Apparatus and method for preventing an unintentional activation of a mobile communication device

A mobile communication device and a method of operating the same to prevent unintentional activation thereof. In one embodiment, the mobile communication device includes: (1) a first body part, (2) a second body part, (3) a slider mechanism configured to slidably attach the second body part to the first body part, the second body part movable at least from a first position to a second position with respect to the first body part by means of the slider mechanism and (4) a lock configured to lock the second body part in the first position.

TECHNICAL FIELD OF THE INVENTION

The present invention is directed, in general, to mobile communication devices and, more particularly, to an apparatus and method for locking mobile communication devices to prevent unintentional activation.

BACKGROUND OF THE INVENTION

A constant trend in the mobile communication market is the ongoing development towards miniaturization. However, operability requires certain minimum sizes for components with which a user must interact, such as its keypad or display. Therefore, certain designs of mobile communication devices include folding or sliding mechanisms. These designs allow smaller sizes when the device is not in operation and can also provide an additional protection for keypad and display.

For example, U.K. Patent Application GB2235606A is directed to a portable telephone provided with an extending sleeve-like portion mounted for longitudinal slidable movement between a retracted position when not in use and an extended position for use. The extending portion can be adapted to conceal selected keys of a keypad in the retracted position to prevent accidental actuation of the these keys. U.K. Patent Application GB2235606A is directed to a retaining structure for holding the extending portion in the retracted position. When a release button is pressed, the extending portion is automatically moved to the extended position under the action of a spring.

U.K. patent application GB2235606 is directed to a release mechanism. Unfortunately, its design is such that it is vulnerable to opening by itself, for example when being carried in a rucksack together with other things. Other slider mechanisms adapted for manually performing the sliding movement, have the same problem.

This is not a minor problem, because when an electronic device is activated, its power consumption increases. For example, when a portable telephone is activated, its backlight typically turns on, resulting in a dramatically increased power consumption. Since the sliding mechanism typically is adapted to conceal the keypad or parts thereof, unintentional opening of the slider mechanism can also result in unintentional depressing of keys and unintended activation of functions. Unwanted calls to emergency response numbers may even result.

U.S. Pat. No. 5,241,583 is directed to a portable radio telephone provided with an electronic keypad lock function for disabling the keys to prevent accidental actuation. The keypad is disabled and enabled by performing a predetermined order of keystrokes. The patent also discloses a variation in which the keypad automatically unlocks upon detecting an incoming call.

Disabling the keypad, however, does not solve the problem of increased power consumption due to a backlight switched on by an accidentally opening slider mechanism. What is needed in the art is a fundamentally new way to lock mobile communication devices to prevent unintentional activation.

SUMMARY OF THE INVENTION

To address the above-discussed deficiencies of the prior art, the present invention provides, in one aspect, a mobile communication device. In one embodiment, the mobile communication device includes: (1) a first body part, (2) a second body part, (3) a slider mechanism configured to slidably attach the second body part to the first body part, the second body part movable at least from a first position to a second position with respect to the first body part by means of the slider mechanism and (4) a lock configured to lock the second body part in the first position.

In another aspect, the present invention provides a method of controlling a lock of a mobile communication device having a first body part, a second body part, and a slider mechanism configured to slidably attaching the second body part to the first body part, the second body part movable at least from a first position to a second position with respect to the first body part by means of the slider mechanism, the lock configured to lock the second body part in the first position. In one embodiment, the method includes: (1) detecting an incoming call and (2) disabling the lock in response to a detected incoming call.

DETAILED DESCRIPTION

Described herein is one aspect of the present invention that takes the form of a mobile communication device, in particular a mobile telephone, a personal digital assistant (PDA) or a multimedia digital assistant (MDA). In one embodiment, the mobile communication device includes a first body part, a second body part, a slider mechanism for slidably attaching the second body part to the first body part and the lock for locking the second body part in the first position. The second body part is movable at least from a first position to a second position with respect to the first body part by means of the slider mechanism.

In one embodiment, the first position is a retracted position resulting in smaller device dimensions compared to the second position. In the retracted position, a display or keypad or parts thereof are concealed for protection or for preventing unintentional actuation. In this embodiment, the second position is an extended position allowing full use of the keypad and the display.

For practical purposes the locking mechanism advantageously includes a stop for blocking the slider mechanism. However, depending on the design of the slider mechanism also any other suitable kind of stop can be provided. The lock may further include a spring mechanism, for instance for exerting force on the stop.

In a first embodiment described below in conjunction withFIGS. 1A,1B,2A and2B, the lock is a mechanical lock including a user-operable mechanical switch. The user-operable mechanical switch may be a micro-slider switch. The user-operable mechanical switch is arranged on the side of the mobile communication device for single-hand operation.

For preventing unintentional operation, the user-operable mechanical switch may be configured to be operated only by application of a given minimum force provided by, for example, a sufficiently high frictional resistance as the switch is moved by the user.

In order to enable alternative operation with the right or left hand of a user, the user-operable mechanical switch may include at least two operating elements. For practical purposes, these elements may be arranged on opposite sides of the device.

In a second embodiment described below in conjunction withFIGS. 3 and 4, the lock is an electromechanical lock that includes an electric motor and a controller for controlling the electric motor. In the second embodiment, the lock can include a stop for blocking the slider mechanism. In this embodiment, however, the stop is advantageously coupled with the electric motor, thus enabling automatic movement of the stop controlled by the controller.

The lock may be manually operable by user input via a keypad of the mobile communication device. In such case, part of the keypad may remain exposed when the second body part is in the first position. Alternatively, an additional button for engaging the lock may be provided.

In one embodiment, the controller is configured to detect an incoming call and automatically disable the lock in response to a detected incoming call. Thereby the second body part can be slid from the first position into the second position without any further ado in case of an incoming call.

The inventive mobile communication device may be further provided with a keypad lock. Accordingly, the controller advantageously is configured to disable at least part of the keys of the keypad. The controller may be further configured to automatically interrupt disablement of the keypad in response to detecting the incoming call.

The lock for blocking the slider mechanism may be associated with the keypad lock. In such case, software in the mobile communication device may implement a the keypad lock function. Locking the slider mechanism together with the keypad with advantage can be selected in a menu of a Man-Machine Interface (MMI) of the mobile communication device, thereby enabling single hand operation.

The mobile communication device may be configured both to disable the lock of the slider mechanism and interrupt disablement of the keys of the keypad when an incoming call is detected.

Described herein is another aspect of the present invention that takes the form of a method for controlling the lock of a mobile communication device. As above, the mobile communication device has a first body part, a second body part a slider mechanism for slidably attaching the second body part to the first body part and a lock configured to lock the second body part in the first position. The second body part is movable at least from a first position to a second position with respect to the first body part by means of the slider mechanism. The method includes detecting an incoming call and disabling the lock in response to the detected incoming call.

The mobile communication device may be provided with a user-activatable function for disabling at least part of the keys of the keypad, in which case the method further includes interrupting key disablement in response to the detected incoming call.

A mobile communication device that already is provided with a keypad lock software configured to disable the keypad lock upon sensing an incoming call can be adapted to conform to the principles of the present invention by coupling the keypad lock software with an embodiment of the lock and slider mechanism described herein.

The method described above may be carried out by software stored in a digital storage medium, e.g., a chip, and executed in a processor, e.g., a microprocessor. Of course, the method may alternatively be carried out in dedicated hardware.

Referring initially toFIG. 1A, illustrated is a schematic front view of a first embodiment of a mobile communication device constructed in accordance with the principles of the present invention and having a mechanical lock and a second body part in an extended position. InFIG. 1A, the mobile communication device is a mobile telephone1. The mobile telephone1is provided with a first body part10and a second body part20, which are slidably attached to one another. The mobile telephone1is further provided with a display50and a keypad including a first portion42and a second portion44. A mechanical micro-slider switch30, located at a side of the mobile telephone1, blocks a slider mechanism (not shown inFIG. 1A, but referenced inFIG. 1Bas54) by which the first and second body parts10and20are attached to one another. InFIG. 1Athe second body part20is in an extended position with respect to the first body part10. A side view is given inFIG. 1B.

Turning now toFIG. 2A, illustrated is the mobile telephone1ofFIGS. 1A and 1Bwith the second body part20in a retracted position with respect to the first body part10. InFIG. 2A, it is evident that a portion44of the keypad is concealed when the second body part is in the retracted position, thereby protecting this part of the keypad against external influences. A portion42of the keypad, though, is still accessible by the user for activating certain functions of the mobile telephone1.FIG. 2Bshows a side view of the retracted position.

FIGS. 3 to 6show alternative embodiments of an inventive mobile communication device that differ in the design of the lock for locking the first and second body parts10and20in a given position with respect to each other. Shown are only schematic inside views, since the outward appearance of the different embodiments is substantially identical to the first embodiment shown inFIG. 1A,1B,2A and2B.

FIG. 3shows a schematic inside view of the second body part20of the mobile telephone1. In the embodiment ofFIG. 3, the lock for blocking the slider mechanism includes a micro-slider switch30, to which a lever34with a spring mechanism is coupled. By manually moving the micro-slider switch30in a longitudinal direction parallel to the main axis of mobile telephone1, the lever34is moved to either block or liberate the slider rail60(not shown inFIG. 3), by which the second body part20is attached to the first body part10.

FIG. 4shows mobile telephone2, which is provided with two interconnected micro-slider switches30and32for operating lever34. This embodiment is particularly advantageous if it is desired to allow usage with either the left or the right hand of the user.

FIG. 5shows a schematic inside view of the second body part20of the mobile telephone3, which is provided with an electro-mechanical lock for locking the slider mechanism. In the embodiment ofFIG. 5, the mobile telephone3is also provided with a keypad lock software for at least partially disabling the keys of a keypad. The keypad lock software controls via controller90a small electrical motor70which is coupled to a stop80. The motor70moves the stop80to block the slider rail60if the slider mechanism is closed, i.e., the second body part is in the retracted position.

FIG. 6shows a further embodiment, in which the mobile telephone4is provided with two slider rails62,64for attaching the second body part20to the first body part10. The electric motor70in this embodiment moves two stops82,84for blocking both slider rails62,64. Similar to the embodiment shown inFIG. 5, the electrical motor70is controlled via the controller90by a keypad lock software implemented in the mobile telephone4. In case of an incoming call the keypad lock is removed and the slider rails62,64are liberated so that the slider mechanism can be operated without any further procedure.

Turning now toFIG. 7, illustrated is a flow diagram of one embodiment of a method of automatically unlocking a mobile communication device carried out according to the principles of the present invention. The method begins in a start step710, wherein the mobile communication device is locked. In a step720, the mobile communication device detects an incoming call. In a step730, the lock is automatically disabled in response to the detected incoming call, liberating the slider mechanism to allow the user to place the mobile communication device in the extended position. In a step740, any disablement of the keypad is interrupted in response to the detected incoming call, leaving the keypad activated for the user's benefit. The method ends in an end step750, the mobile communication device having been automatically unlocked.

Although the present invention has been described in detail, those skilled in the pertinent art should understand that they can make various changes, substitutions and alterations herein without departing from the spirit and scope of the invention in its broadest form.