JP2009182868A - Mobile terminal and acceptance operation processing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the production cost of a mobile terminal by preventing erroneous operations and avoiding the stop of power supply at emergencies. <P>SOLUTION: A terminal for mounting on cargo 100 includes: an operation determination part which decides whether operation of a slide switch 101 has been accepted; a power control part which starts power supply, when the operation of the slide switch has been decided as being accepted and power supply from a battery 150 is stopped; a connection determining part which determined whether an AC adapter 300 is connected, when power from the battery 150 is supplied; and a communication part which reports abnormality, in response to the acceptance of the operation of the slide switch 101, when the power from the battery 150 is supplied and the AC adapter 300 is in an unconnected state. The power control part stops power supply, in response to acceptance of the operation of the slide switch 101, when the power from the battery 150 is supplied and the AC adapter 300 is in a connected state. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a portable terminal that transmits current position information to a monitoring center that performs predetermined monitoring processing, and a reception operation processing method, and in particular, an operation on a portable terminal from a user carrying the portable terminal. Related to processing.

  Conventionally, when an emergency button on a portable terminal is operated, a technique for acquiring the current position of a user who owns the portable terminal and transmitting the acquired position information to a monitoring center or the like that performs predetermined monitoring processing is disclosed. (For example, refer to Patent Document 1). In Patent Document 1, a mobile terminal is provided with a power switch for switching between an operating state and a non-operating state, and an emergency button for notifying that in an emergency. And if the emergency button of a portable terminal is operated by the user, the present position information will be transmitted to a center device (monitoring center). In addition, after the emergency button is operated, the switching of the portable terminal to the non-operating state is stopped even if the power switch is operated.

JP 2002-209248 A

  However, since the portable terminal in Patent Document 1 described above is provided with two switches, a power switch and an emergency button (emergency switch), the power switch is operated by mistake instead of the emergency switch in an emergency. There was a case where the notification of an emergency was delayed or the notification could not be made.

  Moreover, in the portable terminal in Patent Document 1, when the user of the portable terminal is attacked by a malicious person, the power switch is operated by the malicious person before the user operates the emergency switch. If this happens, the supply of power to the mobile terminal stops, and it may not be possible to transmit the above notification and position information from the mobile terminal to the monitoring center. Furthermore, since the portable terminal in Patent Document 1 is provided with two switches, a power switch and an emergency switch, the number of parts of the portable terminal increases and the manufacturing cost increases.

  The present invention has been made in view of the above, and by performing the start and stop of power supply and reporting that an abnormality has occurred with a single switch unit, it is possible to prevent an erroneous operation by a user and An object of the present invention is to provide a portable terminal and a reception operation processing method that can reduce the manufacturing cost without sometimes stopping power supply.

  In order to solve the above-described problems and achieve the object, the invention according to claim 1 is a switch unit operated by a user in a portable terminal that transmits current position information to a monitoring center that performs predetermined monitoring processing. And an operation determination means for determining whether or not an operation of the switch unit has been received, and when the operation of the switch unit is received and the supply of power from an internal power source to the portable terminal is stopped, the portable terminal A power control means for starting the supply of power from the internal power supply, and a power supply device for charging from the external power supply is connected to the mobile terminal when the power from the internal power supply is supplied to the mobile terminal. A connection determination means for determining whether or not power is supplied from the internal power source to the mobile terminal and the power supply device is not connected to the mobile terminal. Communication means for notifying the monitoring center that an abnormality has occurred when an operation of the switch unit is received, and the power control means is supplied with power from the internal power supply to the portable terminal. In the case where the power supply device is connected to the portable terminal, the power supply from the internal power supply to the portable terminal is stopped when the operation of the switch unit is accepted.

  Further, the invention according to claim 2 is the portable terminal according to claim 1, wherein when the supply of power from the internal power supply to the portable terminal is started, a setting mode that determines the state of the portable terminal is Setting to switch from a stop mode indicating a state where power supply from the internal power source is stopped to the mobile terminal to a standby mode indicating a state where power from the internal power source is supplied to the mobile terminal The apparatus further comprises means.

  According to a third aspect of the present invention, in the portable terminal according to the second aspect, the setting means further supplies power from the internal power supply to the portable terminal, and the power supply to the portable terminal. When no device is connected, the setting mode is set by switching from the standby mode to a positioning mode indicating a state in which the position information is transmitted to the monitoring center.

  According to a fourth aspect of the present invention, in the portable terminal according to the third aspect, the setting unit further sets the setting mode when the supply of power from the internal power supply to the portable terminal is stopped. Switching from the standby mode to the stop mode is set.

  According to a fifth aspect of the present invention, in the reception operation processing method executed by a mobile terminal that transmits current position information to a monitoring center that performs a predetermined monitoring process, the mobile terminal is a switch operated by a user. An operation determination step for determining whether or not an operation of the switch unit has been received, and when an operation of the switch unit is received and supply of power from an internal power source to the portable terminal is stopped, A power control step for starting supply of power from the internal power source to the mobile terminal, and a power supply device that charges the mobile terminal from an external power source when the power from the internal power source is supplied to the mobile terminal A connection determination step for determining whether or not the power is supplied, power from the internal power supply is supplied to the mobile terminal, and the power supply device is connected to the mobile terminal. A communication step of notifying the monitoring center that an abnormality has occurred when an operation of the switch unit is received, and the power control step includes: When power is supplied and the power supply device is connected to the portable terminal, when the operation of the switch unit is accepted, the supply of power from the internal power supply to the portable terminal is stopped. Features.

  According to the present invention, the start and stop of power supply and the notification that an abnormality has occurred are performed by a single switch unit, thereby preventing erroneous operation of the user and stopping the power supply in an emergency. There is also an effect that the manufacturing cost can be reduced.

  Exemplary embodiments of a portable terminal and a reception operation processing method according to the present invention are explained in detail below with reference to the accompanying drawings. The mobile terminal according to the present embodiment is a cargo loading terminal that is mounted on a cargo, measures the position information of the loaded cargo, and transmits the measured position information to a monitoring center that performs predetermined monitoring processing. It is used in a cargo security system for security. In the present embodiment, first, an outline of the cargo security system will be described (see FIG. 1), and further, a description will be given of a case where the cargo loading terminal is used by being carried by a person without being loaded on the cargo. (Refer to FIG. 2-1 and later). In the present embodiment, a case where a person carries a cargo loading terminal to be loaded on the cargo is described, but the present invention is not limited to this. That is, the cargo loading terminal may be a terminal that can be carried by a person, even if it is not loaded on the cargo.

  FIG. 1 is a schematic diagram of a cargo security system using a cargo loading terminal according to an embodiment. FIG. 1 shows a situation in which the cargo to be guarded is guarded from the collection and delivery to the delivery (hereinafter referred to as the guard target section) in the cargo security system according to the present embodiment. Cargo C is shipped with a cargo loading terminal 100 for security of cargo, and on the surface of the packaging material such as cardboard for packing the cargo C, the cargo C destination, slip number, cargo loading A label T on which cargo information such as a terminal ID (IDentification) of the terminal 100 is written is attached.

  First, the shipper S delivers a cargo C (hereinafter referred to as a security target cargo) in which the cargo to be transported and the cargo loading terminal 100 are packed with the above-described packing material to the courier. Then, the home delivery company notifies the monitoring center 400 that the collection of the cargo to be guarded is started using the portable reading terminal 500 constituted by a portable POS (Point Of Sales system) terminal or the like. Security of cargo to be guarded will begin. Thereafter, the delivery company delivers the guarded cargo to the delivery destination R by the delivery vehicle V. The vehicle V passes through the departure / arrival compliant store SB and the main departure / arrival base MB in the middle of delivery, and the courier company provides the arrival time, departure time, etc. at the timing of passing through these bases. It transmits to the accounting server (not shown). In addition, although transportation between the main bases MB is performed by transportation means other than the vehicle V such as the aircraft A or the train T, this section is also included in the guard target section.

  On the other hand, when the security by the monitoring center 400 is started as described above, the cargo loading terminal 100 bundled with the cargo to be guarded periodically uses the GPS (Global Positioning System) or the like to obtain current position information. Positioning is performed and the monitoring center 400 is notified. Further, when an abnormality such as a power stop occurs, the cargo loading terminal 100 transmits the abnormality report to the monitoring center 400 together with the position information. Thereafter, when the courier delivers the guarded cargo to the destination R, the courier uses the portable reading terminal 500 described above to notify the monitoring center 400 that the delivery of the guarded cargo has been completed. End security of the cargo subject to security. In this way, in the guard target section, the guard mounting terminal that is bundled with the guard target cargo transmits position information and an abnormality report to the monitoring center 400 to guard the guard target cargo.

  Next, a case where a person carries the cargo loading terminal 100 and uses it without carrying it on the cargo will be described. FIG. 2-1 is a front view of the cargo loading terminal according to the embodiment. FIG. 2-2 is a side view of the cargo loading terminal according to the embodiment. The cargo loading terminal 100 performs a positioning process for acquiring current position information (current position information of a user carrying the cargo loading terminal 100), and performs a predetermined monitoring process on the acquired position information. The data is periodically transmitted to the center 400. The location information may be transmitted only when requested by the monitoring center.

  As shown in FIGS. 2-1 and 2-2, the cargo loading terminal 100 is formed in a substantially rectangular parallelepiped, and an AC adapter for charging the cargo loading terminal 100 from an external power source is provided on the side surface. A charging jack to be connected and a slide switch 101 operated by a user are provided.

  FIG. 3 is a hardware configuration diagram of the cargo loading terminal according to the embodiment. As shown in FIG. 3, the cargo loading terminal 100 includes a slide switch 101, a charging jack 102, a battery 150, a power circuit 110, a charging circuit 120, a RAM (Random Access Memory) 130, and a ROM (Read). It mainly includes a Only Memory (140) and a CPU (Central Processing Unit) 160.

  The slide switch 101 is operated by a user carrying the cargo loading terminal 100. When the operation is accepted, various processes are executed in the cargo loading terminal 100. The slide switch 101 receives an operation from the user by holding the slide state for about one second with a user's finger or the like. In addition, when the user's operation is finished and the user's finger or the like is released, the slide switch 101 is released from the slide state and is returned by the amount of the slide.

  The charging jack 102 is a part to which the AC adapter 300 for charging from the external power source is connected to the cargo loading terminal 100. The AC adapter 300 is connected to an outlet at an end opposite to the end connected to the cargo loading terminal 100, and can transmit AC 100 V power to the cargo loading terminal 100.

  The battery 150 stores power (charged power) received by the cargo loading terminal 100 from an external power source.

  The power supply circuit 110 supplies or stops the power stored in the battery 150 by a power converter or the like to each component of the cargo loading terminal 100.

  The charging circuit 120 stores power received from the AC adapter 300 in the battery 150 as charging power.

  The RAM 130 is a volatile memory that is used by the CPU 160 to execute a program. In the present embodiment, the RAM 130 temporarily stores a setting mode that defines the state of the cargo loading terminal 100.

  The ROM 140 stores in advance a reception operation processing program executed by the cargo loading terminal 100.

  The CPU 160 executes a reception operation processing program stored in the ROM 140.

  FIG. 4 is a functional block diagram illustrating a configuration of the cargo loading terminal according to the embodiment. As shown in FIG. 4, the cargo loading terminal 100 mainly includes an operation determination unit 210, a connection determination unit 230, a power control unit 220, a communication unit 240, and a setting unit 250.

  In the cargo loading terminal 100 according to the present embodiment, the CPU 160 reads out and executes the reception operation processing program from the ROM 140, whereby the above-described units are loaded onto the main storage device such as the RAM 130, and the operation determination unit 210 and the power control unit 220 are loaded. The connection determination unit 230, the communication unit 240, and the setting unit 250 are generated on the main storage device. The reception operation processing program has a module configuration including the above-described units (operation determination unit 210, power control unit 220, connection determination unit 230, communication unit 240, and setting unit 250).

  The operation determination unit 210 determines whether an operation of the slide switch 101 has been received. Specifically, when the user holds the slide switch 101 in the slide state and receives a signal to that effect, it is determined that the operation of the slide switch 101 has been accepted.

  The connection determination unit 230 determines whether the AC adapter 300 is connected to the charging jack 102 in the cargo loading terminal 100 when the power from the battery 150 is supplied to each component of the cargo loading terminal 100. To do. Specifically, when the AC adapter 300 is inserted into the charging jack 102, a signal to that effect is received and it is determined that the AC adapter 300 is connected.

  When the operation determination unit 210 determines that an operation from the slide switch 101 has been received, and the power control unit 220 has stopped supplying power from the battery 150 to the cargo loading terminal 100 (a stop to be described later) When the mode is set), an instruction to start the supply of power from the battery 150 to the cargo loading terminal 100 is sent to the power supply circuit 110 (in this case, the standby mode described later is set). ).

  In addition, the power control unit 220 is supplied with power from the battery 150 to the cargo loading terminal 100 by the power circuit 110, and the connection determination unit 230 connects the AC adapter 300 to the charging jack 102 of the cargo loading terminal 100. If it is determined that the operation of the slide switch 101 has been received by the operation determination unit 210 when it is determined that the operation has been performed (a standby mode described later), the cargo loading terminal 100 is An instruction to stop power supply is sent to the power supply circuit 110 (in this case, a stop mode described later is set).

  In the communication unit 240, the power from the battery 150 is supplied to the cargo loading terminal 100 by the power supply circuit 110, and the AC adapter 300 is not connected to the charging jack 102 of the cargo loading terminal 100 by the connection determination unit 230. If it is determined that the operation determination unit 210 has received the operation of the slide switch 101 from the user (if the periodical positioning mode described later is set), the cargo loading terminal 100 is carried. The monitoring center 400 is notified that an abnormality has occurred in the user.

  Here, when the monitoring center receives a notification from the cargo loading terminal 100 that an abnormality has occurred, it issues an instruction to the waiting guard to the site where the abnormality has occurred, It is a center that reports to related organizations such as the police and fire department as needed.

  The setting unit 250 switches and sets the current setting mode of the cargo loading terminal 100 by storing a setting mode that determines the state of the cargo loading terminal 100 in the RAM 130. Here, the setting modes of the cargo loading terminal 100 include, for example, a stop mode, a standby mode, and a regular positioning mode.

  The stop mode is a mode indicating a state in which the power supply from the battery 150 is stopped by the power supply circuit 110 for each component of the cargo loading terminal 100. This stop mode is set by the setting unit 250 as the current setting mode of the cargo loading terminal 100 when the supply of power from the battery 150 to each component of the cargo loading terminal 100 is stopped. When the operation of the slide switch 101 is accepted by the user when the stop mode is set, regardless of whether or not the AC adapter 300 can be connected to the charging jack 102, each component of the cargo loading terminal 100 is connected. Then, the supply of power from the battery 150 is started, and the power of the cargo loading terminal 100 is turned on.

  The standby mode is a mode indicating a state in which power from the battery 150 is supplied from the power supply circuit 110 to each component of the cargo loading terminal 100. This standby mode is set as the current setting mode of the cargo loading terminal 100 by the setting unit 250 when the supply of power from the battery 150 to each component of the cargo loading terminal 100 is started. Then, when the operation of the slide switch 101 is accepted by the user when the standby mode is set, the supply of power from the battery 150 to each component of the cargo loading terminal 100 is stopped, and the cargo loading The terminal 100 is turned off. When the standby mode is set and the AC adapter 300 is further disconnected, the setting unit 250 switches the setting mode of the cargo loading terminal 100 to the regular positioning mode described later. Will be.

  Further, the periodic positioning mode is a positioning process that acquires current position information of the cargo loading terminal 100 (current position information of a user carrying the cargo loading terminal 100), and periodically acquires the acquired position information. This is a mode indicating a state of being transmitted to the monitoring center 400 automatically. In the regular positioning mode, when the power from the battery 150 is supplied to each component of the cargo loading terminal 100 and the AC adapter 300 is brought into a non-contact state, the setting unit 250 causes the current status of the cargo loading terminal 100 to be set. It is set as the setting mode. When the operation of the slide switch 101 is accepted by the user when the regular positioning mode is set, the communication center 240 informs the monitoring center that an abnormality has occurred in the user carrying the cargo loading terminal 100. report. When the regular positioning mode is set and the AC adapter 300 is further connected, the setting unit 250 sets the setting mode of the cargo loading terminal 100 to the standby mode. .

  That is, when the supply of power from the battery 150 to the cargo loading terminal 100 is started, the setting unit 250 sets the setting mode by switching from the stop mode to the standby mode.

  Further, the setting unit 250 changes the setting mode from the standby mode to the regular positioning mode when the power from the battery 150 is supplied to the cargo loading terminal 100 and the AC adapter 300 is disconnected from the cargo loading terminal 100. Switch to and set.

  In addition, when the power from the battery 150 is supplied to the cargo loading terminal 100 and the AC adapter 300 is connected to the cargo loading terminal 100, the setting unit 250 changes the setting mode from the regular positioning mode to the standby mode. Switch and set.

  When the supply of power from the battery 150 is stopped to the cargo loading terminal 100, the setting unit 250 sets the setting mode by switching from the standby mode to the stop mode.

  Here, the relationship between charging by the AC adapter 300 of the cargo loading terminal 100 and the slide switch 101 will be described. After the cargo loading terminal 100 is turned on, the AC adapter 300 is connected to the cargo loading terminal 100. Therefore, when charging from an external power source, the slide switch 101 is a switch that is operated to switch the power ON / OFF. On the other hand, after the cargo loading terminal 100 is turned on, if the AC adapter 300 is not connected to the cargo loading terminal 100 and is not charged from an external power source, the slide switch 101 causes the cargo loading terminal 100 to The switch is operated to notify the monitoring center that an abnormality has occurred in the portable user. As described above, the cargo loading terminal 100 according to the present embodiment performs processing as two switches by operating one slide switch 101 by setting the AC adapter 300 to either the connected state or the disconnected state. be able to.

  Next, a flow of a receiving operation processing method, which is a processing method when an operation from the slide switch 101 is received in the cargo loading terminal 100, will be described. FIG. 5 is a diagram illustrating an example of setting mode transition in the cargo loading terminal according to the embodiment.

  As shown in FIG. 5, when the setting mode of the cargo loading terminal 100 is set to the stop mode, the power is turned off. If the operation from the slide switch 101 is accepted when the stop mode is set, the cargo loading terminal 100 is turned on regardless of whether the AC adapter 300 is connected or not, and the cargo loading terminal is turned on. The setting mode of the terminal 100 is set by switching from the stop mode to the standby mode (step S1).

  When the setting mode of the cargo loading terminal 100 is set to the standby mode and the AC adapter 300 is not connected, the setting mode of the cargo loading terminal 100 is switched from the standby mode to the regular positioning mode. Is set (step S2). This is considered that the user is carrying the cargo loading terminal 100.

  Further, when the setting mode of the cargo loading terminal 100 is set to the regular positioning mode, if the AC adapter 300 is in a disconnected state and an operation from the slide switch 101 is accepted, an abnormality occurs in the cargo loading terminal 100. The monitoring center is notified of the occurrence (step S3).

  On the other hand, when the setting mode of the cargo loading terminal 100 is set to the regular positioning mode, when the AC adapter 300 is connected, the setting mode of the cargo loading terminal 100 is changed from the regular positioning mode to the standby mode. It is switched and set (step S4).

  When the setting mode of the cargo loading terminal 100 is set to the standby mode, when the AC adapter 300 is connected and an operation from the slide switch 101 is accepted, the cargo loading terminal 100 is turned off. Thus, the setting mode of the cargo loading terminal 100 is set by switching from the standby mode to the stop mode (step S5).

  FIG. 6 is a flowchart illustrating a flow of a reception operation processing method in the cargo loading terminal according to the embodiment. First, in the cargo loading terminal 100, the setting mode is set to the stop mode, and the power is turned off.

  The operation determination unit 210 determines whether an operation of the slide switch 101 has been accepted (step S10). When the operation of the slide switch 101 is not received (step S10: No), the process waits until the operation is received.

  On the other hand, when the operation of the slide switch 101 is received (step S10: Yes), the power control unit 220 starts supplying power from the battery 150 to the cargo loading terminal 100 and turns on the power of the cargo loading terminal 100. Turn on (step S11). Then, the setting unit 250 switches and sets the setting mode of the cargo loading terminal 100 from the stop mode to the standby mode (step S12).

  Next, the connection determination unit 230 determines whether or not the AC adapter 300 is in a connected state (step S13). When the AC adapter 300 is not in a connected state, that is, in a non-connected state (step S13: No), the setting unit 250 sets the setting mode of the cargo loading terminal 100 by switching from the standby mode to the regular positioning mode ( Step S14).

  Then, the connection determination unit 230 determines whether or not the AC adapter 300 is connected (step S15). When the AC adapter 300 is in a connected state (step S15: Yes), the process returns to step S12 and is repeated.

  On the other hand, when the AC adapter 300 is not in a connected state, that is, in a disconnected state, the operation determining unit 210 determines whether or not an operation of the slide switch 101 has been received (step S16). When the operation of the slide switch 101 is not accepted (step S16: No), the process returns to step S15 and is repeated.

  On the other hand, when the operation of the slide switch 101 is received (step S16: Yes), the communication unit 240 notifies the monitoring center that an abnormality has occurred in the user carrying the cargo loading terminal 100 (step S17). And it returns to step S15 and repeats a process.

  Returning to step S13, when the AC adapter 300 is in a connected state (step S13: Yes), the operation determination unit 210 determines whether or not an operation of the slide switch 101 has been received (step S18). When the operation of the slide switch 101 has not been received (step S18: No), the process returns to step S13 and is repeated.

  On the other hand, when the operation of the slide switch 101 is received (step S18: Yes), the power control unit 220 stops the supply of power from the battery 150 to the cargo loading terminal 100, and the power supply of the cargo loading terminal 100 is reached. Is turned OFF (step S19). Then, the setting unit 250 sets the setting mode of the cargo loading terminal 100 by switching from the standby mode to the stop mode (step S20).

  Thus, in the cargo loading terminal 100 according to the present embodiment, when the power adapter is turned on and the AC adapter 300 is connected to the cargo loading terminal 100 and is charged from the external power source, the slide switch 101 is used. Is a switch for performing an operation of switching power ON / OFF. On the other hand, after the power is turned on, when the AC adapter 300 is not connected to the cargo loading terminal 100 and is not charged from the external power source, the slide switch 101 is abnormal for the user carrying the cargo loading terminal 100. This is a switch for performing an operation for notifying the monitoring center that the error has occurred. That is, the cargo loading terminal 100 according to this embodiment performs processing as two switches by operating one slide switch 101 by connecting the AC adapter 300 to either a connected state or a disconnected state. Can do.

  Therefore, the cargo loading terminal 100 according to the present embodiment is provided with one slide switch 101 that performs two processes of starting and stopping power supply and reporting that an abnormality has occurred in the user. When the cargo loading terminal 100 is carried, the slide switch 101 is not a power switch but a notification switch because the AC adapter 300 is not connected. For this reason, it is possible to prevent an erroneous operation in which the user operates other switches such as a power switch in an emergency. Further, since it is impossible to turn off the power when the cargo loading terminal 100 is carried, the power supply is not stopped by operating the power switch in an emergency. In addition, since there is one slide switch 101 for starting and stopping the supply of power and reporting that an abnormality has occurred, there is no need to provide two (plural) switches (components), which reduces the manufacturing cost. Can be reduced.

  Further, in the cargo loading terminal of the present embodiment, as the setting mode, a positioning process for acquiring the current position information of the cargo loading terminal is performed, and the acquired position information is periodically transmitted to the monitoring center. Although the regular positioning mode indicating the state can be set, the present invention is not limited to this. That is, in the cargo loading terminal, when there is a request from the monitoring center, the positioning processing for acquiring the current position information of the cargo loading terminal is performed, and the acquired position information is transmitted to the monitoring center It is good also as a structure which can set a mode.

  The reception operation processing program executed in the cargo loading terminal according to the present embodiment is a file in an installable format or an executable format, and is a CD-ROM, flexible disk (FD), CD-R, DVD (Digital The recording medium may be recorded on a computer-readable recording medium such as Versatile Disk).

  Further, the reception operation processing program executed by the cargo loading terminal of the present embodiment may be provided by being stored on a computer connected to a network such as the Internet and downloaded via the network. good. Moreover, you may comprise so that the reception operation processing program run with the cargo loading terminal of this Embodiment may be provided or distributed via networks, such as the internet.

It is a schematic diagram of a cargo security system using a cargo loading terminal according to an embodiment. It is a front view of the cargo loading terminal according to the embodiment. It is a side view of the terminal for cargo loading concerning an embodiment. It is a lineblock diagram of the terminal for cargo loading concerning an embodiment. It is a functional block diagram which shows the structure of the cargo loading terminal concerning embodiment. It is a figure which shows an example of the setting mode transition in the terminal for cargo loading concerning embodiment. It is a flowchart which shows the flow of the reception operation processing method in the cargo loading terminal concerning embodiment.

Explanation of symbols

100 Cargo loading terminal 101 Slide switch 102 Charging jack 110 Power supply circuit 120 Charging circuit 130 RAM
140 ROM
150 battery 160 CPU
210 Operation Determination Unit 220 Power Control Unit 230 Connection Determination Unit 240 Communication Unit 250 Setting Unit 300 AC Adapter 400 Monitoring Center 500 Portable Reading Terminal

Claims (5)

In a mobile terminal that transmits current position information to a monitoring center that performs predetermined monitoring processing,
A switch unit operated by a user;
Operation determining means for determining whether or not an operation of the switch unit has been accepted;
When the operation of the switch unit is accepted and the supply of power from the internal power supply to the mobile terminal is stopped, power control means for starting the supply of power from the internal power supply to the mobile terminal;
A connection determining means for determining whether or not a power supply device for charging from an external power supply is connected to the portable terminal when power from the internal power supply is supplied to the portable terminal;
When the power from the internal power source is supplied to the portable terminal and the power supply device is not connected to the portable terminal, if the operation of the switch unit is accepted, the monitoring that an abnormality has occurred A communication means for reporting to the center,
When the power control unit receives power from the internal power supply to the mobile terminal and the power supply device is connected to the mobile terminal, the power control unit receives the operation of the switch unit. A portable terminal, wherein supply of power from the internal power supply to the terminal is stopped.   When the supply of power from the internal power supply to the mobile terminal is started, a setting mode that determines the state of the mobile terminal is shown, and the power supply from the internal power supply is stopped to the mobile terminal The mobile terminal according to claim 1, further comprising a setting unit configured to switch from a stop mode to a standby mode indicating a state in which power from the internal power source is supplied to the mobile terminal.   The setting means is further configured to change the setting mode from the standby mode to the position when power from the internal power source is supplied to the portable terminal and the power supply device is not connected to the portable terminal. The mobile terminal according to claim 2, wherein the mobile terminal is set by switching to a positioning mode indicating a state in which information is transmitted to the monitoring center.   The setting unit further switches the setting mode from the standby mode to the stop mode when the supply of power from the internal power supply to the portable terminal is stopped. The portable terminal as described in. In a reception operation processing method executed by a mobile terminal that transmits current position information to a monitoring center that performs predetermined monitoring processing,
The mobile terminal includes a switch unit operated by a user,
An operation determining step for determining whether or not an operation of the switch unit has been accepted;
A power control step of accepting an operation of the switch unit and starting supply of power from the internal power source to the mobile terminal when supply of power from the internal power source to the mobile terminal is stopped;
A connection determination step of determining whether or not a power supply device for charging from an external power supply is connected to the mobile terminal when power from the internal power supply is supplied to the mobile terminal;
When the power from the internal power source is supplied to the portable terminal and the power supply device is not connected to the portable terminal, if the operation of the switch unit is accepted, the monitoring that an abnormality has occurred A communication step for reporting to the center,
In the power control step, when the power from the internal power source is supplied to the portable terminal and the power supply device is connected to the portable terminal, the portable control terminal receives the operation of the switch unit, A reception operation processing method, comprising: stopping power supply from the internal power supply to a terminal.

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