JP2007329789A - Electronic device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain an electronic device which can automatically invalidate or restrict a predetermined key operation with a decision on the side of the device, without requiring specific key operation on the part of the user. <P>SOLUTION: When detecting a supply of power, a power detection functioning portion 201 turns into non-portable state a portable state notifier 221 to a processor functional portion 208. When the portable state notification 221 is switched from a portable state to the non-portable state, the processor functional portion 208 outputs an invalid general key operation that validates notification 230. A key operation detection functioning portion 212 prevents a general key operation notification 229 of a general operation key 106 from being outputted to the processor functional portion 208, based on the general key operation validating notification 230 indicated as being invalid. The device can prevent malfunction at accommodation which occurs due to a user's failure of making an electronic device key-lock state, and unauthorized usage by others. Furthermore, usability for the user can be improved. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a portable electronic device having a key lock function for restricting input from operation keys.

  As a portable electronic device having a key lock function, a mobile phone can be mentioned as a simple example. That is, conventionally, for example, in a mobile phone, in order to prevent a key from coming into contact with others when it is stored in a bag or a pocket and causing an erroneous operation, and to prevent unauthorized use by others, for example, By depressing a specific key on the mobile phone for a certain period of time or by combining multiple keys, you can disable input from the operation keys or input from the operation keys. There is a so-called key lock function that restricts the above, and various proposals have been made (for example, Patent Documents 1 to 3).

  That is, for example, in (Patent Document 1), a portable electronic device that is easy to use while reducing the cost and downsizing the device by enabling key lock setting with a simple operation without providing an operation key specifically for key lock. A key lock mode that disables input of a predetermined key operation when the above operation is canceled within a predetermined time range from the time when any two keys of the plurality of keys are simultaneously pressed to obtain a device. A technique capable of performing the setting is disclosed.

  In (Patent Document 2), a lid that can be opened and closed is provided, and in a mobile phone device configured to cover an operation button such as a numeric keypad when the lid is closed, the lid is provided at a position covered by the lid. Disclosed is a technique for invalidating a subsequent operation of an operation button provided at a position not covered by the opening / closing lid when a closing operation of the opening / closing lid is detected within a predetermined time after one of the operated buttons is operated. Has been.

Further, in (Patent Document 3), in a cellular phone such as a folding type or a flip type, a key lock operation can be performed in a stored state, and a key lock operation can be performed without taking it out even when stored in a pocket or the like. A technique is disclosed in which key lock can be performed by pressing at least one operation key that can be pressed even when the housing is closed in a predetermined pressing order for a predetermined number of times.
JP-A-8-321803 JP-A-9-266502 JP 2004-128780 A

  However, in the above-described key lock function according to the conventional technique, when the user activates the key lock function by performing a predetermined key operation, the predetermined key operation necessary for performing the lock operation is complicated. However, it is not always easy to use, and there is a problem that the user has trouble with and forgets the lock operation.

  The present invention has been made in view of the above, and obtains an electronic apparatus capable of automatically invalidating or restricting predetermined key operations based on determination on the apparatus side without requiring special user key operations. For the purpose.

  In order to achieve the above-described object, the present invention provides state detection means for detecting a portable state and a non-portable state in accordance with the presence or absence of external power supply or the presence or absence of installation on a cradle, and the state detection means Comprises a key lock means for disabling or restricting at least a part of key operation functions after detecting the non-portable state.

  According to this invention, the user is not carrying the electronic device, that is, the electronic device is supplied with power from the outside, or is in a non-portable state where it is installed on the cradle. Is detected, it automatically enters a key lock state in which at least some key operation functions are disabled or restricted. Therefore, since the state in which the user forgets the operation and the key is not locked is reduced, it is possible to prevent an erroneous operation at the time of accommodation and unauthorized use by others caused by the user not putting the electronic device in the key lock state. In addition, since it is not necessary to perform a complicated key lock operation, user convenience can be improved.

  According to the present invention, it is possible to prevent an erroneous operation at the time of accommodation that occurs when the user does not put the electronic device in the key lock state and an unauthorized use by others, and an effect that the convenience of the user can be improved. Play.

  Exemplary embodiments of an electronic apparatus according to the present invention will be described below in detail with reference to the drawings.

(Embodiment 1)
FIG. 1 is a perspective view showing an external configuration of a mobile phone as an electronic apparatus according to Embodiment 1 of the present invention. FIG. 2 is a block diagram showing an electrical configuration of the mobile phone shown in FIG.

  A cellular phone 100 as an electronic device shown in FIG. 1 inputs a transmission / reception antenna 102, a reception speaker 103, a display LCD 104, an incoming call response key 105, a general operation key 106, a transmission microphone 107, and external power to a telephone body 101. The external interface 108, the secondary battery 109, and the ringer 110 are arranged so as to function alone as a mobile phone in combination with the built-in electrical configuration shown in FIG. You can make calls using power.

  In FIG. 2, the power detection function unit 201 detects whether power supplied from the external interface 108 is supplied, and notifies the processor function unit 208 of a portable state notification 221 indicating “non-mobile” if power is supplied. At the same time, the supplied power is supplied to the charging power supply function unit 202, while if the power is not supplied, the portable function notification 221 indicating “mobile” is notified to the processor function unit 208.

  The charging power supply function unit 202 charges the secondary battery 109 with power input to the power detection function unit 201 and supplies power to the internal power supply function unit 203 that generates power to be used inside the main body. Note that the power detection function unit 201 and the charging power supply function unit 202 are shown here as separate function units for easy understanding, but can be incorporated into one function unit.

  The timer function unit 204 measures a predetermined time and, when completed, sends an expiration notification 222 to the processor function unit 208. The “predetermined time” in this case may be a preset fixed time that is measured in response to the activation instruction 223 from the processor function unit 208 or a predetermined time set from the timer setting function unit 205. .

  When the timer setting function unit 205 receives the setting request 224 for a predetermined time from the processor function unit 208, the timer setting function unit 205 instructs the timer function unit 204 to start and set the predetermined time.

  The processor function unit 208 reads / writes parameters 225 from / to the memory function unit 206, causes the memory function unit 206 to store parameters for a predetermined time set in advance by the user, and refers to the parameters stored in the memory function unit 206 Then, a setting request 224 for a predetermined time is issued to the timer setting function unit 205. Further, the processor function unit 208 issues an activation instruction 223 to the timer function unit 204 in a predetermined case.

  The wireless communication function unit 207 is an interface between the processor function unit 208 and the reception function unit 209 that drives the transmission / reception antenna 102, the ringer 110 and the reception speaker 103, the transmission function unit 210 that receives a voice signal from the transmission microphone 107, and the processor function unit 208. As described above, under the control 226 of the processor function unit 208, a call to the own device and voice information are received, and an incoming notification 227 is sent to the processor function unit 208, and a call and transmission of voice information to the base station are transmitted. I do.

  The processor function unit 208 displays information on the display LCD 104 through the display function unit 211 as well as the control 226 of the wireless communication function unit 207, and the incoming call response key 105 and the general operation key 106 are pressed (incoming response key operation). The notification 228 and the general key operation notification 229) are received via the key operation detection function unit 212, and the general key operation validity notification 230 is given to the key operation detection function unit 212 to implement the key lock function according to this embodiment. Implement the user interface required above.

  Next, FIG. 3 is a diagram showing a state where the mobile phone shown in FIG. 1 is picked up from the charging stand, and FIG. 4 is a diagram showing a state where the mobile phone shown in FIG. 1 is installed on the charging stand. As shown in FIG. 3, the charging stand 301 includes a charging interface 302. The charging interface 302 transmits the power supplied from the power adapter 303 to the external interface 108 of the telephone body 101 that comes into contact when the mobile phone is installed on the charging stand 301 as shown in FIG. As described above, the external interface 108 supplies power to the telephone main body 101 when the mobile phone is installed on the charging stand 301, and the telephone main body 101 when the mobile phone is not installed on the charging stand 301. Do not supply power inside.

  The power detection function unit 201 detects the presence or absence of power supply, for example, with a configuration as shown in FIGS. 5 and 6. 5 and 6 are block diagrams showing configuration examples (No. 1, No. 2) of the power detection function unit shown in FIG.

  5 and 6, the external interface 108 includes a “+ feed” terminal and a “ground point” terminal. The “+ power supply” terminal is a terminal that contacts the positive terminal of the charging interface 302 of the charging stand 301, and the “ground point” terminal is a terminal that contacts the negative terminal of the charging interface 302. The “ground point” terminal is grounded to a common ground point in the power detection function unit 201.

  The power detection function unit 201a illustrated in FIG. 5 converts a resistor 501 inserted in the power supply line from the “+ power supply” terminal to the charge power supply function unit 202, and a voltage drop in the resistor 501 into a current, and the conversion And a current detection function unit 502 that outputs the presence / absence of a current value as a portable state notification 221.

  The power detection function unit 201b illustrated in FIG. 6 includes two resistors 601 and 602 provided in series between the power supply line from the “+ power supply” terminal to the charge power supply function unit 202 and the common ground line, and a series connection. Detection function unit for detecting a divided voltage (terminal voltage of the resistor 601 in the illustrated example) output from the voltage dividing circuit of the resistors 601 and 602 and outputting the presence / absence of the divided voltage as a portable state notification 221 603.

  In the mobile phone as the portable electronic device according to the first embodiment configured as described above, the key lock function can be realized by the following various methods.

(A) Procedure for realizing the first key lock function As shown in FIG. 3, when the mobile phone is detached from the charging stand 301, there is no power supply in the phone main body 101. The absence of power supply is detected, and the portable state notification 221 to the processor function unit 208 is set to “mobile”. Then, when the charging stand 301 is connected to the power adapter 303, as shown in FIG. 4, if the mobile phone is installed on the charging stand 301, the power supplied from the power adapter 303 is changed to the charging stand 301. The power detection function unit 201 detects the presence or absence of current when the power detection function unit 201 is the power detection function unit 201a shown in FIG. Thus, when the power detection function unit 201b shown in FIG. 6 is used, the presence / absence of voltage is detected to detect the presence of power supply, and the portable state notification 221 to the processor function unit 208 is changed from “mobile” to “non- Switch to "Mobile".

  When the processor function unit 208 detects that the portable state notification 221 is switched from “mobile” to “non-mobile”, it sets the general key operation validity notification 230 to the key operation detection function unit 212 to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229.

  The processor function unit 208 sets the general key operation valid notification 230 to the key operation detection function unit 212 to “invalid” until the incoming call response key operation notification 228 received from the key operation detection function unit 212 indicates an unlock operation. to continue.

  When the processor function unit 208 receives the incoming response key operation notification 228 indicating the unlocking operation from the key operation detection function unit 212, the processor function unit 208 sets the general key operation validity notification 230 to the key operation detection function unit 212 to “valid”. set. As a result, the key operation detection function unit 212 functions to output key press information from the general operation key 106 to the processor function unit 208 as a general key operation notification 229.

  As described above, when the mobile phone is supplied with power, the mobile phone itself detects non-portability and automatically disables the key operation with the general operation key 106. It is possible to prevent an erroneous operation at the time of accommodation and unauthorized use by others caused by not being locked. In addition, as the “unlocking operation” operated by the user, for example, a key operation in which the incoming call response key 105 is continuously pressed for a predetermined time or more can be applied. Even in the locked state, the key lock state can be released by a simple operation, and the user-friendliness can be improved.

(B) Procedure for Realizing Second Key Lock Function As shown in FIG. 3, when the mobile phone is detached from the charging base 301, there is no power supply in the phone body 101. The absence of power supply is detected, and the portable state notification 221 to the processor function unit 208 is set to “mobile”. Then, when the charging stand 301 is connected to the power adapter 303, as shown in FIG. 4, if the mobile phone is installed on the charging stand 301, the power supplied from the power adapter 303 is changed to the charging stand 301. , The power detection function unit 201 detects the presence of power supply and sends a portable state notification 221 to the processor function unit 208. Switch from “mobile” to “non-mobile”.

  When the processor function unit 208 detects that the portable state notification 221 is switched from “mobile” to “non-mobile”, it issues an activation instruction 223 to the timer function unit 204. As a result, the timer function unit 204 starts a timing operation for a predetermined time that is fixedly set, and when the predetermined time elapses, the timer function unit 204 gives an expiration notification 222 for the predetermined time to the processor function unit 208.

  Upon receiving the expiration notification 222, the processor function unit 208 sets the general key operation validity notification 230 to the key operation detection function unit 212 to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229.

  The processor function unit 208 sets the general key operation valid notification 230 to the key operation detection function unit 212 to “invalid” until the incoming call response key operation notification 228 received from the key operation detection function unit 212 indicates an unlock operation. to continue. When the processor function unit 208 receives the incoming response key operation notification 228 indicating the unlocking operation from the key operation detection function unit 212, the processor unit 208 sets the general key operation validity notification 230 to the key operation detection function unit 212 to “valid”. set. As a result, the key operation detection function unit 212 functions to output key press information from the general operation key 106 to the processor function unit 208 as a general key operation notification 229.

  As described above, even if it is detected that the mobile phone is supplied with power, the general operation key 106 is not locked until a predetermined time elapses, and the general operation key 106 is not activated after the predetermined time elapses. 106, for example, when the user once picks up the mobile phone once placed on the charging base 301 and performs a desired key operation before a predetermined time elapses, the key is not locked yet. The user can reduce the trouble of performing the unlocking operation and can improve the usability.

(C) Procedure for Realizing Third Key Lock Function As shown in FIG. 3, when the mobile phone is detached from the charging stand 301, there is no power supply in the phone main body 101. The absence of power supply is detected, and the portable state notification 221 to the processor function unit 208 is set to “mobile”. Then, when the charging stand 301 is connected to the power adapter 303, as shown in FIG. 4, if the mobile phone is installed on the charging stand 301, the power supplied from the power adapter 303 is changed to the charging stand 301. , The power detection function unit 201 detects the presence of power supply and sends a portable state notification 221 to the processor function unit 208 as “portable”. To "Non-mobile".

  When the processor function unit 208 detects that the portable state notification 221 is switched from “mobile” to “non-mobile”, the processor function unit 208 reads time information set by the user from the memory function unit 206 and sends it to the timer setting function unit 205 for a predetermined time. A setting request 224 is issued. As a result, the timer function unit 204 starts a time counting operation for a predetermined time set by the timer setting function unit 205, and gives the expiration notification 222 for the predetermined time to the processor function unit 208 when the predetermined time elapses.

  Upon receiving the expiration notification 222, the processor function unit 208 sets the general key operation validity notification 230 to the key operation detection function unit 212 to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229.

  The processor function unit 208 sets the general key operation valid notification 230 to the key operation detection function unit 212 to “invalid” until the incoming call response key operation notification 228 received from the key operation detection function unit 212 indicates an unlock operation. to continue. When the processor function unit 208 receives the incoming response key operation notification 228 indicating the unlocking operation from the key operation detection function unit 212, the processor unit 208 sets the general key operation validity notification 230 to the key operation detection function unit 212 to “valid”. set. As a result, the key operation detection function unit 212 functions to output key press information from the general operation key 106 to the processor function unit 208 as a general key operation notification 229.

  As described above, even if it is detected that the mobile phone is supplied with power, the general operation key 106 is not locked until the predetermined time set by the user elapses. Since the operation key 106 is in the locked state, similarly to the second key lock function, the user can reduce the trouble of performing the unlock operation and can improve the usability.

(D) Procedure for Implementing Fourth Key Lock Function As shown in FIG. 3, when the mobile phone is detached from the charging stand 301, there is no power supply in the phone main body 101. The absence of power supply is detected, and the portable state notification 221 to the processor function unit 208 is set to “mobile”. Then, when the charging stand 301 is connected to the power adapter 303, as shown in FIG. 4, if the mobile phone is installed on the charging stand 301, the power supplied from the power adapter 303 is changed to the charging stand 301. , The power detection function unit 201 detects the presence of power supply and sends a portable state notification 221 to the processor function unit 208. Switch from “mobile” to “non-mobile”.

  When the processor function unit 208 detects that the portable state notification 221 is switched from “mobile” to “non-mobile”, it sets the general key operation validity notification 230 to the key operation detection function unit 212 to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229.

  The processor function unit 208 sets the general key operation valid notification 230 to the key operation detection function unit 212 to “invalid” until the incoming call response key operation notification 228 received from the key operation detection function unit 212 indicates an unlock operation. to continue. Before receiving the incoming call response key operation notification 228 indicating the unlocking operation from the key operation detection function unit 212, an incoming call from the outside occurs and the incoming call notification 227 from the wireless communication function unit 207 indicates “incoming call”. As shown, the processor function unit 208 sets the general key operation validity notification 230 to “valid”. As a result, the key operation detection function unit 212 functions to output key press information from the general operation key 106 to the processor function unit 208 as a general key operation notification 229.

  As described above, when it is detected that electric power is supplied from the outside, the operation of the general operation key is locked. If an incoming call is detected before the operation for releasing the lock is performed, the lock is released. Therefore, for example, even when a mobile phone that can respond to an incoming call is placed on the charging stand 301 even when it is placed on the charging stand 301, even if the operation key is locked by detecting power supply, Since the key lock is released when the incoming call is placed, the user has less time to perform the unlock operation when responding to the incoming call, and the usability can be improved.

(E) Procedure for realizing the fifth key lock function As shown in FIG. 3, when the mobile phone is detached from the charging stand 301, there is no power supply in the phone main body 101. The absence of power supply is detected, and the portable state notification 221 to the processor function unit 208 is set to “mobile”. Then, when the charging stand 301 is connected to the power adapter 303, as shown in FIG. 4, if the mobile phone is installed on the charging stand 301, the power supplied from the power adapter 303 is changed to the charging stand 301. , The power detection function unit 201 detects the presence of power supply and sends a portable state notification 221 to the processor function unit 208. Switch from “mobile” to “non-mobile”.

  When the processor function unit 208 detects that the portable state notification 221 is switched from “mobile” to “non-mobile”, it sets the general key operation validity notification 230 to the key operation detection function unit 212 to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229.

  The processor function unit 208 sets the general key operation valid notification 230 to the key operation detection function unit 212 to “invalid” until the incoming call response key operation notification 228 received from the key operation detection function unit 212 indicates an unlock operation. to continue. Then, before receiving the incoming call response key operation notification 228 indicating the unlocking operation from the key operation detection function unit 212, an incoming call from the outside occurs, and the incoming call notification 227 from the wireless communication function unit 207 is “incoming call”. , The processor function unit 208 sets the general key operation validity notification 230 to the key operation detection function unit 212 to “valid”. As a result, the key operation detection function unit 212 functions to output key press information from the general operation key 106 to the processor function unit 208 as a general key operation notification 229.

  However, if the user does not respond to the incoming call from outside, the call from the outside is cut off, and the incoming call notification 227 from the wireless communication function unit 207 indicates “no incoming call”, the processor function unit 208 returns to the general function again. The key operation valid notification 230 is set to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229. The processor function unit 208 uses this state. Continue until the person performs the unlocking operation.

  In this way, when it is detected that power is supplied from the outside, the operation of the general operation key is locked, and if the incoming call is detected before the operation for releasing the lock is performed, the lock is released. When the user does not answer the incoming call, the key operation of the general operation keys is locked again. Therefore, for example, when a mobile phone that can respond to an incoming call even when placed on the charging stand is placed on the charging stand 301, the power supply is detected and the operation key is locked, and the key lock is released when the incoming call is received. If the user does not respond to the incoming call, the key operation is locked again, so that the user has less time to unlock when answering the incoming call, and if the user does not answer the incoming call, the key is locked. Time and effort can be reduced and usability can be improved.

(F) Procedure for Realizing Sixth Key Lock Function As shown in FIG. 3, when the mobile phone is detached from the charging stand 301, there is no power supply in the phone main body 101. The absence of power supply is detected, and the portable state notification 221 to the processor function unit 208 is set to “mobile”. Then, when the charging stand 301 is connected to the power adapter 303, as shown in FIG. 4, if the mobile phone is installed on the charging stand 301, the power supplied from the power adapter 303 is changed to the charging stand 301. , The power detection function unit 201 detects the presence of power supply and sends a portable state notification 221 to the processor function unit 208. Switch from “mobile” to “non-mobile”.

  When the processor function unit 208 detects that the portable state notification 221 is switched from “mobile” to “non-mobile”, it sets the general key operation validity notification 230 to the key operation detection function unit 212 to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229.

  The processor function unit 208 sets the general key operation valid notification 230 to the key operation detection function unit 212 to “invalid” until the incoming call response key operation notification 228 received from the key operation detection function unit 212 indicates an unlock operation. to continue. Then, when an incoming call is received from the outside and the incoming notification 227 from the wireless communication function unit 207 indicates “There is an incoming call”, and the user presses the incoming response key 105, the incoming response is received from the key operation detection function unit 212. Since the processor function unit 208 is notified as the key operation notification 228, the processor function unit 208 functions to respond to an incoming call. That is, the general key operation validity notification 230 to the key operation detection function unit 212 is set to “valid”.

  As described above, when it is detected that power is supplied from the outside, the operation of the general operation key is locked, and the operation of the incoming call response key used for the user to answer the incoming call is not locked. Therefore, for example, when a mobile phone that can respond to an incoming call even when placed on a charging stand is placed on the charging stand 301, when the operation key is locked by detecting power supply, the key operation for responding to the incoming call is performed. Is not locked, the user can reduce the trouble of performing the unlocking operation when answering an incoming call, and the user's usability can be improved.

(G) Procedure for Implementing Seventh Key Lock Function As shown in FIG. 3, when the mobile phone is detached from the charging base 301, there is no power supply in the phone main body 101. The absence of power supply is detected, and the portable state notification 221 to the processor function unit 208 is set to “mobile”. Then, when the charging stand 301 is connected to the power adapter 303, as shown in FIG. 4, if the mobile phone is installed on the charging stand 301, the power supplied from the power adapter 303 is changed to the charging stand 301. , The power detection function unit 201 detects the presence of power supply and sends a portable state notification 221 to the processor function unit 208. Switch from “mobile” to “non-mobile”.

  When the processor function unit 208 detects that the portable state notification 221 is switched from “mobile” to “non-mobile”, it sets the general key operation validity notification 230 to the key operation detection function unit 212 to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229.

  Normally, this state continues until the user performs an unlocking operation. However, when the mobile phone is picked up from the charging stand 301 as shown in FIG. 3, the power supply from the external interface 108 is cut off. The functional unit 201 switches the portable state notification 221 from “non-mobile” to “mobile”.

  Then, the processor function unit 208 detects that the portable state notification 221 is switched from “non-mobile” to “mobile” and sets the general key operation validity notification 230 to “valid”. Reference numeral 212 functions to output key press information from the general operation key 106 to the processor function unit 208 as a general key operation notification 229.

  As described above, when it is detected that electric power is supplied from the outside, the key operation is locked. When the electric power supply is cut off from the outside, the key operation is unlocked. Therefore, for example, the mobile phone placed on the charging stand 301 detects the power supply and locks the operation key. However, when the user picks up the mobile phone from the charging stand 301, the lock is released. When the key operation is performed immediately after picking up from the table 301, the trouble of performing the unlocking operation is reduced, and the usability can be improved.

(H) Procedure for Implementing Eighth Key Lock Function In the seventh key lock function, the processor function unit 208 causes the key operation detection function unit 212 to receive the general operation key 106 when power supply is cut off. When the function to output the key press information from the CPU function unit 208 as the general key operation notification 229 is activated, the timer function unit 204 is subsequently started, and the expiration notification 222 indicating that a predetermined time has elapsed from the timer function unit 204. Is received, the general key operation valid notification 230 is set to “invalid”. As a result, the key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229.

  As described above, when the external power supply is detected, the key operation is locked, but when the external power supply is interrupted, the key operation is unlocked and the key operation is locked again after a predetermined time. Therefore, for example, the mobile phone placed on the charging stand 301 detects power supply and locks the operation key. However, when the user picks up the mobile phone from the charging stand 301, the lock is released. When the key operation is performed immediately after picking up from the mobile phone, there is less time and effort for unlocking, and even if the mobile phone is not returned to the charging stand 301, it is locked again after a predetermined time, so the key lock again. It is possible to improve the usability by reducing the time and effort to operate.

(I) Procedure for Implementing Ninth Key Lock Function In the seventh key lock function, the processor function unit 208 causes the key operation detection function unit 212 to receive the general operation key 106 when power supply is cut off. When the function is made to output the key press information from the processor function unit 208 to the processor function unit 208 as the general key operation notification 229, the time information set by the user is subsequently read out from the memory function unit 206 and stored in the timer setting function unit 205. A time setting request 224 is issued. As a result, the timer function unit 204 starts a time counting operation for a predetermined time set by the timer setting function unit 205, and gives the expiration notification 222 for the predetermined time to the processor function unit 208 when the predetermined time elapses.

  Since the processor function unit 208 sets the general key operation valid notification 230 to “invalid”, the key operation detection function unit 212 sets the key press information from the general operation key 106 as the general key operation notification 229. Function to not output to

  Thus, when it is detected that power is supplied from the outside, the key operation is locked, but when the power supply from the outside is cut off, the key operation is unlocked, and after a predetermined time set by the user. Lock the key operation again. Therefore, for example, the mobile phone placed on the charging stand 301 detects the power supply and locks the operation key. However, when the user picks up the mobile phone from the charging stand, the lock is released. When the key operation is performed immediately after that, the trouble of performing the unlocking operation is reduced, and even if the mobile phone is not returned to the charging stand, it is locked again after a predetermined time set by the user. The time and effort to operate the lock can be reduced, and usability can be improved.

  In addition, although the charging stand was shown as an electric power supply means, it is not limited to this. In addition, for example, power supply from a personal computer using a USB cable, power supply from a DC output of an automobile, and the like can be used as the power supply means.

(Embodiment 2)
FIG. 7 is a block diagram showing an electrical configuration of a mobile phone as an electronic apparatus according to the second embodiment of the present invention. In FIG. 7, the same reference numerals are given to components that are the same as or equivalent to those shown in the first embodiment in FIG. 2. Here, another configuration example of “state detecting means for detecting a mobile state and a non-portable state”, which is a part related to the second embodiment, will be described.

  The mobile phone according to the second embodiment shown in FIG. 7 has the same external configuration as that of FIG. 1, but the electrical configuration is the same as that of the first embodiment shown in FIG. An external interface 701 is provided, and the power detection function unit 201 is deleted.

  The external interface 701 is disposed at the same position as the external interface 108, takes in external power with the same electrical configuration as the external interface 108, and supplies it directly to the charging / power supply function unit 202. For example, a configuration shown in FIG. 8 is added as an electrical configuration.

  And the portable state detection function part 702 is added. For example, as shown in FIG. 8, the portable state detection function unit 702 exchanges power with the external interface 701, and in the process, detects whether or not power is supplied. The processor function unit 208 is notified of a portable state notification 221 indicating whether it is “mobile state” or “non-portable state”.

  FIG. 8 is a diagram for explaining the relationship between the cradle for installing the mobile phone according to the second embodiment, the external interface and the mobile state detection function unit shown in FIG. As shown in FIG. 8, the cradle 801 on which the mobile phone according to Embodiment 2 is installed includes two contacts 802 and 803 that are electrically connected. Similarly, the external interface 701 includes two electrical contacts 805 and 806. When the mobile phone according to the second embodiment is installed on the cradle 801, the contact 802 of the cradle 801 and the contact 805 of the external interface 701 are in contact with each other. Then, the contact 803 of the cradle 801 comes into contact with the contact 806 of the external interface 701.

  The portable state detection function unit 702 includes a resistor 811 inserted in a connection line between the built-in constant voltage source and the contact 805 of the external interface 701, and a notification line of the portable state notification 221 connected to the contact 806 of the external interface 701. And a resistor 812 provided between the ground and the ground.

  In the configuration shown in FIG. 8, when a mobile phone is installed in the cradle 801, a built-in constant voltage source → resistor 811 → contact 805 → contact 802 → contact 803 → contact 806 → notification line route of the mobile state notification 221 is formed. Therefore, the resistor 811 and the resistor 812 constitute a voltage dividing circuit connected in series between the constant voltage source and the ground, and the resistors 811 and 812 to which the notification line of the portable state notification 221 is connected. The divided voltage of a predetermined value appearing at the serial connection end is directly supplied to the processor function unit 208 as a portable state notification 221 indicating “non-portable state”.

  On the other hand, when a mobile phone is not installed on the cradle 801, the contact 805 and the contact 806 of the external interface 701 are in an open state, and the potential of the contact 806 is in an unstable state. Since the contact 806 is pulled to the ground potential, the potential “0” of the contact 806 is given to the processor function unit 208 as a portable state notification 221 indicating “mobile state”.

  Accordingly, as in the first embodiment, when the processor function unit 208 detects that the portable state notification 221 is switched from “mobile” to “non-mobile”, the general key operation to the key operation detection functional unit 212 is enabled. Notification 230 is set to “invalid”. The key operation detection function unit 212 functions so as not to output the key press information from the general operation key 106 to the processor function unit 208 as the general key operation notification 229. This state continues until the normal user performs the unlocking operation, but the releasing measures are taken in various modes described in the first embodiment.

  Here, the external interface 701 is configured to have a function of electrically detecting whether or not the mobile phone is installed on the cradle 801 as described above. This detection function uses a sensor or a mechanical switch. Can also be configured.

  As described above, in the second embodiment, when the mobile phone is installed on the cradle, the user automatically enters the key lock state without performing an operation to set the key lock state. Similar to 1, it is possible to prevent malfunction during storage and unauthorized use by others caused by not placing the mobile phone in the key lock state. In addition, since the complicated key lock operation can be reduced, the user-friendliness can be improved.

  In the first and second embodiments described above, an example of application to a mobile phone as an electronic device has been shown for easy understanding. However, the key lock method realized by the electronic device of the present invention is in a non-portable state. It is characterized by detecting and disabling or restricting at least some of the key operation functions, and is not limited to application to a mobile phone, but also, for example, a portable information terminal equipped with a charging circuit or a place It can also be applied to electronic devices that can be installed on a table. It also has the effect of preventing unauthorized use by others, so it should be applied to handset cordless handsets for general cordless telephones installed in chargers and information terminals with built-in charging circuits such as notebook computers when not carried. Is also possible.

  As described above, the electronic device according to the present invention prevents erroneous operation during storage and unauthorized use by others caused by the user not placing the electronic device in the key lock state, and improves user convenience. In particular, it is suitable for an electronic device such as a portable information terminal provided with a charging circuit and an electronic device that can be installed on a cradle.

The perspective view which shows the external appearance structure of the mobile telephone as an electronic device by Embodiment 1 of this invention The block diagram which shows the electrical constitution of the mobile telephone shown in FIG. The figure which shows the state which picked up the mobile telephone shown in FIG. 1 from the charging stand. The figure which shows the state which installed the mobile telephone shown in FIG. 1 in the charging stand The block diagram which shows the structural example (the 1) of the electric power detection function part shown in FIG. The block diagram which shows the structural example (the 2) of the electric power detection function part shown in FIG. The block diagram which shows the electrical constitution of the mobile telephone as an electronic device by Embodiment 2 of this invention The figure explaining the relationship between the cradle which installs the mobile telephone by Embodiment 2, and the external interface and carrying state detection function part which are shown in FIG.

Explanation of symbols

100 Mobile phone (electronic equipment)
101 Telephone body 102 Transmitting / receiving antenna 103 Earpiece speaker 104 Display LCD
DESCRIPTION OF SYMBOLS 105 Incoming response key 106 General operation key 107 Transmission microphone 108 External interface 109 Secondary battery 110 Calling ringer 201, 201a, 201b Power detection function part 202 Charging power supply function part 203 Internal power supply function part 204 Timer function part 205 Timer setting function part 206 Memory Function Unit 207 Wireless Communication Function Unit 208 Processor Function Unit 209 Reception Function Unit 210 Transmission Function Unit 211 Display Function Unit 212 Key Operation Detection Function Unit 221 Carrying State Notification 222 Expiration Notification 223 Start-up Instruction 224 Setting Request for Predetermined Time 225 Parameter Reading / writing 226 Control 227 Incoming call notification 228 Incoming response key operation notification 229 General key operation notification 230 General key operation valid notification 301 Charging stand 302 Charging interface 303 Power adapter 501 601 602,811,812 resistor 502 current detection function unit 603 voltage detection function unit 701 external interface 702 carried state detecting function unit 801 cradle 802,803,805,806 contacts

Claims (10)

A state detecting means for detecting a portable state and a non-portable state according to the presence or absence of power supply from the outside or the presence or absence of installation on the cradle;
An electronic device comprising: key lock means for disabling or restricting at least a part of key operation functions after the state detection means detects the non-portable state. The key lock means includes time measuring means for measuring a predetermined time, activates the time measuring means when the state detecting means detects the non-portable state, and functions of the part of key operations after the predetermined time has elapsed. The electronic device according to claim 1, wherein the electronic device is invalidated or restricted. The key lock means cancels the invalid or restricted measure when receiving a notification that there is an incoming call from the communication function unit in a situation where the state detection means detects the non-portable state. The electronic device according to claim 1. The electronic device according to claim 3, wherein the key lock unit takes the invalidation or restriction again when receiving a notification from the communication function unit that the user does not respond to the incoming call. The electronic device according to claim 1, wherein the key lock unit takes measures to invalidate or restrict the user except for a key operation used for a response to an incoming call. The key lock means releases the invalid or restricted measure when the state detecting means detects the portable state when the invalid or restricted measure is taken. 1. The electronic device according to 1. The key lock means is provided with a time measuring means for measuring a predetermined time, and when the state detection means detects the portable state when the invalidity or restriction measure is taken, the invalidity or restriction measure is taken. The electronic device according to claim 1, wherein the electronic device according to claim 1, wherein the electronic device is activated or deactivated and the function of the part of the key operations is disabled or restricted again after the predetermined time has elapsed. 8. The electronic apparatus according to claim 2, wherein the predetermined time is a fixed time or a time set by a user. The state detection means sets a state in which no power is supplied from the outside as the portable state based on the presence / absence of current or voltage in a path to which power is supplied from outside, and sets the state in which power is supplied from outside as the non-powered state. The electronic device according to claim 1, wherein the electronic device is detected as a portable state. The state detection means detects whether the electronic device is not installed on the pedestal electrically, using a sensor, or using a mechanical switch to detect that the electronic device is not installed. The electronic device according to claim 1, wherein an installed state is detected as the non-portable state.

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