JP4821837B2 - Wireless communication apparatus, wireless communication method, and wireless communication program - Google Patents

Description

  The present invention relates to a wireless communication apparatus that performs wireless communication with a communication network.

  In a wireless communication terminal such as a cellular phone, radio waves for wireless communication are transmitted when data communication such as voice communication or electronic mail is performed. Due to the influence of the transmitted radio waves, malfunctions may be caused in surrounding electronic devices. For this reason, there are places where use of wireless communication terminals is prohibited such as in airplanes and hospitals during takeoff and landing.

In such a place, the operation mode of the wireless communication terminal is changed from an operation mode in which a function involving wireless communication can be used (hereinafter referred to as “online mode”) to an operation mode in which a function involving wireless communication cannot be used (hereinafter referred to as “offline mode”). Is required to be set.
At this time, the terminal user may turn off the power of the wireless communication terminal, but in this case, functions that do not involve wireless communication such as a time display function, an alarm function, and a memo function in the wireless communication terminal can also be used. The inconvenience of disappearing can occur.

  For this reason, in order to switch and set the online mode and offline mode of the wireless communication terminal according to the place, scene, and environment in which the wireless communication terminal is used (operation mode switching setting), the input key previously set in the wireless communication terminal When the terminal user operates, it is necessary to specify the online mode or the offline mode from the menu screen, for example.

However, this operation mode switching setting requires display of a menu screen, menu selection, and the like in the wireless communication terminal, and there are many operation procedures performed by the terminal user with respect to the input keys, which is inconvenient.
In addition, the operation procedure for specifying the switching of the operation mode is difficult for the terminal user to understand, and for this reason, it is not well recognized as a function preset in the wireless communication terminal.

  As a related technology for this, the vibration amount in the mobile terminal device body is detected by a vibration sensor built in the mobile terminal, and whether or not the mobile terminal device is attached to the user or is held by the user A technique for detecting whether or not to perform ON / OFF control of a wireless communication function in a portable terminal device is disclosed (Patent Document 1).

  In addition, by using GPS or the like, the position and location where the mobile terminal is used are detected, and when there is a mobile terminal at a location and position designated in advance, the mobile terminal wirelessly corresponds to the position. A method of switching ON / OFF of the communication function can be considered.

JP2000-101508A

However, in the related art of Patent Document 1, since the wireless communication function is automatically switched on and off based on whether or not the terminal user has a portable terminal, for example, in an airplane, a movie theater, There is an inconvenience that the terminal user cannot arbitrarily and easily switch on and off the wireless communication function in a specific place such as a hospital.
In addition, when the terminal user arbitrarily switches on / off the wireless communication function, it is necessary to perform selection switching from a menu item set in advance on the mobile terminal, and it takes time and effort to perform the switching setting. There was an inconvenience.

[Object of invention]
The present invention improves the inconveniences of the related art and enables a wireless communication device, a wireless communication switching method, and a wireless communication switching program capable of easily switching start and stop of wireless communication executed with an external communication network. The purpose is to provide

In order to achieve the above object, a wireless communication device according to the present invention is a wireless communication device having a device main body including a wireless communication unit that performs wireless communication with a communication network and an input key that receives an input. A vibration detecting unit that is activated when the input key is continuously pressed for a preset time or longer and detects a vibration having a preset amplitude or more generated in the apparatus main body, and the input key is continued. and a wireless operation control unit to switch to another active state and stop state operating state of the wireless communication in the manner the pressed the radio communication unit based on the number of said detected vibration state, the wireless operation control unit A switching suppression setting unit that suppresses switching of an operation state of the wireless communication unit when the vibration that matches a preset number of times is detected; and in the wireless communication unit Input operation to the input key is a communication autostart means for switching the radio communication operation state to an activated state in the wireless communication unit when not detected a predetermined time when it is suppressed to switch the work state It has a configuration.

The wireless communication method according to the present invention is a wireless communication apparatus having a wireless communication unit that performs wireless communication with a communication network, and an apparatus main body that includes an input key that receives input from a user. A wireless communication method for controlling the wireless communication, wherein when the input key is continuously pressed for a preset time or longer, vibrations having a preset amplitude or more generated in the device main body are detected. The vibration detection unit is activated, the number of vibrations detected when the input key is continuously pressed is counted, and the wireless communication operation state in the wireless communication unit is determined based on the number of vibrations. active state and another switch in the stopped state, the vibration is prevented from operating state of the radio communication unit is switched when it is detected that matches the number of times set in advance, to the radio communication unit When the input operation to the input key is not detected for a preset time when switching of the operation state is suppressed, the wireless communication operation state in the wireless communication unit is switched to the activated state, and each of these operations The wireless communication apparatus performs the procedure .

Furthermore, a wireless communication program according to the present invention is a wireless communication device having a wireless communication unit that performs wireless communication with a communication network and an apparatus main body that includes an input key that receives an input from a user. A wireless communication program for controlling the wireless communication, wherein when the input key is continuously pressed for a preset time or more, vibration having a preset amplitude or more generated in the apparatus main body A vibration detection activation function for performing a process of activating a vibration detection unit for detecting the number of vibrations detected when the input key is continuously pressed, and based on the number of vibrations a radio operation control function that performs processing to switch to another active state and stop state operating state of the wireless communication in a wireless communication unit, the vibration is detected that matches the number of times set in advance A switching suppression setting function that suppresses switching of the operation state of the wireless communication unit when the operation state is switched, and an input operation to the input key is preset when switching of the operation state of the wireless communication unit is suppressed When the detected time is not detected, a communication automatic activation function for switching the wireless communication operation state in the wireless communication unit to the activated state is realized by a computer of the wireless communication device .

  Since the present invention is configured and functions as described above, according to this, the vibration detection that is activated when the input key is continuously pressed for a preset time or longer and detects the vibration of the wireless communication device main body is detected. And a wireless operation control unit that switches between start and stop of the wireless communication operation based on the number of vibrations detected when the input key is continuously pressed. In addition, it is possible to provide a wireless communication device, a wireless communication method, and a wireless communication program that can easily switch and select start and stop of wireless communication executed with an external communication network.

[Embodiment 1]
Next, the basic configuration content of the embodiment of the present invention will be described.

  A cellular phone (wireless communication apparatus) 10 according to the present embodiment includes a first casing having a front LCD 105 and a second casing having a key switch 116 as a main body, and one end of both casings. Folding type (flip type) mobile phone 10 having a flip portion connected by a hinge, and inside this mobile phone 10, as shown in FIG. 1, a flash memory 101 as an auxiliary storage device, A RAM (Random Access Memory) 102, which is a main storage unit of the mobile phone 10 using a semiconductor element, and a central processing unit (CPU) control operation of each processing operation unit in the mobile phone 10. A central control unit 120 is provided.

In addition, the mobile phone 10 uses the antenna (ANT1) 108 to perform wireless communication (wireless communication function) with the outside of the mobile phone 10, and wireless switching control for controlling the communication operation of the wireless unit 109. Unit 114, an acceleration sensor 112 that acquires information indicating the moving direction, speed, inclination, and the like of the main body of the mobile phone 10, and a detection unit A 113 that detects information acquired by the acceleration sensor 112.
The operations of the acceleration sensor 112, the detection unit 113A, the wireless switching control unit 114, and the wireless unit 109 are controlled by the central control unit control unit 120.

  Furthermore, a front LCD (Liquid Crystal Display) 105 that is provided on the outer surface of the mobile phone 10 and displays a standby screen (1 and 2) indicating a reception standby state, a receiver 115 that indicates an incoming call (reception) in the mobile phone 10, A microphone (microphone) 119 which is a means for uttering, a key switch 116 which is an input unit for a mobile phone user (hereinafter referred to as “user”) to input to the mobile phone 10, and voice to the user A speaker 117 that performs notification and a notification vibrator 118 that performs notification by vibration to the user are provided.

  In addition, the mobile phone 10 includes an LCD driver 106 that controls screen output on the front LCD 105, an LED driver 103 that controls the lighting operation of the LED 104, and an open / close detection switch 107 that detects opening and closing of a flip unit (hereinafter referred to as "flip"). It is the composition provided with.

  Furthermore, the acceleration sensor 112 includes, for example, a circuit element for measuring the amount of displacement of a weight attached to the acceleration sensor and detecting the acceleration, and detects the tilt and vibration of the mobile phone 10. As a result, the acceleration sensor 112 can measure how the speed is applied in the three axial directions of up and down, left and right, and front and rear. For this reason, information such as the moving direction, speed, and inclination of the mobile phone 10 can be acquired.

  This will be described in detail below.

  The detection unit A113 has a sensor activation detection function for detecting that a specific key assigned to activate the operation of the acceleration sensor 112 (hereinafter referred to as “sensor activation key”) is pressed, and a sensor activation key is preset. A long press detection function is provided for detecting a long press state when the button is pressed for a time (for example, one second) or longer.

The central control unit 120 has a sensor activation function for activating the acceleration sensor 112 when it is detected that the sensor activation key is in a long-pressed state,
The acceleration sensor 112 activated here is activated and operated when the sensor activation key is in a long-pressed state (pressed state).

Further, the counter 10 has a vibration count function that counts the number of vibrations detected by the activated acceleration sensor 112, and the detection unit B111 is a vibration that temporarily stores the number of vibrations counted by the counter 10. A number storage means is provided.
Here, when the number of vibrations detected by the detection unit B111 is one, the wireless switching control unit 112 has an operation state switching function for switching the wireless communication operation state (ON / OFF) in the wireless unit 109. Have. Here, when the wireless communication operation state of the wireless unit 109 is OFF (pause state), the wireless switching control unit 112 activates the wireless communication function, and the wireless communication function of the wireless unit 109 is activated in advance ( If the wireless communication function is in an ON state, the wireless communication function is set to a dormant state (OFF).

  The wireless unit 109 is configured to allow the wireless unit 109 to switch between the ON state and the OFF state (non-holding setting) based on the number of vibrations detected, and to turn on the wireless unit 109 based on the detected vibration. It is assumed that there is a setting that does not switch the state and the OFF state (state holding setting).

The wireless switching control unit 114 has an operation state switching function for switching the operation state of the wireless communication function in the wireless unit 109.
Specifically, when the operation state of the wireless unit 109 is in the active state (ON) in advance, the wireless unit 109 is switched to the communication suspension state (OFF), and the communication operation state of the wireless unit 109 is previously set in the communication suspension state ( If it is OFF), the operation state is switched to the communication operation state (ON).

  As a method for applying vibration to the mobile phone 10, for example, the tilt sensor 112 may cause acceleration generated by the mobile phone by tilting the mobile phone in a specific direction or shaking the mobile phone at a constant speed. Shall be detected.

The central control unit 120 detects that the communication state has been switched (to the operating state or to the dormant state) and notifies the LED driver 103 (state switching notification function).
In addition, the central control unit 120 has a mode detection function for detecting a setting (manner mode) that prevents the mobile phone 10 from performing voice notification (output).
Further, the central control unit 120 has a switching notification function for detecting that the communication operation state has been switched when the mobile phone 10 is not set to the manner mode, and for sounding a preset voice from the speaker 117.

  In addition, the central control unit 120 has a switching notification function that sounds a preset voice from the speaker 117 when the communication operation state is switched (from ON to OFF or from OFF to ON).

  The wireless switching control unit 114 is configured to switch between a communication operation state (ON) and a communication suspension state (OFF), which are operation states of the wireless communication function of the wireless unit 109, from one state to the other state (non- It has a holding / non-holding setting determination function for determining whether it is a holding setting) or a non-switchable setting (holding setting).

Further, the wireless switching control unit 114 has a holding setting release function for releasing the holding setting in the wireless unit 109.
When the operation state (communication operation state (ON) and communication suspension state (OFF)) of the wireless unit 109 is a setting (non-holding setting) that can be switched from one state to the other state, The switching control unit 112 converts the non-holding setting into a setting (holding setting) in which the operation state of the wireless unit 109 is not switchable.

The wireless switching control unit 114 has a timer provided in advance, and in the mobile phone 10 described above, the wireless switching control unit 114 is left to measure the elapsed time when the wireless unit 109 is in an OFF state or a third party communication described later is in operation. A time function and a return time elapse determination function for detecting when a preset automatic return time has elapsed are provided.
Note that the setting time of the automatic return time can be arbitrarily set by the user in the range from several seconds to several hours.

  In addition, when the automatic return time has elapsed while the standby screen 1 is displayed, the wireless switching control unit 114 has an input detection determination function for determining whether or not there has been a key operation or a flip opening / closing operation in the detection unit A113. A wireless communication return function for setting the wireless communication function of the wireless unit 109 to an ON state when it is detected that a key operation and flip opening / closing operation have been detected.

[Description of Operation of First Embodiment]
Next, the operation of the first embodiment will be described based on the flowchart of FIG.

  First, it is assumed that the mobile phone 10 is powered off (step A1: start). The mobile phone 10 is turned on, and a standby screen is displayed on the front LCD 105 (step A2).

Next, the detection unit A113 detects whether or not a specific key (sensor activation key) assigned to activate the acceleration sensor 112 is pressed (step A3).
Here, if the sensor activation key is pressed (YES), the process proceeds to step A4. If the sensor activation key is not pressed (NO), a transition is made to the standby screen of step A2.

  Next, the detection unit A113 determines whether or not the sensor activation key has been pressed for a long time (1 second or longer) (step A4). Here, if it is detected that the sensor activation key has been pressed and held for one second or longer (long-pressed state) (YES), the process proceeds to step A5. If not (NO), step A2 ( Transition to the standby screen.

Next, the detection unit A113 notifies the central control unit 120 that the sensor activation key is in a long-pressed state, and the acceleration sensor 112 is activated by the central control unit 120 (step A5).
The acceleration sensor 112 activated here is activated and operated when the sensor activation key is in a long-pressed state (pressed state). For this reason, when the pressed state of the sensor activation key is released, the previous operation is discarded and the process proceeds to step A2 (standby screen state).

Next, the detection unit A113 detects vibration in the mobile phone 10 via the activated acceleration sensor 112 (step A6).
Here, when the acceleration sensor 112 detects the vibration of the mobile phone 10 and its acceleration (to step A7: YES), the counter 10 counts the number of the detected vibrations, and the number of the detected vibrations. The detection unit B111 temporarily stores (step A7).
On the other hand, if no vibration is detected for a certain time in step A6 (NO), the process returns to step A5.

  Next, when the number of vibrations stored in step A7 is 1, the wireless switching control unit 112 switches the operation state (ON / OFF) of wireless communication in the wireless unit 109 (to step A8). ). That is, when the wireless communication operation state of the wireless unit 109 is OFF (resting state), the wireless communication function is activated. If the wireless communication function of the wireless unit 109 has been activated (ON) in advance, the wireless communication function is set to a sleep state (OFF).

Next, step A8 will be described.
Here, a setting (non-holding setting) in which the operation state of the wireless communication function in the wireless unit 109, which is a communication operation state (ON) and a communication suspension state (OFF), can be switched from one state to the other state. Or whether it is a setting that cannot be switched (holding setting) (step A8).

At this time, if the setting for maintaining the operation state of the wireless communication function in the wireless unit 109 (holding setting), that is, the setting in which the communication operation state (ON / OFF) is not switched, the process proceeds to step A5.
On the other hand, if the setting that the operation state of the wireless communication function in the wireless unit 109 is not maintained (non-holding setting), that is, the communication operation state (ON or OFF) is set to be switchable, the process proceeds to step A9.

Here, the wireless switching control unit 114 switches the operation state of the wireless communication function in the wireless unit 109 (step A9).
Specifically, when the operation state of the wireless unit 109 is in the active state (ON) in advance, the wireless unit 109 is switched to the communication suspension state (OFF), and the communication operation state of the wireless unit 109 is previously set in the communication suspension state ( If it is OFF), the operation state is switched to the communication operation state (ON).

Thereby, in this embodiment, the user (user) is given a single vibration to the mobile phone 10 by, for example, shaking the mobile phone 10, and the operating state of the wireless unit 109 is set to the operating state, or It is possible to switch to the resting state.
For this reason, when the user holding the mobile phone 10 is in a place that is not suitable for wireless communication, for example, the acceleration sensor is activated and a simple operation is performed such that the mobile phone 10 is vibrated once. As a result, the wireless communication function can be switched to the communication suspension state.
In addition, when the user holding the mobile phone 10 moves to a place suitable for wireless communication, a simple operation such as activating the acceleration sensor and applying a single vibration to the mobile phone 10 is performed. Thus, the wireless communication function of the mobile phone 10 can be switched to the communication operation state.

  As a method for applying vibration to the mobile phone 10, for example, the tilt sensor 112 may cause acceleration generated by the mobile phone by tilting the mobile phone in a specific direction or shaking the mobile phone at a constant speed. Shall be detected.

Next, the central control unit 120 detects that the communication state has been switched (to the operating state or to the dormant state) and notifies the LED driver 103 (state switching notification function). The LED driver 103 blinks the notification LED indicating that the switching of the communication state has occurred (step A14).
As for the lighting operation of the notification LED, for example, when the communication state is switched from ON to OFF and when the communication state is switched from OFF to ON, a lighting method such as a different color or a different blinking speed is assigned. May be. This lighting method can be individually set, and can be arbitrarily changed and set by the user.

  Next, the central control unit 120 detects whether or not the voice notification (output) setting preset in the mobile phone 10 is set to the manner mode (step A15), and if the manner mode is set ( (Yes), the process proceeds to Step A17. On the other hand, if the manner mode is not set (NO), the process proceeds to Step A16.

The central control unit 120 detects that the communication operation state has been switched (from ON to OFF or from OFF to ON) when the mobile phone 10 is not set to the manner mode, and is preset by the speaker 117. The voice is sounded (step A16), and the process proceeds to step A5.
On the other hand, when the sound output setting of the mobile phone 10 is set to the manner mode, the sound from the speaker 117 is not sounded (step A17), and the process proceeds to step A5.

Here, the case where the number of vibrations detected by the detection unit B111 in step A7 is two (to step A10) will be described.
In step A10, a setting (non-holding setting) that allows switching between a communication operating state (ON) and a communication suspension state (OFF), which are operating states of the wireless communication function of the wireless unit 109, from one state to the other state. Or a setting that cannot be switched (holding setting) is determined (holding non-holding setting determination step).

  Here, when the operation state of the wireless unit 109 is a setting that cannot be switched (holding setting), that is, a setting that does not switch the communication operation state (ON / OFF) (holding setting), the process proceeds to step A11.

Next, the wireless switching control unit 112 cancels the holding setting in the wireless unit 109. Thereby, the operation state of the wireless communication function of the wireless unit 109 is converted into a non-holding setting that can be switched (step A11: the holding setting is canceled).
Here, the central control unit 120 notifies the LED driver 103 that the communication unit 109 has been converted to the non-holding setting. Upon receiving this notification, the central control unit 120 turns on (flashes) the LED 104 via the LED driver 103 (step A13).

  In addition, about lighting of this notification LED, or blinking operation | movement, individual setting is possible and a user shall change arbitrarily.

Next, the central control unit 120 detects whether or not the voice notification setting of the mobile phone 10 is set to the manner mode (step A14). When the manner mode is set, the process proceeds to step A21.
When the audio output setting of the mobile phone 10 is set to the manner mode, the central control unit 120 does not sound the speaker 117 (step A16), and then proceeds to step A5.

  If the voice output setting of the mobile phone 10 is not set to the manner mode in step A22, the speaker 117 sounds a preset voice (step A15), and then the process proceeds to step A5.

  On the other hand, in step A10, the operation state of the wireless communication function in the wireless unit 109 (communication operation state: ON and communication suspension state: OFF) is a setting (non-holding setting) that can be switched from one state to the other state. If there is, the wireless switching control unit 112 converts the non-holding setting into a setting (holding setting) in which the operation state of the wireless unit 109 is not switchable (step A12: set to the holding setting).

Thereby, in this embodiment, when the user (user) gives the mobile phone 10 vibration twice, the wireless unit 109 responds to the request from the user (single vibration). Whether or not to switch the operation state of the wireless communication function of the wireless unit 109 can be specified.
For this reason, when the user who holds the mobile phone 10 is in a place that is not suitable for wireless communication, for example, the operation state of the wireless communication function of the wireless unit 109 is not switched (holding setting). Even when the mobile phone 10 is erroneously given a single vibration, the wireless communication function can be kept in a communication suspension state.

Next, the central control unit 120 detects that the communication unit 109 has been converted to the holding setting, and notifies the LED driver 103 of it. The LED driver 103 blinks the notification LED set corresponding to the notified holding setting (step A13).
Note that the lighting method (color, timing, etc.) of the notification LED can be set individually and can be arbitrarily changed by the user.

  Next, the central control unit 120 detects whether or not the voice notification setting of the mobile phone 10 is set to the manner mode (step A14), and if the manner mode is set, the process proceeds to step A17.

  When the communication operation state is switched (from ON to OFF or from OFF to ON), the central control unit 120 sounds a preset voice from the speaker 117 (Step A15), and proceeds to Step A5.

  On the other hand, if the audio output setting of the mobile phone 10 is set to the manner mode in step A15, no sound is emitted from the speaker 117 (step A16), and the process proceeds to step A5.

As described above, in the first embodiment, the wireless communication function of the mobile phone 10 can be easily switched on and off with a small number of operations.
Further, the user can arbitrarily designate ON / OFF switching of the wireless communication function according to the environment and situation in which the wireless communication function of the mobile phone 10 is used.
Furthermore, by simply switching the operating state of wireless communication, power consumption in the mobile phone 10 can be reduced, and the available time of the mobile phone can be effectively improved.

Now, for example, when the mobile phone 10 is left in the OFF state or the third-party communication state described later, for example, when the mobile phone 10 is left unattended, Mail reception will not be performed.
In such a case, a method and operation for returning the wireless unit 109 of the mobile phone 10 to the ON state will be described based on the flowchart of FIG.

  First, it is assumed that the front LCD of the mobile phone 10 is in a state where an operation screen other than the standby screen is displayed (start: step E1). At this time, the standby LCD 1 is displayed on the front LCD (step E2). Note that the standby screen 1 indicates an OFF state of the wireless unit or a third-party communication operating state.

Next, a timer provided in advance in the wireless switching control unit 114 is activated and time is measured. Here, the wireless switching control unit 114 determines whether or not the automatic return time stored in advance in the wireless switching control unit 114 has elapsed (step E3: return time elapsed determination function).
Note that the setting time of the automatic return time can be arbitrarily set by the user in the range from several seconds to several hours.
Next, when the automatic return time has elapsed with the standby screen 1 displayed (to step E4), the wireless switching control unit 114 determines whether or not there has been a key operation or a flip opening / closing operation in the detection unit A113. . Here, when it is detected that there is a key operation or a flip opening / closing operation is performed, the process proceeds to step E5.

On the other hand, if a key operation or flip opening / closing operation is not detected, the wireless switching control unit 114 sets the wireless unit 109 to the ON state even if the wireless unit 109 is set to hold (step). E5).
Next, the wireless switching control unit 114 notifies the central control unit 120 that the wireless unit 109 has been turned on, and the central control unit 120 has a standby screen indicating that the wireless unit 109 has been turned on. 2 is displayed on the front LCD 105 (step E6).

  As a result, when the wireless unit 109 in the mobile phone 10 is left in an off state, or when the mobile phone 10 is left in a state where third-party communication described later is in operation, the mobile phone 10 It is possible to automatically return to a state where incoming calls and mails can be received.

[Embodiment 2]
Next, Embodiment 2 in the present invention will be described.
The mobile phone 10 of the second embodiment has substantially the same configuration as that of the above-described embodiment (FIG. 1), and as shown in FIG. This is different from the first embodiment in that it has a new opening / closing operation detection notification function for notifying the wireless switching control unit 114 that the counter 110 and the detection unit B111 in the first embodiment are not mounted.
In addition, the same code | symbol shall be attached | subjected about the part same as Embodiment 1 mentioned above. Further, the functional operation of other configurations is the same as that of the first embodiment.

[Description of Operation of Embodiment 2]
Next, the operation of the first embodiment will be described based on the flowchart of FIG.

First, it is assumed that the mobile phone 10 is powered off (step B1). The mobile phone 10 is turned on (step B2), and a standby screen is displayed on the front LCD 105.
Here, it is assumed that the standby screen 1 is displayed.

Next, the detection unit A113 detects the pressed state of the sensor activation key assigned to activate the acceleration sensor 112 (step B3).
If the sensor activation key has been pressed, the process proceeds to step B4. If not, the process proceeds to step B2.

  Next, the detection unit A113 determines whether or not the sensor activation key has been pressed for a long time (here, 1 second or longer) (step B4). Here, if it is detected that the sensor activation key has been pressed for more than 1 second, the process proceeds to step B5, and if not, the process proceeds to step B2.

Next, the detection unit A113 notifies the central control unit 120 that the sensor activation key is in a long-pressed state, and the acceleration sensor 112 is activated by the central control unit 120 (step B5).
The acceleration sensor 112 activated here is activated and operated when the sensor activation key is in a long-pressed state (pressed state). For this reason, when the pressed state of the sensor activation key is released, the previous operation is discarded and the process proceeds to step B2.

Next, the detection unit A113 detects vibration (acceleration) in the mobile phone 10 via the activated acceleration sensor 112 (step B6).
Here, when the acceleration sensor 112 detects the vibration of the mobile phone 10 and its acceleration (YES: go to step B7), the detection unit A113 detects the flip of the mobile phone 10 via the open / close detection switch 107. The open / close state is checked (step B7).

  Here, when the flip is in the open state, the communication operation state (ON) and the communication suspension state (OFF), which are the operation states of the wireless communication function of the wireless unit 109, are switched from one state to the other state. It is determined whether the setting is possible (non-holding setting) or non-switchable (holding setting) (step B8: holding / non-holding setting determination step).

Here, when the setting for maintaining the operation state of the wireless communication function in the wireless unit 109 (holding setting), that is, the setting for not switching the communication operation state (ON / OFF), the process proceeds to step B5.
On the other hand, if it is determined in step B8 that the operation state of the wireless communication function in the wireless unit 109 is not maintained (non-holding setting), that is, the communication operation state (ON or OFF) is set to be switchable, step B9 Transition to.

Next, the wireless switching control unit 114 switches the operation state (ON / OFF) of the wireless communication function in the wireless unit 109 (step B9).
Specifically, when the operation state of the wireless unit 109 is in an active state (ON: ON state) in advance, the wireless unit 109 is switched to a communication suspension state (OFF: OFF state), and the communication operation state of the wireless unit 109 is determined. Is previously in a communication suspension state (OFF: off state), the operation state is switched to a communication operation state (ON: on state).

  Accordingly, in the second embodiment, the wireless communication function can be switched to the communication operating state by combining the detection result of the flip open / close state and the vibration detection result by the acceleration sensor 112.

  As the vibration (acceleration) applied to the mobile phone 10, for example, when the user tilts the mobile phone 10 in a specific direction or shakes the mobile phone at a constant speed, Indicates the vibration, tilt, and acceleration that occur.

Next, the central control unit 120 detects that the communication state has been switched (to the operating state or to the dormant state) and notifies the LED driver 103 (state switching notification function). The LED driver 103 turns on the notification LED indicating that the switching of the communication state has occurred (step B13).
As for the lighting operation of the notification LED, for example, when the communication state is switched from ON to OFF and when the communication state is switched from OFF to ON, a lighting method such as a different color or a different blinking speed is assigned. May be. This lighting method can be individually set, and can be arbitrarily changed and set by the user.

As a result, in the second embodiment, the user (user) operates the wireless communication operating state of the wireless unit 109 by applying vibration to the mobile phone 10 with the flip part of the mobile phone 10 opened. It is possible to switch to a state or to a dormant state.
For this reason, when the user holding the mobile phone 10 is in a place that is not suitable for wireless communication, for example, a simple operation of activating the acceleration sensor and applying vibration to the mobile phone 10 with the flip opened. By performing this, the wireless communication function can be switched to the communication suspension state.
In addition, when the user holding the mobile phone 10 moves to a place suitable for wireless communication, a simple operation of activating the acceleration sensor and applying vibration to the mobile phone 10 with the flip opened. Thus, the wireless communication function of the mobile phone 10 can be switched to the operating state.

  Next, the central control unit 120 detects whether or not the voice notification (output) setting preset in the mobile phone 10 is set to the manner mode (step B14), and if the manner mode is set, the central control unit 120 performs a step. On the other hand, if the manner mode is not set, the process transits to Step B15.

The central control unit 120 detects that the communication operation state has been switched (from ON to OFF or from OFF to ON) when the mobile phone 10 is not set to the manner mode, and is preset by the speaker 117. The voice is sounded (step B15), and the process proceeds to step B5.
On the other hand, when the sound output setting of the mobile phone 10 is set to the manner mode, the sound from the speaker 117 is not sounded (step B16), and the process proceeds to step B5.

  On the other hand, if the flip part of the mobile phone 10 is in the closed state in step B7, the communication operation state (ON) that is the operation state of the wireless communication function in the wireless unit 109 and the communication suspension state are the same as in step B8. (OFF) is a setting that can be switched from one state to the other (non-holding setting), or a setting that cannot be switched (holding setting) is determined (step B10).

  Here, when the operation state of the wireless unit 109 is a setting that cannot be switched (holding setting), that is, a setting that the communication operation state (ON / OFF) is not switched, the process proceeds to step B11.

At this time, the wireless switching control unit 112 cancels the holding setting in the wireless unit 109 and converts the operation state of the wireless communication function into a non-holding setting that can be switched (step B11).
Here, the central control unit 120 notifies the LED driver 103 that the communication unit 109 has been set and converted to the non-holding setting. Upon receiving this notification, the central control unit 120 turns on the LED 104 via the LED driver 103 (to step B13).

On the other hand, in step B10, the operation state of the wireless communication function in the wireless unit 109, which is a communication operation state (ON) and a communication suspension state (OFF), can be switched from one state to the other state (non- In the case of (holding setting), the wireless switching control unit 112 converts the non-holding setting into a setting (holding setting) in which the operation state of the wireless unit 109 is not switchable (step B12).
Here, the central control unit 120 notifies the LED driver 103 that the communication unit 109 has been converted from the non-holding setting to the holding setting. Upon receiving this notification, the central control unit 120 turns on the LED 104 via the LED driver 103 (to step B13).

As described above, in the second embodiment, for example, the wireless unit 109 is set to the hold setting by applying vibration to the mobile phone 10 with the flip (opening / closing portion) of the mobile phone 10 closed. Can do.
Thereby, it can suppress that ON / OFF of a wireless communication function is switched accidentally by the vibration given to the mobile telephone 10. FIG.
Further, the wireless unit 109 can be set to the non-holding setting by applying vibration to the mobile phone 10 with the flip (opening / closing portion) of the mobile phone 10 opened.
Thereby, for example, in an environment suitable for wireless communication, the user can arbitrarily switch the wireless communication state (ON / OFF) of the mobile phone in a very simple procedure.

[Embodiment 3]
Next, Embodiment 2 in the present invention will be described.
The mobile phone 10 of the third embodiment has substantially the same configuration as that of the above-described embodiment (FIG. 1), and is connected to the wireless switching control unit 114 as shown in FIG. The third embodiment has a configuration in which a third-party system radio circuit 121 that performs radio communication with the third-party system and relays a radio signal and an antenna 122 that is additionally provided in the third-party system radio circuit 121 are provided. 1 and different. The third-party electronic device is a conventional electronic device configured to communicate wirelessly with the mobile phone 10 such as a mobile phone, a cordless phone, and a PDA.
Note that wireless communication performed by the third-party system wireless circuit 121 with a third-party electronic device (hereinafter referred to as “third-party wireless communication”) is performed by the wireless unit 109 via the antenna 108. It is assumed that the wireless communication is different.

Thereby, for example, the mobile phone 10 functions as a wireless repeater for third-party wireless communication, so that the third-party electronic device is indirectly connected to the wireless communication network of the mobile phone 10 via the mobile phone 10. Wireless communication connection is possible.
In addition, the same code | symbol shall be attached | subjected about the part same as Embodiment 1 mentioned above. Further, the functional operation of other configurations is the same as that of the first embodiment.

[Description of Operation of Embodiment 3]
Next, the operation of the third embodiment will be described based on the flowchart of FIG.
First, assume that the mobile phone 10 is powered off (step C1). The mobile phone 10 is turned on (step C2), and a standby screen is displayed on the front LCD 105.

Next, the detection unit A113 detects whether or not a specific key (sensor activation key) assigned to activate the acceleration sensor 112 is pressed (step C3).
If the sensor activation key has been pressed, the process proceeds to step C4. If not, the process proceeds to the standby screen in step C2.

  Next, the detection unit A113 determines whether or not the sensor activation key has been pressed for a long time (1 second or longer) (step C4). If it is detected that the sensor activation key has been pressed for more than 1 second, the process proceeds to step C5. If not, the process proceeds to step C2 (standby screen).

Next, the detection unit A113 notifies the central control unit 120 that the sensor activation key is in a long-pressed state, and the acceleration sensor 112 is activated by the central control unit 120 (step C5).
The acceleration sensor 112 activated here is activated and operated when the sensor activation key is in a long-pressed state (pressed state). For this reason, when the pressed state of the sensor activation key is released, the previous operation is discarded and the process proceeds to step C2 (standby screen state).

Next, the detection unit A113 detects vibration in the mobile phone 10 via the activated acceleration sensor 112 (step C6).
Here, when the acceleration sensor 112 detects the vibration of the mobile phone 10 and its acceleration (to step C7), the counter 10 counts the number of detected vibrations, and the number of detected vibrations is detected by the detection unit. B111 stores temporarily (step C7).
On the other hand, if no vibration is detected for a certain time (for example, 30 seconds) in step C6, the process returns to step C5.

  Here, when the number of vibrations detected in step C7 is one, the wireless switching control unit 112 switches the operation state (ON / OFF) of wireless communication in the wireless unit 109 (once: step C8). What). That is, when the wireless communication operation state of the wireless unit 109 is OFF (resting state), the wireless communication function is activated. If the wireless communication function of the wireless unit 109 has been activated (ON) in advance, the wireless communication function is set to a sleep state (OFF).

Here, step C8 will be described.
Here, a setting (non-holding setting) in which the operation state of the wireless communication function in the wireless unit 109, which is a communication operation state (ON) and a communication suspension state (OFF), can be switched from one state to the other state. Or whether it is a setting that cannot be switched (state holding setting) (step C8).

At this time, if the setting for maintaining the operation state of the wireless communication function in the wireless unit 109 (holding setting), that is, the setting in which the communication operation state (ON / OFF) is not switched, the process proceeds to step C5.
On the other hand, if the setting that the operation state of the wireless communication function in the wireless unit 109 is not maintained (non-holding setting), that is, the communication operation state (ON or OFF) is set to be switchable, the process proceeds to step C9.

Next, step C9 will be described.
The wireless switching control unit 114 detects the communication state of the wireless unit 109. If the wireless unit 109 is in an operating state (ON), the process proceeds to step C10. If the wireless unit 109 is in a suspended state (OFF), the process proceeds to step C11. If the third-party system radio circuit 121 is in an operating state, the process proceeds to step C12.

Here, when the operation state of the wireless unit 109 is the operating state (ON), the wireless switching control unit 114 switches the wireless unit 109 to the dormant state (OFF) (step C10).
In addition, if the operation state of the wireless unit 109 is in a dormant state (OFF), the wireless switching control unit 114 switches to an operating state (ON) (step C11).
In addition, the wireless switching control unit 114 switches the wireless unit 109 to the operating state (ON) when the third party system wireless circuit 121 is in the operating state, and sets the third-party system wireless circuit 121 to the inactive state (OFF). (Step C12).

  Next, the central control unit 120 detects that the communication state of the communication unit 109 and the wireless circuit for the third party system has been switched (to the operation state or to the hibernation state), and notifies the LED driver 103. (Status switch notification function). The LED driver 103 blinks the notification LED indicating that the switching of the communication state has occurred (step C16).

  Next, the central control unit 120 detects whether or not the voice notification (output) setting preset in the mobile phone 10 is set to the manner mode (step C17). On the other hand, if the manner mode is not set, the process proceeds to step C18.

When the mobile phone 10 is not set to the manner mode (NO), the central control unit 120 detects that the communication operation state has been switched (from ON to OFF or from OFF to ON). A preset voice is sounded (step C18), and the process proceeds to step A5.
On the other hand, when the audio output setting of the mobile phone 10 is set to the manner mode (YES), the sound from the speaker 117 is not sounded (step C19), and the process proceeds to step C5.

Here, the case where the number of vibrations detected by the detection unit B111 in step C7 is two (to step C13) will be described.
In step C13, a setting (non-holding setting) that allows switching between a communication operating state (ON) and a communication suspension state (OFF), which are operating states of the wireless communication function of the wireless unit 109, from one state to the other state. Or a setting that cannot be switched (holding setting) is determined (holding non-holding setting determination step).

  Here, when the operation state of the wireless unit 109 is a setting that cannot be switched (holding setting), that is, a setting that the communication operation state (ON / OFF) is not switched, the process proceeds to step C14.

Next, the wireless switching control unit 112 cancels the holding setting in the wireless unit 109. Thereby, the operation state of the wireless communication function of the wireless unit 109 is converted to a non-holding setting that can be switched (step C14).
Here, the central control unit 120 notifies the LED driver 103 that the communication unit 109 has been converted to the non-holding setting. Upon receiving this notification, the central control unit 120 turns on (flashes) the LED 104 via the LED driver 103 (step C16).

  In addition, about lighting of this notification LED, or blinking operation | movement, individual setting is possible and a user shall change arbitrarily.

Next, the central control unit 120 detects whether or not the voice notification setting of the mobile phone 10 is set to the manner mode (step C17). If the manner mode is set, the process proceeds to step C19.
When the audio output setting of the mobile phone 10 is set to the manner mode, the central control unit 120 does not sound the speaker 117 (step C19), and then proceeds to step C5.

  If the voice output setting of the mobile phone 10 is not set to the manner mode in step C17 (NO), the speaker 117 sounds a preset voice (step C18), and then the process proceeds to step C5.

  On the other hand, in step C13, the wireless communication function operation state (communication operation state (ON) and communication suspension state (OFF)) in the wireless unit 109 can be switched from one state to the other state (non-holding setting). ), The wireless switching control unit 112 converts the non-holding setting into a setting (holding setting) in which the operating state of the wireless unit 109 is not switchable (step C15).

Thereby, in this embodiment, when the user (user) gives the mobile phone 10 vibration twice, the wireless unit 109 responds to the request from the user (single vibration). Whether or not to switch the operation state of the wireless communication function of the wireless unit 109 can be specified.
For this reason, when the user who holds the mobile phone 10 is in a place that is not suitable for wireless communication, for example, the operation state of the wireless communication function of the wireless unit 109 is not switched (holding setting). Even when the mobile phone 10 is erroneously given a single vibration, the wireless communication function can be kept in a communication suspension state.

Next, the central control unit 120 detects that the communication unit 109 has been converted to the holding setting, and notifies the LED driver 103 of it. The LED driver 103 blinks the notification LED set corresponding to the notified holding setting (step C16).
Note that the lighting method (color, timing, etc.) of the notification LED can be set individually and can be arbitrarily changed by the user.

  Next, the central control unit 120 detects whether or not the voice notification setting of the mobile phone 10 is set to the manner mode (step C17). If the manner mode is set, the process proceeds to step C20.

  When the communication operation state is switched (from ON to OFF or from OFF to ON), the central control unit 120 sounds a preset voice from the speaker 117 (Step C18), and proceeds to Step C5.

  On the other hand, if the audio output setting of the mobile phone 10 is set to the manner mode in step A16, no sound is emitted from the speaker 117 (step C19), and the process proceeds to step C5.

As described above, in this embodiment, the user (user) shakes the mobile phone 10 to give the mobile phone 10 vibration once, for example, so that the mobile phone 10 is in a wireless communication state. A certain operating state (ON), a dormant state (OFF), and an operating state of third party wireless communication can be switched to each other.
For this reason, for example, when the user who owns the mobile phone 10 is in a place that is not suitable for wireless communication, the wireless communication function is suspended by performing a simple operation of giving the mobile phone 10 vibration once. You can switch to the state.
In addition, when the user who owns the mobile phone 10 moves to a place suitable for wireless communication, a simple operation is performed such that the mobile phone 10 is vibrated once with the acceleration sensor activated. By doing so, the wireless communication function of the mobile phone 10 can be switched to the ON state or the activated state of the third party wireless communication.

As a method for applying vibration to the mobile phone 10, for example, the tilt sensor 112 may cause acceleration generated by the mobile phone by tilting the mobile phone in a specific direction or shaking the mobile phone at a constant speed. Shall be detected.
[Embodiment 4]
Next, Embodiment 4 of the present invention will be described.
The mobile phone 10 of the fourth embodiment has substantially the same configuration as that of the above-described second embodiment (FIG. 3), and is connected to the wireless switching control unit 114 as shown in FIG. The third aspect is that a wireless circuit 121 for a third party system that performs wireless communication with a device and relays a wireless signal and an antenna 122 that is provided in the wireless circuit 121 for the third party system are newly provided. This is different from the first embodiment.

The third-party electronic device is a conventional electronic device configured to communicate wirelessly with the mobile phone 10 such as a mobile phone, a cordless phone, and a PDA.
Note that wireless communication performed by the third-party system wireless circuit 121 with a third-party electronic device (hereinafter referred to as “third-party wireless communication”) is performed by the wireless unit 109 via the antenna 108. It is assumed that the wireless communication is different.

Thereby, for example, the mobile phone 10 functions as a wireless repeater for third-party wireless communication, so that the third-party electronic device is indirectly connected to the wireless communication network of the mobile phone 10 via the mobile phone 10. Wireless communication connection is possible.
In addition, the same code | symbol shall be attached | subjected about the part same as Embodiment 2 mentioned above. In addition, the functional operation of other configurations is the same as that of the second embodiment.

[Description of Operation of Embodiment 4]
Next, the operation of the fourth embodiment will be described based on the flowchart of FIG.

  First, it is assumed that the mobile phone 10 is powered off (step D1). The mobile phone 10 is turned on (step D2), and a standby screen is displayed on the front LCD 105.

Next, the detection unit A113 detects whether or not a specific key (sensor activation key) assigned for activation of the acceleration sensor 112 is pressed (step D3).
If the sensor activation key has been pressed, the process proceeds to step D4. If not, the process proceeds to the standby screen in step D2.

  Next, the detection unit A113 determines whether or not the sensor activation key has been pressed for a long time (for example, 1 second or longer) (step D4). Here, if it is detected that the sensor activation key has been pressed for more than 1 second, the process proceeds to step D5, and if not, the process proceeds to step D2 (standby screen).

Next, the acceleration sensor 112 is activated by the long press operation (step D5).
It should be noted that the acceleration sensor 112 does not start up or operate unless the sensor start key is kept pressed. For this reason, when the pressed state of the sensor activation key is released (the sensor activation key is released), the previous operation is discarded and the process proceeds to step D2 (standby screen).

Next, the detection unit A113 detects vibration in the mobile phone 10 via the acceleration sensor 112 (step D6).
Here, the open / close detection switch 107 detects the flip open / close state of the mobile phone 10, and determines whether the flip is open or closed (step D7).
When the flip is in the open state, the wireless switching control unit 112 switches the operation state (ON / OFF) of wireless communication in the wireless unit 109 (open state: to step D8).

Next, step D8 will be described.
Here, a setting (non-holding setting) in which the operation state of the wireless communication function in the wireless unit 109, which is a communication operation state (ON) and a communication suspension state (OFF), can be switched from one state to the other state. It is determined whether or not the setting is disabled (state holding setting) (step D8).

Here, when the setting for maintaining the operation state of the wireless communication function in the wireless unit 109 (holding setting), that is, the setting in which the communication operation state (ON / OFF) is not switched, the process proceeds to step D5.
On the other hand, if the setting that the operation state of the wireless communication function in the wireless unit 109 is not maintained (non-holding setting), that is, the communication operation state (ON or OFF) is set to be switchable, the process proceeds to step D9.

Here, step D9 will be described.
The wireless switching control unit 114 detects the communication state of the wireless unit 109. If the wireless unit 109 is in an operating state (ON), the process proceeds to step D10. If the wireless unit 109 is in a suspended state (OFF), the process proceeds to step D11. If the third-party system radio circuit 121 is in an operating state, the process proceeds to step D12.

Here, when the operation state of the wireless unit 109 is the operating state (ON), the wireless switching control unit 114 switches the wireless unit 109 to the dormant state (OFF) (step D10).
Further, the wireless switching control unit 114 switches to the operating state (ON) if the operating state of the wireless unit 109 is in the dormant state (OFF) (step D11).
In addition, the wireless switching control unit 114 switches the wireless unit 109 to the operating state (ON) when the third party system wireless circuit 121 is in the operating state, and sets the third-party system wireless circuit 121 to the inactive state (OFF). (Step D12).

Next, the central control unit 120 detects that the communication state of the communication unit 109 and the wireless circuit for the third party system has been switched (to the operation state or to the hibernation state), and notifies the LED driver 103. (Status switch notification function). The LED driver 103 blinks the notification LED indicating that the switching of the communication state has occurred (step D13).
As for the lighting operation of the notification LED, for example, when the communication state is switched from ON to OFF and when the communication state is switched from OFF to ON, a lighting method such as a different color or a different blinking speed is assigned. May be. This lighting method can be individually set, and can be arbitrarily changed and set by the user.

Thus, in the fourth embodiment, the user (user) operates the wireless communication operation state of the wireless unit 109 by applying vibration to the mobile phone 10 with the flip part of the mobile phone 10 opened. It is possible to switch to a state (ON), a dormant state (OFF), or a third party communication.
For this reason, for example, when the user holding the mobile phone 10 is in a place that is not suitable for wireless communication, for example, the acceleration sensor is activated and vibration is applied to the mobile phone 10 with the flip opened. By performing various operations, the wireless communication can be switched to a dormant state.
In addition, when the user who owns the mobile phone 10 moves to a place suitable for wireless communication, the mobile phone 10 can be wirelessly connected by a simple operation of applying vibration to the mobile phone 10 with the flip opened. The communication function can be switched to the operating state.

  Next, the central control unit 120 detects whether or not the voice notification (output) setting preset on the mobile phone 10 is set to the manner mode (manner mode setting) (step D17), and is set to the manner mode. If yes, the process goes to Step D19. If the manner mode is not set, the process goes to Step D18.

The central control unit 120 detects that the communication operation state has been switched (from ON to OFF or from OFF to ON) when the mobile phone 10 is not set to the manner mode, and is preset by the speaker 117. The voice is sounded (step D18), and the process proceeds to step D5.
On the other hand, when the sound output setting of the mobile phone 10 is set to the manner mode, the sound from the speaker 117 is not sounded (step D19), and the process proceeds to step D5.

  On the other hand, if the flip of the mobile phone 10 is in the closed state in step D7, the communication operation state (ON) and the communication suspension state (OFF) that are the operation states of the wireless communication function in the wireless unit 109 are the same as in step D8. ) Is a setting that can be switched from one state to the other state (non-holding setting) or a setting that cannot be switched (holding setting) (step D13).

  Here, when the operation state of the wireless unit 109 is determined to be a setting that cannot be switched (holding setting), that is, a setting that the communication operation state (ON / OFF) is not switched, the process proceeds to step D14.

At this time, the wireless switching control unit 112 cancels the holding setting in the wireless unit 109 and converts the holding / non-holding setting of the wireless unit 109 into a non-holding setting in which the operation state of the wireless communication function can be switched (step). D14).
Here, the central control unit 120 notifies the LED driver 103 that the communication unit 109 has been set and converted to the non-holding setting. Upon receiving this notification, the central control unit 120 turns on the LED 104 via the LED driver 103 (to step D16).

  On the other hand, in step D13, the operation state of the wireless communication function in the wireless unit 109, which is a communication operation state (ON) and a communication suspension state (OFF), can be switched from one state to the other state (non- In the case of (holding setting), the wireless switching control unit 112 converts the non-holding setting into a setting (holding setting) in which the operation state of the wireless unit 109 is not switchable (step D15).

As a result, in the fourth embodiment, when the user (user) closes the flip (open / close portion) of the mobile phone 10, the wireless unit 109 performs wireless communication of the wireless unit 109 in response to a request from the user. It is possible to specify whether or not to switch the operation state of the function.
For this reason, when the user holding the mobile phone 10 is in a place that is not suitable for wireless communication, for example, by setting the operation state of the wireless communication function of the wireless unit 109 not to be switched (holding setting), Even when vibration is given to the mobile phone 10 by mistake, the wireless communication function can be kept in a communication suspension state.

As described above, in the fourth embodiment, for example, by applying vibration to the mobile phone 10 with the flip (opening / closing portion) of the mobile phone 10 closed, the radio unit 109 is provided as in the second embodiment. Can be set to the hold setting. For this reason, it can suppress that ON / OFF of a radio | wireless communication function is accidentally switched by the vibration given to the mobile telephone 10. FIG.
Furthermore, the wireless unit 109 can be set to the non-holding setting by applying vibration to the mobile phone 10 with the flip (opening / closing portion) of the mobile phone 10 opened.
Thus, for example, in an environment suitable for wireless communication, the user can arbitrarily switch the wireless communication state (ON / OFF) of the mobile phone and the third party communication in a very simple procedure. Can do.

  The present invention can be applied to a portable terminal, a notebook personal computer, a PDA, or the like that can detect vibration in the terminal body.

It is a schematic block diagram which shows the internal structure of one Embodiment of the radio | wireless communication apparatus by this invention. 2 is a flowchart illustrating an overall operation of the wireless communication device disclosed in FIG. 1. It is a schematic block diagram which shows the internal structure of one Embodiment of the radio | wireless communication apparatus by this invention. 4 is a flowchart illustrating an overall operation of the wireless communication device disclosed in FIG. 3. It is a schematic block diagram which shows the internal structure of one Embodiment of the radio | wireless communication apparatus by this invention. 6 is a flowchart illustrating an overall operation of the wireless communication device disclosed in FIG. 5. It is a schematic block diagram which shows the internal structure of one Embodiment of the radio | wireless communication apparatus by this invention. It is a flowchart which shows the whole operation | movement of the radio | wireless communication apparatus disclosed in FIG. 3 is a flowchart illustrating an operation of automatically starting a wireless unit in the wireless communication device disclosed in FIG. 1.

Explanation of symbols

10 Mobile phone 101 Flash memory 102 RAM
103 LED driver 104 LED
105 Front LCD
106 LCD driver 107 Open / close detection switch 108, 122 Antenna 109 Communication unit (wireless communication unit)
110 Counter 111 Detector B
112 Acceleration sensor (vibration detector)
113 Detector A
114 Wireless switching control unit (wireless operation control unit)
115 Receiver 116 Key switch (input key)
117 Speaker 118 Notification Vibrating Means 119 Microphone 120 Central Control Unit 121 Radio Circuit for Third Party System

Claims (8)

A wireless communication apparatus having a wireless communication unit that performs wireless communication with a communication network, and an apparatus main body that includes an input key that receives an input,
A vibration detecting unit that is activated when the input key is continuously pressed for a preset time or more and detects a vibration having a predetermined amplitude or more generated in the apparatus main body;
A wireless operation control unit that switches the operation state of wireless communication in the wireless communication unit between a start state and a stop state based on the number of vibrations detected in a state where the input key is continuously pressed;
The wireless operation controller is
A switching suppression setting unit that suppresses switching of the operating state of the wireless communication unit when the vibration that matches a preset number of times is detected;
Automatic communication start for switching the wireless communication operation state in the wireless communication unit to the start state when the input operation to the input key is not detected for a preset time when switching of the operation state in the wireless communication unit is suppressed radio communication apparatus characterized by comprising a means. The wireless communication device according to claim 1,
The vibration detection unit is an acceleration sensor that measures acceleration generated in the wireless communication device main body, and the acceleration sensor detects the acceleration as the vibration when an acceleration greater than a preset value is detected. A wireless communication device. The wireless communication device according to claim 1,
The wireless communication device includes a flip unit having a first housing and a second housing and one end of each housing connected by a hinge,
Having an open / closed state detecting means for detecting that the flip part is in a closed state or an open state;
The wireless operation control unit is configured to switch between starting and stopping wireless communication operations in the wireless communication unit when the vibration is detected while the input key is pressed when the flip unit is open. A wireless communication apparatus comprising a state switching function. The wireless communication apparatus according to claim 3 , wherein
The switching inhibition setting means, when the flip portion is closed, wireless communication device, wherein the setting the radio communication unit to said start and stop switch suppression mode is suppressed switching of the wireless communication operation . The wireless communication device according to claim 1,
A third-party wireless communication relay unit that relays a wireless signal from a wireless communication device provided in advance outside the wireless communication device;
The wireless operation control unit is a wireless relay that alternately switches start and stop of the relay operation in the third-party wireless communication relay unit based on the number of vibrations detected in a state where the input key is continuously pressed A wireless communication apparatus comprising a control function. The wireless communication device according to claim 5,
The wireless operation control unit is performed via wireless communication performed by the wireless communication unit and a third party wireless communication relay unit based on the number of vibrations detected in a state where the input key is continuously pressed. A wireless communication apparatus comprising a wireless communication switching function for switching between wireless communication. A wireless communication apparatus having an apparatus main body including a wireless communication unit that performs wireless communication with a communication network and an input key that receives an input from a user, wherein the wireless communication method controls the wireless communication. There,
When the input key is continuously pressed for a preset time or longer, a vibration detection unit that detects a vibration having a preset amplitude or more generated in the apparatus main body is activated, and the input key is continuously Counting the number of vibrations detected when pressed in the state, and based on the number of vibrations, the wireless communication operation state in the wireless communication unit is switched between a start state and a stop state,
Suppressing switching of the operation state of the wireless communication unit when the vibration that matches the preset number of times is detected,
When switching of the operation state in the wireless communication unit is suppressed and the input operation to the input key is not detected for a preset time, the wireless communication operation state in the wireless communication unit is switched to the activated state, A wireless communication method , wherein the wireless communication apparatus performs each of these operation procedures . A wireless communication apparatus having an apparatus main body including a wireless communication unit that performs wireless communication with a communication network and an input key that receives an input from a user, the wireless communication for controlling the wireless communication A program,
A vibration detection activation function for performing a process of activating a vibration detection unit that detects a vibration having a predetermined amplitude or more generated in the apparatus main body when the input key is pressed continuously for a predetermined time or longer. When,
The number of vibrations detected when the input key is continuously pressed is counted, and based on the number of vibrations, the wireless communication operation state in the wireless communication unit is switched between a start state and a stop state. A wireless operation control function for performing the switching process;
A switching suppression setting function that suppresses switching of the operating state of the wireless communication unit when the vibration that matches a preset number of times is detected;
Automatic communication start for switching the wireless communication operation state in the wireless communication unit to the start state when the input operation to the input key is not detected for a preset time when switching of the operation state in the wireless communication unit is suppressed Function and
Is realized by a computer of the wireless communication apparatus .

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