JP2011259282A - Portable terminal device, low-temperature-burn preventing method for portable terminal and program for the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable terminal device capable of preventing low-temperature burn without limiting a user's operations and functions.SOLUTION: A portable terminal device includes first and second wireless communication sections 11 and 12 that become a high temperature and have the same function, first and second thermistors 16A and 16A that monitor the temperature of the first and second wireless communication sections 11 and 12, and an operation control section 15 that turns on/off the first and second wireless communication sections 11 and 12. The operation control section 15 has a control mode that turns on/off the first and second wireless communication sections 11 and 12 based on a signal from the first and second thermistors 16A and 16A.

Description

  The present invention relates to a portable terminal device, and in particular, a portable terminal device capable of effectively preventing low-temperature burns that occur in a holder who owns the device during operation, a low-temperature burn prevention method for a portable terminal, and a program therefor Also related.

  A portable terminal device such as a mobile phone may be burned at a low temperature when it is carried in a pocket. That is, when a portable terminal device such as a camera-equipped mobile phone or an electronic notebook is in a power-on state, the calculation part of the microcomputer generates heat in accordance with the operation. The heat generated while being carried is normally transmitted to the housing and kept at a constant temperature so as to dissipate heat and avoid low-temperature burns.

However, if a user inadvertently carries a portable terminal device that is not equipped with an auto power-off function in a pocket while it is turned on, the temperature of the housing in the pocket will rise more than expected, and There is a case where a low temperature burn is injured in a skin portion that is in contact with the terminal device with a piece of pocket cloth interposed therebetween.
Conventionally, Patent Documents 1 to 4 are known as related technologies intended to prevent the occurrence of low-temperature burns by the portable terminal.

  Among these, the electronic device disclosed in Patent Document 1 has a plurality of functional units, detects a temperature change of each functional unit with a temperature detection unit, and detects a temperature at a position where the temperature change is small with a reference temperature detection unit. The heat generation suppression control temperature of the functional unit is switched by the set temperature switching unit, the relative temperature of the heat generation temperature is calculated based on the reference temperature, and the function unit It is the structure which suppresses heat_generation | fever.

  In addition, the portable electronic device disclosed in Patent Document 2 and the method for preventing burns in the portable electronic device operate a timer, measure the temperature with a temperature sensor at every predetermined time, and measure the timer value and the temperature measured with the temperature sensor. The temperature rise rate is calculated using and, and the temperature rise rate is compared with the temperature rise curve to determine whether there is a risk of low temperature burns. If it is determined that there is a risk, the vibrator is driven to vibrate the housing Let That is, according to Patent Document 2, when there is a risk of low-temperature burns while being carried in a pocket, the vibrator is vibrated to notify the user of the danger by driving the vibrator. It has become.

  Furthermore, the portable device disclosed in Patent Document 3 detects the surface temperature of the housing by the temperature detection means, and detects the detected surface temperature, preset dangerous temperature, temperature graph, prediction information (arrival time), and warning. The information is displayed on the display means, and it is determined whether or not the surface temperature is higher than the dangerous temperature, and a warning is issued when it is determined that the temperature is higher than the dangerous temperature, thereby avoiding low temperature burns. Yes.

  According to Patent Document 4, the temperature of the mobile communication terminal is detected by the temperature detecting means, the user is notified by the notifying means, and if the temperature is equal to or higher than a predetermined value, whether the process being operated is during emergency communication. If the emergency communication is in progress, the emergency communication is continued. If the emergency communication is not in progress, the temperature warning notification is output to the notification means and the control of the operation is restricted.

JP 2009-200185 A JP 2009-089039 A JP 2007-074095 A JP 2007-043422 A

  According to the above-mentioned Patent Document 1, a plurality of temperature detection units that detect temperatures of a plurality of function units to be measured are provided, and the function of the function units to be measured that have detected a high temperature is stopped or limited to suppress heat generation. However, each function to be measured has a different function. For this reason, when a function for which high temperature is detected is stopped or restricted, the operation or function is restricted for the user.

In addition, in the technical contents disclosed in Patent Documents 2, 3 and 4, none of them can prevent a temperature rise that may cause a low-temperature burn.
In other words, the technical content disclosed in Patent Document 2 is such that when there is a risk of low-temperature burns while being carried in a pocket, the vibrator is driven, thereby causing the housing to vibrate and causing danger to the user. It is a notification of sex. The technical content disclosed in Patent Document 3 displays a change in surface temperature on a display unit and performs control to alert the user. The technical content disclosed in Patent Document 4 is to detect the temperature of the mobile communication terminal by the temperature detection means and notify the user by the notification means.

  Therefore, when a user carries a portable electronic device in his / her pocket, the user may not be able to communicate with the user by using sound or display. Avoidance is not enough.

  Furthermore, in Patent Document 4, when the temperature of the mobile communication terminal is equal to or higher than a predetermined value, it is determined whether the process being operated is an emergency communication, and if the emergency communication is in progress, the emergency communication is continued. If the emergency communication is not in progress, the temperature warning notification is output to the notification means and the control for limiting the processing during the operation is performed. For the user, the operation and the function are limited, and the convenience of the user is lowered. .

(Object of invention)
The present invention is intended to complete the disadvantages associated with the related art, and a portable terminal device capable of effectively preventing the occurrence of low-temperature burns without limiting the operation and functions for the user, It is an object of the present invention to provide a low temperature burn prevention method for a terminal and a program thereof.

In order to achieve the above object, a portable terminal device according to the present invention is a portable terminal device having a device body provided with a device whose internal temperature rises by continuous use, wherein the device has the same function. And an operation control unit having a switching setting function for setting any one of the two devices to an operating state.
An operation information output unit is provided that specifies information relating to the temperature rise of the device necessary for setting the timing of the switching setting operation by the operation control unit and sends the information to the operation control unit.

In order to achieve the above object, a low-temperature burn prevention method for a portable terminal according to the present invention includes a device whose internal temperature rises by continuous use, and the portable device that sets the device to an operating state by an activation command input from the outside In the terminal device, the device is configured by at least two first and second devices having the same function, and is equipped with an operation control unit that operates the two devices alternately,
In such a state, when there is a start command from the outside, the operation control unit sets one of the two devices to the operating state and the other to the non-operating state,
The temperature information of the one device in operation is input from a thermometer (thermistor) preliminarily attached to the one device, and the one device reaches a preset dangerous temperature based on the temperature information. The operation control unit determines whether or not
When the temperature of the one device reaches the dangerous temperature, the operation control unit operates to switch from the one device to the other device and set the other device to the operating state,
Thus, the temperature rise is suppressed while maintaining the operating state of the first or second device.

In order to achieve the above object, a low-temperature burn prevention program for a portable terminal according to the present invention includes a device whose internal temperature rises by continuous use, and sets the device in an operating state by an activation command input from the outside In the terminal device, the device is configured by at least two first and second devices having the same function, and is equipped with an operation control unit that operates the two devices alternately,
In such a state, when there is a start command from the outside, a device selection setting function for setting one of the two devices to an operating state and setting the other to a non-operating state,
The temperature information of the one device in operation is input from a thermistor preliminarily attached to the one device, and it is determined whether the one device has reached a preset dangerous temperature based on the temperature information. Dangerous temperature judgment function,
And a device switching setting function for switching from the one device to the other device and setting the other device to an operating state when the temperature of the one device reaches the dangerous temperature,
It is characterized in that these are realized by a computer.

  As described above, the present invention provides at least two devices having the same function of increasing the internal temperature by continuous use and enables continuous operation by switching from one to the other by temperature monitoring. An excellent portable terminal device, a low temperature burn prevention method for a portable terminal, and a program thereof, which can avoid a state that leads to a low temperature burn due to a temperature rise in advance and surely can improve user convenience. Can be provided.

It is a block diagram which shows the structure of 1st Embodiment of this invention. It is explanatory drawing which shows the arrangement | positioning state of each component in 1st Embodiment disclosed in FIG. It is a flowchart which shows operation | movement of 1st Embodiment disclosed in FIG. It is a block diagram which shows the structure of 2nd Embodiment of this invention. It is a flowchart which shows operation | movement of 2nd Embodiment disclosed in FIG.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
Here, FIG. 1 thru | or FIG. 3 shows 1st Embodiment, FIG. 4 thru | or FIG. 5 shows 2nd Embodiment.
In each of these embodiments, a mobile phone is taken as an example of the portable terminal device, and the contents thereof will be described.

[First Embodiment]
First, in FIG. 1, a mobile phone 1 as a portable terminal device has a device main body 1A equipped with wireless communication units 11 and 12 as two devices having the same function of increasing the internal temperature by continuous use. . The wireless communication units 11 and 12 in the apparatus main body 1A are switched and connected to an antenna 14 via a selector 13 provided in advance, and each can communicate with an external communication device via a base station 20. ing. Here, in the mobile phone 1 having the above-described configuration, the wireless communication units 11 and 12 are heat sources that cause low-temperature burns.

In the apparatus main body 1A, an operation control unit 15 having a switching setting function for selecting any one of the two wireless communication units 11 and 12 and setting the operation state is provided.
The operation control unit 15 controls the switching connection operation of the selector 13 in conjunction with the first or second wireless communication units 11 and 12 set to the operation state (or switched to the operation state). It has an interlocking switching control function.

  The selected wireless communication unit 11 or 12 is configured to perform wireless communication with the base station 20 via the antenna 14.

  The operation control unit 15 detects, as operation information, information related to the temperature rise of the wireless communication unit 11 or 12 during operation necessary for the timing setting of the switching setting operation by the operation control unit 15, A temperature sensor 16 is provided as an operation information output means to be sent to the operation control unit 15.

  In this first embodiment, the thermometer 16 is equipped with two thermistors 16A and 16B as first and second thermometers corresponding to the wireless communication units 11 and 12, respectively. Yes. Here, when the temperature of the wireless communication units 11 and 12 is measured, the thermistors 16A and 16B individually measure the temperature. However, the temperature of the wireless communication units 11 and 12 is increased by one thermistor 16A or 16B. You may comprise so that temperature may be measured.

  The operation control unit 15 operates the switching setting function described above when the temperature information sent from the thermistor 16A or 16B, which is the thermometer, becomes a temperature higher than a preset dangerous temperature. The wireless communication unit (device) 11 or 12 that is in operation is switched to the other wireless communication unit (device) 12 or 11 that is not in operation, and this is set to an operating state.

  Further, the operation control unit 15 is provided with a memory 17 that stores information on the dangerous temperature. The operation control unit 15 determines whether or not the temperature information sent from the temperature measuring device 16 exceeds the dangerous temperature based on the dangerous temperature information stored in advance in the memory 17. It has. When the temperature information exceeds the dangerous temperature, the switching setting function described above is immediately activated.

  The operation control unit 15 is further equipped with an input operation switch 1B on the apparatus main body 1A as request setting means for executing a call operation and a browser operation. The operation control unit 15 is also provided with a display unit 1C.

  Then, the result of the control operation of the operation control unit 15 and the input operation by the input operation switch 1B (that is, the operation status of the one wireless communication unit 11 or 12 in operation) via the display unit 1C is externally displayed. It is designed to be displayed and output. As the display unit 1C, a liquid crystal display unit is used in the first embodiment.

Here, an example of the arrangement of each component in the apparatus main body 1A described above is shown in FIG.
As shown in FIG. 2, the entire upper surface side (antenna side / upper surface side) of the apparatus main body 1 </ b> A has a selector 13 that communicates with the antenna 14 from the left in FIG. 2, and a first wireless communication unit. Wireless communication unit (first device) 11, thermistor 16 </ b> A as a first temperature sensor, display unit 1 </ b> C, and input operation switch 1 </ b> B are disposed.

  Further, a second wireless communication unit (second device) 11, a thermistor 16 </ b> B as a second temperature sensor, an operation control unit 15, and a memory 17 are provided on the entire lower surface side (lower surface side) of the apparatus main body 1 </ b> A. It is arranged.

  That is, the first wireless communication unit 11 and the first thermistor 16A are disposed on the upper surface (display unit 1C side), and the second wireless communication unit 12 and the second thermistor 16B are disposed on the lower surface (operation control unit 15 side). Has been placed.

  Since the place closest to the heat source (the first and second wireless communication units) is the hottest, when the first wireless communication unit 11 is selected, the first thermistor 16A has the highest peripheral surface temperature, At that time, since the wireless communication unit 12 is powered off (OFF), the temperature around the second thermistor 16B is the lowest. Conversely, when the second wireless communication unit 12 is selected, the surface temperature around the second thermistor 16B is the highest, and at that time, the first wireless communication unit 11 is powered off (OFF). The temperature around one thermistor 16A is the lowest.

  As a result, the first and second wireless communication units 11 and 12 are integrated with the thermistors 16A and 16B, whereby the first and second wireless communication units 11 and 12 are raised. The arrangement is such that the temperature can be measured quickly.

Next, the operation of the first embodiment will be described.
In the first embodiment, a call operation and browser operation request (setting input) of the mobile phone 1 is transmitted to the operation control unit 15 when the operator operates the input operation switch 1B. At this time, the operation control unit 15 performs control to switch and use one of the wireless communication units (devices) 11 and 12, and the selected wireless communication unit (device) 11 or 12 is simultaneously operated by the selector 13 with the antenna 14. Thus, wireless communication is performed with the base station (12).

  The temperature measuring devices (thermistors) 16 </ b> A and 16 </ b> B measure the temperature around the wireless communication units (devices) 11 and 12, and transmit the temperature information to the operation control unit 15. The operation control unit 15 determines whether or not the mobile phone 1 has reached a temperature causing a low-temperature burn based on high-temperature determination information (dangerous temperature information) stored in advance in the memory 17.

  Subsequently, when it is determined that the mobile phone 1 has reached a temperature causing low-temperature burns, the wireless communication unit (device) 11 or 12 that is in operation and is not operating is immediately activated. Switch the operation to 12 or 11, set the wireless communication unit (device) 11 or 12 that has reached the dangerous temperature to the non-operating state, and set the non-operating wireless communication unit (device) 12 or 11 to the operating state At the same time, the wireless communication unit (device) 12 or 11 set to the operating state is connected to the antenna 14 by the selector 13 as described above.

Hereinafter, this operation will be described in more detail with reference to the flowchart of FIG.
FIG. 3 is a flowchart showing the state of radio unit control for preventing low temperature burns applied to the mobile phone of FIG.

  As shown in FIG. 3, first, the operator operates the input operation switch 1B, and a start request (start command) for the wireless communication unit 11 is set and input via the input operation switch 1B (step S101). In response to the activation request of the wireless communication unit 11, the operation control unit 15 immediately operates to turn on the first wireless communication unit 11 (set to the operating state) and turn off the second wireless communication unit 12 (to put the non-operating state) The setting is controlled (step S102).

  When the first wireless communication unit 11 is turned on, the first wireless communication unit 11 is set to a continuous use state, and the internal temperature rises. On the other hand, the first thermistor (thermometer) 16A provided in the first wireless communication unit 11 starts measuring the temperature rise around the first wireless communication unit 11, and controls the temperature information for operation. Send to part 15. Thereby, the operation control unit 15 acquires temperature information of the first wireless communication unit 11 via the first thermistor 16A (step S103).

  Based on the acquired temperature information, the operation control unit 15 determines whether the temperature of the first wireless communication unit 11 is higher or lower than the dangerous temperature information stored in advance in the memory 17 (step S104). If it is determined that the temperature is low, there is no risk of low-temperature burns, so the process returns to step S103 to obtain temperature information of the first thermistor 16A again (at this time, the first wireless communication unit 11 is continuously turned on). )

  On the other hand, if it is determined in step S104 that the temperature is high (has reached a dangerous temperature), there is a danger of low-temperature burns, so the operation control unit 15 immediately turns off the first wireless communication unit 11 and performs the second wireless communication. The second wireless communication unit 12 can be communicated with the base station 20 by controlling the turning on of the unit 12 and simultaneously operating the selector to switch the second wireless communication unit 12 to the antenna described above. The state is set (step S105).

  For the second wireless communication unit 12 that has been switched and connected in step S105 and has started operation, the second thermistor 16B continues to collect temperature information and control the operation as in the case of the first wireless communication unit 11 described above. The temperature information is continuously transmitted to the unit 15 (step S106).

For the temperature information about the active second wireless communication unit 12 sent from the second thermistor 16B, the operation control unit 15 is similar to the case of the first wireless communication unit 11 described above. It is determined whether the temperature of the second wireless communication unit 12 is higher or lower than the dangerous temperature information stored in advance in the memory 17 (step S107).
If it is determined that the temperature is low, there is no risk of low-temperature burns, so the process returns to step S106 to acquire temperature information of the second thermistor 16A again (at this time, the second wireless communication unit 12 is continuously turned on) Have been).

On the other hand, if it is determined in step S107 that the temperature is high, there is a risk of low-temperature burns. Therefore, the operation control unit 15 immediately operates, returns to step S102 described above, turns off the second wireless communication unit 12, and turns The first wireless communication unit 11 is controlled to be turned on, and at the same time, the selector 13 is operated to switch and connect the first wireless communication unit 11 to the antenna 14 described above, whereby the turned on first wireless communication unit 11 11 is set in a communicable state with the base station 20 (step S102).
Thereafter, such a control operation is repeatedly executed.

  As described above, since the first and second wireless communication units 11 and 12 are alternately set to be operable, the first or second wireless communication unit 11 or 12 is maintained at a dangerous temperature. Thus, it is possible to reliably avoid the occurrence of low-temperature burns of the person holding the mobile phone 1 while maintaining the function of the mobile phone.

  Here, in the first embodiment, the case where the first and second wireless communication units 11 and 12 are provided has been described as an example, but three or more wireless communication units are provided and switching by temperature monitoring is performed. You may make it control.

  As described above, according to the first embodiment, a dangerous temperature state can be reliably avoided in advance by having a plurality of circuits having the same function that become high temperature and performing switching control by temperature monitoring. In addition, it is possible to provide a portable terminal that does not generate low-temperature burns without restricting functions and functions, and to improve user convenience.

Here, in the description of the operation of the above-described form telephone, the control contents executed by the operation control unit 15 among the respective operation steps of steps S101 to S107 are programmed to be executed by a computer. May be.
Even in this case, the object of the present invention can be effectively achieved.

[Second Embodiment]
Next, 2nd Embodiment of the portable terminal device concerning this invention is described.
Here, the same reference numerals are used for the same components as those of the first embodiment mobile phone described above.
First, in FIG. 4, the mobile phone (portable terminal device) 2 in the second embodiment has two functions having the same function of increasing the internal temperature by continuous use, as in the case of the first embodiment described above. It has an apparatus body 2A equipped with wireless communication units 11 and 12 as devices. The wireless communication units 11 and 12 in the apparatus main body 2A are switched and connected to an antenna 14 via a selector 13 provided in advance, and each can communicate with an external communication device via a base station 20. ing. Here, in the mobile phone 2 having the above-described configuration, the wireless communication units 11 and 12 are heat sources that cause low-temperature burns.

In the apparatus main body 2A, an operation control unit 25 having a switching setting function for selecting any one of the two wireless communication units 11 and 12 and setting the operation state is provided.
The operation control unit 25 controls the switching connection operation of the selector 13 in conjunction with the first or second wireless communication units 11 and 12 set to the operation state (or switched to the operation state). It has an interlocking switching control function.

  The selected wireless communication unit 11 or 12 is configured to perform wireless communication with the base station 20 via the antenna 14 as in the case of the first embodiment described above.

  The operation control unit 25 detects, as operation information, information related to the temperature rise of the wireless communication unit 11 or 12 during operation necessary for setting the timing of the switching setting operation by the operation control unit 25. An operating time detection timer 25 </ b> A as an operation information output means to be sent to the operation control unit 25 is provided.

  This operating time detection timer 25A operates in conjunction with the operating information output means when either the first or second wireless communication unit (device) 11 or 12 is set to an operating state, A function of notifying the operation control unit 25 of the elapse of the operation time (time up) when the operation time until the wireless communication unit (device) 11 or 12 set in advance reaches the dangerous temperature has elapsed. Yes. In other words, the dangerous temperature in the first embodiment described above is configured to be performed with the passage of the corresponding time, and in this respect, the temperature measurement required in the second embodiment described above in this second embodiment. The thermistor is not equipped.

  For this reason, the operation control unit 25 described in the second embodiment operates the switching setting function when the elapse of the set time is transmitted from the operation time detection timer 25A, and the one of the operating ones is operating. The wireless communication unit (device) 11 or 12 is switched to the other non-operating wireless communication unit (device) 12 or 11 and is set to an operating state.

  Further, the operation control unit 25 is provided with a memory 25B. The memory 25B stores in advance the elapsed time set in the operating time detection timer 25A. Several types of elapsed time are associated with the dangerous temperature and stored together with the correction value of the outside air temperature. The operation control unit 25 is selected and specified as necessary (by an external command), and is set in the operation time detection timer 25A. Other configurations are the same as those of the first embodiment described above.

Next, the operation of the second embodiment will be described with reference to FIG.
As in the case of the first embodiment described above, first, the input operation switch 1B is operated by an operator, and a start request (start command) of the wireless communication unit 11 is set and input via the input operation switch 1B (step) S201). In response to the activation request of the wireless communication unit 11, the operation control unit 25 immediately operates to turn on the first wireless communication unit 11 (set to the operating state) and turn off the second wireless communication unit 12 (to the non-operating state). The setting is controlled (step S202). Up to this point, the process is the same as that in the first embodiment described above.

  When the first wireless communication unit 11 is turned on, the first wireless communication unit 11 is set to a continuous use state, and the internal temperature rises and the operation time starts. When the operating time elapses, the operation control unit 25 issues a timing start command to the operating time detection timer 25A in conjunction with the ON control of the first wireless communication unit 11, and the timer 25A operates based on this. When the preset time (the time when the first wireless communication unit 11 has reached the dangerous temperature) has elapsed, the elapsed time (timeout) is passed to the operation control unit 25. Notice. Thereby, the operation control unit 25 acquires elapsed time information (timer information) that is assumed that the first wireless communication unit 11 has reached the dangerous temperature via the operation time detection timer 25A (step S203).

  Based on the acquired timer information, the operation control unit 25 determines whether or not the temperature of the first wireless communication unit 11 has timed out based on a specific set time stored in advance in the memory 25B. (Step S204). Here, if it is determined that the time-out has not occurred, there is no danger of low-temperature burns, so the process returns to the previous step S203 to acquire timer information of the timer 25A again (at this time, the first wireless communication unit 11 continues) And turned on).

  On the other hand, if it is determined in step S204 that the timer 25A has timed out, there is a risk of low-temperature burns, so control is performed to turn off the first wireless communication unit 11 and turn on the second wireless communication unit 12. At the same time, the selector is operated to switch and connect the second wireless communication unit 12 to the antenna described above, thereby setting the turned on second wireless communication unit 12 in a communicable state with the base station 20. (Step S205).

  As for the second wireless communication unit 12 that is switched and connected in step S205 and starts to operate, the elapsed time information (timer) from the operation time detection timer 25A that operates simultaneously as in the case of the first wireless communication unit 11 described above. Information) (transmission of the timer information to the operation control unit 25) is continuously executed (step S206).

  About the elapsed time information (timer information) from the operating time detection timer 25A, the operation control unit 15 acquires the second wireless communication unit 12 as in the case of the first wireless communication unit 11 described above. Based on the timer information, the operation control unit 25 determines whether or not the temperature of the first wireless communication unit 11 has timed out based on a specific set time stored in advance in the memory 25B (step S207). . Here, if it is determined that the time-out has not occurred, there is no danger of low-temperature burns, so the process returns to the previous step S203 to acquire timer information of the timer 25A again (at this time, the first wireless communication unit 11 continues) And turned on).

On the other hand, if it is determined in step S207 that the timer 25A has timed out, there is a risk of low-temperature burns, so control is performed to turn off the first wireless communication unit 11 and turn on the second wireless communication unit 12. At the same time, the selector 13 is operated to switch and connect the second wireless communication unit 12 to the antenna described above, thereby setting the turned on second wireless communication unit 12 in a communicable state with the base station 20. (Step S202).
Thereafter, such a control operation is repeatedly executed.

  Even in this case, as in the case of the first embodiment described above, the object of the invention described above can be effectively achieved, and the pair of thermistors 16A and 16B can be reduced, so that low temperature burns are not generated. It becomes possible to provide a mobile phone at a lower cost.

Here, in the description of the operation of the above-described form telephone, the control contents executed by the operation control unit 25 among the operation steps of steps S201 to S207 are programmed and executed by the computer. May be.
Even in this case, the object of the present invention can be effectively achieved.

  About each embodiment mentioned above, if the summary of the novel technical content is put together, it will become as follows. Note that the scope of the present invention is not necessarily limited to this.

[Appendix 1]
A portable terminal device having an apparatus body provided with a device whose internal temperature rises by continuous use,
The device is composed of at least two first and second devices having the same function, and has an operation control unit having a switching setting function for setting one of the two devices to an operating state. And
A portable terminal device comprising operation information output means for specifying information relating to the temperature rise of the device necessary for setting the timing of the switching setting operation by the operation control unit and sending the information to the operation control unit.

[Appendix 2]
In the portable terminal device according to attachment 1,
The operation information output means is constituted by a thermometer that measures and outputs the temperature of the device in the operation state,
The operation control unit operates the switching setting function when the temperature information sent from the thermometer is equal to or higher than a preset dangerous temperature, and is not operated from one of the operating devices. A portable terminal device that switches to the other device and sets the device to an operating state.

[Appendix 3]
In the portable terminal device according to attachment 2,
A portable terminal device, wherein the first and second temperature measuring devices are provided separately as the temperature measuring devices separately provided for the first and second devices, respectively.

[Appendix 4]
In the portable terminal device according to attachment 2 or 3,
The operation control unit is provided with a memory storing the dangerous temperature information, and the operation control unit receives temperature information sent from the temperature sensor based on the dangerous temperature information stored in advance in the memory. A portable terminal device having a function of determining whether or not the temperature exceeds a dangerous temperature.

[Appendix 5]
In the portable terminal device according to attachment 4,
A portable terminal device, wherein the thermometer is constituted by a thermistor.

[Appendix 6]
In the portable terminal device according to attachment 1,
The operation information output means is configured with an operation time detection timer provided in advance in the operation control unit,
The operation time detection timer operates in conjunction with the operation information output means when either the first device or the second device is set to the operation state, and the preset device is at a dangerous temperature. When the operating time to reach the time has passed, the progress of the operating time (time up) is communicated to the operation control unit,
The operation control unit activates the switching setting function when the elapse of the set time is transmitted from the operation time detection timer, and switches from the one device in operation to the other device in operation. A portable terminal device characterized by setting this to an operating state.

[Appendix 7]
In the portable terminal device according to any one of appendices 1 to 6,
Each of the first and second devices comprises a wireless communication unit that communicates with an external communication device via a pre-equipped antenna.

[Appendix 8]
In the portable terminal device according to attachment 7,
The output stage of each of the first and second wireless communication units is equipped with a selector for connecting the first or second wireless communication unit set to the operating state to the antenna,
The operation control unit includes an interlocking switching control function for performing switching control in conjunction with the first or second wireless communication unit that is set to the operating state for the switching connection operation of the selector. Terminal equipment.

[Appendix 9]
In the portable terminal device according to attachment 8,
A selector that communicates with the antenna, the first device and the first thermistor, a display unit that externally displays the operating status of the first device, various command information, and necessary An information input unit (switch unit) for inputting various information,
The second device, the second thermistor, the operation control unit, and the memory are arranged over the entire lower surface side of the apparatus main body via a holding plate that holds these parts. Portable terminal device.

[Appendix 10]
In a portable terminal device comprising a device whose internal temperature rises by continuous use, and setting the device in an operating state by a start command input from the outside,
The device is composed of at least two first and second devices having the same function, and is equipped with an operation control unit that operates the two devices alternately.
In such a state, when there is a start command from the outside, the operation control unit sets one of the two devices to the operating state and the other to the non-operating state,
The temperature information of the one device in operation is input from a thermometer (thermistor) preliminarily attached to the one device, and the one device reaches a preset dangerous temperature based on the temperature information. The operation control unit determines whether or not
When the temperature of the one device reaches the dangerous temperature, the operation control unit operates to switch from the one device to the other device and set the other device to the operating state,
Accordingly, a low temperature burn prevention method for a portable terminal characterized in that the temperature rise is suppressed while maintaining the operating state of the first or second device.

[Appendix 11]
In a portable terminal device comprising a device whose internal temperature rises by continuous use, and setting the device in an operating state by an externally input start command,
The device is composed of at least two first and second devices having the same function, and is equipped with an operation control unit that operates the two devices alternately.
In such a state, when there is a start command from the outside, the operation control unit sets one of the two devices to the operating state and the other to the non-operating state,
An operation time detection timer provided in advance in the operation control unit is preset with an estimated time for the one device to reach the burn occurrence temperature, and the operation control unit monitors the passage of the set time,
When the set time of the operation time detection timer has elapsed, the operation control unit is operated to switch from the one device to the other device, and set the other device to the operating state,
Accordingly, a low temperature burn prevention method for a portable terminal characterized in that the temperature rise is suppressed while maintaining the operating state of the first or second device.

[Appendix 12]
In the low-temperature burn prevention method for mobile terminals according to any one of appendices 10 to 11,
A low-temperature burn prevention method for a portable terminal, characterized in that each of the first and second devices is configured by a wireless communication unit that communicates with an external communication device via an antenna provided in advance.

[Appendix 13]
In a portable terminal device comprising a device whose internal temperature rises by continuous use, and setting the device in an operating state by a start command input from the outside,
The device is composed of at least two first and second devices having the same function, and is equipped with an operation control unit that operates the two devices alternately.
In such a state, when there is a start command from the outside, a device selection setting function for setting one of the two devices to an operating state and setting the other to a non-operating state,
The temperature information of the one device in operation is input from a thermistor preliminarily attached to the one device, and it is determined whether the one device has reached a preset dangerous temperature based on the temperature information. Dangerous temperature judgment function,
And a device switching setting function for switching from the one device to the other device and setting the other device to an operating state when the temperature of the one device reaches the dangerous temperature,
A low-temperature burn prevention program for mobile terminals, characterized in that these are implemented on a computer.

[Appendix 14]
In a portable terminal device comprising a device whose internal temperature rises by continuous use, and setting the device in an operating state by a start command input from the outside,
The device is composed of at least two first and second devices having the same function, and is equipped with an operation control unit that operates the two devices alternately.
In such a state, when there is a start command from the outside, a device selection setting function for setting one of the two devices to an operating state and setting the other to a non-operating state,
An operation time monitoring function for monitoring the progress of the estimated time for the device to reach the burn occurrence temperature set in advance in a timer provided in the operation control unit;
And a device switching setting function for switching from the one device to the other device and setting the other device to an operating state when the set time set in the timer has elapsed,
A low-temperature burn prevention program for mobile terminals, characterized in that it is implemented on a computer.

  A portable terminal device such as a mobile phone, a PDA, a wireless router or the like that is not equipped with an auto power-off function, and may be burned at a low temperature when the user is carried in a pocket. Widely applicable to.

1, 2 Mobile phones (portable terminal devices)
1A, 2A Device body 1B Input operation unit (switch)
11 First wireless communication unit (device)
12 Second wireless communication unit (device)
13 Selector 14 Antenna 15, 25 Operation Control Unit 16 Thermometer (Operation Information Output Means)
16A 1st thermistor (temperature measuring device / operation information output means)
16B Second thermistor (temperature sensor / operation information output means)
25A Operation time detection timer 25B Memory

Claims (10)

A portable terminal device having an apparatus body provided with a device whose internal temperature rises by continuous use,
The device is composed of at least two first and second devices having the same function, and has an operation control unit having a switching setting function for setting one of the two devices to an operating state. And
A portable terminal device comprising operation information output means for specifying information relating to the temperature rise of the device necessary for setting the timing of the switching setting operation by the operation control unit and sending the information to the operation control unit. The portable terminal device according to claim 1,
The operation information output means is constituted by a thermometer that measures and outputs the temperature of the device in the operation state,
The operation control unit operates the switching setting function when the temperature information sent from the thermometer is equal to or higher than a preset dangerous temperature, and is not operated from one of the operating devices. A portable terminal device that switches to the other device and sets the device to an operating state. The portable terminal device according to claim 2,
A portable terminal device, wherein the first and second temperature measuring devices are provided separately as the temperature measuring devices separately provided for the first and second devices, respectively. The portable terminal device according to claim 2 or 3,
The operation control unit is provided with a memory storing the dangerous temperature information, and the operation control unit receives temperature information sent from the temperature sensor based on the dangerous temperature information stored in advance in the memory. A portable terminal device having a function of determining whether or not the temperature exceeds a dangerous temperature. The portable terminal device according to claim 4, wherein
A portable terminal device, wherein the thermometer is constituted by a thermistor. The portable terminal device according to claim 1,
The operation information output means is configured with an operation time detection timer provided in advance in the operation control unit,
The operation time detection timer operates in conjunction with the operation information output means when either the first device or the second device is set to the operation state, and the preset device is at a dangerous temperature. When the operating time to reach the time has passed, the progress of the operating time (time up) is communicated to the operation control unit,
The operation control unit activates the switching setting function when the elapse of the set time is transmitted from the operation time detection timer, and switches from the one device in operation to the other device in operation. A portable terminal device characterized by setting this to an operating state. The portable terminal device according to any one of claims 1 to 6,
Each of the first and second devices comprises a wireless communication unit that communicates with an external communication device via a pre-equipped antenna. The portable terminal device according to claim 7,
The output stage of each of the first and second wireless communication units is equipped with a selector for connecting the first or second wireless communication unit set to the operating state to the antenna,
The operation control unit includes an interlocking switching control function for performing switching control in conjunction with the first or second wireless communication unit that is set to the operating state for the switching connection operation of the selector. Terminal equipment. In a portable terminal device comprising a device whose internal temperature rises by continuous use, and setting the device in an operating state by a start command input from the outside,
The device is composed of at least two first and second devices having the same function, and is equipped with an operation control unit that operates the two devices alternately.
In such a state, when there is a start command from the outside, the operation control unit sets one of the two devices to the operating state and the other to the non-operating state,
The temperature information of the one device in operation is input from a thermometer (thermistor) preliminarily attached to the one device, and the one device reaches a preset dangerous temperature based on the temperature information. The operation control unit determines whether or not
When the temperature of the one device reaches the dangerous temperature, the operation control unit operates to switch from the one device to the other device and set the other device to the operating state,
Accordingly, a low temperature burn prevention method for a portable terminal characterized in that the temperature rise is suppressed while maintaining the operating state of the first or second device. In a portable terminal device comprising a device whose internal temperature rises by continuous use, and setting the device in an operating state by a start command input from the outside,
The device is composed of at least two first and second devices having the same function, and is equipped with an operation control unit that operates the two devices alternately.
In such a state, when there is a start command from the outside, a device selection setting function for setting one of the two devices to an operating state and setting the other to a non-operating state,
The temperature information of the one device in operation is input from a thermistor preliminarily attached to the one device, and it is determined whether the one device has reached a preset dangerous temperature based on the temperature information. Dangerous temperature judgment function,
And a device switching setting function for switching from the one device to the other device and setting the other device to an operating state when the temperature of the one device reaches the dangerous temperature,
A low-temperature burn prevention program for mobile terminals, characterized in that these are implemented on a computer.

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