JP5565194B2 - Energy usage monitoring system and measurement data collection device - Google Patents

Description

  The present invention relates to an energy usage monitoring system and a measurement data collection device, and in particular, an energy usage monitoring system that can easily collect data from a general measurement device and can be configured at low cost, and measurement data collection for the system. Relates to the device.

  As a system for monitoring the energy consumption status such as power consumption, Patent Document 1 discloses a calculation means for calculating energy consumption including power consumption calculated by measuring voltage and current, and energy calculated by this means. A database that organizes and stores consumption data and a database server that manages the database and performs communication processing, and transfers from the Web server via a local area network (LAN) such as Ethernet (registered trademark) The home network system for energy consumption monitoring comprised of computers, such as a personal computer carrying the web browser which can browse the energy consumption amount data which are read is described.

  In Patent Document 2, time series measurement values of a measurement unit that measures a plurality of energies are collected by a collection unit, information of each measurement value is accumulated, and processed information content is converted into digital broadcast waves and information communication. An information system is described in which size change means for changing the size of a screen to be notified by the notification means is provided so that it can be notified in any of the circuit networks, and the time series information of the digital broadcast wave and the information content is displayed simultaneously. Has been.

  Further, the applicant has disclosed in Patent Document 3 a memory sharing IC dedicated to input / output, a power converter for supplying power to the IC, input / output means for inputting / outputting a signal from a communication cable, and an input signal. A remote input / output device equipped with input / output processing means for processing the signal into an output signal is connected to the central control panel and on-site operation panel, and each remote input / output device is connected with a communication cable. A stand-alone remote system is proposed.

JP 2004-13194 A JP 2006-60360 A JP 2006-74724 A

  However, in the technique described in Patent Document 1, since measured / collected data is transmitted to a personal computer equipped with a Web browser through a LAN via a Web server, in order to monitor the data, (1) LAN Must be connected, (2) managed by a Web server, and (3) displayed by a Web browser. For this reason, construction costs such as the installation of a LAN cable, the installation of a Web server, etc. are incurred, and the data to be monitored is displayed on the Web browser. There is a need to convert them into CSV (Comm Separated Values) format files separated by commas or TEXT files with only characters.

  On the other hand, in the technique described in Patent Document 2, measured data is wirelessly transmitted for each data and collected by a collecting device, and the collected data is used through a service provider by an antenna or an information communication line. In order to be distributed to a user, (1) a measuring device with a wireless device attached, and (2) a service providing entity that provides information via an information communication line are required.

  In addition, although the applicant has proposed the above-mentioned distributed independent type remote system in Patent Document 3, it has not been considered to connect this to an energy usage monitoring system.

  The present invention has been made to solve the above-described conventional problems, and can easily collect data from a general measuring device, and can be configured at low cost. An energy usage monitoring system, and measurement data therefor It is an object to provide a collection device.

The present invention relates to an energy usage monitoring system comprising a measurement data collecting device for collecting measurement data from one or more types of energy usage measuring devices, and a personal computer connected to the measurement data collecting device via a wireless LAN. a is measured, the measurement data collection device, for collecting the measurement data from the one or more energy consumption meter, and a remote input-output device that does not have a CPU, collected by the remote input device Means for processing the data; monitoring means for monitoring the processing result including abnormality detection; means for storing the processing result in a predetermined format; and part or all of the measurement data stored in the means and it has, and means for transmitting to said computer via said wireless LAN, a cable from the one or more energy consumption meter Continued to the, by the input terminal for the analog input pulse input are housed in a portable case having respectively, it is obtained by solving the above problems.

The present invention also provides a remote input / output device that does not have a CPU for collecting measurement data from one or more types of energy usage measuring instruments, and means for processing the measurement data collected by the remote input / output device. Monitoring means for monitoring the processing result including abnormality detection, means for storing the processing result in a predetermined format, and part or all of the measurement data stored in the means via the wireless LAN Means for transmitting to a personal computer, and is housed in a portable case with input terminals for pulse input and analog input, to which a cable from the one or more types of energy usage measuring instrument is connected. The present invention provides a measurement data collection device characterized by having

  According to the present invention, data is collected by a measurement data collection device having a wireless function without using a Web server as in Patent Document 1, and the data is wirelessly transmitted to a general-purpose personal computer. Costs can be reduced. In addition, measurement data can be collected wirelessly from a general measurement device. Furthermore, since the measurement data is wirelessly transmitted to a general-purpose personal computer, information is transmitted to the user without using a dedicated server such as Patent Document 1 or a service provider such as Patent Document 2. Distribution is possible, and the system can be configured at low cost. In addition, energy forms can be created simply by installing software on a personal computer.

Furthermore, as a remote input device, since the applicant has adopted the CPU-less remote I / O devices, such as proposed in Patent Document 3, to constitute the entire apparatus compact, it is possible to realize a portable handy.

In addition, since the housing a measurement data collection device to a portable case, can be easily moved as required measurement data collection device, to reduce the number of measurement data collection device, it is inexpensive to configure the system it can.

In particular , when the predetermined format is the CSV format, the data can be displayed and analyzed with general spreadsheet software or the like without converting the data into a CSV format file or a TEXT file with data conversion software or the like.

The block diagram which shows the whole structure of embodiment of this invention The block diagram which shows the structure of the remote input / output apparatus used by the said embodiment. A block diagram showing the main configuration of the remote input / output device The figure which similarly shows the structure of the output buffer part of the remote input / output device A specific example of a portable measurement data collection device (A) Front view with the lid removed and (B) Cross section viewed from the side (A) Front view (B) Side view and (C) Arrangement of internal devices showing a reference example of a fixedly installed box-type measurement data collection device

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  In the present embodiment, as shown in FIG. 1, for example, measurement data collection for collecting measurement data from one or more types of energy usage measuring devices 10 such as a watt-hour meter 10A, an ammeter 10B, a thermometer 10C, and a flow meter 10D. An energy usage monitoring system formed by a device 20 and a personal computer 50 connected to the measurement data collection device 20 via a wireless LAN 48, wherein the measurement data collection device 20 is connected to the energy usage meter 10. A remote input / output device (I / O) 22 that collects the measurement data, and the measurement data collected by the remote I / O 22 is subjected to a limiter process, a smoothing process, a condition determination process, and the like, and the processing result is in a predetermined format. For example, the processing means 24 for converting to the CSV format and a monitoring operator for monitoring the processing result such as abnormality detection 26, storage means 28 for storing the processing results in the predetermined format, and transmission for transmitting part or all of the measurement data stored in the storage means 28 to the personal computer 50 via the antenna 32 via the wireless LAN 48 Means 30. In the figure, 12 is a cable connecting the energy usage meter 10 and the measurement data collection device 20, and 52 is a personal computer-side antenna built into the personal computer 50, for example.

  The data collection period by the measurement data collection device 20 can be arbitrarily changed, for example, from 1 second to 1 hour by the processing means 24, for example.

  As shown in detail in FIG. 2, the remote I / O 22 includes an input / output dedicated IC 22A that performs only input / output exchange without setting a sequence or a program only by address setting, a memory 22B, and the IC 22A. A power converter 22C for supplying power, a connector 22D for inputting and outputting signals from the cable 12, a communication processing IC 22E, an AD / DA converter 22F for converting an analog signal into a digital signal, and the AD / Input / output (switching) for processing the digitized analog input signal AI input from the DA converter 22F or the digital input signal DI input directly from the connector 22D into the digital output signal DO or the analog output signal AO. Switching address between processing unit (PLD) 22G and analog and digital And an address setting device (e.g. DIP switches) 22H for the clock 22I, and a operation display LED22J that emits light for example, at the time the signal input, there is a CPU-less remote I / O without a CPU.

  The address setting device 22H sets an address as follows in the case of, for example, analog output (AO) 1 point, digital input (DI) 8 points, and digital output (DO) 8 points.

IO 0-7: DI area Used as DI IO 8-15: DO area Used as DO IO 16-23: DO area not used IO 24-31: DO area Used as AO (D / A converter with resolution of about 250) )

  For example, in the case of analog input (AI) 1 point, DO 8 point, DI 8 point, address setting is performed as follows.

IO 0-7: DO area used as DO IO 8-15: DI area used as DI IO 16-23: DI area not used IO 24-31: DI area used as AI (A / D converter with resolution of about 250 built-in) )

  FIG. 3 shows a block of the input / output unit. As shown in the figure, among the 32 IO signals of the IC 22A, IO0 to IO23 are all connected to the switching input / output processing device (PLD) 22G, and the input logic 8 points / output by the program logic in the PLD 22G. It is fixed at 8 points. On the other hand, IO24-31 is connected with expansion connector 22K, and is used for A / D or D / A. In the figure, 22L is an output buffer and 22M is an input buffer.

  The configuration of the output buffer 22L is shown in FIG. In the figure, 22L1 is a MOS-FET, and 22L2 is a jumper line for switching between voltage and no voltage. The jumper line 22L2 is disconnected for AC / DC no-voltage output, and the jumper line 22L2 is connected for DC 24V voltage output. Connecting.

  Of the signals input from the connector 22D, the analog input signal AI is converted into a digital signal by the AD / DA converter 22F, processed by the input / output processing device 22G, and then written to the memory 22B through the IC 22A. On the other hand, the analog output signal AO is converted into an analog signal through the AD / DA converter 22F and output from the connector 22D.

  In this way, the I / O dedicated IC 22A is adopted, the number of digital input / output points of the input / output processing device 22G is suppressed to 32 points or less, which is the upper limit of one chip, for example, and dedicated device chips are used for input / output processing and various settings. Thus, the remote I / O 22 is realized with a single card without using a CPU. Also, by converting analog signals to digital signals and processing the signals, the analog signals and digital signals can be mixedly processed with the digital input / output signals of the IC 22A by switching the address. There is no need to add a digital signal and an analog signal with a single device.

  In the present embodiment, since the connector 22D is used, it is easy to attach and detach the failed remote I / O 22. A terminal block may be used instead of the connector 22D. A lamp may be used instead of the LED 22J.

  As shown in the specific example shown in FIG. 5, the measurement data collecting device 20 can be a handy type that is housed in a portable case 34 and is suitable for use in collecting data in a short time. In the figure, 36 is an input terminal to which the cable 12 shown in FIG. 1 is connected, CN is a connector 22D shown in FIG. 2, and 38 is a touch panel display, and the processing means 24 and monitoring means in FIG. 26 and an information processing terminal having the functions of the storage means 28. The information processing terminal 38 performs monitoring such as change of the data collection cycle, limiter processing, smoothing processing, condition determination processing, and abnormality detection applied to the collected data.

Further, the measurement data collection device 20 can be stored in a wall-hanging box 40 to be a wall-hanging type as in the reference example shown in FIG. In the figure, 42 is a terminal block, 44 is a direct current (DC) power supply, W is an outlet, CP is a circuit protector having a power switch function, and LF is a noise removing line filter.

  Here, the remote I / O 22 used as an input card is provided as appropriate (two in the figure) according to the type of input (digital / analog) and the number of points. When there are two or more remote I / Os 22, the outer shape of the case 34 or the box 40 can be enlarged, or only the remote I / O 22 can be stored in another box.

In the above embodiment, the CPU-less remote I / O device proposed by the applicant in Patent Document 3 is adopted as the remote I / O 22, so that the entire device is made compact and a portable handy type is realized. I can .

  In the above embodiment, the data collection cycle can be arbitrarily changed from 1 second to 1 hour, for example, so that an appropriate data collection cycle can be set according to the situation at the site.

  In the embodiment, the processing unit 24 is provided in the measurement data collection device 20 to perform the limiter process, the smoothing process, the condition determination process, and the like, so that an appropriate process according to the type of the collected signal is performed. Is possible. Furthermore, since the monitoring means 26 is provided, it is possible to monitor abnormality detection.

Incidentally, a data collection period solid Teisu Rukoto possible.

  When there is no measuring instrument such as a watt hour meter, the current may be monitored by holding a clamp meter between power cables.

DESCRIPTION OF SYMBOLS 10 ... Energy consumption measuring device 20 ... Measurement data collection device 22 ... Remote input / output device (I / O)
24 ... Processing means 26 ... Monitoring means 28 ... Storage means 30 ... Transmission means 32, 52 ... Antenna 38 ... Information processing terminal 48 ... Wireless LAN
50 ... PC

Claims (2)

An energy usage monitoring system comprising a measurement data collection device that collects measurement data from one or more types of energy usage measuring instruments, and a personal computer connected to the measurement data collection device via a wireless LAN,
The measurement data collection device is
A remote input / output device without a CPU for collecting measurement data from the one or more types of energy usage measuring instruments;
Means for processing the measurement data collected by the remote input / output device;
Monitoring means for monitoring the processing result including abnormality detection;
Means for storing the processing result in a predetermined format;
Means for transmitting part or all of the measurement data stored in the means to the personal computer via the wireless LAN;
And is housed in a portable case provided with input terminals for pulse input and analog input, to which cables from the one or more types of energy usage measuring instruments are connected. Usage monitoring system. A remote input / output device without a CPU for collecting measurement data from one or more energy usage measuring instruments;
Means for processing the measurement data collected by the remote input / output device;
Monitoring means for monitoring the processing result including abnormality detection;
Means for storing the processing result in a predetermined format;
Means for transmitting part or all of the measurement data stored in the means to a personal computer via a wireless LAN;
And is housed in a portable case having input terminals for pulse input and analog input, to which cables from the one or more types of energy usage measuring instruments are connected. Data collection device.

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