JP4857690B2 - Electricity monitoring system - Google Patents

Description

  The present invention is, for example, arranged for each industrial equipment in a factory, a plurality of power measuring units that measure the amount of power (power consumption) of the industrial equipment, and the power of each industrial equipment by communication connection with these power measuring units The present invention relates to a power amount monitoring system that has a communication terminal, such as a personal computer, that collects power and monitors and displays the power amount of each industrial facility on the monitor of the communication terminal.

  Conventionally, as such an electric energy monitoring system, a plurality of terminals (electric power measurement units) that are arranged for each household electric appliance in a general household and measure electric energy of the electric appliances, and these terminals (electric power measurement units) It has a controller such as a personal computer that collects the amount of electric power of each household electrical appliance by communication connection, and displays on the monitor of the personal computer the current electric energy of individual household electrical appliances and the transition of the hourly electric energy, etc. There is a known one (see, for example, Patent Document 1).

  According to the power amount monitoring system of Patent Document 1, the power amount of each home appliance is collected through a terminal (power measurement unit) arranged for each home appliance, and the power amount of each home appliance is displayed on the screen of a personal computer. Since it was made to do, the user can grasp | ascertain the electric energy of the household appliances in a general household.

The power amount monitoring system disclosed in Patent Document 1 is intended to invent a system that grasps the power amount of household electrical appliances in general households, but in February 2005, the Kyoto Protocol for Global Warming Countermeasures came into effect. As a result, companies are strongly required to make efforts to achieve greenhouse gas reduction targets, and reducing the power consumption of industrial facilities is an important issue for companies. In order to grasp the progress of the achievement, for example, a system that can always grasp the amount of electric power for each industrial equipment in the factory is desired.
Japanese Patent Laid-Open No. 9-84146 (see abstract and FIG. 1)

  However, according to the power amount monitoring system of Patent Document 1, a system for grasping the power amount of an industrial facility such as a factory that consumes a large amount of power is not the subject of the invention. Each unit) measures the power consumption of the home appliances in real time, and when the terminal (power measurement unit) side detects a request command from the PC, it notifies the PC side of the real-time power consumption of each home appliance according to the request command. However, if a failure such as noise occurs temporarily in the transmission line between the personal computer and the terminal (power measurement unit), the personal computer cannot obtain the amount of power of the home appliance for the requested command. For example, the amount of electric power of the home appliance at the same designated time from one terminal (power measurement unit) could not be acquired If, it is impossible to grasp the amount of power at the same specified time in all terminals (power measurement unit), a very important problem in particular the field of large amount of power to be consumed industrial facilities.

  The present invention has been made in view of the above points, and an object of the present invention is to reliably collect the amount of power at the same designated time in all power measurement units to be collected on the communication terminal (personal computer) side. An object of the present invention is to provide an electric energy monitoring system excellent in electric energy management of industrial facilities.

In order to achieve the above object, an electric energy monitoring system of the present invention includes an electric power measuring unit having an electric energy measuring means for measuring the electric energy of an industrial facility, and communication connection with the electric power measuring unit. A communication terminal that acquires a power amount as a measurement result, and when the communication terminal acquires a power amount for each power measurement unit, a storage unit that stores the power amount for each power measurement unit; and the storage unit And a control unit that causes the display unit to display the power amount of the power measurement unit on the basis of the stored power amount, wherein the power measurement unit is set by the power amount measurement unit at a set cycle. When measuring the power amount of the same industrial equipment every time, it has a power amount storage means for sequentially storing the power amount of the power amount measuring means for each set period, and the control means is a power to be collected. When a command for requesting the amount of power at a specified time for a measuring unit is detected, the power amount at the specified time stored in the power amount storage means of each power measuring unit is sequentially acquired by communicating with each of the power measuring units to be collected. and, the to these obtained was the amount of power specified time configured to store in the storage means for each power measurement unit Rutotomoni communicates connected to each power measurement unit of the collection target each power measuring unit When there is a power measurement unit that has not acquired the same amount of power among the power measurement units to be collected when the operation for acquiring the amount of power at a specified time is executed, the power amount storage means of the power measurement unit that has not been acquired. The power amount acquisition operation at the same specified time being stored is performed again, and the power amount at the specified time acquired by the second acquisition operation is stored in the storage means for each power measurement unit. Is configured, and said communication terminal, said power-measuring unit and the communication connection, and so as to permit changing settings set cycle of the power measurement unit.

  In the power amount monitoring system of the present invention, the power amount as a measurement result for each power measurement unit includes an identification code for identifying the power measurement unit, and a group identification code to which the power measurement unit belongs, and the control The means totals the power amount for each group identification code based on the power amount of the power measurement unit stored in the storage means, and displays the totalization result for each group identification code on the display means. did.

  According to the electric energy monitoring system of the present invention configured as described above, when the electric energy measuring means measures the electric energy of the same industrial equipment for each set period, the electric power as the measurement result of the electric energy measuring means The power measurement unit side is provided with power amount storage means for sequentially storing the amount for each set period, and when the control means of the communication terminal detects a request command for the power amount at a specified time for the power measurement unit to be collected, the collection Communicatingly connecting with each target power measurement unit, sequentially acquiring the power amount at the same designated time stored in the power amount storage means of each power measurement unit, and obtaining the obtained power amount at the designated time for each power measurement unit. Even if a temporary communication failure occurs between the communication terminal and the power measurement unit, the amount of power at the same designated time is stored in each power measurement unit. Since it is stored in the power storage means, the power at the same specified time stored in the power storage means in the same power measurement unit can be collected on the communication terminal side. The power consumption at the same designated time of all power measurement units can be reliably collected on the communication terminal (PC) side, and as a result, it can greatly contribute to the power management of industrial facilities that consume enormous amounts of power it can.

  According to the power amount monitoring system of the present invention, the power amount as a measurement result for each power measurement unit includes an identification code for identifying the power measurement unit, and a group identification code to which the power measurement unit belongs, The control unit totalizes the power amount for each group identification code based on the power amount of the power measurement unit stored in the storage unit, and displays the totalization result for the group identification code on the display unit. Since it did in this way, the user of a communication terminal can grasp | ascertain the total result of the electric energy in a group unit.

  According to the power amount monitoring system of the present invention, when a request command for the power amount at the specified time is detected, the power amount at the specified time is connected to each power measurement unit to be collected and connected to each power measurement unit. After performing the acquisition operation, if there is a power measurement unit that has not acquired the same amount of power among the power measurement units to be collected, reconnect to the power measurement unit that has not been acquired, and Since the power amount at the same specified time being stored in the power amount storage means of the unacquired power measurement unit is acquired, and the acquired power amount at the specified time is stored in the storage means for each power measurement unit. Even if a temporary communication failure occurs between the communication terminal and the power measurement unit, it is possible to store the amount of power in the power measurement unit by reconnecting the communication terminal to the power measurement unit. Since the power at the same specified time stored in the stage can be collected at the communication terminal side, the power at the same specified time of all the power measurement units to be collected at the communication terminal side can be reliably confirmed at the communication terminal (PC) side. As a result, it can greatly contribute to the power management of industrial facilities that consume a huge amount of power.

  According to the power amount monitoring system of the present invention, since the communication terminal side communicates with the power measurement unit and the setting cycle of the power measurement unit can be changed, the user on the communication terminal side can perform remote operation. The setting cycle of the power measurement unit can be changed.

  DESCRIPTION OF EMBODIMENTS Hereinafter, an industrial facility power monitoring system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a schematic configuration inside an industrial facility power monitoring system according to the present embodiment.

  The power monitoring system 1 for industrial facilities shown in FIG. 1 is disposed for each industrial facility in a factory, for example, and is disposed for each industrial facility and a power measuring unit 2 that measures the power amount of the industrial facility for each set cycle. The PC terminal 3 that collects the amount of power that is the measurement result of the plurality of power measurement units 2 and the communication conversion device 4 that manages the communication interface between the power measurement unit 2 and the PC terminal 3 are provided. The communication conversion device 4 is for communication connection with the communication line 5A with the power measurement unit 2 and the communication line 5B with the PC terminal 3, and the communication method is mutually converted with the communication line 5A and the communication line 5B. is there.

  The power measurement unit 2 includes a power measurement unit 11 that measures the power amount of the industrial equipment every set period, for example, every hour, a unit-side memory unit 12 that sequentially stores the power amount measured by the power measurement unit 11, For example, the unit-side display unit 13 that displays various information such as an alarm display, the unit-side acoustic output unit 14 that acoustically outputs various information such as an alarm sound, and various information such as a target power amount as a threshold, A unit-side setting unit 15 that sets a setting cycle, a unit-side communication interface 16 that controls a communication interface with the communication conversion device 4, and a unit-side control unit 17 that controls the entire power measurement unit 2 are provided.

  The unit-side control unit 17 measures the amount of power in the power measurement unit 11 for each set cycle, and sequentially stores the power amount as a measurement result in the unit-side memory unit 12 for each set cycle. Note that the unit-side memory unit 12 stores and holds a maximum of 5000 electric energy in a first-in / last-out system.

  The power measurement unit 2 is assigned a unit number for identifying the power measurement unit 2 and a group number to which the power measurement unit 2 belongs.

  The PC terminal 3 includes a communication unit 21 that controls a communication interface with the communication conversion device 4, a display unit 22 that displays various information, an acoustic output unit 23 that acoustically outputs various information, various setting commands, and the like. An operation unit 24 for inputting, a memory unit 25 for storing various information, and a CPU 26 for controlling the entire PC terminal 3. The CPU 26 includes a communication control unit 31 that controls communication of the communication unit 21, for example, Each power measurement unit 2 includes a threshold determination unit 32 that determines whether or not the power amount exceeds the target power amount, and a control unit 33 that controls the entire CPU 26. The sound output unit 23 outputs various information by using a sound output driver on a personal computer.

  The CPU 26 sets a target power amount as a threshold in unit number units through the operation unit 24, stores the target power amount in the memory unit 25 in unit number units, and converts the target power amount into the communication unit 21 and the communication conversion. The target power amount is set and changed for the power measurement unit 2 having the same unit number through the device 4.

  When the CPU 26 detects a power amount request command at a specified time for the power measurement unit 2 to be collected through the operation unit 24, the CPU 26 sequentially accesses the power measurement unit 2 to be collected through the communication unit 21 and the communication conversion device 4. The power amount at the specified time is sequentially acquired from the power measuring unit 2 being accessed, and the power amount at the specified time is sequentially stored in the memory unit 25 in units of the same unit number.

  When the CPU 26 detects the individual power amount list display command at the specified time through the operation unit 24, the CPU 26 displays the power amount at the specified time stored in the memory unit 25 on the display unit 22 in units of unit numbers.

  Further, the CPU 26 determines whether or not the power amount at the same specified time exceeds the target power amount being set in the unit number unit by the threshold determination unit 32, and the power amount at the specified time is set as the target power amount being set. If it does not exceed, the same amount of electric power is normally displayed (see reference numeral 50A in FIG. 5), whereas if the amount of electric power exceeds the target electric energy being set, the same amount of electric power is displayed as a warning (see FIG. 5), and a warning sound is acoustically output from the acoustic output unit 23 in conjunction with the warning display. In the warning display, for example, the power amount display portion is identified and displayed in red or yellow.

  The setting cycle for setting the power amount measurement timing of the power measurement unit 2 can be changed through the unit-side setting unit 15, but the CPU 26 is further connected to the power measurement unit 2 in the system for communication. It is also possible to change the setting cycle of the power measurement unit 2 through 24. In addition, it is desirable that all the power measurement units 2 in the system have the same setting cycle.

  FIG. 2 is an explanatory diagram simply showing the table contents of the memory unit 25 in the PC terminal 3 according to the present embodiment.

  The memory unit 25 shown in FIG. 2 includes a unit name 25A indicating the name of the power measurement unit 2, a unit number 25B for identifying the power measurement unit 2, and a unit to which the power measurement unit 2 belongs. A group number 25C for identifying a group to be used, a degree of attention 25D indicating the degree of attention of the power measurement unit 2, a target power amount 25E indicating a threshold being set in the power measurement unit 2, and a group of the power measurement unit 2 Group target power amount 25F indicating the threshold value being set to the latest value, latest measured value 25G indicating the power amount at the latest time, one hour previous measured value 25H indicating the power amount one hour before the latest time, and 2 from the latest time A two-hour measurement value 25I indicating the amount of power before the time is stored and managed.

  In addition to the latest measurement value 25G, 1 hour measurement value 25H, and 2 hour measurement value 25I for each power measurement unit 2, the memory unit 25 stores measurement values from 3 hours to 48 hours ago in time units. In addition to storage management, it is assumed that the daily power consumption and the monthly power consumption are stored and managed for each power measurement unit 2.

  In addition, the attention level 25D is classified into, for example, three ranks A to C in order to differentiate for each power measurement unit 2, and the attention level is sequentially increased in order of C → B → A.

  The control unit 33 can change the setting of the unit name 25A, unit number 25B, group number 25C, attention degree 25D, target power amount 25E, and group target power amount 25F stored in the memory unit 25 through the operation unit 24. .

  The power amount monitoring system according to the claims is the industrial facility power amount monitoring system 1, the power amount measuring means is the power measuring unit 11, the power measuring unit is the power measuring unit 2, the communication terminal is the PC terminal 3, and the storage means is the memory. 25, the display means corresponds to the display section 22, the control means corresponds to the CPU 26, the power storage means corresponds to the unit side memory section 12, the identification code corresponds to the unit number 25B, and the group identification code corresponds to the group number 25C.

  Next, operation | movement of the electric energy monitoring system 1 for industrial facilities which shows this Embodiment is demonstrated. FIG. 3 is a flowchart showing the processing operation of the CPU 26 related to the power amount collection processing of the PC terminal 3 according to the present embodiment.

  The power amount collection process shown in FIG. 3 is a process of collecting the power amount related to the specified time from each power measurement unit 2 to be collected on the PC terminal 3 side.

  In FIG. 3, when the CPU 26 of the PC terminal 3 detects a request command for collecting the power amount at the designated time for each power measurement unit 2 through the operation unit 24, the CPU 26 starts the power amount collecting operation at the designated time (step S11). It is assumed that the request command is performed by specifying the collection target time and the power measurement unit 2 through the operation unit 24.

  When starting the power amount collection operation, the communication control unit 31 of the CPU 26 performs communication access to the power measurement unit 2 having the unit number “001” through the communication unit 21 and the communication conversion device 4 (step S12). The communication control unit 31 sequentially executes communication access to the power measurement unit 2 based on the order of the unit numbers 25B stored in the memory unit 25.

  The control unit 33 of the CPU 26 determines whether or not the power measurement unit 2 currently accessing the communication has acquired the power amount at the specified time stored in the unit-side memory unit 12 within the timeout period (step S13). . Note that the timeout time starts the timer operation of the timeout time according to the communication access operation.

  When the control unit 33 acquires the power amount at the designated time within the timeout time for the power measurement unit 2 currently accessing communication in step S13, the control unit 33 associates the power amount with the unit number 25B of the power measurement unit 2. Is stored in the memory unit 25 (step S14).

  Based on the unit number 25B of the memory unit 25, the control unit 33 determines whether or not there is a power measurement unit 2 with the next unit number 25B related to the power measurement unit 2 currently accessing the communication (step S15).

  If it is determined that there is a power measurement unit 2 with the next unit number 25B, the communication control unit 31 performs communication access to the power measurement unit 2 with the next unit number 25B (step S16). In order to acquire the electric energy at the designated time for the electric power measurement unit 2 in the middle, the process proceeds to step S13.

  Further, when it is determined in step S15 that there is no power measurement unit 2 of the next unit number 25B, the control unit 33 completes the collection operation of the power amount at the specified time from all the power measurement units 2 to be collected. It is determined whether or not (step S17).

  If the power amount collecting operation has been completed from all the power measurement units 2 to be collected, the control unit 33 ends the processing operation of this power amount collecting process.

  If the control unit 33 cannot acquire the power amount at the specified time from the power measurement unit 2 that is accessing the communication within the timeout time in step S13, the power amount for the power measurement unit 2 that is currently accessing the communication. In order to search for the power measurement unit 2 of the next unit number 25B related to the power measurement unit 2 currently accessing communication, the process proceeds to step S15.

  Moreover, the communication control part 31 will measure the unacquired power amount at the specified time unless the power amount collecting operation at the specified time is completed for all the power measurement units 2 to be collected in step S17. It is determined that the unit 2 is present, and communication access to the unacquired power measurement unit 2 is executed (step S18). The unacquired power measurement unit 18 corresponds to, for example, the power measurement unit 2 that has not been able to acquire the power amount at the specified time within the timeout time in step S13.

  When executing communication access to the power measurement unit 2, the control unit 33 starts a power amount acquisition operation for acquiring the power amount at a specified time stored in the unit-side memory 12 for the power measurement unit 2, and timed out. It is determined whether or not the amount of power at the specified time can be acquired within the time (step S19).

  If the control unit 33 can acquire the power amount at the specified time within the timeout time, the control unit 33 stores the power amount in the memory unit 25 in association with the unit number 25B of the power measurement unit 2. (Step S20), the process proceeds to Step S17 in order to determine whether or not the power amount collecting operation of all the power measurement units 2 to be acquired has been completed.

  In addition, when the control unit 33 cannot acquire the electric energy at the specified time within the timeout time in step S19, the control unit 33 proceeds to step S17 to execute a retry operation. Although not shown, if the retry operation is executed several times and the number of retries exceeds a predetermined number, it is determined that there is a communication error to the power measurement unit 2 and a communication error error is displayed on the display unit 22. May be displayed, and the processing operation of the power amount display processing may be terminated.

  According to the power amount collection process shown in FIG. 3, when the power measuring unit 11 in the power measuring unit 2 measures the power amount of the same industrial equipment for each set cycle, the power amount of the power measuring unit 11 is set to the same set cycle. When the power measurement unit 2 side is provided with a unit-side memory unit 12 that sequentially stores each time, and the CPU 26 of the PC terminal 3 detects a request command for the power amount at a specified time for the power measurement unit 2 to be collected, The power measurement unit 2 is connected in communication, and the power amount at the same designated time stored in the unit-side memory unit 12 of each power measurement unit 2 is sequentially acquired, and the obtained power amount at the designated time is obtained for each power measurement unit 2. Since it memorize | stores in the memory part 25, PC terminal 3 can collect the electric energy of the same designated time reliably from each electric power measurement unit 2 of collection object.

  Further, according to the power amount collection process shown in FIG. 3, when a request command for the power amount at a specified time for the power measurement unit 2 to be collected is detected, each power measurement unit 2 communicates with each power measurement unit 2 to be collected. When there is an unacquired power measurement unit 2 that cannot acquire the same amount of power among the power measurement units 2 to be collected after performing the operation of collecting the amount of power at the same designated time on the unit 2, Reconnect to the unacquired power measurement unit 2 again, acquire the power amount at the specified time stored in the unit-side memory unit 12 of the unacquired power measurement unit 2, and Since the power amount is stored in the memory unit 25 for each power measurement unit 2, even if a temporary communication failure occurs between the PC terminal 3 and the power measurement unit 2, the unit side memory unit 12 Since the amount of power at the same specified time stored can be acquired on the PC terminal 3 side, the amount of power at the same specified time of all power measurement units 2 to be acquired on the PC terminal 3 side can be reliably determined on the PC terminal 3 side. Can be collected.

  FIG. 4 is a flowchart showing the processing operation of the CPU 26 related to the power amount display processing of the PC terminal 3 according to the present embodiment.

  The power amount display process shown in FIG. 4 displays the power amount at a specified time for each power measurement unit 2 based on the power amount stored in the memory unit 25 of the PC terminal 3, and the power amount indicates the target power amount. When it exceeds, a warning display is displayed and a warning sound is acoustically output in conjunction with the warning display.

  In FIG. 4, when the control unit 33 of the CPU 26 detects the individual power amount list display command for displaying the individual power amount list display 50 shown in FIG. 5 through the operation unit 24, the power at the specified time of the power measurement unit 2 to be displayed. The amount and the target power amount 25E are read from the memory unit 25 (step S31), and it is determined whether or not the same power amount exceeds the target power amount 25E (step S32).

  If the power amount does not exceed the target power amount 25E, the control unit 33 causes the display unit 22 to display a normal power display 50A that displays the power amount as shown in FIG. 5 (step S33). The processing operation related to the power amount display process of the power measurement unit 2 is terminated.

  In addition, when the same power amount exceeds the target power amount 25E in step S32, the control unit 33 refers to the memory content of the memory unit 25 and the attention degree 25D corresponding to the power measurement unit 2 is “ It is determined whether or not A ″ (step S34).

  When it is determined that the degree of attention 25D is “A”, the control unit 33 displays a warning display 50B corresponding to the degree of attention “A” on the display unit 22, and in conjunction with the warning display 50B. By outputting a warning sound corresponding to the degree “A” from the sound output unit 23 (step S35), the processing operation related to the power amount display processing of the power measuring unit 2 is ended. The warning display of the attention level “A” is, for example, a red lighting display of the power amount display part.

  If it is determined in step S34 that the attention level 25D corresponding to the same power measurement unit 2 is not “A”, the attention level 25D corresponding to the same power measurement unit 2 is “B”. It is determined whether or not (step S36).

  When it is determined that the attention level 25D is “B”, the control unit 33 causes the display unit 22 to display a warning display 50B corresponding to the attention level “B”, and the same attention level in conjunction with the warning display. By outputting a warning sound corresponding to “B” from the sound output unit 23 (step S37), the processing operation related to the power amount display processing of the power measuring unit 2 is ended. In addition, the warning display of the attention level “B” is, for example, a red blinking display of the power amount display part.

  When it is determined in step S36 that the degree of attention corresponding to the power measurement unit 2 is not “B”, the control unit 33 determines that the degree of attention corresponding to the power measurement unit 2 is “C”. A warning display 50B corresponding to the degree “C” is displayed on the display unit 22, and a warning sound corresponding to the degree of attention “C” is acoustically output from the sound output unit 23 in conjunction with the warning display (step S38), the processing operation related to the power amount display processing of the power measuring unit 2 is ended. Note that the warning display of the attention level “C” is, for example, a yellow lighting display of the power amount display part.

  In the power amount display process, in the individual power amount list display 50, for each power measurement unit 2 (unit number), it is sequentially determined whether or not the power amount at the specified time exceeds the target power amount, and the determination result is supported. The displayed information is sequentially executed for each unit number.

  According to the power amount display processing shown in FIG. 4, when the threshold determination unit 32 determines that the power amount of the power measurement unit 2 exceeds the target power amount 25E, it corresponds to the degree of attention 25D of the power measurement unit 2. Since the warning display 50B is displayed on the display unit 22 and the warning sound corresponding to the same degree of attention 25D is output to the sound output unit 23 in conjunction with the warning display, the user can set the power amount to the target power. The power measurement unit 2 that can visually and audibly recognize the power measurement unit 2 that exceeds the amount, and for example, the power measurement unit 2 that has exceeded the target power amount by the color or display form of the warning display or the tone of the warning sound. It is possible to recognize the degree of attention of the installation location.

  According to the present embodiment, when the electric power measurement unit 11 in the electric power measurement unit 2 measures the electric energy of the industrial facility for each set cycle, the electric power amount of the electric power measurement unit 11 is sequentially stored for each set cycle. The unit-side memory unit 12 is provided on the power measurement unit 2 side. When the CPU 26 of the PC terminal 3 detects a request command for the amount of power at a specified time, the CPU 26 communicates with each power measurement unit 2 to be collected and connects each power measurement unit. The power amount at the specified time stored in the unit-side memory unit 12 is sequentially acquired, and the acquired power amount at the specified time is stored in the memory unit 25 for each power measurement unit 2 and each power to be collected is stored. After performing communication connection with the measurement unit 2 and performing an operation for acquiring the power amount at the same designated time for each power measurement unit 2, the same power amount cannot be acquired from the power measurement units 2 to be collected. If there is an unacquired power measurement unit 2, communication connection is again made to the unacquired power measurement unit 2, and the same data stored in the unit-side memory unit 12 of the unacquired power measurement unit 2 is stored. Since the power amount at the specified time is acquired and the acquired power amount at the specified time is stored in the memory unit 25 for each power measurement unit 2, temporarily between the PC terminal 3 and the power measurement unit 2. Even if a communication failure occurs, the unit-side memory unit 12 is provided for each power measurement unit 2, so that the amount of power at the same specified time stored in the unit-side memory unit 12 can be acquired on the PC terminal 3 side. Therefore, the PC terminal 3 side can reliably collect the power amount at the same designated time of all the power measuring units 2 to be collected on the PC terminal 3 side, and as a result, industrial equipment that consumes a huge amount of power It can contribute greatly to the amount of power management.

  In the above embodiment, when the individual power amount list display command is detected through the operation unit 24, the power amount at the specified time stored in the memory unit 25 is displayed in units of unit numbers as shown in FIG. As shown in FIGS. 6 and 7, for example, when a daily power display command is detected, a daily power display 60 indicating the power amount on the specified date of the power measuring unit 2 to be specified in time units is shown. The daily report power amount display 60 shown in FIG. 6 may include a unit number 60A for identifying the power measurement unit 2 to be displayed, a target power value 60B, and 0:00 to 23:00. And the user can recognize the transition of the electric energy until 0-18 o'clock in the electric power measurement unit 2 with the unit number “001” in FIG. Amount of power until the current 18 from 0:00 can also be recognized that it is less than the target power value.

  In addition, in the daily report power amount display 60 shown in FIG. 7, the power amount from 0 to 16:00 in the power measurement unit 2 with the unit number “002” is displayed, and the current power amount at 16:00 indicates the target power amount. This indicates that the display portion of the unit number 60A is lit red, and the user can recognize the transition of the electric energy from 0 to 16:00 and the current electric energy at 16:00 Can be recognized as exceeding the target electric energy. Furthermore, it is possible to recognize that the degree of attention of the power measurement unit 2 exceeding the target power amount is “B” based on the red lighting state of the display portion of the unit number 60A and the sound output of the warning sound.

  In the above embodiment, when the individual power amount list display command is detected through the operation unit 24, the power amount at the same designated time stored in the memory unit 25 is displayed in units of unit numbers as shown in FIG. In the embodiment shown in FIG. 22, when the group power amount list display command at the specified time is detected through the operation unit 24, the power amounts stored at the specified time stored in the memory unit 25 are totaled in units of groups. The total result of the group unit may be displayed on the display unit 22 in units of group number. In this case, the threshold target determination unit 32 sets the total target power amount 25F for which the total result of the specified time is set in units of group numbers. If the total result does not exceed the set target group power consumption 25F, the total result is displayed normally while the total result is If it exceeds the set group target power amount 25F, a warning display is displayed in addition to the total result, and a warning sound is acoustically output from the sound output unit 23 in conjunction with the warning display. Well, in this case, the user can audibly recognize a group in which the power amount of the group exceeds the group target power amount 25F by a warning sound in addition to the visual warning display. Therefore, it is possible to respond quickly to an increase in the amount of power.

  In addition, by setting and storing the attention level for each group number, when the total result of the specified time exceeds the group target power amount in the group power list display, it corresponds to the attention level of the same group The alarm display to be performed may be displayed on the display unit 22 and the sound output corresponding to the same attention level may be acoustically output to the sound output unit 23 in conjunction with the warning display. A group in which the total amount of power exceeds the group target power amount 25F can be visually and audibly recognized, and for example, the power amount is set to the group target by the color of the warning display, the display form, and the tone of the warning sound. It is possible to recognize the attention level of a group that exceeds the amount of power.

  According to the power amount monitoring system of the present invention, when the power amount of the industrial equipment is measured for each set period by the power amount measuring means, the power amount as a measurement result of the power amount measuring means is sequentially stored for each set period. And a communication terminal control unit that communicates with each of the power measurement units to be collected upon detecting a request command for the power amount at a specified time for the power measurement unit to be collected. Then, the power amount storage means of each power measurement unit sequentially acquires the power amount at the same designated time being stored, and the obtained power amount at the designated time is stored in the storage means for each power measurement unit. In other words, even if a temporary communication failure occurs between the communication terminal and the power measurement unit, the power amount at the same designated time is stored in the power amount storage means in each power measurement unit. Therefore, the communication terminal side can collect the power amount at the same designated time stored in the power amount storage means in the same power measurement unit, so the communication terminal side designates all the power measurement units to be collected identically. The amount of power at the time can be reliably collected on the communication terminal (personal computer) side, which is useful for power amount management of industrial facilities that consume enormous amounts of power.

It is a block diagram which shows schematic structure inside the electric energy monitoring system for industrial facilities which shows embodiment in the electric energy monitoring system of this invention. It is explanatory drawing which shows directly the table content of the memory part of the PC terminal in connection with this Embodiment. It is a flowchart which shows the processing operation of CPU which concerns on the electric energy collection process of the PC terminal in connection with this Embodiment. It is a flowchart which shows the processing operation of CPU in connection with the electric energy display process of the PC terminal in connection with this Embodiment. It is explanatory drawing which shows directly the display content in connection with an electric energy display process in the display part of the PC terminal in connection with this Embodiment. It is explanatory drawing which shows directly the display content (at the time of normal) of a power measurement unit unit in the display part of the PC terminal in connection with this Embodiment. It is explanatory drawing which shows directly the display content (when exceeding the target electric energy) in the power measurement unit unit in the display part of the PC terminal concerning this Embodiment.

Explanation of symbols

1. Electricity monitoring system for industrial facilities (electricity monitoring system)
2 Power measurement unit 3 PC terminal (communication terminal)
11 Electric power measurement unit (electric energy measurement means)
12 Unit side memory unit (electric energy storage means)
22 Display section (display means)
25 Memory part (storage means)
26 CPU (control means)

Claims (2)

A power measuring unit provided with a power amount measuring means for measuring the power amount of the industrial equipment, and a communication terminal that communicates with the power measuring unit and acquires a power amount as a measurement result from each power measuring unit, and When the communication terminal obtains the power amount for each power measurement unit, the storage unit stores the power amount for each power measurement unit, and the power amount of the power measurement unit based on the power amount stored in the storage unit A power amount monitoring system having a control means for displaying on a display means,
The power measurement unit has power amount storage means for sequentially storing the power amount of the power amount measuring means for each set period when the power amount measuring means measures the power amount of the same industrial equipment for each set period. And
When the control unit detects a request command for the power amount at a specified time for the power measurement unit to be collected, the control unit is connected to each power measurement unit to be collected and is stored in the power amount storage unit of each power measurement unit. sequentially obtain the amount of power the specified time, is configured to power amount of the obtained specified time to store in the storage means for each power measurement unit Rutotomoni, and communication connection with the power measurement unit of the collection target If there is a power measurement unit that has not acquired the same amount of power among the power measurement units to be collected when the acquisition operation of the amount of power at the same specified time is executed for each power measurement unit The operation for acquiring the power amount at the same specified time stored in the power amount storage means of the current power measurement unit is performed again, and the power amount at the specified time acquired by the second acquisition operation is stored again. Is configured to store in the storage means for each Tsu bets,
The communication terminal is configured to be communicably connected to the power measurement unit so that the setting cycle of the power measurement unit can be changed. The amount of power as a measurement result for each power measurement unit is
Including an identification code for identifying the power measurement unit, and a group identification code to which the power measurement unit belongs,
The control means includes
The power amount is totaled for each group identification code based on the power amount of the power measurement unit stored in the storage means, and the totalization result is displayed on the display means for each group identification code. The power amount monitoring system according to claim 1.

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