JP2011004349A - Automatic meter reading system and control telegraphic message transmission method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic meter reading system capable of accurately adjusting a transmission time of a control telegraphic message from a center device to each terminal device when transmitting meter reading data simultaneously from terminal devices to the center device.SOLUTION: In a center device 101 installed at an entrepreneur side, terminal devices 230 installed in a target field 200 are classified for the unit of their communication systems or installation areas. On the basis of the lapse of time from a meter reading data transmission time point to a time point at which the number of meter reading data collected from the terminal devices 230 reaches a preset threshold, a control telegraphic message transmission disabled time zone from the center device 101 to each terminal device 230 is periodically calculated and held for each of the classified terminal devices 230. The transmission time of the control telegraphic message is adjusted from each meter reading data transmission time point to any time zone other than the calculated and held time zone. Concurrently, when an operator registers control information, it can be selected whether or not the automatic adjustment of transmission time of the control telegraphic message is required.

Description

  In the present invention, a center device installed on a business operator side communicates with a terminal device connected to a watt hour meter of a power consumer via a network, collects a meter reading value from the watt hour meter, and a terminal The present invention relates to an automatic meter reading system and a control message transmission method that can remotely perform on / off control of a load switch connected to a device.

  In order to measure the amount of electric power used by low-voltage small-capacity electric power consumers such as ordinary households, a method in which a meter-reader regularly reads and aggregates the watt-hour meter installed in each electric power consumer is adopted. However, if a large number of watt-hour meters installed in a wide range are visually read, and written and recorded in a form, etc., an attempt will be made by a limited number of meter readers at the same time, this will place a great burden on the meter reader. As a result, misreading of meter readings and the occurrence of errors were inevitable.

  On the other hand, for example, when a resident moves into a new building, or when a resident returns to a building where power supply has been stopped, or a new resident moves in, the power consumer gives power to the business operator. Request start of supply. In this case, the operator may specify the date and time of the start of power supply from the power consumer, and conventionally, a worker is dispatched to the site each time and the service line of the distribution line is connected to the power meter of the power consumer. I was doing work. In addition, for power consumers who have not paid their electricity bill for a long period of time, the business operator may stop supplying power on a predetermined date. Work to remove the lead-in wire of the distribution line.

  In such a case, the location is an inconvenient location, or the power supply start time specified by the power consumer or the specified time set by the operator is outside normal business hours In some cases, it is not easy for operators to dispatch workers to the site at that date and time. For this reason, when the date and time for starting power supply is specified by the power consumer, there is a case where it is unavoidable to change the date and time, which is inconvenient for both the business operator and the power consumer.

  Therefore, for example, Patent Document 1 includes a center device installed on the center side, a relay device branched from the center device, and a terminal device connected to the relay device via a communication line. By connecting a watt-hour meter with a pulse transmitter and arranging a control circuit and an open / close unit between the terminal device and the load, and communicating a command / response signal between the center device and the terminal device, An automatic power meter reading system has been devised that remotely collects meter reading values from a meter and controls on / off of a load switch.

  In addition, since there are many low-voltage small power consumers such as general households in a plurality of dispersed areas, it is difficult to apply wired communication to all communications between the center device and the terminal device. An automatic meter reading system in which wireless communication is applied to communication between a part of the terminal device and a device on the field, in particular, a device on the field is already known.

  FIG. 7 is a block diagram showing a configuration of a conventional automatic meter reading system. When the master wireless device 220 of the automatic meter reading system receives a control message including information for identifying the terminal device 230 (child wireless device) from the center device 102, the wireless device 220 wirelessly transmits the message to the terminal device 230. In response to this, after receiving the radio signal, the terminal device 230 performs predetermined processing such as data collection and control related to the monitored control device 231 connected to each terminal device 230, and sends the response message to the parent radio. Wireless transmission to the machine 220. In response to this, the master radio device 220 receives the radio signal, and then transmits a response message to the center device 102 via the relay device 210, the dedicated communication network 300, and the relay device 110. Then, the center apparatus 102 extracts various data from the received response message and executes predetermined processing. Such processing is hereinafter referred to as “center device-driven processing”.

  Alternatively, the terminal device 230 not only responds to a message from the center device 102 but also performs a predetermined process at a specific time or at a constant cycle and autonomously transmits the result to the center device 102. Conceivable. Such processing is hereinafter referred to as “terminal device-driven processing”.

  By the way, in the case of the above-mentioned “center device-led processing”, the “FIFO (First In First Out)” method is generally used in which transmission messages are transmitted in the order of request. When meter reading data is collected from all power consumers at once, a considerable amount of data communication is involved and the processing time is also increased. Therefore, during the communication, the center device 102 sends a specific terminal device 230 to the specific terminal device 230. For example, even if the on / off control of the load switch is to be performed, the on / off control instruction of the load switch is not transmitted until communication by collective meter reading value collection is completed. That is, there is a problem that necessary operations cannot be performed when necessary.

  Therefore, for example, in Patent Document 2, priorities are assigned to the transmission messages from the center apparatus 102 according to the contents of the transmission messages, and communication is performed based on those priorities. However, a center device system has been devised that immediately transmits an urgent instruction message.

JP 2000-147030 A JP 2002-135866 A

  However, in the automatic meter reading system in which wireless communication is applied to communication in all or a part of the section between the center apparatus 102 and the terminal apparatus 230 as described above, the center apparatus system of Patent Document 2 is an instruction from the center apparatus 102. This is effective in the case of “center device-driven processing” for collecting meter reading data using a message, but “terminal device-driven processing” for autonomously transmitting meter reading data from the terminal device 230 to the center device 102. In this case, it cannot be applied.

  In the case of “terminal device-initiated processing”, meter reading data is transmitted from the terminal device 230 to the center device 102 within a short time, communication congestion occurs, and communication load increases. At this time, if a control message such as a load switch control is transmitted from the center device 102 to the terminal device 230, a message in communication may be lost due to communication congestion, or communication may be delayed. There is a problem that there is a high possibility that it will not be possible to transfer such information when necessary.

  In order to solve this problem, if the time or cycle at which the terminal device 230 transmits meter-reading data to the center device 102 is determined in advance, the center device can be used for a certain period of time from the time or cycle. It is conceivable that the control message is not transmitted from the terminal 102 to the terminal device 230, that is, a control message transmission unavailable time zone is provided. However, in practice, since it is necessary to consider the system configuration and wireless communication characteristics, there is a problem that the control message transmission unavailable time zone cannot be uniquely determined.

  The present invention is an invention for solving the above-described problems, and when the terminal devices transmit meter-reading data to the center device all at once, the transmission time of the control message from the center device to the terminal device is accurately determined. An object of the present invention is to provide an automatic meter reading system and a control message transmission method that can be adjusted to each other.

  In order to achieve the above object, a center device installed on the provider side and a plurality of parent radio devices provided in the target field are connected via a dedicated communication network and a relay device, etc., to a plurality of distributed areas. A large number of terminal devices (child radios) connected to the watt hour meter at the customer's house perform wireless communication with each parent radio device, autonomously transmit the meter reading value of the watt hour meter to the center device, and In an automatic meter reading system configured such that a terminal device performs a predetermined process by a control message transmitted from the device, the center device determines the terminal device installed in the target field in units such as its communication method and each installation area. Classification based on the time from the meter reading data transmission time until the number of meter reading data collected from each terminal device reaches a predetermined threshold (meter reading data collection rate threshold) When the control message transmission unavailable time zone from the center device to the terminal device is periodically calculated and held for each terminal device, and when the designated transmission time of the control message is the control message transmission unavailable time zone from the meter reading data transmission time It waits for transmission, and transmits a control message when the control message transmission unavailable time period has elapsed.

  In the case of an emergency, when there is no need to adjust the transmission time of the control message from the center device to the terminal device, it is necessary to automatically adjust the transmission time when registering control information from the center device to the terminal device. The operator can select no. Depending on the content of the control for the terminal device, it may be possible to select whether the transmission time of the control instruction from the center device is advanced or delayed from the time designated by the operator. The present invention can also be applied to an automatic meter reading system in which wired communication is applied to all communications between the center device and the terminal device.

  ADVANTAGE OF THE INVENTION According to this invention, when a terminal device transmits meter-reading data toward a center apparatus all at once, the transmission time of the control message from a center apparatus to a terminal device can be adjusted exactly.

It is a block diagram which shows the whole structure of the automatic meter-reading system which concerns on this embodiment. It is a block diagram which shows the function structure of a center apparatus and an operating device. It is explanatory drawing which shows the case where 50% of meter-reading data of a terminal device are collected from the meter-reading data transmission time in a center apparatus. It is explanatory drawing which shows the case where 20% of meter-reading data of a terminal device are collected from the meter-reading data transmission time in a center apparatus. It is explanatory drawing which shows the case where 70% of meter-reading data of a terminal device are collected from the meter-reading data transmission time in a center apparatus. It is a block diagram which shows the example of the time slot | zone information holding part in a center apparatus. It is a flowchart which shows the process of the control execution process function part in a center apparatus. It is a screen figure which shows the example of a display of the display part (dedicated screen) of an operating device. It is a block diagram which shows the structure of the automatic meter-reading system of a prior art example.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention (hereinafter referred to as “embodiments”) will be described with reference to the drawings (other than the reference drawings as appropriate).

  FIG. 1 is a block diagram showing an overall configuration of an automatic meter reading system according to the present embodiment. FIG. 1 shows a system configuration employed when the automatic meter reading system S is actually applied to a field. In the target field 200, a plurality of relay devices 210 and a parent radio device 220 are installed, and the terminal devices 230a (230) to 230n (230) do not communicate with only the upper parent radio device 220 but each terminal. This shows that communication is also performed with another terminal device 230m (230) installed below the devices 230a to 230n. Normally, the terminal device 230 and the monitored control device 231 are installed in each power consumer house, and the relay device 210 and the parent radio device 220 are installed on a power pole (particularly a power pole).

  In the automatic meter reading system S, the center device 101 provided in the provider-side center 100 and the parent radio device 220 provided in the target field 200 are connected to the relay device 110 (first relay device) and the dedicated communication network 300. , And a relay device 210 (second relay device).

  When receiving the control message including information for identifying the terminal device 230 (child radio device) from the center apparatus 101, the parent radio device 220 wirelessly transmits the message to the terminal device 230. In response to this, after receiving the radio signal, the terminal device 230 performs predetermined processing such as data collection and control related to the monitored control device 231 connected to each terminal device 230, and sends the response message to the parent radio. Wireless transmission to the machine 220. In response to this, the master radio device 220 receives a radio signal, and then transmits a response message to the center device 101 via the relay device 210, the dedicated communication network 300, and the relay device 110. Then, the center apparatus 101 extracts various data from the received response message and executes predetermined processing.

  When the terminal device 230 receives a radio signal including relay information, the terminal device 230 transmits a control message to the terminal device 230 included in the relay information, and the received terminal device 230 transmits a response via the relay terminal device 230. Send a message. Specifically, when the terminal device 230a receives a radio signal including relay information for identifying the terminal device 230m, the terminal device 230a transmits the received control message to the terminal device 230m, and the received terminal device 230m transmits a response message. It transmits to the terminal device 230a. The terminal device 230a that has received the response message from the terminal device 230m transmits it to the center device 101 via the relay device 210, the dedicated communication network 300, and the relay device 110.

  The system configuration of the automatic meter reading system S shown in FIG. 1 is set up such that a plurality of terminal devices 230 have a tree structure centered on one master radio device 220, and the terminal devices 230 also communicate with each other and transmit sequentially. The system configuration is such that meter reading data is collected in the master radio device 220 by a method (bucket relay method). Thereby, compared with the case where it is set as the structure which all the terminal devices 230 communicate with the main radio | wireless machine 220, the cost of capital investment can be reduced.

  In the case of a bucket relay system configuration, the terminal device 230 is installed on the power consumer's home side that exists in a large number of dispersed areas, and the number of terminal devices 230 and the distance between the terminal devices depending on each area. Therefore, the time until the meter reading data transmitted from the terminal device 230 is received by the center device 101 also varies depending on conditions such as the arrangement configuration. Even when the time or period at which the terminal device 230 transmits meter reading data to the center device 101 is determined in advance, the control message transmission unavailable time zone cannot be uniquely determined. For this reason, the calculation method of the control message transmission non-transmission time zone mentioned later becomes important.

  Another point that needs to be considered is the characteristics of the wireless communication used. For example, the transmission speed varies depending on the communication method used by the terminal device 230 for wireless communication, such as a wireless local area network (LAN), a specific low-power radio, or a PHS (Personal Handyphone System). Therefore, the time until the meter reading data transmitted from the terminal device 230 is received by the center device 101 becomes a factor that fluctuates.

  Here, the terminal device 230 is classified according to its communication method and installation area, and the problems when the control message transmission unavailable time zone is fixedly set for each terminal device 230 in advance (when not updated) are sorted out. Keep it.

  Even if the communication method and installation area of the terminal device 230 are the same, there is a factor that fluctuates the time until the meter reading data transmitted from the terminal device 230 is received by the center device 101. Setting a fixed time zone may not be an effective solution.

  One of the factors is a communication path until the meter reading data transmitted from the terminal device 230 is received by the center device 101. When a plurality of parent wireless devices 220 are arranged in each area or within an area, and a certain parent wireless device 220 cannot communicate due to a failure or maintenance work, the terminal device 230 that normally communicated with the parent wireless device 220 is different. In the case of a configuration in which a backup path is held so as to communicate with the alternative master radio device, the communication load of the specific master radio device 220 increases when the event occurs, so the meter reading data transmitted from the terminal device 230 is the center device 101. The time until it is received at fluctuates.

  In addition, since the terminal devices 230 installed in each power consumer home also communicate with each other, even when an obstacle exists between the power consumer homes where the terminal devices 230 to be communicated are installed, The time until the transmitted meter reading data is received by the center apparatus 101 varies. As this obstacle, a temporary moving object such as a truck stopped on the road can be considered, and as it gradually becomes an obstacle to communication with time, a new building or a tree growth can be considered.

  Another factor is a case where the terminal device 230 is installed in the target field 200 step by step as the equipment of the automatic meter reading system S is increased. Also in this case, since the number of terminal devices 230 increases with the passage of time or date, meter reading data transmitted from the terminal device 230 is proportional to the number of terminal devices 230 installed in the target field 200. The time until it is received at fluctuates.

  Yet another factor is weather conditions such as the weather. When it is raining or when the humidity is high, the radio wave becomes weak, and wireless communication between the parent wireless device 220 and the terminal device 230 or between the terminal devices 230 becomes impossible, and the wireless communication takes longer than usual. Since it may be required, the time until the meter reading data transmitted from the terminal device 230 is received by the center device 101 may be a factor that fluctuates.

  As described above, a situation in which the time until the meter reading data transmitted from the terminal device 230 is received by the center device 101 varies depending on various conditions will be described with reference to FIGS. 3A, 3B, and 3C.

  FIG. 3A is an explanatory diagram showing a case where 50% of the meter reading data of the terminal device is collected from the meter reading data transmission time in the center device 101. FIG. 3B is an explanatory diagram showing a case where 20% of meter reading data of the terminal device is collected from the meter reading data transmission time in the center device 101. FIG. 3C is an explanatory diagram showing a case where 70% of meter reading data of the terminal device is collected from the meter reading data transmission time in the center device 101. 3A, 3B, and 3C show the relationship between the elapsed time since the terminal device 230 transmits meter reading data to the center device 101 at a certain time and the number of meter reading data collected in the center device 101. This is represented by the collection number curve 500, and the intersection of the elapsed time axis 501 and the meter reading data collection number axis 502 is the meter reading data transmission time 510 when the terminal device 230 transmits the meter reading data to the center device 101.

  Here, considering a case where the time from the meter reading data transmission time 510 to the collection of meter reading data from 50% of all the terminal devices 230 in the center device 101 is set as the control message transmission unavailable time zone, FIG. In the case, the control message transmission unavailable time zone is 5 minutes, but in the case of FIG. 3B, the control message transmission unavailable time zone is required for 5 minutes or more. In the case of FIG. It becomes.

  As described above, since the time until the meter reading data transmitted from the terminal device 230 is received by the center device 101 varies depending on various conditions, the control message transmission non-transmission time zone also changes depending on those conditions as needed. Need to change. Therefore, it is important for the center apparatus 101 to manage the fluctuating control message transmission time zone and adjust the transmission time of the control message. Therefore, the control message transmission unavailable time zone is preferably calculated and updated at a predetermined timing (periodically and / or as needed).

  FIG. 2 is a block diagram illustrating functional configurations of the center device and the operation device. Reference is made to FIG. 1 as appropriate. The center apparatus 101 according to the present invention is connected to each device in the target field 200 via the relay apparatus 110 and the dedicated communication network 300. The operation device 120 communicates with the center device 101 in accordance with an instruction input by the operator from the display unit 52 (dedicated screen) provided in the operation device 120, and the processing result in the center device 101 is displayed on the display unit 52. indicate.

  The operation device 120 includes an operation information linkage function unit 51. The operation information linking function unit 51 is linked to the operation information management function unit 13 of the center apparatus 101 and transmits an instruction input by the operator from the display unit 52 to the operation information management function unit 13 of the center apparatus 101. The processing result in the center apparatus 101 for the instruction is received from the operation information management function unit 13 and displayed on the display unit 52.

  Also, in the operation information linkage function unit 51, when the operator inputs control information for the terminal device 230 from the display unit 52, it is designated as emergency control for transmitting a control message from the center device 101 immediately after the input or at the time of input. Screen display that allows the user to select schedule control for transmitting a control message from the center device 101 at the date and time, and a screen display that allows the center device 101 to select whether or not to automatically adjust the transmission time of the control message for the terminal device 230. provide.

  The center apparatus 101 includes a meter reading data processing function unit 11, a communication state management function unit 12, an operation information management function unit 13, a control execution processing function unit 14, a meter reading information holding unit 21, a control information holding unit 22, and a time zone information holding. It is comprised by the part 23 (classification information holding part).

  The meter-reading data processing function unit 11 autonomously transmits meter-reading data transmitted at a predetermined time or cycle from a terminal device 230 connected to a watt-hour meter at a power consumer's house. The data is received via the relay device 110 and registered in the meter reading information holding unit 21 in the order of reception date and time. Here, the meter reading data received by the meter reading data processing function unit 11 needs to have information such as the meter reading date and time, the communication method of the terminal device 230, the installation area of the terminal device 230, and the like. When the meter reading data processing function unit 11 registers the received meter reading data in the meter reading information holding unit 21, the date and time when the meter reading data processing function unit 11 receives the meter reading data is also registered in the meter reading information holding unit 21. To do.

  The communication state management function unit 12 reads the meter reading data registered in the meter reading information holding unit 21 in order from the oldest reception date and time, and reads the meter reading data information (the meter reading date and time, the communication method of the terminal device 230, the installation of the terminal device 230) The number of meter reading data with the same area) is accumulated. Then, when the integrated value with respect to the number of terminal devices 230 having the same communication method and installation area existing in the target field 200 reaches the meter reading data collection rate threshold registered in advance in the time zone information holding unit 23, the last The difference between the reception date and time recorded in the meter reading data of the terminal device 230 read from the meter reading information holding unit 21 and the transmission date and time of the meter reading data from the terminal device 230 is calculated, and the difference is calculated as a time zone information holding unit. 23, the control message transmission unavailable time zone for the terminal device 230 is registered. The process is executed for each meter reading data transmission time / cycle from the terminal device 230, and the control message transmission unavailable time zone of the time zone information holding unit 23 (see FIG. 4) is updated each time.

  FIG. 4 is a configuration diagram illustrating an example of a time zone information holding unit in the center apparatus. The time zone information holding unit 23 (classification information holding unit) includes a communication method 23a of the terminal device 230, an area 23b that is an installation area that divides the target field, meter reading data transmission time / period 23c, the number of terminal devices 23d, and meter reading data collection. A rate threshold 23e, a control message transmission unavailable time zone 23f, and the like. The communication method 23a, area 23b, meter reading data transmission time / cycle 23c, terminal device number 23d, meter reading data collection rate threshold 23e of the terminal device 230 must be registered in advance, and the control message transmission unavailable time zone 23f is As described above, the communication state management function unit 12 is updated with a value calculated as needed. In FIG. 4, the control message transmission unavailable time zone 23f is displayed in units of minutes, but is not limited thereto, and may be updated as needed in units of seconds.

  The transmission date / time of certain meter reading data from the terminal device 230 can be derived based on the meter reading date / time recorded in the meter reading data and the meter reading data transmission time / cycle registered in the time zone information holding unit 23.

  It is desirable that the meter reading data collection rate threshold value 23e is variously changed according to the transmission speed of the communication method and the meter reading data transmission time / cycle. This is because the amount of remaining collection after the meter reading data collection number curve 500 in FIGS. 3A, 3B, and 3C exceeds the peak depends on the transmission speed and meter reading data transmission time / cycle. It is. For example, in a communication method with a high transmission rate, the rate at which the remaining collections decrease after the meter reading data collection number curve 500 exceeds the peak also increases, so the meter reading data collection rate threshold value is lower than when the transmission rate is slow. It is possible to set to. By doing so, the control message transmitted after waiting for the control message transmission unavailable time zone is reliably transmitted to the terminal device 230. However, the meter reading data collection rate threshold 23e should be set to at least 50% or more.

  The above process will be specifically described below by taking, as an example, the case of the terminal device 230 in area B that performs communication using a specific low power radio as a communication method.

  Returning to FIG. 2, the communication state management function unit 12 accumulates the number of meter reading data having the same meter reading date and time among the meter reading data from the terminal device 230 registered in the meter reading information holding unit 21. From the time zone information holding unit 23 in FIG. 4, the number of the terminal devices 230 is 400, and the meter reading data collection rate threshold in the terminal devices 230 is 90%, so the integrated value of the meter reading data from the terminal device 230 is When 360 cases are reached, the difference between the reception date and time recorded in the meter reading data of the terminal device 230 last read from the meter reading information holding unit 21 and the transmission date and time of the meter reading data from the terminal device 230 is calculated. . At this time, assuming that the reception date and time recorded in the meter reading data is 6: 6 and the meter reading date and time is 5:30, the terminal device 230 transmits meter reading data at a cycle of 6 hours from 0:00. Therefore, it can be estimated that the meter reading data with the meter reading date and time of 5:30 is transmitted from the terminal device 230 at 6:00:00. Since the difference between the reception date and time 6: 6 and the transmission date and time 6:00:00 from the terminal device 230 is 6 minutes, the communication state management function unit 12 informs the time zone information holding unit 23 about the terminal device 230. 6 minutes is registered as the latest control message transmission unavailable time zone.

  This control message transmission unavailable time zone is calculated based on the latest communication status. For example, when another parent radio device 220 becomes an alternative parent radio device due to a failure of one parent radio device 220, Since the communication load of the parent wireless device 220 increases, it is predicted that the control message transmission unavailable time zone in the area where the parent wireless device 220 is installed also increases. That is, the control message transmission unavailable time zone may fluctuate more greatly depending on the nearest communication status than the number of terminal devices in the area.

  The operation information management function unit 13 performs a predetermined process in response to an operator instruction received from the operation information linkage function unit 51 in the operation device 120. When the operator's instruction is to display meter reading data, necessary data is acquired from the meter reading information holding unit 21 and transmitted to the operation information linking function unit 51. If the operator's instruction is to control the terminal device 230, the control information is registered in the control information holding unit 22 and the registered result is transmitted to the operation information linkage function unit 51. If the control is emergency control, the control execution processing function unit 14 is activated to link necessary information to the control execution processing function unit 14.

  The control execution processing function unit 14 is activated by a fixed cycle or linkage from the operation information management function unit 13, acquires control information registered in the control information holding unit 22, and transmits it to the terminal device 230 at the time. If there is control information to be transmitted, the control message transmission time is automatically adjusted according to the control message transmission unavailable time zone registered in the time zone information holding unit 23, and then the control message is sent to the terminal device 230. Send.

  Specifically, for example, the operator communicates from the display unit 52 of the operation device 120 to one of the terminal devices 230 in the area B that performs communication using the specific low power radio as a communication method. The process of the control execution processing function unit 14 will be described below with reference to the processing flow of FIG. 5, taking as an example a case where schedule control for transmitting a control message from the center device 101 is input.

  FIG. 5 is a flowchart showing processing of the control execution processing function unit in the center apparatus. The control execution processing function unit 14 is activated by linkage from the timer or the operation information management function unit 13. Activation means reception of a control message transmission request. If the control execution processing function unit 14 is activated at 6:00:00 due to periodic activation, the control execution processing function unit 14 determines whether or not there is corresponding data in the control information holding unit 22 in step S1. Specifically, the control information to be transmitted from the center apparatus 101 is acquired from the control information registered in the control information holding unit 22 at 6:00:00. If there is relevant data (step S1, Yes), the process proceeds to step S2. If there is no corresponding data (step S1, No), the process is terminated.

  Next, in step S2, it is confirmed whether the transmission time automatic adjustment is set for the information (the control information). When automatic transmission time adjustment is set (step S2, Yes), the control message transmission unavailable time zone of the terminal device 230 to be controlled is acquired from the time zone information holding unit 23 in step S3. At this time, specifically, since the control message transmission unavailable time zone for the terminal device 230 is 6 minutes (see FIG. 4), in step S4, the control message is not transmitted at 6: 0 minutes for 6 minutes. In step S5, communication is performed. Specifically, when 6: 6 has passed, the control message is transmitted to the terminal device 230. In step S3, 6: 6 is the time data transmission time (for example, 6:00:00) from the time zone information holding unit 23 (classification information holding unit) and the control message transmission unavailable time zone (for example, 6 minutes). By acquiring the above, the time can be specified.

  In step S2, when the operator inputs the control information from the display unit 52 of the controller device 120, if the control message transmission time automatic adjustment is not set (step S2, No), the control execution process The function unit 14 proceeds to step S5, and transmits a control message at 6:00:00 without waiting for 6 minutes in the control message transmission unavailable time zone.

  FIG. 6 is a screen diagram illustrating a display example of the display unit (dedicated screen) of the controller device. FIG. 6 is a screen display example when the control information is input from the display unit 52 (dedicated screen) of the controller device 120. The display unit 52 displays the power customer ID, the control content, the execution method, the presence / absence of automatic transmission time adjustment, and the like.

  An example of the operation method will be described below. First, the operator designates the ID of the power consumer in which the target terminal device 230 is installed. Next, select the required control content (load switch on, load switch off, parameter setting), specify the operation execution date and time according to the operation execution method, and enable / disable automatic adjustment of the transmission time of the control message Select (Necessary / Necessary).

  Thus, when transmitting a control message from the center apparatus 101, the time required for the center apparatus 101 to collect a certain number of meter reading data is estimated from the nearest meter reading data collection result, and during that time By not transmitting the control message from the center device 101, loss of the control message due to communication congestion is avoided, and the control instruction to the terminal device 230 is reliably transmitted. In the case of an emergency, the control instruction can be transmitted when necessary by setting automatic transmission time adjustment of the control message.

  In FIG. 2, the operation device 120 is constituted by a personal computer terminal, and the center device 101 is a server device or the like. The display unit 52 of the operation device 120 is used for displaying a message or the like to the operator, and includes a CRT (Cathode Ray Tube) or a liquid crystal display. The operation information linkage function unit 51 is realized by a program execution process by a CPU (Central Processing Unit).

  The meter reading data processing function unit 11, the communication state management function unit 12, the operation information management function unit 13, and the control execution processing function unit 14 of the center device 101 are realized by program execution processing by the CPU. The meter reading information holding unit 21, the control information holding unit 22, and the time zone information holding unit 23 are stored in a storage unit such as a hard disk.

The automatic meter reading system according to the present embodiment includes a center device 101 installed in the provider-side center 100, and a plurality of terminal devices 230 installed in the target field 200 and connected to a watt-hour meter of a power consumer, The terminal device 230 is an automatic meter reading system configured such that the meter device autonomously transmits meter reading data to the center device 101, and the terminal device 230 performs predetermined processing by a control message transmitted from the center device 101. is there.
The center device 101 classifies the terminal devices 230 installed in the target field 200 according to a predetermined condition, and stores the meter reading data transmission time, the number of terminal devices, and the meter reading data collection rate threshold for each classified terminal device. A classification information holding unit (for example, a time zone information holding unit 23);
Based on the time from the meter reading data transmission time until the meter reading data collection rate threshold is reached for each terminal device in which the number of meter reading data collection is classified, a control message transmission unavailable time zone from the center device 101 to the terminal device 230 is set to a predetermined value. A communication state management function unit 12 that calculates the timing (periodically and / or as needed) and holds it in the classification information holding unit;
When the control message transmission request is received from the operation device 120 connected to the center device 101, the meter reading data transmission time and the control message transmission unavailable time zone are acquired from the classification information holding unit (step S3), and the control message is designated. When the received transmission time is a control message transmission unavailable time zone from each transmission time, transmission is waited (step S4), and a control message is sent when the control message transmission unavailable time zone elapses (step S5). And a portion 14.

  As mentioned above, although one form for implementing this invention was demonstrated concretely, this invention is not limited to the said embodiment, It can change variously within the range which does not deviate from the summary. Needless to say.

  In the automatic meter reading system of the present embodiment, a control message is transmitted from the center apparatus 101 to the terminal apparatus 230 in a time zone in which communication is likely to be congested between the master radio device 220 and the terminal apparatus 230 or between the terminal apparatuses 230. By not performing transmission, the control message transmitted from the center apparatus 101 to the terminal apparatus 230 is lost during communication, so that necessary operations cannot be performed and necessary information cannot be transmitted. Can be eliminated.

  Further, the control message transmission unavailable time zone is periodically calculated and held in units such as the wireless communication method and area of the terminal device 230, so that the center device 101 changes to the terminal device according to the difference in the conditions. The transmission time of the control message for 230 can be finely and automatically adjusted.

  Furthermore, the control message can be sent at the time specified by the operator without the automatic adjustment of the transmission time according to the operator's specification, so that necessary information can be passed when needed in an emergency. it can.

DESCRIPTION OF SYMBOLS 11 Meter-reading data processing function part 12 Communication state management function part 13 Operation information management function part 14 Control execution processing function part 21 Meter-reading information holding part 22 Control information holding part 23 Time zone information holding part (classification information holding part)
51 Operation Information Linking Function Unit 52 Display Unit 100 Business Center 101, 102 Center Device 110 Relay Device (First Relay Device)
120 Operating device 200 Target field 210 Relay device (second relay device)
220 Master Radio 230 Terminal Device (Slave Radio)
231 Monitored control device 300 Dedicated communication network S Automatic meter reading system

Claims (5)

A center device installed on the operator side, and a plurality of terminal devices installed in the target field and connected to a watt-hour meter of a power consumer, the terminal device autonomously reading meter reading data of the watt-hour meter An automatic meter-reading system configured such that the terminal device performs a predetermined process by a control message transmitted from the center device to the center device,
The center device is
A classification information holding unit that classifies terminal devices installed in the target field according to a predetermined condition, and associates and holds meter reading data transmission time, the number of terminal devices, and a meter reading data collection rate threshold for each classified terminal device; ,
Based on the time from the meter reading data transmission time until the number of meter reading data collected reaches the meter reading data collection rate threshold for each of the classified terminal devices, a control message transmission unavailable time zone from the center device to the terminal device is set. A communication state management function unit which is calculated at a predetermined timing and stored in the classification information storage unit;
When the control message transmission request is received from the operation device connected to the center device, the meter reading data transmission time and the control message transmission unavailable time zone are acquired from the classification information holding unit, and the control message is designated. A control execution processing function unit that waits for transmission when the transmission time is in the control message transmission unavailable time zone from each transmission time, and transmits the control message when the control message transmission unavailable time zone has passed. An automatic meter reading system characterized by comprising: The automatic meter reading system according to claim 1, wherein the predetermined condition is an installation area in which a communication method from the terminal device and the target field are divided. A screen for inputting control information for the terminal device is displayed on the display unit of the operation device, and the necessity of automatic adjustment of the transmission time of the control message can be selected via the screen. The automatic meter reading system according to claim 1. The control execution processing function unit
Determining whether or not the transmission time automatic adjustment of the control message is necessary,
The automatic meter reading system according to claim 3, wherein when the automatic transmission time adjustment is not set, the control message is transmitted at a designated transmission time. A center device installed on the operator side, and a plurality of terminal devices installed in the target field and connected to a watt-hour meter of a power consumer, the terminal device autonomously reading meter reading data of the watt-hour meter Control message transmission that adjusts the transmission time of the control message in an automatic meter reading system configured such that the terminal device performs predetermined processing by the control message transmitted from the center device. A method,
The center device is
The terminal devices installed in the target field are classified according to predetermined conditions, and for each classified terminal device, the meter reading data transmission time, the number of terminal devices, and the meter reading data collection rate threshold are stored in the storage unit,
Based on the time from the meter reading data transmission time until the number of meter reading data collected reaches the meter reading data collection rate threshold for each of the classified terminal devices, a control message transmission unavailable time zone from the center device to the terminal device is set. Calculated at a predetermined timing and stored in the storage unit,
When the control message transmission request is received from the operation device connected to the center device, the meter reading data transmission time and the control message transmission unavailable time zone are acquired from the classification information holding unit, and the control message is designated. Control message transmission, wherein the control message is transmitted when the control message transmission unavailable time zone elapses after the transmission time is in the control message transmission unavailable time zone from each transmission time. Method.

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