6,050,735 offers very little improvement to users over the use of separate writing implements and input styluses.
International patent application WO01/61636 discloses an electronic pen that includes an optical sensor that is capable of detecting an optical pattern on a specially formatted surface. This allows the position of the pen to be determined, which in turn allows either the pen to be used as a cursor control device or the pen strokes, and thus writing, to be recorded. Although this document discusses using the pen in a non-inking mode such that pen strokes are electronically recorded but no ink mark is made on the formatted surface, it does not contemplate automatically inhibiting ink flow when the pen is brought into contact with a particular surface. Hence the electronic pen disclosed in this application exhibits all of the disadvantages of the known prior art in respect of using the pen as both a writing implement and an input stylus. As no automatic selection of a non-inking mode is performed a user may still inadvertently use the pen as an input stylus whilst the pen is in an inking mode, thus potentially damaging the input screen being used.
According to the present invention there is provided a writing implement comprising: a writing tip arranged to deliver ink to a surface; a sensor arranged to detect when said writing tip is in proximity to a predetermined surface and, when said detection occurs, to generate a control signal; and a mode selection mechanism arranged, in response to said control signal, to automatically prevent said writing tip delivering ink to said predetermined surface.
It is therefore possible to provide a writing implement that combines the functionality of a conventional pen and the functionality of a input stylus whilst automatically detecting the nature of the surface which the writing implement is in proximity to and therefore selecting the appropriate function.
The term ‘ink’ is used throughout this specification in a generic sense to cover all writing media and therefore includes writing media such as pencil, crayon and gels as well as inks and other coloured fluids or colloids.
Preferably, the mode selection mechanism comprises a retractable stylus tip that is movable between an extended position in which the stylus tip extends beyond the writing tip, and a retracted position.
Alternatively or additionally, the mode selection mechanism may comprise an ink delivery mechanism arranged to prevent delivery of ink to the writing tip in response to the control signal. The ink delivery mechanism may comprise means for retracting the writing tip, or may comprise an ink reservoir arranged to be disengaged from fluid flow communication with said writing tip in response to the control signal thereby preventing ink being delivered to the writing tip. Alternatively, the writing tip may comprise a ball rotatably mounted within the writing tip, the ball being arranged to transfer ink to said surface. In such a case, the means for disabling the writing tip comprises ball restraining means arranged to prevent rotation of the ball.
Preferably, said predetermined surface comprises an input screen of an electronic device. The sensor may comprise a reflectance detector arranged to detect the higher reflectance associated with such input screens. Alternatively, the sensing mechanism may comprise means for detecting a electromagnetic field emitted from an electronic device. Alternatively, the sensing mechanism may include means for detecting polarised light emitted from an electronic device, a capacitive sensor for capacitively detecting the proximity of the electronic device or an inductive sensor.
Preferably, the writing implement includes a power source coupled to said sensing mechanism and said mode selection mechanism. Preferably, said mode selection mechanism is arranged to only draw power from said power source whilst moving said retractable stylus tip between the extended and retracted positions and vice versa. Alternatively or additionally, the mode selection mechanism may be arranged to draw power only when preventing ink flow to the writing tip.
Additionally or alternatively, the writing implement may further comprise manual activation means arranged to manually activate the input mode selection mechanism. The manual activation means may comprise a speech recognition unit, such that the input mode selection mechanism can be activated in response to spoken commands.
According to a second aspect of the present invention there is provided a writing implement in combination with an electronic device, electronic device having an input surface, wherein the writing implement comprises: a writing tip arranged to deliver ink to a writing surface; and a sensing mechanism arranged to detect when said writing tip is in proximity to the input surface of said electronic device and, when said detection occurs to generate a control signal.
Preferably, the electronic device has at least one unique characteristic and said sensing mechanism is arranged to detect the at least one unique characteristic and generate the control signal only when this detection occurs. The writing implement may thus be arranged to only be usable as an input stylus with a particular electronic device, such as a Personal Digital Assistant.
According to a third aspect of the present invention there is provided a method of using a writing implement as an input stylus on an input surface of an electronic device, the writing implement having a writing tip arranged to deliver ink to a surface, the method comprising: sensing the proximity of the writing implement to the input surface; and automatically preventing the writing tip delivering ink to the input surface.
The sensing step may comprise detecting reflected light from the input surface, detecting an electromagnetic field emitted from the input surface, or detecting polarised light emitted from the input surface.
Preferably, the step of preventing the writing tip from delivering ink to the input surface may comprise retracting the writing tip such that the writing tip is prevented from contacting the input surface, extending a stylus tip beyond the writing tip, or preventing fluid communication between an ink reservoir within the writing implement and the writing tip.
According to a fourth aspect of the present invention there is provided a writing implement comprising: a writing tip arranged to deliver ink to a surface; a sensing mechanism arranged to detect when said writing tip is in proximity to a predetermined surface and, when said detection occurs, to generate a control signal; and a warning mechanism arranged, in response to said control signal, to provide a warning signal indicative of the proximity of said writing tip to said surface.
Preferably, the warning signal comprises an audio and/or visual signal.
Embodiments of the present invention are described herein, by way of example only, with reference to the accompanying figures, in which:
An embodiment of the present invention is schematically illustrated in
In operation, the sensor 11 is arranged to provide a signal to the control circuitry 13 when the writing tip 3 of the writing implement 1 is brought into close proximity with the input screen of an electronic device of the type requiring an input stylus to be used in conjunction with the input screen for data entry. The control circuitry 13 is arranged to process the signal from the sensor 11 and to provide a control signal to the motor and gear box assembly 9. On receipt of the appropriate control signal, the motor and gear box assembly provide a rotational output to the threaded shaft 7. By means of a known mechanical linkage (not shown) the rotational movement of the threaded shaft 7 is converted into translational movement and this translational movement is imparted to the ink reservoir 5 and integral writing tip 3. The translational movement causes the writing tip 3 to be retracted within the body of the writing implement 1. This therefore allows the writing implement 1 to be used as an input stylus for the sensed electronic device.
Removal of the writing implement 1 from the proximity of the electronic device is also detected by the sensor 11 and causes a second control signal to be issued by the control circuitry 13 to the motor and gear box assembly 9 in order to rotate the threaded shaft 7 in the opposite direction and to therefore cause the ink reservoir 5 and writing tip 3 to be translated into the extended position as illustrated in
In preferred embodiments of the present invention, a latch mechanism is provided so as to latch the writing tip 3 in the retracted and extended positions. Provision of a latch mechanism has the consequence that power is only drawn from the power source 15 whilst the writing tip 3 is being moved from the extended position to the retracted position, or vice versa. This avoids unnecessary power drain of the power source 15. It will be appreciated by those skilled in the art that any suitable latching mechanism, either mechanical or electronic, may be utilised. However, in an embodiment of the type hereinbefore described, the resistance of a worm device to being back driven may be sufficient to prevent the need for a latch to be provided.
An enlarged view of the writing tip 3 and surrounding part of the writing implement 1 according to a preferred embodiment of the present invention is shown in
An enlarged view of the writing tip of a writing implement according to a further embodiment of the present invention is shown in
In a further alternative embodiment, the ink reservoir 5 may be movable with respect to the writing tip 3 such that a mechanism may be provided in an analogous manner to the mechanism shown in
Other features that may be included in embodiments of the writing implement according to the present invention may include visual and/or audible confirmation of the change of mode of operation. A manual switch may also be provided to actuate the change of mode of operation. This may be provided as a manual override switch, or may be integrated into specific grips provided on the body of the writing implement so as to initiate the change of mode of operation in response to a user changing the grip exerted on the writing implement, this being contemplated where the input stylus for a particular electronic device is used in such a manner that a different grip is adopted to that used for a conventional writing implement.
It will also be appreciated by those skilled in the art that although the above discussed embodiments utilise a motor and gear box assembly to effect the linear translation of either the writing tip 3 or stylus tip 20, other suitable mechanisms may be used. For example, the linear translation may be effected using a conventional solenoid. Equally, the worm gear and threaded shaft 7 may be substituted for a cam arrangement. The motor and gear box 9 may also be replaced by suitable pneumatic, hydraulic or piezoelectric mechanisms.
Furthermore, other embodiments of the writing implement according to the present invention may be realised in which the power source 15 is not required or at least not required to provide power for causing displacement of the writing tip or of a stylus. In such embodiments the necessary energy to cause the change of mode of operation maybe mechanically stored energy, for example such as that provided by a spring. For example, the user may be required to tension a spring by depressing a button or moving one of the writing tip or stylus to the ink delivery position prior to the change of mode of operation, such that when the writing implement is brought into proximity with an electronic device the stored energy from the spring is used to effect the change of mode of operation to the mode where delivery on ink is inhibited. The user is then required to re-tension the spring. This is considered to be still advantageous over the prior art because only a single manual operation is required. Alternatively, a clockwork mechanism may be provided which requires retensioning only occasionally.
It will also be appreciated by those skilled in the art that a number of different arrangements of sensors and control circuitry may be used within embodiments of the present invention. For example, it is known that the screens of electronic devices such as personal digital assistants emit an AC voltage/magnetic field that may be detected by a suitable sensor. It is further known that different electronic devices tend to emit characteristic AC voltage/magnetic fields which may therefore permit the writing implement of the present invention to be arranged to be operative only with specific electronic devices. Alternatively, the sensor may be arranged to detect differing reflectance associated with the screens of the electronic devices and the surface of a writing medium. To detect the reflectance from a surface the writing implement of the present invention would also require a light emitter to be mounted within it. The sensor would detect the difference in reflectance, i.e. the fact that the screen of an electronic device is likely to display a high degree of reflectance of incident light, whereas the generally matt surface of a writing medium will not exhibit a very high degree of reflectance. Further alternative sensing arrangements include detecting the presence of polarised light. The liquid crystal display screens of electronic devices, as an inevitable consequence of the use of LCD screens, emit polarised light whereas the light reflected from paper, for example, is not polarised. Furthermore detection schemes may involve the detection of infrared radiation emitted from the screen of an electronic device, the change in capacitive coupling that will occur when the writing implement is brought into proximity with an electronic device, or the change in local inductance, or radiation that will occur when the writing implement comes into proximity with an electronic device.
Other possible embodiments of the present invention include a writing implement having a sensor arrangement as previously discussed but arranged to simply provide an audible and/or visible warning to the user, and not to effect the change of mode of operation automatically. Additionally, the change of mode of operation may be instigated using speech recognition technology and a verbal command given by the user
| Number | Date | Country | Kind |
|---|---|---|---|
| 0129923.9 | Dec 2001 | GB | national |
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| 5434371 | Brooks | Jul 1995 | A |
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| Number | Date | Country |
|---|---|---|
| WO 0161636 | Aug 2001 | WO |
| Number | Date | Country | |
|---|---|---|---|
| 20030118391 A1 | Jun 2003 | US |
