JP2004280239A - Scales, terminals and weighing systems - Google Patents

Abstract

An object of the present invention is to easily and quickly display unique information associated with a measuring instrument.
A measured value of each item of indicated value related information measured by an integrating unit of an integrated wattmeter and an item of unique information of the integrated wattmeter are stored in an indicated value related information storage area of a data storage unit and a unique value. The information is stored in the information storage area 13b. Then, a dedicated magnet is brought close to the display switching unit 15, and the display mode of the integrating wattmeter 1 is set to one of the indication value related information display mode and the unique information display mode for displaying unique information. Then, instruction value related information or unique information corresponding to the set display mode is read from the data storage unit 13 and displayed on the display unit 14.
[Selection diagram] Fig. 1

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a measuring device, a terminal device, and a measuring system used in, for example, the electric power, gas, and water fields.
[0002]
[Prior art]
A measuring instrument, for example, an integrated wattmeter used in the electric power field has information related to the indicated value of the integrated power value (hereinafter, referred to as indicated value related information), that is, the integrated power to be measured by the integrated wattmeter. It has a function of measuring a value, a demand value, an integrated power value for each time zone, and the like, and displaying the measured indication value-related information using a pointer of a meter or the like.
[0003]
[Problems to be solved by the invention]
The information on the integrated wattmeter is not limited to the indicated value-related information, but may be information uniquely associated with the integrated wattmeter (hereinafter, referred to as unique information), such as an instrument number, a manufacturing date, a periodic meter reading date and time. And the class of the meter is managed by the administrator.
[0004]
During maintenance of the measuring instrument, etc., the documents owned by the measuring instrument administrator, that is, the instrument number and other unique information associated with the measuring instrument, are used to confirm the unique information associated with the local measuring instrument. Use a reference document stating In other words, the manager brings this reference document to the site, checks the instrument number stamped and displayed on the measuring instrument for which the unique information is to be referred, against the instrument number written on the reference document brought, Confirming unique information.
[0005]
However, a great deal of work is required to refer to these pieces of unique information with reference documents in operation. If you want to refer to the unique information of measuring instruments installed in multiple places at the same time, create multiple reference documents and bring these reference documents to multiple It is necessary to go to the site where is installed. In addition, there are items in the unique information that are changed due to the repair of the integrating wattmeter, etc., so if specific items in the unique information are changed, all the items described in the multiple reference documents must be changed. Must.
[0006]
The present invention has been made in view of the above problems, and has as its object to provide a weighing device, a terminal device, and a weighing system that can easily and quickly refer to unique information.
[0007]
[Means for Solving the Problems]
That is, the measuring device according to the present invention displays, in a measuring device for measuring a physical quantity, unique information storage means for storing unique information associated with the measuring device, and unique information stored in the unique information storage means. And a unique information display means.
[0008]
That is, in the measuring device according to the present invention, the unique information associated with the measuring device is stored in the unique information storage device, and the unique information is displayed by the unique information display device. Unique information can be easily and quickly referred to.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing a configuration of a weighing system according to an embodiment of the present invention. The metering system according to the present embodiment will be described on the assumption that the integrating wattmeter 1 that measures the amount of electric power is used as a meter.
[0010]
In the weighing system shown in FIG. 1, a terminal device 2 is connected to an integrated wattmeter 1. The integrating wattmeter 1 is connected to a power line and measures the amount of power flowing through the power line based on the integrated value. The terminal device 2 is arbitrarily connected to the integrating wattmeter 1 as needed, and is used for transmitting and receiving information to and from the integrating wattmeter 1.
[0011]
FIG. 2 is a block diagram showing the configuration of the integrating wattmeter 1 shown in FIG. 1, and FIG. 3 is a block diagram showing the configuration of the terminal device 2 connected to the integrating wattmeter 1 shown in FIG.
The terminal device 2 shown in FIG. 3 is connected to the integrating wattmeter 1 via the communication interface 16 as shown in FIG.
The integrated wattmeter 1 shown in FIG. 2 stores information related to indicated values such as the measured integrated power value, demand value, and integrated power value for each time zone (hereinafter, referred to as indicated value related information). A function of displaying the stored indicated value-related information, and information (hereinafter, referred to as unique information) such as an instrument number, a manufacturing date, a regular meter reading date and the like uniquely associated with the integrated wattmeter 1 are stored therein. Has a function of displaying the stored unique information. In addition, it has a function of transmitting and receiving the indicated value related information and the unique information to and from the terminal device 2.
When the integrating wattmeter 1 is a seasonal watt hour meter, seasonal time zone information (information indicating a time zone to be integrated for each season) (not shown) can be further included as unique information.
[0012]
As shown in FIG. 2, the integrated wattmeter 1 is configured by connecting an integrating unit 12, a data storage unit 13, a display unit 14, a display switching unit 15, a communication interface 16, and a clock unit 17 to a CPU 11, respectively. I have.
The CPU 11 executes control processing relating to storage, display, and transmission / reception of the instruction value related information and the unique information. That is, the process of storing the instruction value-related information measured by the integrating unit 12 and the unique information input via the communication interface 16 in the data storage unit 13, reading out various information stored in the data storage unit 13, and displaying the information on the display unit. 14, a process of setting the display mode according to the control signal output by the display switching unit 15, and a process of transmitting and receiving the instruction value related information and the unique information to and from the terminal device 2.
[0013]
The integrating unit 12 measures instruction value related information such as an integrated power value, a demand value, and an integrated power value for each time zone, and outputs these measured values to the CPU 11.
The timer 17 measures the current time and outputs information on the measured time to the CPU 11.
[0014]
The data storage unit 13 is a memory in which information stored therein can be rewritten. The data storage unit 13 is provided with an indication value related information storage area 13a for storing indication value related information and a unique information storage area 13b for storing unique information. The indicated value related information storage area 13a stores the indicated value related information measured by the integrating unit 12. The information stored in the indicated value related information storage area 13a is sequentially changed as the measured value by the integrating unit 12 changes, that is, as the measured value of each item of the indicated value related information output by the integrating unit 12 changes. .
The unique information storage area 13b stores unique information such as the instrument number of the integrated wattmeter 1, the date of manufacture, the date and time of regular meter reading, the certification expiration date, and the meter class (and seasonal time zone information). The regular meter reading date and time is information indicating a specific date and time at which the administrator records a measurement value by the integrating unit 12. Further, the verification term is information indicating a replacement term of the integrated wattmeter 1.
[0015]
The items of unique information stored in the unique information storage area 13b of the data storage unit 13 include items for information stored at the time of manufacture of the integrating wattmeter 1 and items for information changed on site after installation. Including. The information of the item to be changed in the unique information is received from the terminal device 2 through the communication interface 16 and stored in the unique information storage area 13b. The unique information that may be changed includes, for example, an instrument number, a regular meter reading date and time, and seasonal time zone information.
[0016]
The display unit 14 displays at least one of the instruction value related information and the unique information stored in the data storage unit 13 under the control processing related to the display by the CPU 11. In the following description, one of them is displayed according to the display mode switched by the display switching unit 15 described later.
[0017]
The display switching unit 15 outputs to the CPU 11 a control signal for instructing switching of a mode (hereinafter, referred to as a display mode) for determining the content of information to be displayed by the display unit 14. The display mode includes an indication value related information display mode for displaying the indication value related information and a unique information display mode for displaying the unique information.
The display switching unit 15 has a built-in reed switch that is switched by a magnet, for example. Note that the reed switch has a configuration that cannot be switched by means other than a dedicated magnet. When the administrator switches the reed switch by bringing the dedicated magnet close to the display switch 15, the display switching unit 15 outputs a control signal to the CPU 11 instructing to switch the display mode in response to the switch.
For example, when a dedicated magnet approaches the display switching unit 15 when the current display mode is the instruction value related information display mode, a control signal indicating an instruction to switch the display mode to the unique information display mode is transmitted from the display switching unit 15. Output to CPU11. When a dedicated magnet approaches the display switching unit 15 when the current display mode is the unique information display mode, a control signal indicating an instruction to switch the display mode to the indicated value related information display mode is sent from the display switching unit 15. Output to CPU11.
[0018]
The communication interface 16 is for connecting the terminal device 2 by cable or wireless communication, and transmits the control signal output by the CPU 11 and the instruction value related information or unique information to the operation terminal 2. Further, it receives the control signal transmitted from the terminal device 2 and outputs it to the CPU 11.
[0019]
The terminal device 2 shown in FIG. 3 inputs the unique information corresponding to the item to be changed among the unique information items stored in the unique information storage area 13b of the data storage unit 13 of the integrated wattmeter 1. Then, the function of outputting the input unique information to the integrated wattmeter 1 and the designated value related information or unique information storage area 13b stored in the designated value related information storage area 13a of the data storage unit 13 of the integrated wattmeter 1 Has a function of acquiring the unique information stored in the display unit and displaying the acquired information on the screen of a display unit described later.
[0020]
As shown in FIG. 3, the terminal device 2 is configured by connecting a storage unit 22, an input unit 23, a communication interface 24, and a display unit 25 to a CPU 21. The communication interface 24 is connected to the communication interface 16 of the integrating wattmeter 1 by cable or wireless communication.
[0021]
The CPU 21 outputs information generated based on an input operation to the input unit 23 based on a program stored in the storage unit 22, that is, a program that realizes an input / output function (hereinafter, referred to as an input / output program). Output to integrating wattmeter 1.
The input / output function is a function for acquiring the indication value related information stored in the indication value related information storage area 13a of the data storage unit 13 of the integrated wattmeter 1 and the unique information stored in the unique information storage area 13b. And a function of inputting the specific information to be changed and outputting the input specific information to the integrating wattmeter 1, and acquiring the information output by the integrating wattmeter 1 via the communication interface 24. This is a function of generating display data to be displayed on the display unit 25 based on the obtained information, and displaying the display data on the display unit 25.
[0022]
The storage unit 22 stores an input / output program for realizing an input / output function by the CPU 21.
The input unit 23 accepts input operations related to various functions. According to the input operations, the CPU 11 reads an input / output program from the storage unit 22 to implement the input / output function. Here, the input unit 23 may be configured by, for example, operation keys such as a keyboard, or may be provided with a touch panel in accordance with a display screen of the display unit 25, and may be used for an operation displayed on the display unit 25. The screen may be touched by a fingertip or the like.
[0023]
The communication interface 24 is an interface for connecting to the integrating wattmeter 1 by cable or wireless communication. When the terminal device 2 is connected to the integrating wattmeter 1, the communication interface 24 transmits the control signal and the data output by the CPU 21 to the integrating wattmeter 1, and controls the control signal and the data received from the integrating wattmeter 1. Is output to the CPU 21.
The display unit 25 displays display data under the control function of the CPU 21.
[0024]
Next, the operation of the integrated wattmeter 1 and the terminal device 2 having the above configuration will be described.
In the weighing system according to the present embodiment, the information (instruction value related information, unique information) stored in the data storage unit 13 of the integrating wattmeter 1 is displayed on the display unit provided in the integrating wattmeter 1 by operating the integrating wattmeter 1. 14 and a second mode in which the terminal device 2 is connected to the integrated wattmeter 1, information is read from the integrated wattmeter 1 by the terminal device 2, and displayed on the display unit 25 of the terminal device 2. It is assumed that there is.
[0025]
First, an operation related to the display of the indication value related information or the unique information by the integrating wattmeter 1 in the first embodiment will be described.
Here, the data of each item of the unique information is stored in advance in the unique information storage area 13b of the data storage unit 13 of the integrated wattmeter 1.
The integrating unit 12 constantly measures each item of the indicated value related information. Then, the data of the measurement value measured by the integrating unit 12 is sequentially output to the CPU 11.
[0026]
When the data corresponding to the measurement value of each item of the indicated value related information output by the integrating unit 12 is input to the CPU 11, the CPU 11 stores the input data in the indicated value related information storage area 13a of the data storage unit 13. Output and store.
[0027]
Here, when the current display mode is set to the indicated value related information display mode, the CPU 11 reads the indicated value related information stored in the indicated value related information storage area 13a of the data storage unit 13, and reads out the read value. A process for outputting and displaying the instruction value related information on the display unit 14 is executed.
[0028]
That is, as the indicated value related information is sequentially measured by the integrating unit 12, the measured indicated value related information is sequentially output to the indicated value related information storage area 13a of the data storage unit 13 and overwritten and stored. The instruction value related information displayed by the display unit 14 is sequentially switched.
Note that the instruction value related information may not always be output and displayed, but may be displayed only at that time in accordance with an external instruction.
[0029]
Then, when switching the display mode from the indication value related information display mode to the unique information display mode, the administrator brings a dedicated magnet close to the display switching unit 15. Then, the reed switch of the display switching unit 15 is operated, and a control signal indicating an instruction to switch the display mode to the unique information display mode is output to the CPU 11. Then, the CPU 11 executes a process of switching the display mode to the unique information display mode according to the control signal.
[0030]
FIG. 4 is a diagram illustrating an example of the unique information display screen G1 displayed by the display unit 14 of the integrated wattmeter 1.
When the display mode is switched to the unique information display mode, the CPU 11 reads out data on each item of unique information stored in the unique information storage area 13b of the data storage unit 13 and generates display data for the unique information item. . Then, the CPU 11 outputs the generated display data to the display unit 14 and causes the display unit 14 to display an item of the unique information based on the display data as a unique information display screen G1 as shown in FIG.
In the example of the unique information display screen G1 shown in FIG. 4, each information of the instrument number, the date of manufacture, the date and time of regular meter reading, the test term, and the meter class is displayed in a list.
[0031]
FIG. 5 is a diagram illustrating an example of the indication value related information display screen G2 displayed by the display unit 14 of the integrated wattmeter 1.
When the display mode is switched from the unique information display mode to the indicated value related information display mode using the dedicated magnet in the same manner as described above, the CPU 11 causes the indicated value related information in the data storage unit 13 of the integrated wattmeter 1 to be changed. The instruction value-related information stored in the information storage area 13a is read, and display data of the instruction value-related information is generated. Then, the CPU 11 outputs the generated display data to the display unit 14, and based on the display data, the display unit 14 measures the measurement value of each item of the indicated value related information as shown in FIG. It is displayed as a display screen G2.
In the example of the indication value related information display screen G2 shown in FIG. 5, each information of the integrated power value, the demand value, and the integrated power value for each predetermined time is listed.
[0032]
Therefore, when the unique power display mode is executed in the integrated wattmeter 1, the unique information associated with the integrated wattmeter 1 is read from the unique information storage area 13b of the data storage unit 13 and displayed on the display unit 14. Can be referred to easily and quickly.
[0033]
In addition, since the display mode is switched to the unique information display mode using a dedicated magnet and the unique information is displayed, the unique information can be displayed on the display unit 14 according to a request of only an authorized administrator. Reference to unique information by a third party unrelated to the management of the first information can be prevented.
[0034]
In the present embodiment, the administrator brings a dedicated magnet close to the display switching unit 15, switches the display mode of the integrated wattmeter 1, and displays the indication value-related information or the unique information on the display unit 14. However, a method may be used in which each item of information to be displayed is switched one by one and displayed on the display unit 14 each time the dedicated magnet approaches the display switching unit 15. Thereby, the display area of the display unit 14 can be reduced, and the integrated wattmeter 1 can be reduced in size.
[0035]
Further, in the above-described embodiment, a method is adopted in which the administrator brings the dedicated magnet close to the display switching unit 15 to switch to the unique information display mode. However, the present invention is not limited to this method. An authentication information screen (not shown) for requesting input may be displayed on the display unit 14, and the administrator may input authentication information in accordance with the authentication information screen and switch to the unique information display mode.
In this case, it is assumed that an ID and a password for authenticating a valid administrator are registered in advance in the data storage unit 13 of the integrating wattmeter 1 (for example, when the integrating wattmeter 1 is manufactured, Alternatively, the information is registered through the terminal device 2).
[0036]
Next, a data acquisition process by the integrated wattmeter 1 and the terminal device 2 in the second embodiment will be described.
In the data acquisition process, the terminal device 2 outputs the instruction value-related information stored in the instruction value-related information storage area 13a of the integrated power meter 1 and the unique information stored in the unique information storage area 13b to the terminal device 2. This is a process of displaying the output information on the display unit 25 of the terminal device 2.
In the second embodiment, the indication value-related information and the unique information are displayed on the terminal device 2. Therefore, when the integrated wattmeter 1 is used only in the second embodiment, the display related configuration including the display unit 14 is used. It can be omitted.
[0037]
FIG. 6 is a diagram illustrating an example of the mode selection screen G3 displayed by the display unit 25 of the terminal device 2.
First, the terminal device 2 is connected to the integrating wattmeter 1, and the input unit 23 of the terminal device 2 is operated according to a predetermined procedure to select a mode related to transmission and reception of the instruction value related information and the unique information, for example, as shown in FIG. The screen G3 is displayed on the display unit 25.
The mode selection screen G3 displays an icon described as “data load” (hereinafter, referred to as a data load icon 31) and an icon described as “data set” (hereinafter, referred to as a data set icon 32). The data load icon 31 is an icon for instructing the CPU 21 to start data acquisition processing. The data set icon 32 is an icon for instructing the CPU 21 to start a data set process described later.
[0038]
When the data load icon 31 displayed on the mode selection screen G3 is selected by the input operation of the input unit 23 and the OK icon 33 displayed on the mode selection screen G3 is selected, the CPU 21 starts the data acquisition processing.
[0039]
FIG. 7 is a diagram illustrating an example of the data selection screen G4 displayed by the display unit 25 of the terminal device 2.
When the data acquisition process starts, a data selection screen G4 as shown in FIG. 7 for selecting the type of data to be read from the data storage unit 13 of the integrating wattmeter 1 is displayed on the display unit 25 instead of the mode selection screen G3. Is done. On the data selection screen G4, information to be read from the integrated wattmeter 1 is selected from the instruction value related information stored in the instruction value related information storage area 13a of the data storage unit 13 and the unique information stored in the unique information storage area 13b. be able to.
[0040]
On the data selection screen G4, an icon described as “integrated value data” (hereinafter, referred to as an integrated value data icon 41) and an icon described as “instrument data” (hereinafter, referred to as an instrument data icon 42) are displayed. Is done. The integrated value data icon 41 is an icon for selecting reading of the indicated value related information from the integrated wattmeter 1, and the meter data icon 42 is an icon for selecting reading of the unique information from the integrated wattmeter 1. .
[0041]
Here, when it is desired to display the unique information stored in the data storage unit 13 on the display unit 25 of the terminal device 2, the meter data icon 42 displayed on the data selection screen G <b> 4 is selected by the input operation of the input unit 23. Then, an OK icon 43 displayed on the data selection screen G4 is selected by an input operation of the input unit 23.
[0042]
Then, the CPU 21 outputs a transmission request signal to the integrating wattmeter 1 via the communication interface 24. The transmission request signal reads the unique information stored in the unique information storage area 13b of the data storage unit 13 of the integrating wattmeter 1 and instructs the integrating wattmeter 1 to output the read unique information to the terminal device 2. This is a signal requested to the CPU 11.
[0043]
The transmission request signal is received by the integrating wattmeter 1 via the communication interface 16 and input to the CPU 11. Then, the CPU 11 reads the unique information stored in the unique information storage area 13b of the data storage unit 13 and transmits the unique information to the terminal device 2 via the communication interface 16.
[0044]
The transmitted unique information is input to the CPU 21 via the communication interface 24 in the terminal device 2. The CPU 21 stores the input unique information in the storage unit 22 and generates display data based on the unique information. Then, the CPU 21 causes the display unit 25 to output the generated display data. The display unit 25 displays the unique information display screen G1 (see FIG. 4) instead of the data selection screen G4.
[0045]
When the user wants the terminal device 2 to output the instruction value-related information stored in the data storage unit 13 of the integrated wattmeter 1, when the data selection screen G4 is displayed on the display unit 25, the integrated value data icon 41 is selected by the input operation of the input unit 23, and thereafter, the indication value related information can be displayed on the display unit 25 of the terminal device 2 in the same procedure as when the unique information is read.
[0046]
Therefore, by executing the data acquisition process in accordance with the input operation by the input unit 23 of the terminal device 2, the designated value related information or the unique information stored in the designated value related information storage area 13 a of the data storage unit 13 of the integrated wattmeter 1 The unique information stored in the storage area 13b is read and stored in the storage unit 22 of the terminal device 2, and the unique information is displayed and can be referred to.
[0047]
Next, a data set process performed by the integrated wattmeter 1 and the terminal device 2 will be described.
The data set process is a process of changing the unique information stored in the integrating wattmeter 1 by the terminal device 2. The unique information to be newly set in connection with the change is input by the terminal device 2, and the input unique information is changed. This is a process of outputting to the integrating wattmeter 1 and storing it in the unique information storage area 13b of the data storage unit 13.
[0048]
First, the input unit 23 of the terminal device 2 is operated according to a predetermined procedure to display the mode selection screen G3 (see FIG. 6) on the display unit 25. In the mode selection screen G3, when the data set icon 32 is selected by an input operation of the input unit 23, the CPU 21 starts a data set process.
[0049]
FIG. 8 is a diagram illustrating an example of the data input screen G5 displayed by the display unit 25 of the terminal device 2.
When the data set process is started, a data input screen G5 as shown in FIG. 8, for example, is displayed on the display unit 25 instead of the mode selection screen G3. The data input screen G5 is for requesting input of unique information to be set for the integrating wattmeter 1, and a format for inputting a set value of each item of the unique information is displayed.
[0050]
For the format provided on the data input screen G5, an item of unique information to be set is selected by an input operation of the input unit 23, and a set value for the item is input. Items for which a set value has not been input on the data input screen G5 are not output to the integrating wattmeter 1. Therefore, the data stored in the unique information storage area 13b of the data storage unit 13 is retained for the items for which no setting values have been input on the data input screen G5.
[0051]
When all the specific information to be set is input, the OK icon 51 displayed on the data input screen G5 is selected by the input operation of the input unit 23. The OK icon 51 is an icon for instructing the CPU 21 to output all the unique information input on the data input screen G5 to the integrating wattmeter 1.
[0052]
When the OK icon 51 displayed on the data input screen G5 is selected by an input operation on the input unit 23, the CPU 21 transmits a set value and a storage request signal for each item of the unique information input on the data input screen G5. The signal is transmitted to the integrating wattmeter 1 via the communication interface 24. The storage request signal requests the integrated power meter 1 to store the unique information input by the input unit 23 of the terminal device 2 in the unique information storage area 13 b of the data storage unit 13. Signal.
[0053]
The transmitted unique information and the storage request signal are received by the integrating wattmeter 1 via the communication interface 16 and input to the CPU 11. Then, the CPU 11 stores the unique information (set value) input together with the storage request signal in the unique information storage area 13b of the data storage unit 13 according to the input storage request signal.
[0054]
Therefore, by executing the data set processing, the set value for each item of the unique information input from the input unit 23 of the terminal device 2 is output to the integrated wattmeter 1 and the output unique information is output to the integrated wattmeter 1 Can be stored in the unique information storage area 13b of the data storage unit 13.
[0055]
In the above description, the integrating wattmeter 1 and the terminal device 2 are connected to each other in a one-to-one manner. it can. The terminal device 2 can read out and display the indication value-related information and the unique information from each of the integrated wattmeters 1 and sequentially collect and store them in the storage unit 22.
[0056]
FIG. 9 is a diagram showing another embodiment different from the weighing system shown in FIG.
In the description of the above-described embodiment, the integrating wattmeter 1 and the terminal device 2 are connected to constitute the weighing system. However, the present invention is not limited to this. As shown in (1), it is possible to connect to the center device 3 via various communication infrastructures 30 (abbreviated as communication infrastructure 30) such as a public line network, the Internet, and a dedicated line.
[0057]
In this case, the terminal device 2 is provided with a communication interface capable of communicating with the center device 3 via the communication infrastructure 30, and transmits information read from the integrated wattmeter 1 to the center device 3 via the communication interface. It is assumed that a function and a function of transmitting information to the integrating wattmeter 1 in response to a request from the center device 3 are provided.
With the configuration shown in FIG. 9, the data acquisition process and the data set process are performed by the center device 3 in the remote place via the terminal device 2 with the integrating wattmeter 1 in the same manner as the terminal device 2 described above. Then, reading of information from the integrating wattmeter 1 and storage of information in the integrating wattmeter 1 are executed.
Since the center device 3 can be connected to the plurality of terminal devices 2 via the communication infrastructure 30, data acquisition processing and data processing are performed between the plurality of terminal devices 2 and the integrated wattmeter 1 respectively connected thereto. A set process can be performed.
[0058]
In addition to the function of executing the data acquisition process and the data set process with the center device 3, the integrated wattmeter 1 further includes, for example, a predetermined time set based on time information input to the CPU 11 by the timer 17. When (call time to be described later) has been reached, the instruction value-related information stored in the instruction value-related information storage area 13a of the data storage unit 13 and the unique information stored in the unique information storage area 13b are transferred to the terminal device 2 and A configuration having a function of automatically transmitting data to the center device 3 via the communication infrastructure 30 may be adopted.
[0059]
In this case, the unique information storage area 13b of the data storage unit 13 of the integrated wattmeter 1 further stores, as unique information, terminal call presence / absence information, a call destination telephone number, and a call time. These pieces of unique information are stored in the data storage unit 13 when the integrating wattmeter 1 is manufactured, for example (they may be changed in the same manner as other unique information).
[0060]
The terminal call presence / absence information is information indicating the presence / absence of a terminal call that causes the integrated power meter 1 to transmit information to the center device 3 (“terminal call present” or “terminal not present”). The call destination telephone number is the telephone number of the center device 3 to which information is transmitted. The calling time is information indicating a time at which a terminal call to the center device 3 is executed.
[0061]
FIG. 10 is a diagram illustrating an example of the unique information display screen G1 displayed by the display unit 25 when the data acquisition processing is performed on the integrated wattmeter 1 by the terminal device 2.
As shown in FIG. 10, in addition to the unique information display screen G1 shown in FIG. 4, terminal call presence / absence information, a call destination telephone number, and a call time are displayed. The terminal call presence / absence information is displayed as, for example, “terminal call is present” or “terminal is not present” on the unique information display screen G1 as shown in FIG.
[0062]
Also in the center device 3, the information acquired from the integrated wattmeter 1 is stored in the same manner as the above-described unique information display screen G1 (see FIG. 10) and the indication value related information display screen G2 (see FIG. 5). Each of the total 1 can be individually displayed.
[0063]
In addition, for example, using the integrated wattmeter 1b (see FIG. 9) configured to be able to communicate with the center device 3 by the communication interface 16 of the integrated wattmeter 1, the integrated wattmeter 1b is directly used without the terminal device 2. A connection may be made via the communication infrastructure 30 so that the data acquisition process and the data set process can be executed between the integrated wattmeter 1b and the center device 3.
[0064]
The terminal device 2 shown in FIG. 9 does not execute the data acquisition process and the data set process, but connects the integrated wattmeter 1 to the center device 3 via the communication infrastructure 30 to enable information transmission and reception. It may be one that functions as a communication terminal.
[0065]
In the above description, the measurement system using the integrated watt-hour meter 1 is described. This embodiment can be applied to a container in the same manner as described above.
[0066]
Further, the present invention is not limited to the above-described embodiment, and can be variously modified in an implementation stage without departing from the gist thereof. Further, the embodiment includes inventions at various stages, and various inventions can be extracted by appropriate combinations of a plurality of disclosed constituent elements. For example, even if some components are deleted from all the components shown in the embodiments, the problem described in “Problems to be Solved by the Invention” can be solved, and the problem described in the “Effect of the Invention” section can be solved. In the case where a certain effect can be obtained, a configuration from which this configuration requirement is deleted can be extracted as an invention.
[0067]
【The invention's effect】
As described above, according to the measuring device according to the present invention, the unique information associated with the measuring device is stored in the unique information storage means, and the unique information is displayed by the unique information display means. It is possible to easily and quickly refer to the unique information associated with the measuring instrument.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a weighing system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of an integrating wattmeter shown in FIG.
FIG. 3 is a block diagram showing a configuration of a terminal device connected to the integrating wattmeter shown in FIG. 1;
FIG. 4 is a diagram showing an example of a unique information display screen G1 displayed by a display unit of the integrating wattmeter.
FIG. 5 is a diagram showing an example of an indication value related information display screen G2 displayed by a display unit of the integrating wattmeter.
FIG. 6 is a diagram showing an example of a mode selection screen G3 displayed on the display unit of the terminal device.
FIG. 7 is a view showing an example of a data selection screen G4 displayed by a display unit of the terminal device.
FIG. 8 is a view showing an example of a data input screen G5 displayed by a display unit of the terminal device.
FIG. 9 is a view showing another embodiment different from the weighing system shown in FIG. 1;
FIG. 10 is a view showing an example of a unique information display screen G1 displayed on the display unit when data acquisition processing is performed on the integrated wattmeter by the terminal device.
[Explanation of symbols]
1,1b ... Integrated wattmeter
2 Terminal device
3 ... Center device
11 CPU
12 ・ ・ ・ Integrator
13 Data storage unit
13a: indication value related information storage area
13b: unique information storage area
14 Display unit
15 Display switching unit
16 Communication interface
17 ・ ・ ・ Timekeeping unit
21 ... CPU
22 ... storage unit
23 ・ ・ ・ Input unit
24 ・ ・ ・ Communication interface
25 ・ ・ ・ Display unit
30 ・ ・ ・ Communication infrastructure structure

Claims (7)

In measuring instruments that measure physical quantities,
Unique information storage means for storing unique information associated with the measuring device;
A measuring device comprising: a unique information display unit for displaying the unique information stored in the unique information storage unit. Further, transmission request signal receiving means for receiving a transmission request signal requesting transmission of the unique information stored in the unique information storage means to an external device,
2. A unique information transmitting means for transmitting unique information stored in said unique information storage means to said external device in accordance with a transmission request signal received by said transmission request signal receiving means. The measuring instrument as described. Further, a unique information receiving means for receiving the unique information transmitted by an external device,
2. The measuring device according to claim 1, further comprising control means for controlling storage of the unique information received by the unique information receiving means in the unique information storage means. Connection means for connecting to a measuring device for measuring a physical quantity,
A transmission request signal transmitting unit that transmits a transmission request signal requesting unique information associated with the measuring device to the measuring device connected by the connecting device,
Based on the transmission request signal transmitted by the transmission request signal transmission means, a unique information receiving means for receiving the unique information transmitted by the measuring device,
A terminal device comprising: a unique information display means for displaying the unique information received by the unique information receiving means. Connection means for connecting to a measuring device for measuring a physical quantity,
Unique information input means for inputting unique information for the measuring instrument connected by the connection means;
Unique information transmitting means for transmitting the unique information input by the unique information input means to the measuring instrument;
A terminal device comprising: a storage request signal transmitting unit that transmits a storage request signal requesting that the unique information transmitted by the unique information transmitting unit be stored in the measuring device to the measuring device. In a weighing system configured by a weighing device that measures a physical quantity and a terminal device connected to the weighing device,
The measuring device is
Unique information storage means for storing unique information associated with the measuring device;
Transmission request signal receiving means for receiving a transmission request signal requesting that the unique information stored in the unique information storage means be transmitted to the terminal device,
Based on the transmission request signal received by the transmission request signal receiving means, a unique information transmission means for transmitting the unique information stored in the unique information storage means to the terminal device,
The terminal device,
Transmission request signal transmitting means for transmitting the transmission request signal to the scale,
Based on the transmission request signal transmitted by the transmission request signal transmitting means, a unique information receiving means for receiving the unique information transmitted by the unique information transmitting means provided in the measuring device,
A weighing system comprising: unique information display means for displaying the unique information received by the unique information receiving means. In a weighing system configured by a weighing device that measures a physical quantity and a terminal device connected to the weighing device,
The measuring device is
Unique information storage means for storing unique information associated with the measuring device;
Unique information receiving means for receiving the unique information transmitted by the terminal device,
Storage request signal receiving means for receiving a storage request signal requesting that the unique information received by the unique information receiving means be stored in the unique information storage means,
Control means for controlling the storage of the unique information received by the unique information receiving means in the unique information storage means, according to the storage request signal received by the storage request signal receiving means,
The terminal device,
Unique information input means for inputting the unique information,
Unique information transmitting means for transmitting the unique information input by the unique information input means to the measuring instrument;
A weighing system comprising: a storage request signal transmitting unit configured to transmit the storage request signal to the weighing device.

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