JP2010271897A - Wireless meter reading system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless meter reading system capable of avoiding a problem of interference by overlapping of transmission timing, and optimizing transmission intervals to efficiently collect data from a plurality of meters, even when a time for transmission of response telegram messages changes in accordance with a function or equipment of a wireless slave unit or a plurality of channels are used. <P>SOLUTION: The wireless meter reading system includes: a plurality of wireless slave units 5-1 to 5-n connected so as to correspond to each of a plurality of meters 3-1 to 3-n; a wireless master unit 4 for performing wireless communication with each of the plurality of wireless slave units 5-1 to 5-n; and a handy terminal 1 for acquiring information from each of the plurality of meters 3-1 to 3-n. In the handy terminal 1, each of the plurality of wireless slave units 5-1 to 5-n input in advance generates transmission timing information of response telegram messages by each of the wireless slave units on the basis of a time necessary for response, and transmits transmission timing information generated to each of the plurality of wireless slave units 5-1 to 5-n. Then, each of the plurality of wireless slave units 5-1 to 5-n determines transmission timing of the response telegram messages with respect to the wireless master unit 4 on the basis of the transmission timing information. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a wireless meter reading system that collects measured values of a watt hour meter, a gas meter, a water meter, etc. by wireless communication and performs meter reading.

  Conventionally, meter reading of meters used to measure the amount of electricity, gas, water, etc. provided in each home has been performed by direct inspection by a meter reader. In this case, the meter reader manually inputs the meter reading value obtained by visual observation into the handy terminal of the meter reader. However, since an increase in the number of auto-lock condominiums and the like makes it difficult for a meter reader to enter a meter installation location, a meter reading system capable of remote meter reading is required.

  Therefore, a wireless meter reading system has been proposed that can acquire a meter reading value of a remote meter by attaching a wireless terminal to the meter and performing wireless communication with a handy terminal or center device possessed by the meter reader. Usually, such a wireless meter reading system includes a host device such as a handy terminal or a center device, a wireless master device connected to the host device, and a wireless slave device connected to each meter, and is remotely controlled by wireless communication. The meter reading is possible.

  In such a wireless meter reading system, since the wireless slave device normally uses a battery as a power source, in order to reduce power consumption and reduce battery consumption, the carrier device intermittently performs a carrier sense operation. The presence or absence of wireless communication is determined. Therefore, it is necessary for the wireless master device to continue transmission for a time longer than the carrier sense operation interval of the wireless slave device so that the wireless slave device can reliably receive the first request.

  Here, let us consider a case in which measurement value information is collected from meters connected to each of the wireless slave units in a place where there are many wireless slave units for one wireless master unit such as an apartment. Due to the circumstances described above, since the initial call request from the wireless master device to the wireless slave device requires a certain amount of time, if the wireless master device communicates with all the wireless slave devices in order, the wireless master device It takes a very long time to collect information from all the wireless slave units.

  Therefore, when collecting data such as measurement values from a plurality of meters at the request of the host device, the wireless master unit transmits a broadcast packet to each of the plurality of wireless slave units in a batch. Collect data from the meter connected to the wireless slave unit. In this case, if each wireless slave unit that has acquired data from the meter transmits a response message to the wireless master unit at the same time, problems such as interference will occur. It is necessary to send a response message to the base unit.

  FIG. 7 is a diagram showing the timing of a request by a broadcast packet by a wireless master device and responses by a plurality of wireless slave devices in a conventional wireless meter-reading system. When the wireless master device requests data from multiple wireless slave devices using a broadcast packet including a startup message, each wireless slave device transmits a response message to the wireless master device at a different transmission timing. To do. For example, as shown in FIG. 7, each wireless slave unit stores its own transmission order and the transmission time of a response message required for each slave unit to perform transmission. The transmission start time of is determined.

  Patent Document 1 describes a packet communication system in which an operation based on a carrier sense multiple access (CSMA) system stably functions normally during wireless transmission of a broadcast packet, and wireless communication is always possible between relay stations. . Each of the plurality of relay stations in this packet communication system stores the order of transmission of broadcast packets and the hold time. Therefore, according to this packet communication system, when a broadcast packet is wirelessly transmitted from at least one base station to at least one terminal station via a plurality of relay stations using a CSMA wireless link, a predetermined number of packets are transmitted. Since the relay station shifts the transmission timing of the broadcast packets by sequentially inserting the predetermined hold time in accordance with a predetermined transmission order by increasing the number of insertions, the CSMA operation functions stably and functions normally. As a result, it is possible to avoid the occurrence of communication trouble due to transmission competition and to eliminate packet loss.

  More specifically, in the packet communication system described in Patent Document 1, the holding time of each relay station is set to be shorter than the minimum value of the broadcast packet length to be transmitted. Therefore, each relay station enters a transmission waiting state while transmission is being performed by the relay station immediately preceding its own relay station, and transmits immediately after transmission by the previous relay station is completed. Can start.

JP 11-355293 A

  However, since each wireless slave in the conventional wireless meter reading system described in FIG. 7 is based on the premise that the response time of other wireless slaves is constant or known, the contents of the response message and the wireless slaves It is difficult to cope with the case where the response time changes. Similarly, each relay station in the packet communication system described in Patent Document 1 inserts a hold time on the assumption that the length of the radio packet transmitted by each relay station is constant or a known value. Therefore, this packet communication system has a disadvantage that it is difficult to determine the insertion timing of the hold time when the packet length changes.

  Even if the minimum value of the packet length is stored as “the time required for each relay station to perform transmission”, if the difference between the minimum value and the maximum value of the changing packet length is more than twice, A case where a plurality of relay stations are waiting for transmission can be considered. In such a case, when the transmission waiting state is canceled, a plurality of relay stations transmit at the same time, causing problems such as interference. This problem occurs similarly even if the transmission timing determination method by the relay station described in Patent Document 1 is applied to the wireless slave unit of the wireless meter reading system.

  In addition, as described with reference to FIG. 7, each of the plurality of wireless slave units in the conventional wireless meter reading system stores the transmission order and the transmission interval in a fixed manner. Therefore, when a wireless slave unit is newly added, When it is exchanged for a new device or when the minimum value of the packet length is changed, it is difficult to cope with it, and there is a disadvantage that the transmission interval is not optimized.

  Furthermore, many of the wireless slave units in recent wireless meter reading systems are configured to be capable of wireless communication through a plurality of channels. Therefore, even when it is detected that other wireless slave units are transmitting, it is considered that each wireless slave unit transmits a response message using a different channel. It will occur.

  The present invention solves the above-mentioned problems of the prior art, and even if the transmission time of the response message varies depending on the function and device of the wireless slave unit, or even when multiple channels are used, interference due to overlapping transmission timings It is an object to provide a wireless meter reading system that can efficiently collect data from a plurality of meters by avoiding this problem and optimizing the transmission interval.

  In order to solve the above problems, a wireless meter reading system according to the present invention includes a plurality of wireless slave devices connected to each of a plurality of meters, and each of the plurality of wireless slave devices. And a host device connected to the wireless master device and acquiring information from each of the plurality of meters via the wireless master device and the plurality of wireless slave devices. The host device generates response message transmission timing information by each wireless slave device based on a time required for a response by each of the plurality of wireless slave devices input in advance, and When requesting information to each, the transmission timing information generated for each of the plurality of wireless slaves is transmitted via the wireless master, and each of the plurality of wireless slaves Transmission time generated by the device Based on the information, the transmission timing of a response message to the wireless base unit is determined, and the higher-level device generates at least one of a predetermined transmission interval and a transmission order as the transmission timing information. To do.

  According to a second aspect of the present invention, there are provided a plurality of wireless slave devices connected corresponding to each of a plurality of meters, a wireless master device performing wireless communication with each of the plurality of wireless slave devices, and the wireless master device And a host device that acquires information from each of the plurality of meters via the wireless master device and the plurality of wireless slave devices, and the wireless master device has the plurality of wireless devices previously input. Based on the time required for each device to respond, the wireless slave device generates response message transmission timing information, and requests information from each of the plurality of wireless slave devices in response to a request from the host device. When transmitting a message, the transmission timing information generated for each of the plurality of wireless slave devices is transmitted, and each of the plurality of wireless slave devices is based on the transmission timing information generated by the wireless master device. Response to the wireless master unit Determining the transmission timing of the sentence, the wireless master unit, as the transmission timing information, and generating at least one of the transmission order and the predetermined transmission interval.

  According to the present invention, even if the transmission time of the response message varies depending on the function and device of the wireless slave unit or even when multiple channels are used, the problem of interference due to overlapping of transmission timing is avoided and the transmission interval is optimized. To efficiently collect data from a plurality of meters.

It is a block diagram which shows the structure at the time of operation | movement of the wireless meter-reading system of the form of Example 1 of this invention. It is a block diagram which shows the detailed structure of the radio | wireless main | base station and radio | wireless slave | mobile_unit in the radio | wireless meter-reading system of the form of Example 1 of this invention. It is a block diagram which shows the detailed structure of the handy terminal in the wireless meter-reading system of the form of Example 1 of this invention. It is a figure which shows the timing of the request | requirement by the broadcast packet from the wireless main | base station in the radio | wireless meter-reading system of the form of Example 1 of this invention, and the response by several radio | wireless subunit | mobile_units. It is a figure which shows one example of the request | requirement message | telegram from the wireless main | base station in the wireless meter-reading system of the form of Example 1 of this invention. It is a block diagram which shows the structure of the wireless meter-reading system of the form of Example 2 of this invention. It is a figure which shows the timing of the request | requirement by the broadcast packet from the wireless main | base station in the conventional wireless meter-reading system, and the response by several radio | wireless subunit | mobile_units.

  Hereinafter, embodiments of a wireless meter reading system of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram illustrating a configuration during operation of the wireless meter reading system according to the first embodiment of the present invention. The configuration of the wireless meter reading system will be described with reference to FIG. As shown in FIG. 1, the wireless meter reading system according to the present embodiment includes a handy terminal 1 and a wireless meter reading device 2a. The wireless meter reading device 2a collects meter reading data of a plurality of meters 3-1 to 3-n. is there. The wireless meter reading device 2a includes a wireless master device 4 and a plurality (n) of wireless slave devices 5-1 to 5-n. During operation in which meter reading is performed on the meters 3-1 to 3-n, the wireless master device 4 performs wireless communication with each of the plurality of wireless slave devices 5-1 to 5-n. Each of the plurality (n units) of wireless slave units 5-1 to 5-n is connected in one-to-one correspondence with each of the plurality (n units) of meters 3-1 to 3-n.

  The handy terminal 1 corresponds to the host device of the present invention, is connected to the wireless master device 4, and is connected to the wireless master device 4 and a plurality (n in this embodiment) of wireless slave devices 5-1 to 5-n. By requesting measurement values to the meters 3-1 to 3-n, which are subordinate devices, or by requesting setting values such as time and supply / demand patterns set in the meters 3-1 to 3-n, a plurality of meters 3 Information is acquired from each of −1 to 3-n.

  In addition, the handy terminal 1 receives a response message from each wireless slave device based on the time required for each of the plurality of wireless slave devices 5-1 to 5-n input in advance by an external input from a meter reader or the like. Transmission generated for each of the plurality of wireless slave units 5-1 to 5-n when generating the transmission timing information and requesting information from each of the plurality of meters 3-1 to 3-n Timing information is transmitted via the wireless master unit 4. The detailed configuration of the handy terminal 1 will be described later.

  Further, when implementing the present invention, there may be a plurality of wireless slave units, which are connected to a lower level device such as a meter. Each of the plurality of wireless slave devices 5-1 to 5-n determines the transmission timing of the response message to the wireless master device 4 based on the transmission timing information generated by the handy terminal 1 that is the host device.

  FIG. 2 is a block diagram illustrating a detailed configuration of the wireless master device 4 and the wireless slave device 5 in the wireless meter reading system of the present embodiment. Note that the wireless meter reading system in FIG. 2 is described as including only one wireless slave unit 5 for simplicity, but actually, as shown in FIG. 1 to 5-n, and the configuration of each wireless slave unit is the same.

  First, the wireless slave device 5 will be described. The wireless slave device 5 includes an antenna 13, a wireless transmission / reception unit 14, a control unit 15, a storage unit 16, an I / F unit 17, a display unit 18, and a communication terminal 19. The I / F unit 17 is connected to the meter 3 through the communication terminal 19 during operation, and performs wired communication with the meter 3. The wireless transmission / reception unit 14 performs wireless communication with the wireless parent device 4 via the antenna 13 during operation.

  The control unit 15 controls the entire wireless slave device 5. In particular, as described above, the control unit 15 according to the present embodiment determines the transmission timing of the response message for the wireless master device 4 based on the transmission timing information generated by the handy terminal 1.

  The storage unit 16 stores information necessary for wireless communication. For example, the storage unit 16 temporarily stores transmission timing information generated by the handy terminal 1. The display unit 18 displays the state of the wireless slave device 5.

  Next, the wireless master device 4 will be described. The wireless master device 4 includes an antenna 6, a wireless transmission / reception unit 7, a control unit 8, a storage unit 9, an I / F unit 10, a display unit 11, and a short-range wireless transmission / reception unit 12. The I / F unit 10 is connected to the handy terminal 1 through the short-range wireless transmission / reception unit 12 during operation, and performs wireless communication with the handy terminal 1. The wireless transmission / reception unit 7 performs wireless communication with the wireless slave device 5 via the antenna 6 during operation. The control unit 8 controls the entire wireless master device 4. The storage unit 9 stores information necessary for wireless communication such as its own ID. The display unit 11 displays the state of the wireless master device 4.

  In this embodiment, the wireless master device 4 communicates with the handy terminal 1 using short-range wireless communication. However, the present invention is not limited to this, and communication using wired connection is used. Alternatively, Bluetooth or infrared communication may be used.

  FIG. 3 is a block diagram showing a detailed configuration of the handy terminal 1 in the wireless meter reading system of the present embodiment. As shown in FIG. 3, the handy terminal 1 includes an input unit 25, a control unit 26, a display unit 27, a short-range wireless transmission / reception unit 28, and a storage unit 29.

  The input unit 25 is a key or the like provided on the surface of the touch panel or the handy terminal 1, and a meter reader or the like inputs information to the handy terminal 1 by operating the input unit 25.

  The control unit 26 controls the entire operation of the handy terminal 1. In particular, as described above, the control unit 26 according to the present embodiment is based on the time required for each of the plurality of wireless slave units 5-1 to 5-n input in advance by an external input from a meter reader or the like. When generating response message transmission timing information by each wireless slave device and requesting information from each of the plurality of meters 3-1 to 3-n, the plurality of wireless slave devices 5-1 to 5- The transmission timing information generated for each of n is transmitted via the wireless master unit 4.

  The short-range wireless transmission / reception unit 28 connects to the short-range wireless transmission / reception unit 12 in the wireless master device 4 by short-range wireless communication. As described above, the handy terminal 1 can also be connected to the wireless master device 4 by wired communication. In this case, the short-range wireless transmission / reception unit 28 is unnecessary.

  The storage unit 29 includes information on time required for a response by each of the plurality of wireless slave units 5-1 to 5-n input via the input unit 25, and information on the plurality of meters 3-1 to 3-n. Information such as a meter reading result obtained from each via the wireless master device 4 and the wireless slave device 5 is stored. The display unit 27 displays necessary information based on the control of the control unit 26.

  Note that the time information required for response by each of the plurality of wireless slave units 5-1 to 5-n is a storage unit that stores a response required time for each wireless slave device corresponding to various types of request commands as a table. 29 is stored. However, in the case where the meters 3-1 to 3-n connected to each of the plurality of wireless slaves 5-1 to 5-n are all the same type of meter, the response time is any wireless slave device. Therefore, the storage unit 29 does not necessarily need to store a table of response time for each wireless slave unit, and the wireless unit connected to the type of meter corresponding to various types of request commands. It is only necessary to store the response time of the slave unit and the number of wireless slave units.

  On the other hand, when a plurality of wireless slave units 5-1 to 5-n are connected to various types of meters (electricity meter, gas meter, water meter, etc.), even the same request command responds to each wireless slave device. Since the required time is considered to be different, the storage unit 29 needs to store a table of required response time for each wireless slave device.

  Next, the operation of the present embodiment configured as described above will be described. First, the meter reader or the like inputs the time required for each of the plurality of wireless slave units 5-1 to 5-n from the input unit 25 of the handy terminal 1. The control unit 26 in the handy terminal 1 causes the storage unit 29 to store information related to the time required for the response of each of the plurality of input wireless slave units 5-1 to 5-n, and displays the necessary information. This is displayed on the unit 27.

  In addition, the memory | storage part 29 may memorize | store the data of the response required time of the radio | wireless subunit | mobile_unit corresponding to various types of meters previously. In that case, the meter reader or the like only has to input the type and number of meters connected to the wireless slave unit to the handy terminal 1, and the labor required for the input work can be reduced.

  Next, the meter reading operation (measurement value acquisition operation) by the handy terminal 1 will be described. First, when a meter reader or the like performs an input requesting information such as a measurement value in each of the plurality of meters 3-1 to 3-n via the input unit 25, the handy terminal 1 (control unit 26) Based on the time required for a response by each of the plurality of wireless slave units 5-1 to 5-n input in advance and stored in the storage unit 29, the transmission timing information of the response message by each wireless slave device is generated.

  Here, the transmission timing information will be specifically described. As described above, when the meters 3-1 to 3-n connected to each of the plurality of wireless slave units 5-1 to 5-n are all the same type of meter, the response time is any The same applies to the wireless slave unit. In this case, the handy terminal 1 (control unit 26) can generate at least one of a predetermined transmission interval and a transmission order as the transmission timing information. For example, assuming that the time required for response to the measurement value request is 3 seconds for all the wireless slave units, the handy terminal 1 (control unit 26) sets the “predetermined transmission interval” to 3 seconds or slightly less than 3 seconds. The transmission timing for each wireless slave unit can be determined by setting the time and determining the transmission order of each wireless slave unit.

  In addition, when a plurality of wireless slave units 5-1 to 5-n are connected to various types of meters (electricity meter, gas meter, water meter, etc.), the required response time differs for each wireless slave device. Therefore, the handy terminal 1 (control unit 26) needs to generate detailed transmission timing time for each wireless slave as transmission timing information.

  FIG. 4 is a diagram showing the timing of a request by a broadcast packet from the wireless master device 4 and responses by a plurality of wireless slave devices in the wireless meter reading system of the present embodiment. Note that the number of wireless slave units is three (n = 3). For example, assuming that the meters 3-1 to 3-3 connected to each of the three wireless slave units 5-1 to 5-3 are the same type of meter, the required response time is any wireless slave device. Are considered to be the same. In this case, the handy terminal 1 (control unit 26) generates a predetermined transmission interval (for example, 3 seconds) and a transmission order as the transmission timing information.

  Next, the handy terminal 1 (control unit 26) transmits the transmission timing information generated to each of the plurality of wireless slave devices 5-1 to 5-n via the wireless master device 4. Specifically, the handy terminal 1 first transmits a meter reading request message together with the transmission timing information generated to the wireless master device 4. Upon receiving the meter reading request message including the transmission timing information, the wireless master device 4 transmits the meter reading request message to the wireless slave device 5 by wireless communication. That is, the message transmitted from the wireless master device 4 to each wireless slave device is obtained by adding transmission timing information (holding time) to the message of the meter reading request by the broadcast packet as shown in FIG.

  On the other hand, the control unit 15 included in each of the wireless slave units 5-1 to 5-n that has received the meter-reading request message from the wireless master device 4 via the antenna 13 recognizes that the received message is a meter-reading request message. To do. Thereafter, the control unit 15 included in each of the wireless slaves 5-1 to 5-n is connected to the wireless slave device of its own by a wired communication via the I / F unit 17 and the communication terminal 19. Transmit to any of meters 3-1 to 3-n.

  Each of the meters 3-1 to 3-n that has received the meter-reading request message generates a meter-reading response message including information on the measurement value, and is connected to its own meter by wired communication. Send to any of 5-n. The control unit 15 included in each of the wireless slaves 5-1 to 5-n transmits a meter reading response message to the wireless master device 4 through wireless communication via the wireless transmission / reception unit 14 and the antenna 13.

Each wireless slave device transmits a meter reading response message acquired from a meter connected to the wireless slave device 4 to the wireless master device 4 at a timing based on the transmission timing information. Here, it is assumed that the meters 3-1 to 3-3 connected to each of the three wireless slave devices 5-1 to 5-3 are the same type of meter. As an example, as illustrated in FIG. 4, the wireless slave device 5-1 having the first transmission order starts transmitting a response message at time t ₀ . Transmission by the radio personal station 5-1, to end at time _{t 1} after 3 seconds. Then, the transmission order is a second radio personal station 5-2 starts transmission of the response message at time t ₁ after three seconds from the time t _0. Transmission by the radio personal station 5-2 also, and ends at time _{t 2} after 3 seconds. Finally, the transmission order is the third radio personal station 5-3 starts transmission of the response message at time t ₂ from time t ₀ after 6 seconds.

  On the other hand, if a plurality of wireless slave units 5-1 to 5-n are connected to various types of meters (electricity meter, gas meter, water meter, etc.), the required response time differs for each wireless slave unit. Conceivable. In this case, the handy terminal 1 (control unit 26) generates information on the transmission start time of each wireless slave as transmission timing information. For example, FIG. 5 is a diagram illustrating an example of a request message from the wireless master device 4 in the wireless meter reading system according to the present embodiment. When the type of meter is different, the response time is different for each wireless slave unit. Therefore, the handy terminal 1 needs to generate transmission timing information specifying a transmission interval for each wireless slave unit as shown in FIG. .

For example, the response time of the wireless slave device 5-1 is 5 seconds with respect to the meter reading request, the response time of the wireless slave device 5-2 is 3 seconds, and the response time of the wireless slave device 5-3 is Suppose that it is 4 seconds. In that case, in the request message shown in FIG. 5, the handy terminal 1 sets the transmission interval of the wireless slave unit 5-1 to 0 seconds, the transmission interval of the wireless slave unit 5-2 to 5 seconds, and the transmission of the wireless slave unit 5-3. Specify an interval of 8 seconds. In this case, in FIG. 4, the wireless slave device 5-1 having the first transmission order starts transmission of a response message at time t ₀ (0 seconds from time t ₀ ). Transmission by the radio personal station 5-1, to end at time _{t 1} after 5 seconds. Then, the transmission order is a second radio personal station 5-2 starts transmission of the response message at time t ₁ of 5 seconds after the time t _0. Transmission by the radio personal station 5-2, and ends at time _{t 2} after 3 seconds. Finally, the transmission order is the third radio personal station 5-3 starts transmission of the response message at time t ₂ of 8 seconds after the time t _0.

  The wireless master device 4 that has received the response message as described above transmits the received meter reading response message to the handy terminal 1. The handy terminal 1 stores the measured value acquired from each of the meters 3-1 to 3-n in the storage unit 29 or displays the measured value on the display unit 27 based on the received telegram response message.

  As described above, the wireless meter reading system shown in FIG. 1 can collectively measure a plurality of meters 3-1 to 3-n to be metered.

  As described above, according to the wireless meter reading system according to the first embodiment of the present invention, even if the transmission time of the response message varies depending on the function or device of the wireless slave unit or even when multiple channels are used, the transmission is performed. In addition to avoiding the problem of interference due to timing overlap, the transmission interval can be optimized and data can be efficiently collected from a plurality of meters by broadcast.

  That is, the wireless meter reading system of the present invention does not set the transmission timing information such as the transmission interval and the transmission order in the wireless slave unit unlike the conventional wireless meter reading system, but the handy terminal 1 responds to the response time of each wireless slave unit. Since the transmission timing of each wireless slave unit is determined in an optimized form after storing information on the change of the response message transmission time according to the function and device of the wireless slave unit, or the use of multiple channels, etc. Regardless of the circumstances, it is possible to avoid a situation in which a plurality of wireless slaves are waiting for transmission and transmission timings overlap. Further, the wireless meter reading system of the present invention only sets the response time of the wireless slave when the device such as a meter is connected to the handy terminal 1 even when a device such as a meter having a new function appears. Well, the system has good extensibility.

  Furthermore, in the wireless meter reading system of the present invention, devices having different functions (for example, a watt hour meter, a gas meter, etc.) are connected to any one of the wireless slave units 5-1 to 5-n. Even if the response time differs for each wireless slave device, the transmission timing of each wireless slave device can be determined in an optimized manner, and data can be collected efficiently by broadcast.

  As a modification of the first embodiment, there is a wireless meter reading system in which the wireless master device 4 determines the transmission timing instead of the handy terminal 1. The wireless meter reading system in this case has the same configuration as the wireless meter reading system shown in FIGS. However, the handy terminal 1 does not have a function of generating transmission timing information. On the other hand, the wireless master device 4 generates response message transmission timing information by each wireless slave device based on the time required for each of the plurality of wireless slave devices 5-1 to 5-n input in advance. In addition, when transmitting an information request message to each of the plurality of wireless slave units 5-1 to 5-n in response to a request from the handy terminal 1, each of the plurality of wireless slave units 5-1 to 5-n The generated transmission timing information is transmitted.

  Note that the wireless master device 4 is not necessarily acquired manually by a meter reader or a contractor when acquiring information on the time required for a response by each of the plurality of wireless slave devices 5-1 to 5-n. There is no need, and the wireless master device 4 may automatically acquire information from each of the plurality of wireless slave devices 5-1 to 5-n.

  Each of the plurality of wireless slave devices 5-1 to 5-n determines the transmission timing of a response message to the wireless master device 4 based on the transmission timing information generated by the wireless master device 4.

  As described above, when the meters 3-1 to 3-n connected to each of the plurality of wireless slave units 5-1 to 5-n are all the same type of meter, the response time required is All wireless slaves are considered to be the same. In this case, the wireless master device 4 can generate at least one of a predetermined transmission interval and a transmission order as the transmission timing information. For example, if the time required for responding to a measurement value request is 3 seconds for any wireless slave device, the wireless master device 4 sets the “predetermined transmission interval” to a time shorter than 3 seconds or slightly less than 3 seconds. At the same time, by determining the transmission order of each wireless slave unit, the transmission timing for each wireless slave unit can be determined.

  The operations and effects of this modified wireless meter reading system are the same as the wireless meter reading system described above except that transmission timing information is generated by the wireless master unit 4 instead of the handy terminal 1. Description is omitted.

  FIG. 6 is a block diagram illustrating a configuration during operation of the wireless meter reading system according to the second embodiment of the present invention. The difference from the wireless meter reading system of the first embodiment is that a center device 30, a communication line 31, and a network control device 32 are provided instead of the handy terminal 1, and other configurations are the same as those of the first embodiment. is there. In FIG. 6, one wireless slave unit 5 and one meter 3 are shown. However, as shown in FIG. 1, an actual wireless meter reading system includes a plurality of wireless slave units 5-1 to 5-n. Each of them is connected to a plurality of meters 3-1 to 3-n.

  The center device 30, the communication line 31, and the network control device 32 correspond to the host device of the present invention. The network control device 32 and the wireless master device 4 are connected by short-range wireless communication, and the wireless master device 4 and a plurality of wireless devices are connected. Information is acquired from subordinate devices such as a plurality of meters 3 (3-1 to 3-n) via the slave unit 5 (5-1 to 5-n). That is, the wireless meter reading system of the present embodiment performs meter reading of the meter 3 using the communication line 31 such as a telephone line in response to a meter reading request from the center device 30.

  The network control device and the wireless master device 4 may be connected by wire instead of short-range wireless. The center device 30 is a device that communicates with the network control device 32 via the communication line 31 and is usually located remotely from each meter or the like.

  The center device 30 generates transmission timing information of a response message by each wireless slave device based on a time required for a response by each of the plurality of wireless slave devices 5-1 to 5-n input in advance. When requesting information to each of the meters 3-1 to 3-n, the transmission timing information generated for each of the plurality of wireless slave units 5-1 to 5-n is transmitted to the communication line 31 and network control. Transmission is performed via the device 32 and the wireless master device 4.

  As described above, when the meters 3-1 to 3-n connected to each of the plurality of wireless slave units 5-1 to 5-n are all the same type of meter, the response time is any The same applies to the wireless slave unit. In this case, the center device 30 can generate at least one of a predetermined transmission interval and a transmission order as the transmission timing information.

  Next, the operation of the present embodiment configured as described above will be described. The meter reading operation (measurement value acquisition operation) from the center device 30 will be described. The center device 30 transmits a meter reading request message together with the transmission timing information generated to the wireless master device 4 via the communication line 31 and the network control device 32. Upon receiving a meter reading request message including transmission timing information, the wireless master device 4 transmits a meter reading request message to each of the wireless slave devices 5-1 to 5-n through wireless communication.

  On the other hand, the wireless slave device 5 that has received the meter reading request message from the wireless master device 4 via the antenna 13 recognizes that it is a meter reading request message. Thereafter, the control unit 15 in each of the wireless slave units 5-1 to 5-n sends a meter reading request message by wired communication via the I / F unit 17 and the communication terminal 19 in the meters 3-1 to 3-n. Send to each.

  Receiving the meter reading request message, each of the meters 3-1 to 3-n generates a meter reading response message including measurement value information, and transmits it to each of the wireless slave units 5-1 to 5-n by wired communication. To do. The control unit 15 in each of the wireless slave devices 5-1 to 5-n transmits a meter reading response message to the wireless master device 4 via the wireless transmission / reception unit 14 and the antenna 13 by wireless communication. At that time, each of the plurality of wireless slave devices 5-1 to 5-n determines the transmission timing of the response message to the wireless master device 4 based on the transmission timing information generated by the center device 30. In addition, the wireless master device 4 transmits the received meter reading response message to the center device 30 via the network control device 32 and the communication line 31.

  As described above, according to the wireless meter reading system according to the second embodiment of the present invention, in addition to the effects of the first embodiment, meter reading can be performed from the center device 30 at a remote location. The transmission timing can be determined by the center device 30, and a response message can be transmitted to each wireless slave unit in an optimal order and timing.

  The wireless meter reading system according to the present invention can be used for a wireless meter reading system that collects metered values of a watt hour meter, a gas meter, a water meter, etc. by wireless communication and performs meter reading.

DESCRIPTION OF SYMBOLS 1 Handy terminal 2, 2a Wireless meter-reading apparatus 3 Meter 4 Wireless main | base station 5 Wireless subunit | mobile_unit 6 Antenna 7 Wireless transmission / reception part 8 Control part 9 Memory | storage part 10 I / F part 11 Display part 12 Short-range wireless transmission / reception part 13 Antenna 14 Wireless transmission / reception Unit 15 Control unit 16 Storage unit 17 I / F unit 18 Display unit 19 Communication terminal 25 Input unit 26 Control unit 27 Display unit 28 Short-range wireless transmission / reception unit 29 Storage unit 30 Center device 31 Communication line 32 Network control device

Claims (2)

A plurality of wireless slave devices connected to each of a plurality of meters;
A wireless master device that performs wireless communication with each of the plurality of wireless slave devices;
A host device connected to the wireless master device and acquiring information from each of the plurality of meters via the wireless master device and the plurality of wireless slave devices;
The host device generates transmission timing information of a response message by each wireless slave device based on a time required for a response of each of the plurality of wireless slave devices input in advance, and transmits to each of the plurality of meters When requesting information for the transmission, the transmission timing information generated for each of the plurality of wireless slave devices is transmitted via the wireless master device,
Each of the plurality of wireless slave devices determines the transmission timing of a response message to the wireless master device based on the transmission timing information generated by the host device,
The host apparatus generates at least one of a predetermined transmission interval and a transmission order as the transmission timing information. A plurality of wireless slave devices connected to each of a plurality of meters;
A wireless master device that performs wireless communication with each of the plurality of wireless slave devices;
A host device connected to the wireless master device and acquiring information from each of the plurality of meters via the wireless master device and the plurality of wireless slave devices;
The wireless master unit generates transmission timing information of a response message by each wireless slave unit based on a time required for a response by each of the plurality of wireless slave units input in advance, and responds to a request from the host device. Accordingly, when transmitting an information request message to each of the plurality of wireless slave units, the transmission timing information generated for each of the plurality of wireless slave units is transmitted,
Each of the plurality of wireless slaves determines the transmission timing of a response message to the wireless master based on the transmission timing information generated by the wireless master,
The wireless master device generates at least one of a predetermined transmission interval and a transmission order as the transmission timing information.

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