JP2008147844A - Automatic meter reading system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an automatic meter reading system which acquires necessary information such as meter read values from a remote place, and can achieve laborsaving of business inexpensively for a large number of watt-hour meters. <P>SOLUTION: An automatic meter reading system prepares an office side management system 10 which performs charge processing, a plurality of consumer side management systems 40 which carry out radio transmission of metered data of meters 42, and a meter checker side management system 20 which registers metering data of customer data transmitted from the office side management system 10, and metered data which are carried out by radio transmission from the customer side management systems 40. The office side management service 10 transmits and receives metered data read out from the meter checker side management system 20, and the automatic meter reading system 1 carries out charge processing using the metered data. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an automatic meter reading system that performs automatic meter reading on a measuring instrument from a remote location using an automatic meter reading device via a digital camera or wireless communication.

  For example, a watt hour meter is an example of a meter disposed in a dispersed area such as a scattered customer or apartment house or a factory site. In the electric power company, a watt hour meter is installed for each of a large number of customers in each jurisdiction, and electricity charges are collected by measuring the power consumption of the consumers. The meter reading of the watt-hour meter employs a method in which the meter reader periodically reads and counts the measured values.

Measurement by meter readers in distributed areas such as factory premises requires a large number of watt-hour meters to be visually read, written on a sheet, tabulated, etc. with a limited number of people at the same time, which is a heavy burden. Due to the mistakes of the meter readers, lack of attention, etc., misperceptions and typographical errors sometimes occurred.
In addition, the meter reading of the watt hour meter is not always easy. For example, this may be the case where the dog cannot be directly visually inspected due to free-running dogs on the site, auto-lock apartments, indoor installation, storage in the instrument panel, or snow cover.
Also, especially in urban areas, combined with the concentration of functions, the integration of facilities due to the prevention of disasters, and the integration of facilities, the dead space of relatively buildings such as cubicles with rooftops and underground electrical rooms. It is often arranged in an inferior position that tends to become.
Electric power company employees are forced to perform inconvenient work that makes it difficult to access the power meter itself for meter reading as well as patrol / inspection of electric power facilities.

In order to speed up and save labor in meter reading data processing, the center side and commands / radio signals via a carrier signal or radio signal can be used via a carrier signal or wireless signal An automatic meter reading system that communicates response signals has been proposed by the patent applicant of the present invention as Patent Document 1 (Patent Publication No. 3202005, “Automatic Metering System for Electric Power”).
In addition, for various meter pointer values that cannot be directly visually inspected, a terminal device is attached to the meter and wireless communication is used, so that it can be read reliably from a remote location to save labor in patrol / meter reading operations. Possible wireless meter reading systems are known as prior art. As a conventional technique of a wireless meter reading system, for example, one described in Patent Document 2 (Patent Publication No. 3264642, name of invention “Communication method used for wireless meter reading and wireless meter reading system implementing this”) is known.

  This prior art uses a periodic signal unique to a system in a signal recognition method in which a wireless slave station connected to a meter establishes a line by recognizing an identification signal transmitted from a master station device while performing intermittent operation. When the slave station detects this system-specific periodic signal, it recognizes whether it is significant communication within its own system, and recognizes the individual address signal following the system-specific periodic signal, The operation of the circuit is limited within the minimum necessary time by stepwise recognizing whether or not the communication request is for the device.

Japanese Patent No. 3202005 Japanese Patent No. 3264642 (FIG. 1)

However, when the electric power automatic meter reading system described in Patent Document 1 is constructed, a large number of meter reading terminals and a watt-hour meter with a pulse transmitter are required, which is one of the causes of cost increase.
In addition, when the specific low-power wireless communication is used in the wireless meter reading system of the prior art, the distance between the terminal devices is limited to a straight line with no obstacle while having a communicable distance of 100 m to 300 m. In other words, there are communication restrictions such as a place that can be seen when performing general meter reading work. Such a problem has the same restriction in the wireless meter reading system described in Patent Document 2.

  In addition, in order to construct a wireless meter reading system, there has been a situation in which it is desired to utilize a conventionally used system in order to avoid a rapid change of the current system and reduce the cost. For example, in the current commercial fee system, a commercial terminal and a handy terminal are connected via a cradle. However, since the commercial system and the commercial terminal will continue to be used, a handy terminal or a handy terminal is used. Even when the terminal is not used, there is a situation in which a limited external device such as a magneto-optical medium has to be used to read data into the commercial terminal.

  Therefore, the object of the present invention is to collect power meters such as watt hour meters installed in a wide range in distributed areas such as factory premises, watt hour meters that cannot be directly seen by security equipment, and urban buildings. In order to obtain necessary information such as meter readings from a remote location for watt-hour meters installed with power equipment in a high-use area, or for many watt-hour meters placed in one place such as apartment buildings. Therefore, it is to provide an automatic meter reading system that can realize labor saving of work at low cost.

An automatic meter reading system according to claim 1 of the present invention includes:
A management system on the premises that has a customer database and processes charges,
A customer-side management system using an automatic meter reading device that takes in weighing data from a measuring instrument;
The meter reading database is provided with a meter reading database, and the meter reading data generated by associating the customer data read and transmitted from the customer database of the business site management system and the weighing data taken in from the customer management system. The meter reader side management system to register with
An automatic meter reading system comprising:
The automatic meter reading device is
For weighing equipment that has a frame or mark in the vicinity of the meter-reading window and has a fixed positional relationship with an identification number and a numeric string indicating the weighing value, and a frame or mark that sets the image processing range, the weighing value together with the frame or mark And a digital camera that captures an identification number for identifying the weighing device on the same screen and outputs image data;
An image processing unit for inputting image data of a digital camera, interpreting based on a frame or mark included in the captured image, and generating a measurement value and an identification number based on character data;
A storage unit that stores a captured image, a measurement value, and an identification number from the image processing unit together with the name of the customer;
A display unit for displaying a captured image, a measured value, an identification number, and a customer's name;
An output unit for printing a captured image, a measured value, an identification number, and a customer's name;
Centrally manage the measurement values of the weighing equipment installed in the consumer with automatic meter reading processing,
The office management system
Send and receive meter reading data read from the meter reading database of the meter reading side management system, and perform fee processing using this meter reading data,
It is characterized by that.

An automatic meter reading system according to claim 2 of the present invention is
A management system on the premises that has a customer database and processes charges,
A customer-side management system using an automatic meter reading device that takes in weighing data from a measuring instrument;
The meter reading database is provided with a meter reading database, and the meter reading data generated by associating the customer data read and transmitted from the customer database of the business site management system and the weighing data taken in from the customer management system. The meter reader side management system to register with
An automatic meter reading system comprising:
The automatic meter reading device is
For weighing equipment that has a frame or mark in the vicinity of the meter-reading window and has a fixed positional relationship with an identification number and a numeric string indicating the weighing value, and a frame or mark that sets the image processing range, the weighing value together with the frame or mark And a digital camera that captures an identification number for identifying the weighing device on the same screen and outputs image data;
A computer that performs meter reading processing using image data output from a digital camera;
Data transmission means for connecting the digital camera and the computer;
The digital camera transmits image data by communicating a command / response signal from the computer to the digital camera.
This computer
An image processing unit for inputting image data of a digital camera, interpreting based on a frame or mark included in the captured image, and generating a measurement value and an identification number based on character data;
A storage unit that stores a captured image, a measurement value, and an identification number from the image processing unit together with the name of the customer;
A display unit for displaying a captured image, a measured value, an identification number, and a customer's name;
An output unit for printing a captured image, a measured value, an identification number, and a customer's name;
Centrally manage the measurement values of the weighing equipment arranged at the customer using the image data output from the data transmission means, and automatically perform the meter reading process,
The business site management system sends and receives meter reading data read from the meter reading database of the meter reading side management system, and performs fee processing using this meter reading data.
It is characterized by that.

An automatic meter reading system according to claim 3 of the present invention is
The automatic meter reading system according to claim 2,
As a data transmission means, a simple cellular phone (PHS) communication network is used.

An automatic meter reading system according to claim 4 of the present invention is
The automatic meter reading system according to claim 2,
As a data transmission means, low power wireless communication is used.

An automatic meter reading system according to claim 5 of the present invention is
A management system on the premises that has a customer database and processes charges,
A plurality of customer-side management systems that read out the measurement data from the measuring device and wirelessly transmit it;
Meter reading data is generated by associating customer data read and transmitted from the customer database of the office management system with the meter reading database and measurement data wirelessly transmitted from the customer management system. The meter reading side management system registered in the database;
An automatic meter reading system comprising:
The business site management system sends and receives meter reading data read from the meter reading database of the meter reading side management system, and performs fee processing using this meter reading data.
It is characterized by that.

An automatic meter reading system according to claim 6 of the present invention is
In the automatic meter-reading system according to claim 5,
The establishment-side management system is
A commercial terminal that has a customer database and processes charges,
A cradle connected to a commercial terminal,
Have
The meter reading side management system is:
Handy terminal,
PDA (Personal Digital Assistants) that can communicate with the handy terminal and has a meter reading database;
A communication adapter connected to the PDA and wirelessly communicating with the customer side management system;
A printer capable of communicating with the handy terminal and printing based on the print data generated from the meter reading data;
Have
The meter-reader-side management system and the establishment-side management system are characterized in that a handy terminal on the meter-reader-side management system side is connected to a cradle on the establishment-side management system side to exchange data. .

An automatic meter reading system according to claim 7 of the present invention is
A management system on the site side that performs charge processing;
A plurality of customer-side management systems that read out the measurement data from the measuring device and wirelessly transmit it;
Meter reader side management that has customer database and meter reading database and registers the meter reading data generated by associating the customer data read from the customer database with the measurement data wirelessly transmitted from the customer side management system in the meter reading database System,
An automatic meter reading system comprising:
The business site management system sends and receives meter reading data read from the meter reading database of the meter reading side management system, and performs fee processing using this meter reading data.
It is characterized by that.

An automatic meter reading system according to claim 8 of the present invention is
The automatic meter reading system according to claim 7,
The establishment-side management system is
For-profit terminals that process charges,
A magneto-optical storage medium read / write device connected to a commercial terminal and writing / reading data to / from the magneto-optical storage medium;
Other magneto-optical storage medium read / write device for writing / reading data to / from the magneto-optical storage medium,
A general business PC connected to another magneto-optical storage medium read / write device;
A memory medium storage device connected to a general business PC and writing / reading data to / from the memory medium;
Have
The meter reading side management system is:
A PDA that has a meter reading database and a customer database, and that writes and reads data to and from a memory medium;
A communication adapter connected to the PDA and wirelessly communicating with the customer side management system;
Have
The PDA of the meter-side management system and the memory medium storage device of the office-side management system exchange data via a memory medium, and the commercial terminal and general business PC of the office-side management system Data is exchanged through a magneto-optical storage medium.

An automatic meter reading system according to claim 9 of the present invention is
An office side management system that has a customer database and meter reading database and processes charges,
A plurality of customer-side management systems that read out the measurement data from the measuring device and wirelessly transmit it;
A meter reading side management system that generates meter reading data by associating the customer data read and transmitted from the customer database of the office side management system and the measurement data wirelessly transmitted from the customer side management system;
An automatic meter reading system comprising:
The office side management system sends and receives meter reading data from the meter reading side management system, registers it in the meter reading database, and performs charge processing using the meter reading data read from the meter reading database.
It is characterized by that.

An automatic meter reading system according to claim 10 of the present invention includes:
The automatic meter reading system according to claim 9,
The establishment-side management system is
For-profit terminals that process charges,
A magneto-optical storage medium read / write device connected to a commercial terminal and writing / reading data to / from the magneto-optical storage medium;
Other magneto-optical storage medium read / write device for writing / reading data to / from the magneto-optical storage medium,
A meter reading server connected to another magneto-optical storage medium read / write device and comprising a meter reading database and a customer database;
A cradle connected to the meter reading server;
Have
The meter reading side management system is:
PDA,
A communication adapter connected to the PDA and wirelessly communicating with the customer side management system;
Have
The meter reading side management system and the site management system connect the PDA on the meter reading side management system side to a cradle on the site management system side to exchange data, and the site management system The commercial terminal and the meter reading server exchange data via a magneto-optical storage medium.

An automatic meter reading system according to claim 11 of the present invention includes:
In the automatic meter-reading system as described in any one of Claims 5-10,
The meter-reader side management system and the customer side management system in the vicinity of a certain customer side management system among the plurality of customer side management systems are directly wirelessly communicated by specific low power wireless communication,
Among the plurality of customer-side management systems, the meter-reader-side management system and its customer-side management system in the vicinity of another customer-side management system are configured by specific low-power wireless communication via one or a plurality of wireless repeaters. The wireless communication is indirectly performed.

An automatic meter reading system according to claim 12 of the present invention includes:
The automatic meter reading system according to claim 11,
The meter-reader-side management system cancels the received data when receiving a direct communication from a certain customer-side management system and an indirect communication from a certain customer-side management system via a wireless repeater at the same time. It is characterized by doing.

An automatic meter reading system according to claim 13 of the present invention includes:
In the automatic meter reading system according to any one of claims 5 to 12,
The customer data includes identification data about the measuring instrument, and the meter-reader side management system identifies the measuring instrument to be metered based on the identification data about the measuring instrument selected in advance, and measures the meter. Metering data is obtained only from a customer side management system having a container to generate meter reading data.

An automatic meter reading system according to claim 14 of the present invention includes:
In the automatic meter-reading system as described in any one of Claims 5-13,
The customer side management system transmits inspection data related to the inspection of the customer side management system in addition to the meter reading data, and the meter reading side management system displays the contents of the inspection data.

An automatic meter reading system according to claim 15 of the present invention includes:
The automatic meter reading system according to any one of claims 5 to 14,
The customer side management system is:
It has a wireless slave unit connected to the measuring instrument,
The wireless slave unit communicates with the measuring instrument via a current loop.

An automatic meter reading system according to claim 16 of the present invention includes:
The automatic meter reading system according to claim 15,
The wireless slave unit functions as a wireless repeater when the identification data indicates a measuring instrument of another customer side management system.

An automatic meter reading system according to claim 17 of the present invention is
The automatic meter reading system according to any one of claims 5 to 16,
The meter is an electronic watt-hour meter and / or a watt-hour meter with a pulse oscillator.

According to the automatic meter reading system of the present invention, the metered values of metering devices such as watt-hour meters, gas meters, and water meters are imaged with a digital camera, centralized management, and automatic meter-reading processing can be automatically performed. In addition, it is possible to reduce the work burden on the meter reader, such as counting in the form description, and there is no occurrence of misidentification or error at the time of meter reading.
In addition, according to the automatic meter reading system of the present invention, a power meter that is not directly visible by a crime prevention facility, etc. Automatic meter-reading system that enables labor-saving labor to be achieved at low cost by obtaining necessary information such as meter-reading values from a remote location for a large number of watt-hour meters arranged in a batch, such as a meter Can be provided.

  The best mode for carrying out the automatic meter reading system of the present invention will be described with reference to the drawings. First, an automatic meter reading device used in the automatic meter reading system of the present invention will be described. FIG. 1 is a diagram showing a schematic configuration of an automatic meter reading device used in the automatic meter reading system according to the first aspect of the present invention, and FIG. 2 is a block diagram showing an internal configuration thereof. In FIG. 1, the watt-hour meter 100 is affixed by, for example, a tape-shaped label in the vicinity of the meter reading window 120 where the customer identification number 110 (customer number) indicates a measured value. This automatic meter reading device is mainly applied when forming a plurality of customer side management systems in the schematic diagram of the automatic meter reading system of FIG.

  The meter-reader visits a large number of watt-hour meters 100 arranged in dispersed areas such as scattered homes and collective housing customers or in the factory premises. The identification number is imaged on the same screen. Next, the digital camera is connected to a computer (CPU) 130 by taking it home to a center such as a management department office. Here, a flash or a digital camera with an autofocus function is used, so that the measurement value and identification number (numbers and alphabets) are sharpened for the imaging signal, and correction processing and noise removal processing due to weather changes are performed. It is unnecessary.

  Then, the measurement value and the identification number are extracted from the image signal of the digital camera by the CPU image processing unit, and converted into characters by the OCR function. Next, the converted character data is collected and stored in a storage unit, and the converted data is displayed on the screen as a measurement value corresponding to the identification number as shown in the screen image of FIG. . In the illustrated example, the name of the customer corresponding to the identification number is called from the file and displayed, and the usage amount is calculated and displayed from the current measurement value and the previous measurement value.

  FIG. 2 is a block diagram showing an internal configuration of an automatic meter reading device used in the automatic meter reading system according to the first aspect of the invention. In the figure, the measured value and the identification number of the watt-hour meter 100 (imaging target weighing device 210) are imaged by the digital camera 220, and the imaging signal is input to the input unit 231 of the computer (CPU) 230 on the center side. The image processing unit 232 of the CPU 230 recognizes the metric value and the identification number based on the level of similarity between the recognition target character and the dictionary (reference character) and performs character conversion by, for example, a composite similarity method or a matching method. The image processing unit 232 includes a dictionary storage unit 233 and a pixel area threshold comparison determination unit 234. The processing result of the image processing unit 232 is stored in the storage unit 236, displayed on the display unit 235, and further printed out from the output unit 237.

  In addition, when the measurement value of the watt-hour meter 100 is picked up in the middle of the increment of each digit, that is, in the indicated value state of the lower half of the front number and the upper half of the rear number, the threshold value comparison of the pixel area and the rotation number continuity unique to the indicated value The measured value is judged by the above. Since these determination methods are known from Japanese Patent Laid-Open No. 7-325880 and the like, detailed description thereof is omitted. Further, when the watt-hour meter 100 (the imaging target weighing device 210) is imaged by the digital camera 220, the measurement value and the identification number are different in size and imaging angle due to a difference in distance, direction, and the like from the imaging target. It may be recognized or unrecognized. Therefore, a frame or mark (not shown) for setting an image processing range in the vicinity of the meter-reading window is used as a guide for the imaging range of the digital camera 220 so that the identification number has a fixed positional relationship with the instruction value numeric string indicating the measurement value. ).

  Further, if a data transmission means is provided between the center side and the digital camera, and the imaging signal is transmitted to the center side collectively managed at a remote management department office or the like, meter reading processing can be performed in real time. A PHS communication network can be used as the data transmission means. In particular, the meter reader can directly connect a digital camera to a PHS telephone equipped with an image transmission function and transmit an imaging signal from the spot to the center side. In this way, the meter reader is freed from visual reading, form description, tabulation, and the like by capturing the measurement value and identification number of the weighing device with the digital camera, and does not cause misidentification or error. Needless to say, the present invention is not limited to the watt hour meter, but can be applied not only to meter reading of a rotary counter character meter such as a gas meter or a water meter, but also to monitoring of indicator indications of an indicating instrument or a recorder.

  Next, as a measurement example of the watt-hour meter 100 arranged over a wide area such as each area distributed in the factory premises where entry of an unspecified number of people is restricted, from the center side where the computer is installed, the slave station When a digital camera is used for an automatic meter-reading device that automatically performs remote meter-reading processing by centrally managing the measurement values of the measuring equipment installed on the slave station side by communicating command / response signals with the device explain. FIG. 3 is a diagram showing a schematic configuration of an embodiment of an automatic meter reading device used in the automatic meter reading system according to the invention of claim 2. The center side can perform signal transmission with a plurality of slave stations. However, in the illustrated example, a configuration example is shown through a PHS communication network on a pair of the center and slave stations for convenience. FIG. 4 shows a block diagram of the interface exchanger provided on the center side and the slave station side.

  On the center side, a main computer 230 installed in all area management departments and a main substation (not shown), sub-computers 240 and 250 installed in each area office, etc. are connected by a LAN (Local Area Network). Therefore, it is possible to execute the same processing as that of the main computer 230 by remote control from the subcomputers 240 and 250, and to grasp and manage the power consumption for each area. An interface switch 270 that branches from the network line and performs data conversion and relays the signal is installed. As shown in FIG. 4, the interface switch 270 has a built-in PHS adapter communication connector for connecting to a slave station via a PHS communication network as a wireless communication means, and an adapter equipped with a PHS telephone is attached. ing.

  In FIG. 4, 271 is a CPU, 272 is a connector for a center device, 273 and 274 are connectors for terminal equipment to which a digital camera is connected, 275 is a connector for PHS adapter communication, and 276 is a PHS adapter power supply. Connector. 277, 278, and 280 are interfaces, 279 is a selection circuit, 281 is a memory control unit, 282 is an EEPROM, 283 is an LED control unit, 284 is a power supply monitoring unit, 285 and 286 are power supply circuits, 287 is a jumper connection terminal, Reference numerals 288 and 289 denote LED display portions, and 290 denotes a device power connector.

  On the other hand, on the slave station side in FIG. 3, an interface exchanger 260 that performs data conversion and relays the signal is installed, and connected to the digital camera 220 that images the watt-hour meter 100 (imaging target measuring device 210) through a communication line. Yes. The interface exchanger 260 also has a built-in connector for PHS adapter communication, and an adapter equipped with a PHS telephone is attached to enable signal transmission via the PHS communication network. Then, in response to a command from the center side, a digital camera imaging signal of the watt-hour meter 100 to be imaged is input to the slave station side interface exchanger 260, and through the center side interface exchanger 270, the center side It is transmitted to the CPU.

  In addition, this embodiment includes an identification number that identifies the weighing device on the weighing device to be imaged, an image processing unit that reads the measurement value and the identification number from the imaging signal captured by the digital camera 220, and image processing A storage unit that stores the interpretation results from the unit, a display unit that collects the interpretation results in batch, displays the measurement values corresponding to the identification numbers in real time, and an output unit that prints them out. Is the same configuration as the embodiment of FIG.

  In this way, by using the PHS communication network between the center side and the slave station side, remote control of meter reading information collection can be performed without newly laying a communication line. The data transmission means is not limited to the above-described PHS communication network, and it is also possible to divert the existing communication equipment RS485 line, RS282C line or distribution line conveyance. In areas outside the PHS communication range, wireless communication uses various communication methods for low-power wireless communication that are not insensitive to the Radio Law, or combinations of them, such as customer location conditions, communication facilities, power facilities, etc. It is possible to select a signal transmission means suitable for the specific equipment state.

  Furthermore, this automatic meter-reading apparatus has a computer installed in the meter-reader side management system as the center side in the schematic diagram of the automatic meter-reading system shown in FIG. By communicating command / response signals with the corresponding weighing equipment, the metered values on the slave station side are centrally managed, and remote meter reading processing is automatically performed. The meter reading data read from the meter reading database of the side management system may be exchanged and applied to fee processing using this meter reading data.

  Next, the best mode for carrying out the automatic meter reading system of the present invention will be described with reference to the drawings as a second embodiment employing a low-power wireless communication system. FIG. 5 is a schematic view of the automatic meter reading system of this embodiment. 6A and 6B are external explanatory views of a wireless slave unit (wireless repeater), in which FIG. 6A is a plan view, FIG. 6B is a front view, and FIG. 6C is a right side view. FIG. 7 is an internal block diagram of the wireless slave unit (wireless repeater). FIG. 8 is an explanatory diagram of data, FIG. 8A is an explanatory diagram of customer data, and FIG. 8B is an explanatory diagram of meter reading data.

As shown in FIG. 5, the automatic meter reading system 1 includes an office side management system 10, a meter reader side management system 20, a wireless repeater 30, and a customer side management system 40.
The business site management system 10 further includes a commercial terminal 11, a customer database 12, and a cradle 13.
The commercial terminal 11 is a terminal of a commercial system that has been used in the past, and is connected via a network or the like, and is a computer (commercial computer) installed in a sales office or customer service center. is there.
As will be described later, the customer database 12 is a database related to customers. For example, the customer database 12 is constructed in an external database server or on a hard disk in the commercial terminal 11.
The cradle 13 is a stand-type expansion device, and the commercial terminal 11 and the handy terminal 21 can be connected so that data can be communicated only by placing a handy terminal 21 described later on the cradle 13. The handy terminal 21 is charged.

  The meter reading side management system 20 includes a handy terminal (H / T) 21, a PDA 22, a meter reading database 23, a communication adapter 24, and a printer 25. The meter-reader-side management system 20 implements wireless meter reading that is remotely acquired by specific low-power wireless communication, instead of meter-reading work that conventionally reads the pointer of the measuring instrument visually. In addition, at the customer site such as an office or a private house, visual meter reading work can be performed as in the current situation. Among them, the handy terminal 21, the printer 25, the meter reading slip sheet, the battery (not shown), etc. are hand-held items, and the PDA 22, the communication adapter 24, the battery (not shown), etc. are wireless-reading items. .

The handy terminal (H / T) 21 is a terminal of a commercial system that has been used conventionally, and generates print data to be printed on a meter reading slip based on customer data and meter reading data. In order to perform manual meter reading, a handy terminal (H / T) 21 and a printer 25 may be provided.
The PDA 22 can communicate with the handy terminal (H / T) 21. As will be described later, meter-reading data is generated based on customer data and weighing data.
The meter reading database 23 is constructed in the storage unit in the PDA 22 and registers meter reading data.
The communication adapter 24 is connected to the PDA 22, and the PDA 22 communicates with the outside via the communication adapter 24.
The printer 25 is communicable with a handy terminal (H / T) 21, and a meter reading slip sheet (not shown) is also set. When print data is received, it prints on the meter reading slip paper.

  The wireless repeater 30 includes a main body 31 and an antenna 32 as shown in the three views of FIG. The main body 31 is formed so as to be portable by being integrally stored in a hard plastic box. As the plastic, ABS (acrylonitrile, butadiene, styrene copolymer), PC (polycarbonate), PBT (polybutylene terephthalate), and the like may be appropriately selected in consideration of price, forming processing, load resistance, and cost.

  As shown in FIG. 7, the main body 31 further includes a CPU unit 33, a storage unit 34, an identification data setting unit 35, an I / O interface unit 36, a transmission / reception unit 37, a repeater 38, and a power supply device 39. The power supply device 39 receives AC power supplied from a building outlet via the power input unit 39a, and DC power is generated by the AC / DC conversion unit 39b and supplied to each unit. Electric power may be supplied to each component, or a storage battery or the like may be built in and supplied directly from a DC power source.

  The antenna 32, the transmission / reception unit 37, the repeater 38, and the CPU unit 33 perform wireless communication. Further, wired communication is performed by the CPU unit 33 and the I / O interface unit 36. The storage unit 34 stores various data and is loaded with a program. The identification data setting unit 35 sets identification data for uniquely determining the wireless repeater 30 and the wireless slave device 41. Detailed operations such as signal processing will be described later.

As shown in FIG. 5, the customer side management system 40 includes a wireless slave device 41 and a measuring instrument 42.
Specifically, the wireless slave device 41 has the same configuration as the wireless repeater 30 of FIGS. 6 and 7, but a measuring device 42 is connected to the I / O interface unit 36 via a cable. The I / O interface unit 36 is various types of interfaces for communication, and in this embodiment, includes an interface for a current loop.
The meter 42 includes a watt hour meter installed in a consumer (hereinafter referred to as an electronic type, an induction type, a pulse generator, a combination meter with a transformer and a current transformer, and other forms of watt hour meter. For example, an electronic watt-hour meter or a watt-hour meter with a pulse oscillator). The weighing device 42 outputs weighing data, and the wireless slave device 41 wirelessly transmits the weighing data. Note that the wireless slave device 41 and the measuring device 42 communicate via a current loop.
The automatic meter reading system 1 has such a configuration.

Next, meter reading by the automatic meter reading system 1 will be described.
Before going to the site, the meter reader downloads customer data about the customer who is scheduled to perform meter reading to the handy terminal 21. The handy terminal 21 is placed on the cradle 13, and the customer terminal 11 is operated to read customer data about the customer scheduled to be read from the customer database 12, and the customer terminal 11 stores the customer data in the handy terminal 21. Write. Appropriate customer data is distributed to a plurality of handy terminals 21 for each of a plurality of meter readers having different meter reading areas. Thus, only the customer data for the day of the meter reader is stored in the handy terminal 21.

  The customer data includes, for example, identification data, route data, name data, address data, and contract content data, as shown in FIG. In FIG. 8A, data arranged in a horizontal row is data related to a certain measuring instrument. A method for using such customer data will be described later. The handy terminal 21 further transmits customer data to the PDA 22. Since customer data is input to the handy terminal 21 and the PDA 22 in this way, the meter reader does not need to perform input work before going to the site or at the site.

  Subsequently, automatic meter reading is performed. For example, it comes to the vicinity of the customer where the customer side management system 40 which is the meter-reading object is constructed, and the name / address is displayed from the name data and the address data in the customer data on the PDA 22, and the demand of the meter-reading target Check if you are home. After confirming that the meter reader is a customer to be metered, when the meter reading start button is pressed at a predetermined optimum standing position, the PDA 22 reads the identification data in the customer data and identifies it to the communication adapter 24. Send a read command containing data. As this identification data, a unique measuring instrument character code or measuring instrument number can be used. The communication adapter 24 modulates the read command into a specific low power radio signal and transmits it.

  In the wireless slave device 41 shown in FIG. 7, a specific low power wireless signal is received by the antenna 32, the read command is demodulated by the transmission / reception unit 37, and the read command including identification data is transmitted to the CPU unit 33 via the repeater 38. input. Then, whether or not the identification data is the same as the identification data assigned to itself and set by the identification data setting unit 35 is compared. If they are different, the read command is discarded. The read command is transmitted to the measuring instrument 42 by the current loop via the / O interface unit 36 and the cable.

The measuring device 42 generates and returns measuring data regarding the electric energy at that time. The CPU unit 33 of the wireless slave device 41 acquires measurement data via the cable and the I / O interface unit 36. The wireless slave unit 41 transmits the measurement data to the transmission / reception unit 37 via the repeater 38, and the transmission / reception unit 37 modulates a specific low-power wireless signal and transmits it wirelessly from the antenna 32.
The communication adapter 24 demodulates the radio signal after receiving a specific low-power radio signal to generate measurement data. Then, the weighing data is transmitted to the PDA 22.

The PDA 22 generates meter reading data representing various information about meter reading for each measuring instrument 42. This meter reading data is displayed on the PDA 22. As meter reading data, for example, as shown in FIG. 8B, route data, meter reading mode data, meter reading value data, meter reading result data, and meter reading slip data are registered. Since it can be determined whether the meter reading mode data is the direct meter reading or the automatic meter reading, it is possible to prevent the situation that the meter reader cannot determine whether the meter reading is the direct meter reading or the automatic meter reading. Since it can be determined from the meter reading result data whether the meter reading is completed or not yet performed, forgetting to read the meter is prevented. Since it can be discriminated whether it has been printed or not printed based on the meter reading slip data, it is possible to prevent the meter reading slip from being forgotten to be printed or distributed. In FIG. 8B, the data arranged in a horizontal row is data related to a certain measuring instrument.
The meter reading data is determined for each measuring instrument of the plurality of customer side management systems 40. In the meter reading database 23, it is stored in a table format. In this case, if the meter reading data is generated using the measuring instrument data of the customer data as the main key, the customer data and the meter reading data are easily collated. Since such meter reading data is accumulated in the PDA 22, it can be referred to at the next meter reading or the like.

Further, when this specific meter reading data is transmitted to the handy terminal 21, the handy terminal 21 generates print data to be printed on the meter reading slip based on the meter reading data and the corresponding customer data. The print data is transmitted to the printer 25.
When the printer 25 receives the print data, it prints on a meter reading slip sheet (not shown). The meter reader may print out the printed meter reading slip and post it to the customer's house.

The PDA 22 registers the final meter reading data including the printing state after transmitting the meter reading data to the handy terminal 21. For example, the meter 2 in the table of FIG. 8B is a direct meter reading that is directly sent and received from the path data / meter reading mode data, the meter reading is completed at b [kWh], and the meter reading slip is also printed. Some meter reading data is overwritten and registered.
In the same manner, the meter reading is performed around the customer side management system 40 in the same manner.

  In addition, in a certain customer side management system 40, in order to avoid an obstacle on a straight line, communication may be performed via the wireless repeater 30. This point will be described. Note that the above meter reading operation is the same except that communication is performed between the communication adapter 24, the wireless repeater 30, and the wireless slave device 41, and redundant description is omitted.

  The customer side management system 40 that is the meter reading target comes to the vicinity of the customer, and the name / address is displayed from the name data and address data in the customer data on the PDA 22, and the meter reading target customer Check if it exists. When it is confirmed that the customer is a meter-reading consumer, when the meter-reader presses the meter-reading start button at a predetermined optimum standing position, the PDA 22 reads the identification data in the customer data and identifies it to the communication adapter 24. Send a read command containing data. As this identification data, a measuring instrument character code, a measuring instrument number, or the like can be used. The communication adapter 24 modulates the read command into a specific low power radio signal and transmits it.

  As shown in FIG. 7, the radio repeater 30 receives the signal by the antenna 32, demodulates the read command by the transmission / reception unit 37, and transmits it to the repeater 38. However, when the identification data setting unit 35 sets special identification data (or sets a dip switch (not shown)), the CPU unit 33 controls the relay 38 when the wireless relay unit 30 is set. The repeater 38 transmits the read command to the transmission / reception unit 37 as it is, and the transmission / reception unit 37 modulates the read command into a specific low-power radio signal and transmits it via the antenna 32.

  The wireless slave unit 41 receives a radio signal of specific low power by the antenna 32, demodulates the read command by the transmission / reception unit 37, and inputs the read command including identification data to the CPU unit 33 via the repeater 38. Then, whether the identification data is the same as the identification data assigned to itself and set by the identification data setting unit 35 is compared. If the identification data is different, the read command is discarded. 42.

The meter 42 generates and transmits metering data regarding the amount of power at that time. The wireless slave unit 41 transmits the measurement data to the transmission / reception unit 37 via the repeater 38, and the transmission / reception unit 37 modulates a specific low-power wireless signal and transmits it wirelessly from the antenna 32.
The wireless repeater 30 receives the signal from the antenna 32, and the transmission / reception unit 37 demodulates the measured data and transmits it to the repeater 38. For setting as a repeater, the CPU unit 33 controls the repeater 38, the repeater 38 transmits a read command to the transmission / reception unit 37, and the transmission / reception unit 37 modulates the measurement data into a specific low-power radio signal. Transmit via antenna 32.
The communication adapter 24 demodulates the radio signal after receiving a specific low-power radio signal to generate measurement data. Then, the weighing data is transmitted to the PDA 22. Thereafter, the same processing is performed.
In this way, by using the wireless repeater 30 or by ensuring the position of the meter reader appropriately, it is possible to avoid obstacles with a minimum number of relay devices, and the number of parts can be reduced.

When all the meter readings are completed, the determined meter reading data is accumulated in the meter reading database 23. The final meter reading data stored in the meter reading database 23 is transmitted to the handy terminal 21 in advance.
After the meter reader returns to the office, the handy terminal 21 is placed on the cradle 13, the metering terminal 11 is operated to read meter reading data, and the meter reading data is taken into the metering terminal 11. The commercial terminal 11 performs fee calculation, accounting processing, and the like using the meter reading data.

In such an automatic meter reading system, communication is possible even when there is an obstacle on a straight line, and work saving is realized.
Also, when constructing an automatic meter reading system, the current system that uses the commercial system that connects the commercial terminal and the handy terminal via a cradle can be used to avoid major changes in the current system and Cost reduction has been realized.
In this way, watt hour meters that are not directly visible due to crime prevention facilities, etc., watt hour meters that are installed together with power facilities in high-use areas such as urban buildings, or collective housing The automatic meter reading system that can save labor for work at a low cost by obtaining necessary information such as meter reading values from a remote location.

Next, another embodiment will be described with reference to the drawings. FIG. 9 is a schematic view of another type of automatic meter reading system. As shown in FIG. 9, the automatic meter reading system 2 includes a business establishment side management system 10 ′, a meter reading person side management system 20 ′, a wireless repeater 30, and a customer side management system 40.
This embodiment is different from the automatic meter reading system 1 described above with reference to FIGS. 5 to 8 in that the configuration of the office side management system 10 ′ and the meter reading side management system 20 ′ is changed. In addition, about the wireless repeater 30 and the customer side management system 40, since it is the same, the overlapping description is abbreviate | omitted.

  The automatic meter reading system 2 is a method in which the PDA 22 includes a customer database 26 and a meter reading database 23 to manage customer data and meter reading data, and output the meter reading data to a memory card 50 that is a memory medium. Since the PDA 22 is a memory card 50 and the commercial terminal 11 is an MO 60, the external storage device that can be used is media conversion in which the meter reading data of the memory card 50 is written to the MO 60 by the general business PC 15 which is a normal personal computer. The meter terminal 11 is made to read meter reading data.

The office side management system 10 ′ further includes a commercial terminal 11, an MO drive 14, a general business PC 15, and a memory card reader / writer 16.
The commercial terminal 11 is a computer (a commercial computer) provided in a sales office, a customer service center, or the like as described above.
The MO drive 14 is a magneto-optical storage medium read / write device that writes and reads data to and from the MO 60 that is a magneto-optical storage medium. There are two MO drives 14, one connected to the commercial terminal 11 and the other connected to the general business PC 15.
The general business PC 15 is a normal personal computer.
The memory card reader / writer 16 is a memory medium storage device that is connected to the general business PC 15 and writes / reads data to / from a memory medium called a memory card 50.

The meter-reader side management system 20 ′ includes a PDA 22, a meter-reading database 23, a communication adapter 24, and a customer database 26.
The PDA 22, the communication adapter 24, the battery (not shown), etc. are wirelessly carried items. Thereby, the meter-reader-side management system 20 ′ realizes wireless meter reading that is remotely acquired by specific low-power wireless communication, instead of the meter-reading operation that conventionally reads the pointer of the measuring instrument visually. In addition, at a customer site such as a business office or a private house, it is possible to perform a meter reading work by visual observation as in the current situation.

The PDA 22 can write / read data to / from a memory medium called the memory card 50.
The meter reading database 23 is constructed in the storage unit in the PDA 22 and registers meter reading data.
The communication adapter 24 is connected to the PDA 22, and the PDA 22 communicates with the outside via the communication adapter 24.
The customer database 26 is constructed in a storage unit in the PDA 22 and registers customer data.

Next, meter reading by the automatic meter reading system 2 will be described.
Since customer data is input to the PDA 22, the meter reader does not need to perform input work before going to the site or at the site. When the customer data is changed (when the customer data of the commercial terminal 11 is changed), the data is read and updated via the memory card 50 in order to sequentially match the customer data of the PDA 22.

  Subsequently, wireless meter reading is performed. For example, it comes to the vicinity of the customer where the customer side management system 40 which is the meter-reading object is constructed, and the name / address is displayed from the name data and the address data in the customer data on the PDA 22, and the demand of the meter-reading target Check if you are home. After confirming that the meter reader is a customer to be metered, when the meter reading start button is pressed at a predetermined optimum standing position, the PDA 22 reads the identification data in the customer data and identifies it to the communication adapter 24. Send a read command containing data. As this identification data, a measuring instrument character code, a measuring instrument number, or the like can be used. The communication adapter 24 modulates the read command into a specific low power radio signal and transmits it.

In the wireless slave device 41, as shown in FIG. 7, a specific low-power wireless signal is received by the antenna 32, the read / receive unit 37 demodulates the read command, and the identification data is sent to the CPU unit 33 via the repeater 38. Enter the read command that contains. Then, whether the identification data is the same as the identification data assigned to itself and set by the identification data setting unit 35 is compared. If the identification data is different, the read command is discarded. 42. The meter 42 generates and transmits metering data regarding the amount of power at that time. The wireless slave device 41 converts the weighing data into a specific low power wireless signal and transmits it.
The communication adapter 24 demodulates the radio signal after receiving a specific low-power radio signal to generate measurement data. Then, the weighing data is transmitted to the PDA 22.

  The PDA 22 generates meter reading data representing various information about meter reading for each measuring instrument 42. This meter reading data is displayed on the PDA 22. As meter reading data, for example, as shown in FIG. 8B, route data, meter reading mode data, meter reading value data, meter reading result data, and meter reading slip data are registered. Thus, the meter reading data is data collected for the measuring instrument. The meter reading data is determined for each measuring instrument 42 of a plurality of customer side management systems 40. In the meter reading database 23, it is stored in a table format. In this case, if the meter reading data is generated using the measuring instrument data of the customer data as the main key, the customer data and the meter reading data are easily collated.

The PDA 22 registers meter reading data in the meter reading database 23. Meter reading data obtained by wireless meter reading is accumulated in the PDA 22 and can be referred to at the next meter reading.
In this embodiment, if a PDA 22 having a printing function is further adopted, a meter reading slip may be printed out by the PDA 22 at the time of meter reading and posted to a customer's house.
In addition, in order to avoid an obstruction on a straight line in a certain customer side management system 40, although it communicates via a wireless repeater, it is the same as the communication system demonstrated previously, and the overlapping description is abbreviate | omitted. In the same manner, the meter reading is performed around the customer side management system 40 in the same manner.

When all the meter readings are completed, the meter reading data for the determined date is accumulated in the meter reading database 23.
From the meter reading data stored in the meter reading database 23, the meter reading data for today is output to the memory card 50 in a format that the general business PC 15 can read. After returning to the office, the meter reader takes out the memory card 50 from the PDA 22 and connects it to the memory card reader / writer 16 to cause the general business PC 15 to read the meter reading data. Then, the content of the meter reading data read from the memory card 50 is copied to the MO 60 by the MO drive 14 as it is. The general business PC 15 used for media conversion may be a normal personal computer. Then, the MO 60 is set in the MO drive 14 connected to the commercial terminal 11, the commercial terminal 11 is operated to read the meter reading data, and the meter reading data is taken into the commercial terminal 11. The commercial terminal 11 performs fee calculation, accounting processing, and the like using the meter reading data.
Note that, when copying the meter reading data of the memory card 50 to the MO, a normal personal computer called the general business PC 15 is used. However, a device specialized for file copying (memory card backup device) may be used instead.

In such an automatic meter reading system, communication is possible even when there is an obstacle on a straight line, and work saving is realized.
Moreover, when an automatic meter reading system is constructed, a for-profit system using a for-age terminal that is currently in use is utilized to avoid sudden changes in the current system and reduce costs.
In this way, watt hour meters that are not directly visible due to crime prevention facilities, etc., watt hour meters that are installed together with power facilities in high-use areas such as urban buildings, or collective housing The automatic meter reading system that can save labor for work at a low cost by obtaining necessary information such as meter reading values from a remote location.

Next, another embodiment will be described with reference to the drawings. FIG. 10 is a schematic view of another type of automatic meter reading system. The automatic meter reading system 3 includes an office side management system 10 ″, a meter reader side management system 20 ″, a wireless repeater 30, and a customer side management system 40.
This embodiment is different from the automatic meter-reading system 1 described above with reference to FIGS. 5 to 8 in that the configuration of the office-side management system 10 ″ and the meter-reader-side management system 20 ″ is changed. In addition, about the wireless repeater 30 and the customer side management system 40, since it is the same, the overlapping description is abbreviate | omitted.

  In this automatic meter reading system 3, the meter reading server 17 includes a customer database 12 and a meter reading database 18 to manage customer data and meter reading data. With the meter reading server 17 as a core, customer data is stored in the PDA 22 and meter reading data in the MO 60. Is a method of storing. The meter reading server 17 is a dedicated personal computer, and exchanges data with the PDA 22 via the cradle 19.

The office management system 10 ″ further includes a commercial terminal 11, a customer database 12, an MO drive 14, a meter reading server 17, a meter reading database 18, and a cradle 19.
The commercial terminal 11 is a computer (a commercial computer) provided in a sales office, a customer service center, or the like as described above.
The customer database 12 is constructed in a storage unit such as a hard disk in the meter-reading server 17, and registers customer data.
The MO drive 14 is a magneto-optical storage medium read / write device that writes and reads data to and from the MO 60 that is a magneto-optical storage medium. There are two MO drives 14, one connected to the commercial terminal 11 and the other connected to the meter reading server 17.
The meter-reading server 17 is a normal personal computer, but is specially adapted to perform data processing related to meter-reading.
The meter reading database 18 is constructed in a storage unit such as a hard disk in the meter reading server 17 and registers meter reading data.
The cradle 19 is a stand-type expansion device, and the commercial terminal 11 and the PDA 22 can be connected so that data can be communicated by simply placing a PDA 22 described later on the cradle 19. In addition, the PDA 22 is charged.

The meter-reader side management system 20 ″ includes a PDA 22 and a communication adapter 24.
The PDA 22, the communication adapter 24, the battery (not shown), etc. are wirelessly carried items. Thereby, the meter-reader-side management system 20 ″ realizes wireless meter reading that is remotely acquired by specific low-power wireless communication instead of meter reading work that conventionally reads the pointer of the measuring instrument visually. At the customer site such as a private house, the meter reading work can be made by visual observation as in the current situation.

The PDA 22 is placed on the cradle 19 and can communicate with the meter reading server 17 to write and read data.
The communication adapter 24 is connected to the PDA 22, and the PDA 22 communicates with the outside via the communication adapter 24.

Next, meter reading by the automatic meter reading system 3 will be described.
Before going to the site, the meter reader downloads customer data about the customer who is scheduled to perform meter reading to the PDA 22. The PDA 22 is placed on the cradle 19, the meter reading server 17 is operated, the customer data about the customer scheduled to be metered is read from the customer database 12, and the customer data is written in the PDA 22. Appropriate customer data is distributed to a plurality of PDAs 22 by a plurality of meter readers having different meter reading areas. For this reason, the PDA 22 stores only customer data for the day of the meter reader. Since customer data is input to the PDA 22, the meter reader does not need to perform input work before going to the site or at the site.

  Subsequently, wireless meter reading is performed. For example, it comes to the vicinity of the customer where the customer side management system 40 which is the meter-reading object is constructed, and the name / address is displayed from the name data and the address data in the customer data on the PDA 22, and the demand of the meter-reading target Check if you are home. After confirming that the meter reader is a customer to be metered, when the meter reading start button is pressed at a predetermined optimum standing position, the PDA 22 reads the identification data in the customer data and identifies it to the communication adapter 24. Send a read command containing data. As this identification data, a measuring instrument character code, a measuring instrument number, or the like can be used. The communication adapter 24 converts the read command into a specific low power radio signal and transmits it.

In the wireless slave device 41, a radio signal is received by the antenna 32 having a specific low power, the read command is demodulated by the transmission / reception unit 37, and the read command including identification data is input to the CPU unit 33 via the repeater 38. Then, whether the identification data is the same as the identification data assigned to itself and set by the identification data setting unit 35 is compared. If the identification data is different, the read command is discarded. 42. The meter 42 generates and transmits metering data regarding the amount of power at that time. The wireless slave device 41 converts the weighing data into a specific low power wireless signal and transmits it.
The communication adapter 24 receives a specific low-power radio signal and generates measurement data. Then, the weighing data is transmitted to the PDA 22.

  The PDA 22 generates meter reading data representing various types of information about meter reading for each measuring instrument. As meter reading data, for example, as shown in FIG. 8B, route data, meter reading mode data, meter reading value data, meter reading result data, and meter reading slip data are registered. Thus, the meter reading data is data collected for the measuring instrument. This meter reading data is displayed on the PDA 22. The meter reading data is determined for each of the plurality of customer side management systems 40. In the meter reading database 23, it is stored in a table format. In this case, if the meter reading data is generated using the measuring instrument data of the customer data as the main key, the customer data and the meter reading data are easily collated. Such meter reading data is temporarily stored in the PDA 22 until the meter reading is completed.

In this embodiment, if a PDA 22 having a printing function is further adopted, a meter reading slip may be printed out by the PDA 22 at the time of meter reading and posted to a customer's house.
In addition, in order to avoid an obstruction on a straight line in a certain customer side management system 40, it communicates via a wireless repeater, but it is the same as the communication system demonstrated previously, and the overlapping description is abbreviate | omitted. In the same manner, the meter reading is performed around the customer side management system 40 in the same manner.

When all the meter readings are completed, the fixed meter reading data is temporarily stored on the PDA 22. After the meter reader returns to the office, the PDA 22 is placed on the cradle 19, the meter reading server 17 is operated to read the meter reading data, and the meter reading server 17 takes in the meter reading data. Then, the meter reading server 17 copies the contents of the meter reading data read from the PDA 22 via the cradle 19 as it is to the MO 60 by the MO drive 14. The meter reading server 17 used for media conversion may be a normal personal computer. Then, the MO 60 is set in the MO drive 14 connected to the commercial terminal 11, the commercial terminal 11 is operated to read the meter reading data, and the meter reading data is taken into the commercial terminal 11. The commercial terminal 11 performs fee calculation, accounting processing, and the like using the meter reading data.
In addition, although the normal personal computer called the meter-reading server 17 is used, you may prepare the apparatus (memory card backup device) specialized for file copy separately from the meter-reading server 17. FIG.

In such an automatic meter reading system, communication is possible even when there is an obstacle on a straight line, and work saving is realized.
Moreover, when constructing an automatic meter reading system, by utilizing a commercial system that uses a commercial terminal that is currently used, it is possible to avoid significant changes to the current system and reduce costs.
In this way, watt hour meters that are not directly visible due to crime prevention facilities, etc., watt hour meters that are installed together with power facilities in high-use areas such as urban buildings, or collective housing The automatic meter reading system that can save labor for work at a low cost by obtaining necessary information such as meter reading values from a remote location.

Next, processing of the wireless repeater 30 in the automatic meter reading systems 1, 2, and 3 will be described. 11, FIG. 12, FIG. 13, and FIG. 14 are explanatory diagrams for explaining examples of wireless relaying by a wireless relay.
The wireless repeater 30 simply relays to another wireless repeater 30 in a position where a certain wireless repeater 30 can communicate.
In the first to third embodiments, one wireless repeater 30 is employed to relay between the meter-reader side management system 20 (20 ′, 20 ″) and the customer side management system 40. In addition to this, as shown in Fig. 11, the PDA 22 / communication adapter 24 can communicate over a long distance via a plurality of wireless repeaters 30, so that the wireless slave unit 41 / meter 42 in a remote location is provided. You may make it communicate with.

  In addition, as shown in FIG. 12, when a plurality of wireless slave units 41 / meters 42 are included in the communication range of a single wireless repeater 30, the PDA 22 / communication adapter 24 has both wireless slave units 41 / meters. As described above, the communication is performed with the identification data included in the read command, so that one-to-one communication is possible.

  In an apartment house or the like, a plurality of customer-side management systems 40 may be formed close to each other, and countermeasures for interference are required. For example, as shown in FIG. 13, a read command communicated directly from a certain wireless slave device 41 and a read command communicated indirectly from the same wireless slave device 41 via the wireless repeater 30 are read. When the operator side management system 20 (20 ′, 20 ″) receives the data simultaneously, the meter reading side management system 20 (20 ′, 20 ″) can prevent malfunction by canceling both data. Then, the meter reader can cope with the problem by moving to the other position where the meter reading side management system 20 (20 ', 20 ") does not interfere.

  In addition, as shown in FIG. 14, in an apartment house with a large number of living rooms 500 such as apartments and housing complexes, a plurality of customer-side management systems 40 may be formed on a certain floor (for example, the sixth floor). There is also a demand for efficiently acquiring meter reading data from a large number of measuring instruments 42. Therefore, the wireless slave unit 41 is also provided with a relay function. For example, a meter reader stands in front of the elevator 600 and operates the PDA 22 to select customer data of a plurality of customer side management systems 40 on a certain floor once. If it communicates, it will be efficient if meter-reading data is acquired from all the measuring instruments. Therefore, it is set by the identification data setting unit 35 in FIG. 7, and when it corresponds to its own identification data, meter reading data is transmitted in response to the read command, and when it does not correspond to its own identification data, it is simply relayed. It only has to have a function.

  In such a wireless slave device 41, when a read command including identification data for designating the wireless slave device 41 located farthest from the communication adapter 24 near the elevator 600 is transmitted, the adjacent wireless slave device transmits The identified identification data is compared with its own identification data, and if they are different, they are discarded and simply function as a repeater. In this way, the wireless slave devices 41 are sequentially transmitted. Then, the identification data transmitted by the wireless slave unit 41 at the farthest location is compared with its own identification data, and if they match, the measurement data is read from the measuring instrument and transmitted. When the other wireless slave device 41 receives the measurement data, it is relayed to the PDA 22 via the communication adapter 24 simply as being relayed. Then, the PDA 22 changes the identification data, generates a new read command, acquires the measurement data by communication, and if it is automatically performed sequentially thereafter, the measurement data can be acquired at one place. Such a function may be provided. In this case, the wireless slave device 41 is also realized as having a relay function.

  Next, further ideas for realizing work-saving will be described with reference to the drawings. FIG. 15 is an explanatory diagram of inspection data. For example, the meter 42 such as a watt hour meter is almost directly in contact with the distribution line, and thus is easily affected by disturbance such as lightning surge. As explained earlier, in electronic watt-hour meters and the like, the built-in electronic circuit operates with a small amount of power, so if a strong signal such as a lightning surge enters, the operation may be disturbed by that effect. It was. In other words, even if the circuit component is not damaged, the counter measurement value may be reset, or the microcomputer may run away if the microcomputer is used. Furthermore, there is a possibility that an abnormality may occur even when a disaster such as an earthquake or a typhoon occurs and a house or the like where the watt hour meter is installed is damaged and the measuring instrument 42 receives a strong impact. However, since the measuring instrument 42 in question is in an inconvenient place that is not easily accessible, it is difficult for the meter reader to patrol / inspect the power equipment.

  Therefore, the CPU of the measuring instrument 42 or the CPU of the wireless slave unit 41 in the automatic meter reading systems 1, 2, and 3 is periodically subjected to self-inspection program processing to store the measuring unit 42 or the wireless slave unit 41. The inspection data about the measuring device 42 and the wireless slave device 41 (or the repeater 30) is registered in the device, and the measurement data is read and sent together with the inspection data to the PDA 22 to provide a simple inspection function. be able to. For example, as shown in FIG. 15, the inspection data is various data indicating whether a CPU abnormality, a memory abnormality, a counter abnormality, an integrated value abnormality, or a wireless repeater abnormality has occurred, and is simply displayed by the PDA 22. If the inspection can be performed on a regular basis, in addition to the original inspection / patrol work, the ability to detect the occurrence of an abnormality will be enhanced, and the patrol / inspection of the power equipment will be facilitated.

  The various forms of the present invention have been described above. According to the automatic meter reading systems 1, 2, and 3 of the present invention, a customer-side management system capable of wireless communication with a watt hour meter that is difficult to access is constructed so that necessary information such as meter reading values can be obtained from a remote location. Thus, it is possible to construct a system capable of constructing labor saving work at low cost.

It is a figure which shows schematic structure of an automatic meter-reading apparatus. It is a block diagram which shows the internal structure of an automatic meter-reading apparatus. It is a figure which shows schematic structure of embodiment of an automatic meter-reading apparatus. A block diagram of an interface exchanger is shown. It is the schematic of the automatic meter-reading system of the best form for implementing this invention. 6A and 6B are external explanatory views of a wireless slave device (wireless repeater), in which FIG. 6A is a plan view, FIG. 6B is a front view, and FIG. 6C is a right side view. It is an internal block diagram of a wireless slave unit (wireless repeater). FIG. 8A is an explanatory diagram of data, FIG. 8A is an explanatory diagram of customer data, and FIG. 8B is an explanatory diagram of meter reading data. It is the schematic of the automatic meter-reading system of another form. It is the schematic of the automatic meter-reading system of another form. It is explanatory drawing explaining the example of a radio relay by a radio repeater. It is explanatory drawing explaining the example of a radio relay by a radio repeater. It is explanatory drawing explaining the example of a radio relay by a radio repeater. It is explanatory drawing explaining the example of a radio relay by a radio repeater. It is explanatory drawing of inspection data.

Explanation of symbols

100: Electricity meter (metering device subject to imaging)
110: Customer identification number 120: Metering window 130: Computer (CPU)
210: Imaging target weighing device 220: Digital camera 230: Main computer 240, 250: Sub computer 260, 270: Interface exchanger 231: Input unit 232: Image processing unit 233: Dictionary storage unit 234: Threshold comparison judgment unit for pixel area 235: Display unit 236: Storage unit 237: Output unit 271: CPU
272: Center device connector 273, 274: Terminal device connector 275: PHS adapter communication connector 276: PHS adapter power connector 277, 280: RS232CI / F
278: RS485 I / F
279: Selection circuit 281: Memory control unit 282: EEPROM
283: LED control unit 284: Power supply monitoring unit (WDT)
285, 286: power supply circuit 287: jumper 288, 289: LED display unit 290: power supply connector 1, 2, 3: automatic meter reading system 10, 10 ', 10 ": office management system 11: commercial terminal 12 : Customer database 13: Cradle 14: MO drive 15: General business PC
16: Memory card reader / writer 17: Meter reading server 18: Meter reading database 19: Cradle 20, 20 ', 20 ": Meter reading side management system 21: Handy terminal 22: PDA
23: Meter reading database 24: Communication adapter 25: Printer 26: Customer database 30: Wireless repeater 31: Main body 32: Antenna 33: CPU unit 34: Storage unit 35: Identification data setting unit 36: I / O interface unit 37: Transmission / reception Unit 38: Repeater 39: Power supply device 39a: Power input unit 39b: AC / DC conversion unit 40: Consumer side management system 41: Wireless slave unit 42: Meter 50: Memory card 60: MO

Claims (17)

A management system on the premises that has a customer database and processes charges,
A customer-side management system using an automatic meter reading device that takes in weighing data from a measuring instrument;
The meter reading database is provided with a meter reading database, and the meter reading data generated by associating the customer data read and transmitted from the customer database of the business site management system and the weighing data taken in from the customer management system. The meter reader side management system to register with
An automatic meter reading system comprising:
The automatic meter reading device is
For weighing equipment that has a frame or mark in the vicinity of the meter-reading window and has a fixed positional relationship with an identification number and a numeric string indicating the weighing value, and a frame or mark that sets the image processing range, the weighing value together with the frame or mark And a digital camera that captures an identification number for identifying the weighing device on the same screen and outputs image data;
An image processing unit for inputting image data of a digital camera, interpreting based on a frame or mark included in the captured image, and generating a measurement value and an identification number based on character data;
A storage unit that stores a captured image, a measurement value, and an identification number from the image processing unit together with the name of the customer;
A display unit for displaying a captured image, a measured value, an identification number, and a customer's name;
An output unit for printing a captured image, a measured value, an identification number, and a customer's name;
Centrally manage the measurement values of the weighing equipment installed in the consumer with automatic meter reading processing,
The office management system
Send and receive meter reading data read from the meter reading database of the meter reading side management system, and perform fee processing using this meter reading data,
An automatic meter reading system characterized by that. A management system on the premises that has a customer database and processes charges,
A customer-side management system using an automatic meter reading device that takes in weighing data from a measuring instrument;
The meter reading database is provided with a meter reading database, and the meter reading data generated by associating the customer data read and transmitted from the customer database of the business site management system and the weighing data taken in from the customer management system. The meter reader side management system to register with
An automatic meter reading system comprising:
The automatic meter reading device is
For weighing equipment that has a frame or mark in the vicinity of the meter-reading window and has a fixed positional relationship with an identification number and a numeric string indicating the weighing value, and a frame or mark that sets the image processing range, the weighing value together with the frame or mark And a digital camera that captures an identification number for identifying the weighing device on the same screen and outputs image data;
A computer that performs meter reading processing using image data output from a digital camera;
Data transmission means for connecting the digital camera and the computer;
The digital camera transmits image data by communicating a command / response signal from the computer to the digital camera.
This computer
An image processing unit for inputting image data of a digital camera, interpreting based on a frame or mark included in the captured image, and generating a measurement value and an identification number based on character data;
A storage unit that stores a captured image, a measurement value, and an identification number from the image processing unit together with the name of the customer;
A display unit for displaying a captured image, a measured value, an identification number, and a customer's name;
An output unit for printing a captured image, a measured value, an identification number, and a customer's name;
Centrally manage the measurement values of the weighing equipment arranged at the customer using the image data output from the data transmission means, and automatically perform the meter reading process,
The business site management system sends and receives meter reading data read from the meter reading database of the meter reading side management system, and performs fee processing using this meter reading data.
An automatic meter reading system characterized by that. The automatic meter reading system according to claim 2,
An automatic meter reading system using a simple cellular phone (PHS) communication network as a data transmission means. The automatic meter reading system according to claim 2,
An automatic meter reading system using low-power wireless communication as a data transmission means. A management system on the premises that has a customer database and processes charges,
A plurality of customer-side management systems that read out the measurement data from the measuring device and wirelessly transmit it;
Meter reading data is generated by associating customer data read and transmitted from the customer database of the office management system with the meter reading database and measurement data wirelessly transmitted from the customer management system. The meter reading side management system registered in the database;
An automatic meter reading system comprising:
The business site management system sends and receives meter reading data read from the meter reading database of the meter reading side management system, and performs fee processing using this meter reading data.
An automatic meter reading system characterized by that. In the automatic meter-reading system according to claim 5,
The establishment-side management system is
A commercial terminal that has a customer database and processes charges,
A cradle connected to a commercial terminal,
Have
The meter reading side management system is:
Handy terminal,
PDA (Personal Digital Assistants) that can communicate with the handy terminal and has a meter reading database;
A communication adapter connected to the PDA and wirelessly communicating with the customer side management system;
A printer capable of communicating with the handy terminal and printing based on the print data generated from the meter reading data;
Have
The meter-reader-side management system and the establishment-side management system are characterized in that a handy terminal on the meter-reader-side management system side is connected to a cradle on the establishment-side management system side to exchange data. Automatic meter reading system. A management system on the site side that performs charge processing;
A plurality of customer-side management systems that read out the measurement data from the measuring device and wirelessly transmit it;
Meter reader side management that has customer database and meter reading database and registers the meter reading data generated by associating the customer data read from the customer database with the measurement data wirelessly transmitted from the customer side management system in the meter reading database System,
An automatic meter reading system comprising:
The business site management system sends and receives meter reading data read from the meter reading database of the meter reading side management system, and performs fee processing using this meter reading data.
An automatic meter reading system characterized by that. The automatic meter reading system according to claim 7,
The establishment-side management system is
For-profit terminals that process charges,
A magneto-optical storage medium read / write device connected to a commercial terminal and writing / reading data to / from the magneto-optical storage medium;
Other magneto-optical storage medium read / write device for writing / reading data to / from the magneto-optical storage medium,
A general business PC connected to another magneto-optical storage medium read / write device;
A memory medium storage device connected to a general business PC and writing / reading data to / from the memory medium;
Have
The meter reading side management system is:
A PDA that has a meter reading database and a customer database, and that writes and reads data to and from a memory medium;
A communication adapter connected to the PDA and wirelessly communicating with the customer side management system;
Have
The PDA of the meter-side management system and the memory medium storage device of the office-side management system exchange data via a memory medium, and the commercial terminal and general business PC of the office-side management system An automatic meter reading system characterized in that data is exchanged via a magneto-optical storage medium. An office side management system that has a customer database and meter reading database and processes charges,
A plurality of customer-side management systems that read out the measurement data from the measuring device and wirelessly transmit it;
A meter reading side management system that generates meter reading data by associating the customer data read and transmitted from the customer database of the office side management system and the measurement data wirelessly transmitted from the customer side management system;
An automatic meter reading system comprising:
The office side management system sends and receives meter reading data from the meter reading side management system, registers it in the meter reading database, and performs charge processing using the meter reading data read from the meter reading database.
An automatic meter reading system characterized by that. The automatic meter reading system according to claim 9,
The establishment-side management system is
For-profit terminals that process charges,
A magneto-optical storage medium read / write device connected to a commercial terminal and writing / reading data to / from the magneto-optical storage medium;
Other magneto-optical storage medium read / write device for writing / reading data to / from the magneto-optical storage medium,
A meter reading server connected to another magneto-optical storage medium read / write device and comprising a meter reading database and a customer database;
A cradle connected to the meter reading server;
Have
The meter reading side management system is:
PDA,
A communication adapter connected to the PDA and wirelessly communicating with the customer side management system;
Have
The meter reading side management system and the site management system connect the PDA on the meter reading side management system side to a cradle on the site management system side to exchange data, and the site management system An automatic meter reading system characterized in that the commercial terminal and the meter reading server exchange data via a magneto-optical storage medium. In the automatic meter-reading system as described in any one of Claims 5-10,
The meter-reader side management system and the customer side management system in the vicinity of a certain customer side management system among the plurality of customer side management systems are directly wirelessly communicated by specific low power wireless communication,
Among the plurality of customer-side management systems, the meter-reader-side management system and its customer-side management system in the vicinity of another customer-side management system are configured by specific low-power wireless communication via one or a plurality of wireless repeaters. An automatic meter reading system characterized by being indirectly wirelessly communicated. The automatic meter reading system according to claim 11,
The meter-reader-side management system cancels the received data when receiving a direct communication from a certain customer-side management system and an indirect communication from a certain customer-side management system via a wireless repeater at the same time. An automatic meter reading system characterized by In the automatic meter reading system according to any one of claims 5 to 12,
The customer data includes identification data about the measuring instrument, and the meter-reader side management system identifies the measuring instrument to be metered based on the identification data about the measuring instrument selected in advance, and measures the meter. An automatic meter-reading system that generates meter-reading data by acquiring measurement data only from a customer-side management system having a container. In the automatic meter-reading system as described in any one of Claims 5-13,
The customer side management system transmits inspection data related to the inspection of the customer side management system in addition to the meter reading data, and the meter reading side management system displays the contents of the inspection data. Meter reading system. The automatic meter reading system according to any one of claims 5 to 14,
The customer side management system is:
It has a wireless slave unit connected to the measuring instrument,
An automatic meter reading system characterized in that a wireless slave unit communicates with a measuring instrument via a current loop. The automatic meter reading system according to claim 15,
An automatic meter reading system, wherein the wireless slave device functions as a wireless repeater when the identification data indicates a measuring instrument of another customer side management system. The automatic meter reading system according to any one of claims 5 to 16,
The meter is an electronic watt-hour meter and / or a watt-hour meter with a pulse oscillator.

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