JP2015162819A - Radio communication device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio communication device which can perform operation by a variety of operation modes without the acceptance of operations by a physical switch and a button.SOLUTION: In a radio telemeter system for transmitting and receiving through a radio network a measurement result from a meter which measures the use amount of a measurement object, the radio communication device includes: short-range radio communication means for performing short-range radio communication with external equipment; storage means, which is configured to be rewritable from the external equipment, for storing information related to the operation of the self-device; and control means for reading out information related to the operation stored in the storage means and for executing the operation, when executing the short-range radio communication with the external equipment by the short-range radio communication means.

Description

  The present invention relates to a wireless communication apparatus that transmits a usage amount of water, gas, or the like measured by a meter to a communication apparatus on a center side using a wireless network.

  Conventionally, in a wireless telemeter system developed for meter reading of gas, water, etc., a wireless master unit is connected to a center side device equipped with a host computer and a center network control device via a wide area wireless network such as a PHS network and a FOMA network. Connected. In addition, a plurality of wireless slave devices are connected to the wireless master device, and a meter for meter reading is connected to each of the wireless slave devices. Data such as a meter reading value obtained from the meter is transmitted from the wireless slave unit to the wireless master unit, and further transmitted from the wireless master unit to the center side device.

  Conventional wireless master devices and wireless slave devices are provided with dip switches and various buttons for performing operations in various operation modes. Such operation modes include, for example, an edge mode for determining the communication partner of each device, a radio wave emission mode for emitting radio waves for radio field intensity measurement, and a radio wave measurement mode for measuring radio wave intensity of externally emitted radio waves Etc. are included. The microcomputer installed in the wireless master unit and the wireless slave unit determines the operation mode to be implemented by reading the contents set by the DIP switch, and when a specific operation is accepted through various buttons, the determined operation mode The operation by was carried out.

JP 2006-303942 A

  In the wireless master device and the wireless slave device described above, it is necessary to provide physical switches and buttons in order to perform operations in various operation modes. If the operation modes mounted on the wireless master unit and the wireless slave unit are diversified, a large number of dip switches and the like are required, which may increase the manufacturing cost of the wireless master unit and the wireless slave unit and increase the failure rate. .

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a wireless communication apparatus capable of performing operations in various operation modes without receiving operations by physical switches and buttons. .

  The wireless communication device of the present application is a short-range wireless communication that performs short-range wireless communication with an external device in a wireless communication device in a wireless telemeter system that transmits and receives measurement results from a meter that measures the usage of a measurement object via a wireless network. When the short-distance wireless communication with the external device is performed by the communication unit, the storage unit that is rewritable by the external device, and stores information related to the operation of the own device, and the short-distance wireless communication unit, the storage And a control unit that reads out information related to the operation stored in the unit and executes the operation.

  When the wireless communication device of the present application receives the information related to the operation transmitted from the external device by the short-range wireless communication unit, the information stored in the storage unit is rewritten with the received information related to the operation. It is characterized by the above.

  In the wireless communication apparatus of the present application, the control means includes means for determining whether or not the information stored in the storage means has been rewritten, and triggered by the information stored in the storage means being rewritten. As described above, the rewritten information is read from the storage means and the operation is executed.

  The wireless communication apparatus of the present application is characterized in that when the operation is completed, the rewritten information is written back to the original information.

  In the wireless communication device of the present application, the operation includes an operation of associating with another wireless communication device, an operation of transmitting a radio wave for measuring a radio field intensity via the wireless network, and a radio wave transmitted from the other wireless communication device. It includes at least one of operations for measuring the radio field intensity.

  According to the present application, operations in various operation modes can be performed without accepting operations by physical switches and buttons.

It is a block diagram which shows the whole structure of a radio telemeter system. 2 is a block diagram showing an internal configuration of a wireless master device according to Embodiment 1. FIG. 3 is a block diagram showing an internal configuration of a wireless slave device according to Embodiment 1. FIG. It is a block diagram which shows the structural example of a near field communication part. It is a flowchart which shows the process sequence at the time of performing operation | movement by radio wave measurement mode. It is a flowchart which shows the process sequence at the time of performing operation | movement by edge mode. It is a flowchart which shows the process sequence at the time of performing operation | movement by edge mode. It is a flowchart which shows the process sequence at the time of performing operation | movement by edge mode.

Hereinafter, the present invention will be specifically described with reference to the drawings showing embodiments thereof.
(Embodiment 1)
FIG. 1 is a block diagram showing the overall configuration of the radio telemeter system. The wireless telemeter system according to the present embodiment includes a host computer 11 and a center-side network control device 12 as a configuration on the center side, and a wireless master device 21, wireless slave devices 22, 22,. 22 and meters 23, 23,... The meter 23 is a measuring instrument that is installed in, for example, individual homes, companies, and various facilities, measures the amount of gas, water, electricity, etc., and outputs a measurement result (meter reading value). The wireless telemeter system transmits various data output from the terminal side such as data indicating the meter reading value of the meter 23 and data indicating the operation state of the wireless master device 21 and the wireless slave device 22 to the center side using wireless communication. In addition, one of the features is that various data including commands for controlling the operations of the wireless master device 21 and the wireless slave device 22 are transmitted from the center side to the terminal side.

  The center-side network control device 12 and the terminal-side wireless master device 21 are connected to a wide-area wireless network N1 such as a PHS network or a FOMA network, and perform wireless communication via the wide-area wireless network N1. In the example shown in FIG. 1, the number of the wireless master devices 21 connected to the wide area wireless network N <b> 1 is one, but it goes without saying that a plurality of wireless master devices 21 may be connected. .

  The center-side network control device 12 is provided, for example, in a public network of a communication carrier and has a function of controlling communication with the terminal side via the wide area wireless network N1. When data to be transmitted from the host computer 11 to the terminal side is input from the host computer 11, the center side network control device 12 transmits the data to the terminal side by a communication method compliant with the communication standard of the wide area wireless network N1. In addition, when the data transmitted from the terminal side is received via the wide area wireless network N1, the received data is transmitted to the host computer 11.

  The wireless master device 21 is connected to the center side via the wide-area wireless network N1 and forms a narrow-area wireless network N2 with the plurality of wireless slave devices 22, 22,. The wireless master device 21 performs wireless communication with the host computer 11 on the center side via the wide area wireless network N1 and wireless communication with the wireless slave devices 22, 22,..., 22 via the narrow area wireless network N2. It is configured.

  When the wireless slave device 22 acquires the meter reading value from the meter 23 connected to the wireless slave device 22, the wireless slave device 22 transmits data indicating the meter reading value to the wireless master device 21 via the narrow area wireless network N <b> 2. Further, when the wireless master device 21 receives data transmitted from the wireless slave device 22 and when an event to be notified to the host computer 11 occurs in its own device, the wireless master device 21 communicates with the host computer 11 via the wide area wireless network N1. Perform wireless communication.

  The wireless slave unit 22 is, for example, an edge mode for associating with the wireless master unit 21 or other wireless slave units 22, a radio wave emission mode for emitting radio waves for measuring radio field strength, the wireless master unit 21 or other wireless slave units. Various operation modes such as a radio wave measurement mode for measuring the radio wave intensity of the radio wave emitted from 22 are provided.

  Further, as will be described later, the wireless slave device 22 includes a short-range wireless communication unit 226 (see FIG. 3), and performs short-range wireless communication with an external NFC (Near Field Communication) reader / writer 30. In the present embodiment, the NFC reader / writer 30 is used to give execution instructions for various operation modes to the wireless slave device 22.

  Specifically, the NFC reader / writer 30 is a mobile phone equipped with an NFC function, a tablet terminal, or the like. The NFC reader / writer 30 is configured to function as an external device of the present invention by executing an application program (not shown) installed in its own device.

  FIG. 2 is a block diagram showing an internal configuration of the wireless master device 21 according to the first embodiment. The wireless master device 21 includes a control unit 210, a storage unit 211, a wide area wireless communication unit 212, a narrow area wireless communication unit 213, a display unit 214, an operation unit 215, and the like. Each component of the hardware provided in the wireless master device 21 is configured to operate with electric power supplied from the battery 219.

  The control unit 210 includes, for example, a CPU, a ROM, a RAM, and the like, reads a control program stored in advance in the ROM into the RAM, and the CPU executes the control program so that the entire device is a wireless communication apparatus according to the present invention. To function as.

  The storage unit 211 is configured by a non-volatile memory such as an EPROM (Erasable Programmable Read Only Memory), for example, and stores the setting information of the own device, the ID of the own device necessary for associating with the wireless slave device 22, and the like. .

  The wide area wireless communication unit 212 performs wireless communication via the wide area wireless network N1 by transmitting or receiving radio waves through the antenna 212a. For example, when the wireless master device 21 acquires the meter reading value of the meter 23 through the wireless slave device 22 assembled with the own device, the wireless master device 21 transmits data indicating the meter reading value to the host computer 11 on the center side. When the wide-area wireless communication unit 212 acquires data to be transmitted through the control unit 210, the wide-area wireless communication unit 212 transmits the data in a format compliant with the communication standard of the wide-area wireless network N1 by driving the antenna 212a to transmit radio waves. Process.

  In addition, when the radio wave is received by the antenna 212a, the wide area wireless communication unit 212 detects the radio wave intensity of the radio wave and decodes the received radio wave to acquire data in a predetermined format. The received radio wave received by the antenna 212a includes various control commands such as an activation command from the host computer 11, for example. The wide area wireless communication unit 212 outputs the detection result of the radio wave intensity and the data obtained by decoding to the control unit 210. When the control unit 210 acquires the data output from the wide area wireless communication unit 212, the control unit 210 performs various controls based on the data.

  The narrow-area wireless communication unit 213 communicates with a plurality of pre-assembled wireless slave units 22, 22,..., 22 by a predetermined wireless communication method by transmitting or receiving radio waves through the antenna 213a. As the wireless communication method, for example, a specific low power wireless method is adopted. The narrow area wireless communication unit 213 of the wireless master device 21 intermittently transmits a beacon as a search signal for searching for the wireless slave device 22 having data to be transmitted. In addition, the narrow area wireless communication unit 213 receives the beacon transmitted from the wireless slave unit 22 and transmits the data to the transmission source of the beacon when the own apparatus has data to be transmitted.

  The display unit 214 includes an LED lamp, a liquid crystal display panel, and the like, and displays information to be notified to a worker or the like who performs maintenance work based on a control signal output from the control unit 210.

  The operation unit 215 accepts various setting operations by, for example, a worker who performs maintenance work. The control unit 210 performs various controls based on the setting content input from the operation unit 215 and stores the setting content in the storage unit 211 as necessary.

  In the present embodiment, the wireless master device 21 has been described as having an NCU function. However, a network control device having an NCU function is prepared as an individual device, and the wireless master device 21 is connected to the network control device. It may be configured to. In this case, the wireless master device 21 may be configured to include a connection interface for connecting the network control device and to communicate with the center side via the network control device connected to the connection interface.

  FIG. 3 is a block diagram showing an internal configuration of the wireless slave device 22 according to the first embodiment. The wireless slave device 22 includes a control unit 220, a storage unit 221, a narrow-area wireless communication unit 222, a meter IF 223, a display unit 224, an operation unit 225, and the like. Each part of the hardware included in the wireless slave device 22 is configured to operate with electric power supplied from the battery 229.

  The control unit 220 includes, for example, a CPU, a ROM, a RAM, and the like, reads a control program stored in advance in the ROM into the RAM, and the CPU executes the control program so that the entire device is a wireless communication apparatus according to the present invention. To function as.

  The storage unit 221 is configured by, for example, a non-volatile memory such as an EPROM, and stores the setting information of the own device, the ID of the own device necessary for matching with the wireless master device 21 or the other wireless slave device 22, and the like. .

  The narrow-area wireless communication unit 222 communicates with the wireless base unit 21 and other wireless slave units 22 that are preliminarily assembled in a predetermined wireless communication method by transmitting or receiving radio waves through the antenna 222a. As the wireless communication method, for example, a specific low power wireless method is adopted. The narrow area wireless communication unit 222 of the wireless slave device 22 intermittently transmits a beacon as a search signal for searching for the wireless master device 21 or other wireless slave device 22 having data to be transmitted. In addition, the narrow-area wireless communication unit 222 receives a beacon transmitted from the wireless master device 21 or another wireless slave device 22, and when the own device has data to be transmitted, Send to the sender.

  The meter IF 223 is connected to the meter 23 for measuring the usage amount of gas, water and the like. When the meter IF 223 acquires a meter reading value from the connected meter 23, the meter IF 223 sends data indicating the meter reading value to the control unit 220.

  The display unit 224 includes an LED lamp, a liquid crystal display panel, and the like, and displays information to be notified to a worker or the like performing maintenance work based on a control signal output from the control unit 220.

  The operation unit 225 receives various setting operations by, for example, a worker who performs maintenance work. The control unit 220 performs various controls based on the setting content input from the operation unit 225 and stores the setting content in the storage unit 221 as necessary.

The near field communication unit 226 performs near field communication with the NFC reader / writer 30.
FIG. 4 is a block diagram illustrating a configuration example of the short-range wireless communication unit 226. The short-range wireless communication unit 226 includes, for example, an NFC circuit unit 2261, an NFC transmission / reception antenna 2262, and an NFC memory 2263. The NFC circuit unit 2261 is connected to the control unit 220 and is configured to activate the control unit 220 of the wireless slave device 22 via the NFC reader / writer 30 and read / write data in the storage unit 221.

  The near field communication unit 226 is installed in a non-powered state, and is configured to operate with power supplied from the NFC reader / writer 30 through near field communication. That is, when the NFC reader / writer 30 approaches within a predetermined distance range (for example, 10 cm or less) from the wireless slave unit 22 and the radio wave transmitted from the NFC reader / writer 30 is received by the NFC transmission / reception antenna 2262, the NFC circuit unit 2261 It is constituted so that electric power is induced in the.

  The NFC circuit unit 2261 of the short-range wireless communication unit 226 acquires a request command from the NFC reader / writer 30 by decoding the radio wave received by the NFC transmission / reception antenna 2262. The NFC circuit unit 2261 executes a process of rewriting information stored in the NFC memory 2263, a process of sending the request command to the control unit 220 of the wireless slave device 22 in accordance with a request command from the NFC reader / writer 30. .

Hereinafter, the operation of the wireless slave device 22 according to the first embodiment will be described.
FIG. 5 is a flowchart showing a processing procedure when the operation in the radio wave measurement mode is executed. When the NFC reader / writer 30 approaches within a predetermined distance range in the standby state of the wireless slave device 22, the wireless slave device 22 is activated through the short-range wireless communication unit 226 (step S11).

  When the short-range wireless communication unit 226 receives a request command related to the radio wave measurement mode transmitted from the NFC reader / writer 30 (step S12), the short-range wireless communication unit 226 sends the request command to the control unit 220 (step S12). S13). At this time, it is assumed that the wireless master device 21 or the other wireless slave device 22 to be measured performs an operation in the radio wave emission mode and intermittently transmits a radio wave for measuring the radio field intensity.

  When the control unit 220 acquires a request command transmitted from the short-range wireless communication unit 226, the control unit 220 performs a radio wave measurement operation according to the request command (step S14). At this time, the control unit 220 controls the narrow area wireless communication unit 222 to measure the radio wave intensity of the radio wave received by the antenna 222a, and obtains the radio wave intensity as a measurement result. And the control part 220 performs the process which memorize | stores the acquired electromagnetic wave intensity in the memory | storage part 221, the process displayed on the display part 224, etc. FIG.

  Next, the control unit 220 determines whether or not the radio wave measurement operation is completed (step S15). When the radio wave measurement operation is not completed (S15: NO), the control unit 220 waits until the radio wave measurement operation is completed.

  When it is determined that the radio wave measurement operation has been completed (S15: YES), the control unit 220 shifts the entire apparatus to a standby state (step S16), and ends the processing according to this flowchart.

  As described above, the wireless slave device 22 according to Embodiment 1 can execute an operation requested from the NFC reader / writer 30 when triggered by short-range wireless communication with the NFC reader / writer 30.

  In the first embodiment, the execution procedure of the radio wave intensity measurement mode has been described as an example, but it is needless to say that the present invention can be applied to other operation modes such as a radio wave emission mode and an edge mode.

  Further, in the first embodiment, when the radio wave measurement operation is completed, the standby state is set. However, the elapsed time after the radio wave measurement is started is counted by a built-in timer (not shown) of the control unit 220, and the predetermined time is set. The configuration may be such that when the time has elapsed, the radio wave measurement operation is terminated and the standby state is entered.

(Embodiment 2)
In the first embodiment, the requested operation is executed in response to short-range wireless communication with the NFC reader / writer 30, but the information stored in the NFC memory 2263 by the control unit 220 of the wireless slave device 22 is used. When the information stored in the NFC memory 2263 is rewritten, the operation in the operation mode may be executed based on the information.
Note that the system configuration of the wireless telemeter system in Embodiment 2 and the internal configurations of the wireless master device 21 and the wireless slave device 22 are exactly the same as those in Embodiment 1, and therefore description thereof is omitted.

Hereinafter, the operation of the wireless slave device 22 according to the second embodiment will be described.
FIG. 6 is a flowchart showing a processing procedure when the operation in the edge mode is executed. When the NFC reader / writer 30 approaches within a predetermined distance range in the standby state of the wireless slave device 22, the wireless slave device 22 is activated through the short-range wireless communication unit 226 (step S21).

  When the short-range wireless communication unit 226 receives the request command related to the edge mode transmitted from the NFC reader / writer 30 (step S22), the NFC circuit part 2261 sets the edge bit provided in the NFC memory 2263 according to the received request command. Is rewritten (step S23). Since the edge operation is not performed during normal operation, the edge bit is set to “off”, for example. Only when a request command from the NFC reader / writer 30 is received, the NFC circuit unit 2261 sets the edge bit to “on”. Process to rewrite to.

  After being activated in step S21, the control unit 220 of the wireless slave device 22 periodically checks the edge bit in the NFC memory 2263 and determines whether the edge bit has been rewritten from “off” to “on”. (Step S24). When the edge bit is not rewritten (S24: NO), the control unit 220 waits until the edge bit is rewritten.

  If it is determined that the margin bit has been rewritten (S24: YES), the control unit 220 executes the margin operation (step S25). At this time, the control unit 220 transmits the ID of the own device stored in advance in the storage unit 221 to the wireless master device 21 or another wireless slave device 22 that is the partner of the framing through the narrow area wireless communication unit 222, and wirelessly The ID of the matching partner transmitted from the parent device 21 or another wireless slave device 22 is received through the narrow area wireless communication unit 222. The control unit 220 causes the storage unit 221 to store the ID of the matching partner received through the narrow area wireless communication unit 222.

  Next, the control unit 220 determines whether or not the matching operation has been completed (step S26). When the matching operation is not completed (S26: NO), the control unit 220 waits until the matching operation is completed.

  When the control unit 220 acquires the ID of the matching partner received through the narrow-area wireless communication unit 222 and stores it in the storage unit 221, it is determined that the matching operation is completed (S26: YES), and the setting of the NFC memory 2263 is performed. The bit is written back to “OFF” (step S27), and the operation in the edge mode is terminated. Then, the control unit 220 shifts the entire apparatus to a standby state (step S28), and ends the processing according to this flowchart.

  As described above, the wireless slave device 22 according to the second embodiment starts from the NFC reader / writer 30 when the information in the NFC memory 2263 included in the wireless slave device 22 is rewritten using the NFC reader / writer 30. The operation in the required operation mode can be executed.

(Embodiment 3)
In the second embodiment, the edge operation is executed when the edge bit is rewritten from “on” to “off”. However, a trigger bit for giving an execution start instruction is provided separately from the edge bit in the NFC memory. It is good also as a structure which is provided in 2263 and performs a match | combination operation | movement with this trigger bit becoming "on".
The system configuration of the wireless telemeter system and the internal configuration of the wireless master device 21 and the wireless slave device 22 in Embodiment 3 are exactly the same as those in Embodiment 1, and therefore the description thereof is omitted.

Hereinafter, the operation of the wireless slave device 22 according to the third embodiment will be described.
FIG. 7 is a flowchart showing a processing procedure when the operation in the edge mode is executed. When the NFC reader / writer 30 approaches within a predetermined distance range in the standby state of the wireless slave device 22, the wireless slave device 22 is activated through the short-range wireless communication unit 226 (step S31).

  When the short-range wireless communication unit 226 receives the request command related to the edge mode transmitted from the NFC reader / writer 30 (step S32), the NFC circuit unit 2261 sets the edge command provided in the NFC memory 2263 according to the received request command. A process of rewriting the bit is performed (step S33). During normal operation, the margin bit is set to “off”, for example, and only when a request command from the NFC reader / writer 30 is received, the NFC circuit unit 2261 performs a process of rewriting the margin bit to “on”.

  After being activated in step S31, the control unit 220 of the wireless slave device 22 periodically checks the edge bit in the NFC memory 2263. When the margin bit is rewritten from “off” to “on”, the control unit 220 displays on the display unit 224 that the margin mode has been selected (step S34). Thus, the worker can confirm that the edge mode has been selected before actually starting the edge operation.

  When the short-range wireless communication unit 226 receives a request command related to an operation start instruction transmitted from the NFC reader / writer 30 after the edge mode is selected (step S35), the NFC circuit unit 2261 receives the received request command. The trigger bit in the NFC memory 2263 is rewritten according to (Step S36). When the edge mode is not selected, it is not necessary to start the edge operation, so the trigger bit is set to “OFF”, and the request command related to the operation start instruction is received after the edge mode is selected. Only the NFC circuit unit 2261 performs a process of rewriting the trigger bit to “on”.

  The control unit 220 of the wireless slave device 22 periodically checks the trigger bit in the NFC memory 2263 after the edge bit is rewritten in step S33, and the trigger bit is rewritten from “off” to “on”. It is determined whether or not (step S37). When the trigger bit has not been rewritten (S37: NO), the control unit 220 waits until the trigger bit is rewritten.

  When it is determined that the trigger bit has been rewritten (S37: YES), the control unit 220 executes a matching operation (step S38). At this time, the control unit 220 transmits the ID of the own device stored in advance in the storage unit 221 to the wireless master device 21 or another wireless slave device 22 that is the partner of the framing through the narrow area wireless communication unit 222, and wirelessly The ID of the matching partner transmitted from the parent device 21 or another wireless slave device 22 is received through the narrow area wireless communication unit 222. The control unit 220 causes the storage unit 221 to store the ID of the matching partner received through the narrow area wireless communication unit 222.

  Next, the controller 220 determines whether or not the matching operation has been completed (step S39). When the matching operation is not completed (S39: NO), the control unit 220 waits until the matching operation is completed.

  When the control unit 220 acquires the ID of the matching partner received through the narrow area wireless communication unit 222 and stores it in the storage unit 221, it is determined that the matching operation is completed (S39: YES), and the setting of the NFC memory 2263 is performed. Each of the bit and the trigger bit is written back to “off” (step S40), and the operation in the edge mode is terminated. Then, the control unit 220 shifts the entire apparatus to a standby state (step S41), and ends the processing according to this flowchart.

  As described above, in the wireless slave device 22 according to the third embodiment, when the bit specifying the operation mode is rewritten using the NFC reader / writer 30, and the trigger bit indicating the operation start instruction is rewritten, the NFC reader The operation in the operation mode requested from the writer 30 can be executed.

(Embodiment 4)
In Embodiment 3, it was set as the structure which performs an edge operation | movement with the trigger bit being turned on as an opportunity, but after the edge operation was selected, predetermined operation was received in the operation part 225 of the radio | wireless handset 22. It is good also as a structure which starts edge operation | movement in a case.
The system configuration of the wireless telemeter system and the internal configuration of the wireless master device 21 and the wireless slave device 22 in the fourth embodiment are exactly the same as those in the first embodiment, and thus description thereof is omitted.

Hereinafter, the operation of the wireless slave device 22 according to the fourth embodiment will be described.
FIG. 8 is a flowchart showing a processing procedure when the operation in the edge mode is executed. When the NFC reader / writer 30 approaches within a predetermined distance range in the standby state of the wireless slave device 22, the wireless slave device 22 is activated through the short-range wireless communication unit 226 (step S51).

  When the short-range wireless communication unit 226 receives a request command related to the edge mode transmitted from the NFC reader / writer 30 (step S52), the NFC circuit unit 2261 sets the edge command provided in the NFC memory 2263 according to the received request command. A process of rewriting the bit is performed (step S53). During normal operation, the margin bit is set to “off”, for example, and only when a request command from the NFC reader / writer 30 is received, the NFC circuit unit 2261 performs a process of rewriting the margin bit to “on”.

  After being activated in step S51, the control unit 220 of the wireless slave device 22 periodically checks the edge bit in the NFC memory 2263. When the margin bit is rewritten from “ON” to “OFF”, the control unit 220 displays on the display unit 224 that the margin mode has been selected (step S54). Thus, the worker can confirm that the edge mode has been selected before actually starting the edge operation.

  After the margin mode is selected, the control unit 220 determines whether or not a predetermined operation (for example, an operation of a trigger button) that gives an operation start instruction has been received by the operation unit 225 (step S55). When the operation of the trigger button is not received (S55: NO), the control unit 220 waits until the operation of the trigger button is received.

  When the operation of the trigger button is accepted (S55: YES), the control unit 220 executes a matching operation (step S56). At this time, the control unit 220 transmits the ID of the own device stored in advance in the storage unit 221 to the wireless master device 21 or another wireless slave device 22 that is the partner of the framing through the narrow area wireless communication unit 222, and wirelessly The ID of the matching partner transmitted from the parent device 21 or another wireless slave device 22 is received through the narrow area wireless communication unit 222. The control unit 220 causes the storage unit 221 to store the ID of the matching partner received through the narrow area wireless communication unit 222.

  Next, the control unit 220 determines whether or not the matching operation has been completed (step S57). When the matching operation is not completed (S57: NO), the control unit 220 waits until the matching operation is completed.

  When the control unit 220 obtains the ID of the matching partner received through the narrow-range wireless communication unit 222 and stores it in the storage unit 221, it is determined that the matching operation has been completed (S57: YES), and the setting of the NFC memory 2263 is performed. The bit is written back to “OFF” (step S58), and the operation in the edge mode is terminated. Then, the control unit 220 shifts the entire apparatus to a standby state (step S59), and ends the processing according to this flowchart.

  As described above, in the wireless slave device 22 according to the fourth embodiment, the bit for specifying the operation mode is rewritten using the NFC reader / writer 30, and a predetermined operation for giving an operation start instruction is received by the operation unit 225. In this case, the operation in the operation mode requested from the NFC reader / writer 30 can be executed.

  In Embodiments 2 to 4, the execution procedure of the edge mode has been described as an example, but it goes without saying that it can be applied to other operation modes such as a radio wave emission mode and a radio wave measurement mode. In the second embodiment, the trigger bit may be prepared for each operation mode, or may be common to each operation mode.

  Moreover, in Embodiment 2-4, it was set as the structure which transfers to a standby state, when edge operation is completed, but the elapsed time after edge operation start is time-measured with the built-in timer (not shown) of the control part 220, It is good also as a structure which complete | finishes a matching operation | movement and transfers to a standby state, when predetermined time passes.

  In the first to fourth embodiments, the configuration in which the operation mode mounted on the wireless slave device 22 is executed by the NFC reader / writer 30 has been described. However, the various operation modes mounted on the wireless master device 21 are changed to the NFC reader / writer 30. It is good also as a structure made to perform using. In this case, the wireless master device 21 may include a short-range wireless communication unit similar to the wireless slave device 22 described above, and may be configured to execute the operation in each operation mode according to the procedure illustrated in FIGS. .

  The embodiment disclosed this time is to be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the meanings described above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  Regarding the above embodiment, the following additional notes are disclosed.

  The wireless communication device of the present application is a wireless communication device in a wireless telemeter system that transmits and receives a measurement result from a meter (23) that measures a usage amount of a measurement object via a wireless network (N2). Short-range wireless communication means (226) for performing short-range wireless communication, storage means (2263) that can be rewritten from the external device (30), and stores information related to the operation of the device itself, and the short-range wireless communication When short-distance wireless communication with the external device (30) is performed by the communication unit (226), the control unit (220) that reads out information related to the operation stored in the storage unit (2263) and executes the operation. It is characterized by providing.

  In the present application, when short-distance wireless communication is performed between an external device and a wireless communication device, the information related to the operation stored in the storage unit is read and the operation is performed. The operation in various operation modes can be performed without accepting an operation with a button. In addition, even when the operation modes mounted on the wireless communication device are diversified, the operation of each operation mode can be executed by storing information on each operation in the storage means. The increase in manufacturing cost and the failure rate due to the provision of the switches and buttons can be suppressed.

  When the wireless communication device of the present application receives the information regarding the operation transmitted from the external device (30) by the short-range wireless communication unit (226), the information stored in the storage unit (2263) is stored. The information related to the received operation is rewritten.

  In the present application, information to be referred to when the wireless communication device performs a specific operation can be rewritten using an external device having a short-range wireless communication function. For this reason, the operating conditions are set using a mobile phone or tablet terminal equipped with a versatile short-range wireless communication function without using a dedicated setting device connected to the wireless communication device by wire. Or give operation instructions. Also, if the specifications of the operation mode installed in the wireless communication device change, even if a new operation mode is added, it can be handled by changing the application program executed by the mobile phone, tablet terminal, etc. As a result, development efficiency can be greatly increased.

  In the wireless communication apparatus of the present application, the control means (220) includes means (S24) for determining whether or not the information stored in the storage means (2263) has been rewritten, and the storage means (2263) When the stored information is rewritten, the rewritten information is read from the storage means (2263) and the operation is executed.

  In the present application, the control means in the wireless communication apparatus monitors the rewriting of information stored in the storage means, and executes the operation triggered by the rewriting, so it is necessary to prepare a specific command for starting the operation. Disappear.

  The wireless communication apparatus of the present application is characterized in that when the operation is completed, the rewritten information is written back to the original information.

  In the present application, when the operation according to the specific operation mode is not executed, the information related to the operation stored in the storage unit is always the same. Therefore, the operation according to the specific operation mode is started by detecting rewriting of this information. Can do.

  In the wireless communication device of the present application, the operation includes an operation of associating with another wireless communication device (21, 22), an operation of transmitting a radio wave for measuring a radio field intensity via the wireless network (N2), and other operations. It includes at least one of operations for measuring radio wave intensity of radio waves transmitted from the wireless communication devices (21, 22).

  In the present application, by using an external device having a short-range wireless communication function, an operation for associating with another wireless communication device, an operation for transmitting a radio wave for measuring a radio field intensity via a wireless network, and other wireless communication Information relating to the operation of measuring the radio field intensity of the radio wave transmitted from the apparatus can be set.

11 Host computer 12 Center side network controller 21 Wireless master unit 22 Wireless slave unit 23 Meter 210, 220 Control unit 211, 221 Storage unit 212 Wide area wireless communication unit 213, 222 Narrow region wireless communication unit 214, 224 Display unit 215, 225 Operation unit 219, 229 Battery 223 Meter IF
226 Near field communication part

Claims (5)

In a wireless communication device in a wireless telemeter system that transmits and receives a measurement result from a meter that measures the usage of a measurement object via a wireless network,
Short-range wireless communication means for performing short-range wireless communication with an external device;
Storage means that is rewritable from the external device and stores information related to the operation of the device itself
Control means for reading out information related to the operation stored in the storage means and executing the operation when the short-range wireless communication means performs short-range wireless communication with the external device. apparatus.   When the information on the operation transmitted from the external device is received by the short-range wireless communication unit, the information stored in the storage unit is rewritten with the information on the received operation. The wireless communication apparatus according to claim 1. The control means includes
Means for determining whether or not the information stored in the storage means has been rewritten,
The information stored in the storage means is triggered by the rewrite, and the rewritten information is read from the storage means and the operation is executed. A wireless communication device according to 1.   4. The wireless communication apparatus according to claim 2, wherein when the operation is finished, the rewritten information is written back to the original information.   The operation includes an operation of associating with another wireless communication device, an operation of transmitting a radio wave intensity measurement radio wave via the wireless network, and an operation of measuring the radio wave intensity of a radio wave transmitted from the other wireless communication device. 5. The wireless communication apparatus according to claim 1, comprising at least one of the following.

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