JP2012090483A - Display method for power information - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display method for power information, capable of facilitating grasping of the power information on an identical screen.SOLUTION: The display method for power information schematically displays, on a display unit 11, a plurality of facilities provided with equipment for managing electric power with a power management apparatus 10 and power paths for connecting respective equipment in the plurality of facilities. The power management apparatus 10 acquires power information of the equipment and outputs a signal corresponding to the power information of the equipment on the display unit 11. The display unit 11 displays the plurality of facilities for each facility as well as the presence/absence of electric power and its running direction on a power route display unit 20, and numerically displays the power information on the respective equipment.

Description

  The present invention relates to a method for displaying power information, and more particularly, to a method for displaying power information in which a plurality of facilities including facilities whose power is to be managed are displayed on a screen.

  In recent years, it has been considered to effectively use energy by using a secondary battery. For example, solar cell modules have been actively developed as environmentally friendly clean energy, but solar cell modules that convert sunlight into electric power do not have a power storage function and are therefore used in combination with secondary batteries. Sometimes. For example, energy is effectively utilized by charge / discharge control in which generated power generated by a solar cell module is temporarily charged in a secondary battery and discharged from the secondary battery in accordance with required power of an external load. In addition to the generated power generated by the solar cell module, the secondary battery is temporarily charged with the commercial power supplied from the commercial power source. From the secondary battery according to the required power of the external load, etc. The energy is further effectively utilized by discharging necessary power.

  As a technique related to the present invention, for example, Patent Document 1 discloses a power generation amount display device that includes a wind power generator and a solar power generator and displays the power generation amounts of the wind power generator and the solar power generator. ing. Here, a changeover switch is connected to the wind power generator and the solar power generator, a power measurement element is connected to the changeover switch, and a storage device is further connected to the power measurement element. It is described that the battery is stored in the storage battery connected to the machine, and the signal of the storage device is transmitted to the display board and displayed.

JP 2005-318665 A

  By the way, in a plurality of facilities provided with facilities whose power is to be managed, as described above, when a plurality of types of power such as generated power of a solar cell module, discharged power of a secondary battery, and commercial power of a commercial power source are used. Since the number of objects to be managed increases, power management becomes complicated.

  The objective of this invention is providing the display method of the power information which can grasp | ascertain power information easily on the same screen.

  The power information display method according to the present invention schematically displays a plurality of facilities including facilities whose power is managed by the power management apparatus and power paths connecting the facilities of the plurality of facilities on the display unit. A method for displaying power information, in which the power management apparatus acquires information on the power of the equipment and outputs a signal corresponding to the information on the power of the equipment to the display section. It is characterized in that the presence / absence of power and the direction in which the power flows are displayed on the power path, and the power information related to each facility is displayed numerically.

  According to the above configuration, on the same screen, the presence / absence of power and the direction in which the power flows are visually displayed and the power information is displayed in numbers, so that the power information can be easily obtained from a quantitative and qualitative viewpoint. I can grasp it.

In embodiment which concerns on this invention, it is a figure which shows the relationship between the power management system and the power management object facility power-managed by a power management system. In embodiment which concerns on this invention, it is a figure which shows the power information display screen (The screen which displayed the sketch of the power management object facility, and reflected each power information) displayed on the display part of a power management system. is there. In embodiment which concerns on this invention, it is the figure which displayed the detailed figure of the electric power information of D ridge on the electric power information display screen displayed on the display part of an electric power management system.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. In the following description, the secondary battery is described as being a lithium ion secondary battery, but other storage batteries that can be charged and discharged may be used. For example, a nickel hydrogen secondary battery, a nickel cadmium storage battery, a lead storage battery, a metal lithium secondary battery, or the like may be used.

  Also, in the following, in all the drawings, the same symbols are attached to the same elements, and the duplicate description is omitted. In the description in the text, the symbols described before are used as necessary.

  FIG. 1 is a diagram illustrating a relationship between a power management apparatus 10 and a power management target facility 100 managed by the power management apparatus 10. The power management apparatus 10 is an arithmetic processing apparatus having a predetermined arithmetic processing function, and includes a display unit 11. The power management apparatus 10 has a function of managing equipment provided in the power management target facility 100. Specifically, the power management apparatus 10 forms a signal for controlling the equipment provided in the power management target facility 100 and transmits this signal to a predetermined facility in the power management target facility 100. In addition, the power management apparatus 10 receives information on the power of the equipment provided in the power management target facility 100 and displays the content of this information on the display unit 11. The display unit 11 may be a display device provided integrally with the power management device 10 or may be a display device provided separately from the power management device 10.

  The power management target facility 100 includes a building A 102, a building B 104, a building C 106, a building D 108, and a commercial power source 110. Here, although it has been described that the power management target facility 100 includes the commercial power source 110, the commercial power source 110 is merely managed to acquire and display information on the commercial power amount of the commercial power source 110. 110 power control is not performed. In addition, although it is assumed here that the power management target facility 100 includes the commercial power source 110, the commercial power source 110 may be excluded from the configuration of the power management target facility 100.

  Building A 102 is a facility that includes a solar cell module unit 102a, a load unit 102b, and a secondary battery unit 102c. Building B 104 is a facility that includes a solar cell module section 104a, a load section 104b, and a secondary battery section 104c. C ridge 106 is a facility including a solar cell module part 106a and a load part 106b. D ridge 108 is a facility that includes a solar cell module part 108a, a load part 108b, and a secondary battery part 108c. The commercial power source 110 is a power supply source that supplies commercial power to each building, and corresponds to, for example, a power supply facility such as a power company that supplies commercial power.

  Each of the solar cell module units 102a to 108a has a plurality of solar cell modules that convert sunlight into electric power, and each solar cell module is installed on the rooftop of each building and generates electric power.

  The load units 102b to 108b have a plurality of loads used in each building, and each load is, for example, lighting that illuminates the room, air conditioning that adjusts the temperature in the room, a personal computer, a copy machine, and the like.

  Here, the generated power generated by the solar cell module unit 102 a is mainly used for the load unit 102 b in the A building 102. In addition, the generated power generated by the solar cell module unit 104 a is mainly used for the load unit 104 b in the B building 104, but it is also possible to supply surplus power to facilities other than the B building 104. . The generated power generated by the solar cell module unit 106 a is mainly used for the load unit 106 b in the C building 106, but it is also possible to supply surplus power to facilities other than the C building 106. . Further, the generated power generated by the solar cell module unit 108 a is mainly used for the load unit 108 b in the D building 108.

  Each of the secondary battery parts 102c, 104c, and 108c includes a negative electrode made of a carbon material, an electrolytic solution for moving lithium ions, and a positive electrode active material capable of reversing lithium ions. A plurality of secondary batteries are provided. The secondary battery units 102c and 108c are mainly used when the generated power generated by the solar cell module units 102a and 108a during the sunshine hours is supplied to the corresponding load units 102b and 108b, respectively. It functions as a storage battery that charges the excess power. The secondary battery unit 104c mainly functions as a storage battery that charges the commercial power of the commercial power supply 110 in a midnight time zone where the electricity bill is cheap.

  The power management apparatus 10 acquires the power information of each building such as the power generation amount of the solar cell module units 102a to 108a, the load power of the load units 102b to 108b, and the storage amount of the secondary battery units 102c to 108c, Power information related to the power management target facility 100 is displayed on the display unit 11.

FIG. 2 is a diagram illustrating a power information display screen (a screen that schematically displays a floor plan of the power management target facility 100 and reflects each power information) displayed on the display unit 11 of the power management apparatus 10. The power information display screen of the display unit 11 includes a building A display unit 12, a building B display unit 14, a building C display unit 16, a building D display unit 18, a system power supply display unit 19, and a power path display unit. 20, weather information display unit 22, total electric energy display units 24, 26, 28, 30, total CO ₂ reduction display units 25, 27, 29, 31, and grid interconnection display units 40, 41. , 42.

  The power path display unit 20 is a display area that schematically displays the flow of power on the power lines connecting the facilities of each building, and the annular path 201 that is circular in the central portion between the buildings, It includes an extension path connecting between the path 201 and each facility in each building. The power path display unit 20 has a function of displaying the presence or absence of each power. Specifically, the generated power (PV (Photo Voltage) power) of the solar cell module parts 102a to 108a, the discharged power (LiB (Li-ion Battery) power) of the secondary battery parts 102c to 108c, and the commercial power supply 110 When power is flowing, an arrow mark is displayed as shown in FIG. In particular, in the extension path of the power path display unit 20, the direction in which power flows can be displayed according to the direction indicated by the tip of the arrow mark. Further, the color and pattern of the arrow mark can be changed depending on the type of electric power, and here, description will be made assuming that the color and pattern of commercial power and other electric power (PV power, LiB power) are changed.

The A building display unit 12 is a display region that schematically displays information on the power of the A building 102, and includes a solar cell module display unit 12a, a secondary battery display unit 12c, a power generation amount display unit 12d, and a storage amount. The display area includes a display unit 12e, a load information display unit 12f, and a CO ₂ reduction amount display unit 12g.

  In the solar cell module display unit 12a, a schematic diagram representing one solar cell module among the solar cell module units 102a provided in the A building 102 is displayed as a representative. In addition, the solar cell module display unit 12 a is provided on an extension path 202 that extends from the annular path 201 toward the A building display unit 12 in the power path display unit 20.

  In the secondary battery display unit 12c, a schematic diagram representing one secondary battery in the secondary battery unit 102c is displayed as a representative. In addition, the secondary battery display unit 12 c is provided on an extension path 202 that extends from the annular path 201 toward the A building display unit 12 in the power path display unit 20.

  The power generation amount display unit 12d displays the total power generation amount of each solar cell module of the solar cell module unit 102a as a number. The power generation amount display unit 12d is disposed in the vicinity of the solar cell module display unit 12a.

  The storage amount display unit 12e displays the total storage amount of each secondary battery in the secondary battery display unit 12c as a number. Further, the storage amount display unit 12e is disposed in the vicinity of the secondary battery display unit 12c.

  The load information display unit 12f includes the power value of the load power that is the required power of the load unit 102b, the PV power of the solar cell module unit 102a, the LiB power of the secondary battery unit 102c, and the commercial power of the commercial power source 110. As a breakdown of the power that is being supplied to the load power, the power value of each power is displayed numerically together with the power value of the load power.

  Here, the load information display unit 12 f is provided on the extension route 202 extending from the annular route 201 toward the A building display unit 12 in the power route display unit 20. The background color of the load information display unit 12f is described as being displayed in a color different from that of the power generation amount display unit 12d and the power storage amount display unit 12e, but the background pattern of the load information display unit 12f is the power generation amount. The display unit 12d and the stored electricity amount display unit 12e may be displayed with different background patterns.

CO ₂ reduction amount display section 12g is shown as a number of CO ₂ reduction in building A 102. Here, the CO ₂ reduction amount is a value obtained by adding the reduction amount due to commercial power of the commercial power source 110 and the reduction amount due to self-supplied power other than the commercial power source 110. The commercial power of the commercial power source 110 is composed of hydroelectric power, nuclear power, thermal power, and the like. Among these, the hydroelectric power uses natural energy and thus has a CO ₂ reduction effect. . Compared with thermal power generation power, nuclear power generation has a CO ₂ reduction effect, and therefore, the amount of CO ₂ reduction by the commercial power of the commercial power source 110 is required based on the type of power used. And if the power consumption of the load part 102b of the building A 102 is partially or fully covered by the self-supplied power other than the commercial power supply 110, the CO ₂ reduction amount by the self-supplied power other than the commercial power supply 110 is calculated based on the self-supplied power value. Can be sought.

  Here, as shown in FIG. 2, the solar cell module display unit 12a, the secondary battery display unit 12c, and the load information display unit 12f are connected to the display area of the A building display unit 12 by the extension path 202. The situation is shown. Thereby, the power information in the A building 102 can be visually grasped by the display of the A building display unit 12. In the B building display unit 14, the C building display unit 16, and the D building display unit 18, each facility is similarly connected by the extending path unit.

The B building display unit 14 is a display region that schematically displays information on the power of the B building 104, and includes a solar cell module display unit 14a, a secondary battery display unit 14c, a power generation amount display unit 14d, and a storage amount. A display unit 14e, a load information display unit 14f, and a CO ₂ reduction amount display unit 14g are included. The B building display unit 14 is a display region for displaying power information regarding each facility of the B building 104, and the display region is the same as that of the A building display unit 12 described above, and thus detailed description thereof is omitted.

The C building display unit 16 is a display area that schematically displays information on the power of the C building 106, and includes a solar cell module display unit 16a, a power generation amount display unit 16d, a load information display unit 16f, and a CO ₂ reduction. And a quantity display unit 16g. The C building display unit 16 is a display region for displaying power information regarding each facility of the C building 106, and since the display region is the same as that of the A building display unit 12 described above, detailed description thereof is omitted.

The D building display unit 18 is a display region that schematically displays the power information of the D building 108, and includes a solar cell module display unit 18a, a secondary battery display unit 18c, a power generation amount display unit 18d, and a storage amount. A display unit 18e, a load information display unit 18f, and a CO ₂ reduction amount display unit 18g are included. The D building display unit 18 is a display region for displaying power information regarding each facility of the D building 118, and the display region is the same as that of the A building display unit 12 described above, and thus detailed description thereof is omitted.

  The system power source display unit 19 is a display area including a commercial power amount display unit 19a that displays the amount of commercial power in the commercial power source 110 as a number.

  The weather information display unit 22 is a display area that displays the amount of solar radiation, temperature, and humidity as numbers as weather information around the power management target facility 100.

  The total power amount display unit 24 is a display area that displays the total power value of PV power, the total power value of LiB power, the total power value of commercial power, and the total power value of load power in numbers. Here, the total power value of the PV power is a total value of the power values of the PV powers of the load information display units 12f to 18f. Moreover, the total power value of LiB power is the total value of the power values of each LiB power in the load information display units 12f to 18f. And the total power value of commercial power is a total value of the power value of each commercial power of the load information display parts 12f-18f. The total power value of the load power is a total value of the power values of the load powers of the load information display units 12f to 18f.

The CO ₂ reduction amount total value display unit 25 is a display area that displays the total value of the CO ₂ reduction amount as a number. Here, the total value of the CO ₂ reduction amount is the total value of the CO ₂ reduction of CO ₂ reduction amount display unit 12G～18g.

On the same screen of the display unit 11 of the power management apparatus 10, the total amount of power display unit 24 includes a building A display unit 12, a building B display unit 14, a building C display unit 16, and a building D display unit 18. The system power source display unit 19, the power path display unit 20, and the weather information display unit 22 are arranged in different areas. The CO ₂ reduction amount display unit 25 is disposed in the vicinity of the total power amount display unit 24.

  The total power amount display unit 26 calculates the total power value of PV power, the total power value of LiB power, the total power value of commercial power, and the total power value of load power in units of one day. This is a display area where the results are displayed numerically. Here, the total power value of the PV power is a power value obtained by calculating one day as a unit for the total power value of the PV power in the total power amount display unit 24. Further, the total power value of LiB power is a power value obtained by calculating the total power value of LiB power in the power amount total value display unit 24 in units of one day. The total power value of the commercial power is a power value obtained by calculating one day as a unit for the total power value of the commercial power in the total power amount display unit 24. The total power value of the load power is a power value obtained by calculating the total power value of the load power in the total power amount display unit 24 in units of one day.

The CO ₂ reduction amount total value display unit 27 is a display area for calculating the total value of CO ₂ reduction amounts in units of one day and displaying the result in numbers. Here, the total value of the CO ₂ reductions, for a total reduction value of CO ₂ reduction amount sum display section 25, the total value of the CO ₂ reduction amount obtained by calculating the daily units.

  The power amount total value display unit 28 is a display area similar to the power amount total value display unit 26, and for each total power value, as in the power amount total value display unit 26, not on a daily basis but on a monthly basis. This is a display area for displaying the result obtained by calculation in step 1 with numbers. The power amount total value display unit 28 is disposed adjacent to the power amount total value display unit 26.

The CO ₂ reduction amount total value display unit 29 is a display region that displays the result obtained by calculating the total value of CO ₂ reduction amount in units of one month. Here, the total value of the CO ₂ reductions, for a total reduction value of CO ₂ reduction amount sum display section 25, the total value of the CO ₂ reduction amount obtained by calculating the 1 month as a unit. The CO ₂ reduction amount total value display unit 29 is disposed in the vicinity of the power amount total value display unit 28.

  The power amount total value display area 30 is a display unit similar to the power amount total value display unit 26, and each total power value is not in units of one day but in units of one year as in the power amount total value display unit 26. This is a display area for displaying the result obtained by calculation in numbers. The power amount total value display area 30 is disposed adjacent to the power amount total value display unit 28.

The CO ₂ reduction amount total value display area 31 is a display area for displaying the result obtained by calculating the total value of the CO ₂ reduction amount in units of one year. Here, the total value of the CO ₂ reductions, for a total reduction value of CO ₂ reduction amount sum display section 25, the total value of the CO ₂ reduction amount obtained by calculating the 1 year units. The CO ₂ reduction amount total value display area 31 is disposed in the vicinity of the power amount total value display area 30.

  The grid connection display unit 40 is a display area provided in the vicinity of the A building display unit 12, and in the display region, surplus power is supplied to the outside of the A building 102 out of the PV power of the solar cell module unit 102 a. When the power is supplied, the amount of power supplied is displayed as a number.

  The grid connection display unit 41 is a display region provided in the vicinity of the B building display unit 14, and in the display region, surplus power is out of the PV power of the solar cell module unit 102 a to the outside of the B building 104. When the power is supplied, the amount of power supplied is displayed as a number.

  The grid connection display unit 42 is a display region provided in the vicinity of the C building display unit 16, and in the display region, surplus power is out of the PV power of the solar cell module unit 102 a to the outside of the C building 106. When the power is supplied, the amount of power supplied is displayed as a number.

FIG. 3 is a diagram showing a detailed view of the power information of building D 108 on the power information display screen displayed on the display unit 11 of the power management apparatus 10. In the power management apparatus 10, detailed power information in one facility among the buildings of the power management target facility 100 can be displayed by an operation of a user or the like. At this time, as shown in FIG. 3, the display unit 11 includes solar cell module display units 50a, 50b, and 50c, a power generation amount display unit 52, a secondary battery display unit 54, and a storage amount display unit 56. , CO ₂ reduction amount display unit 57, load information display units 58a, 58b, 58c, 58d, weather information display unit 60, power amount total value display units 62, 64, 66, and CO ₂ reduction amount total value display Units 63, 65, 67, grid connection display unit 71, LiB charge power display unit 72, LiB discharge power display unit 73, commercial power display units 74, 75, 76, and PV generated power display unit 77. Including.

  The solar cell module display units 50a, 50b, and 50c correspond to the respective solar cell modules that constitute the solar cell module unit 108a. Here, the solar cell module display units 50a and 50b and the solar cell module display unit 50c. It is divided into two groups. And the solar cell module display parts 50a and 50b which are the 1st group are provided on the extending | stretching path | route 203 connected to the load information display part 58c among the extending | stretching paths of the electric power path | route display part 20. FIG. Further, the solar cell module display unit 50 c is provided on the extension path 204 connected to the load information display unit 58 d among the extension paths of the power path display unit 20.

  The secondary battery display unit 54 is provided on the extending paths 208 and 209 that connect the solar cell module 108 c and the load information display unit 58 d among the extending paths of the power path display unit 20.

  The power generation amount display unit 52 is a display region that displays the total power generation amount of the solar cell modules corresponding to the solar cell module display units 50a, 50b, and 50c in numbers. Further, the power generation amount display unit 52 is provided in the vicinity of the solar cell module display units 50a, 50b, and 50c.

  The storage amount display unit 56 is a display region that displays the total storage amount of the secondary battery unit 108c corresponding to the secondary battery display unit 54 as a number. Further, the storage amount display unit 56 is disposed in the vicinity of the secondary battery display unit 54.

The CO ₂ reduction amount display unit 57 is a display area for displaying the CO ₂ reduction amount in the D building 108 as a number. Here, CO ₂ reductions, and CO ₂ reductions by commercial power of the commercial power source 110 is a value where the CO ₂ reduction amount is summed by self-contained power other than a commercial power supply 110, the specific CO ₂ reductions The method of obtaining is as described above.

  The load information display part 58a is a display area for displaying the power value of the load power, which is the required power of the load part 108b, in numbers. The load information display unit 58a displays, for example, the load power of a high-speed charger used in an electric vehicle that requires high-speed charging in the load unit 108b. In the above example, the load information display unit 58a particularly displays the load power of the high-speed charger. Therefore, as shown in FIG. 3, the power path display unit 20 connected to the commercial power source 110 is used. Are connected only to the extending path 205.

  The load information display part 58b is a display area for displaying the power value of the load power, which is the required power of the load part 108b, in numbers. The load information display unit 58b displays, for example, the load power of a medium-speed charger used in an electric vehicle that requires medium-speed charging that is slower than the above-described high-speed charging in the load unit 108b. In the above example, the load information display unit 58b displays the load power of the medium-speed charger in particular, and is therefore connected only to the extension path 206 of the power path display unit 20 connected to the commercial power supply 110. Has been.

  The load information display unit 58c includes the power value of the load power that is the required power of the load unit 108b, the PV power of the solar cell module corresponding to the solar cell module display units 50a and 50b of the solar cell module 108b, and the commercial power supply 110. This is a display area that displays the power value of each power together with the power value of the load power as a number as a breakdown of the power supplied to the load power among the commercial power. The load information display unit 58c displays, for example, the load power of a low-speed charger used in an electric vehicle that requires low-speed charging that is slower than the above-described low-speed charging in the load unit 108b. In the above example, the load information display unit 58c particularly displays the load power of the low-speed charger, and therefore, the extension information 203 connected to the solar cell module display units 50a and 50b and the commercial power supply 110 are displayed. It is connected to the extension path 207 to be connected.

  The load information display unit 58d includes the power value of the load power that is the required power of the load unit 108b, the PV power of the solar cell module corresponding to the solar cell module display units 50a and 50b, and the secondary battery unit of the solar cell module 108b. As a breakdown of the power supplied to the load power among the LiB power of 108c and the commercial power of the commercial power supply 110, the power value of each power is displayed numerically together with the power value of the load power. The load information display unit 58d displays, for example, the load power of an ultra-low speed charger used in an electric vehicle that requires ultra-low speed charging, which is slower than the above-described low speed charging, in the load section 108b. In the above example, the load information display unit 58d particularly displays the load power of the ultra-low speed charger, so that the extension path 204 connected to the solar cell module display unit 50c and the secondary battery display are displayed. The extension path 208 connected to the section 54 and the extension path 207 connected to the commercial power supply 110 are connected.

  The weather information display unit 60 is a display area that displays the amount of solar radiation and the temperature as numbers as weather information around the power management target facility 100. As the temperature to be displayed in numbers, when two temperature measurement target modules of the solar cell module unit 108a are selected, the surface temperature of the first solar cell module and the surface temperature of the second solar cell module Are displayed. Of course, the selection of the temperature measurement target module is not limited to two, and may be any other number.

  The total power amount display unit 62 is a display area that displays the total power value of PV power, the total power value of LiB power, the total power value of commercial power, and the total power value of load power in numbers. Here, the total power value of the PV power displays the result obtained by calculating the total value of the PV power values of the load information display units 58a to 58d in units of one day. And the total electric power value of commercial electric power is displaying the result calculated by calculating for the total value of the electric power value of the commercial electric power of load information display part 58a-58d by a unit as a number. Further, the total power value of the load power displays the result obtained by calculating the total value of the power values of the load power of the load information display units 12f to 18f in units of one day.

The CO ₂ reduction amount total value display unit 63 is a display area for displaying the total value of the CO ₂ reduction amount as a number. Here, the total value of the CO ₂ reductions, for a total value of CO ₂ reduction of CO ₂ reduction amount display section 57, and displays the result obtained by calculating a daily basis with a number.

On the same screen of the display unit 11 of the power management apparatus 10, the total amount of power display unit 62 includes solar cell module display units 50 a, 50 b, 50 c, a power generation amount display unit 52, a secondary battery display unit 54, The stored electricity amount display unit 56, the CO ₂ reduction amount display unit 57, the load information display units 58a, 58b, 58c, 58d, and the weather information display unit 60 are arranged in different areas. The CO ₂ reduction amount display unit 63 is arranged in the vicinity of the total power amount display unit 62.

  The power amount total value display unit 64 is a display area similar to the power amount total value display unit 62, and each total power value is not in units of one day as in the power amount total value display unit 62 but in units of one month. The calculation result is displayed in numbers. The power amount total value display unit 64 is disposed adjacent to the power amount total value display unit 62.

The CO ₂ reduction amount total value display unit 65 displays the result obtained by using one month as a unit for the total value of CO ₂ reduction amount. Here, the total value of the CO ₂ reductions, for a total reduction value of CO ₂ reduction amount sum display section 57, the total value of the calculated CO ₂ reduction amount one month as a unit. The CO ₂ reduction amount total value display unit 65 is disposed in the vicinity of the power amount total value display unit 64.

  The power amount total value display unit 66 is a display area similar to the power amount total value display unit 62, and each total power value is not in units of one day as in the power amount total value display unit 62 but in units of one year. The calculation result is displayed in numbers. The power amount total value display unit 66 is disposed adjacent to the power amount total value display unit 64.

The CO ₂ reduction amount total value display unit 67 displays the result obtained by calculating the total value of CO ₂ reduction amounts in units of one year. Here, the total value of the CO ₂ reductions, for a total reduction value of CO ₂ reduction amount sum display section 57, the total value of the calculated CO ₂ reductions of 1 year as a unit. Note that the CO ₂ reduction amount total value display unit 67 is disposed in the vicinity of the power amount total value display unit 66.

  The grid connection display unit 71 is a display area provided in the vicinity of the extension path 210 of the power path display unit 20. In the display area, surplus power out of the PV power of the solar cell module unit 108 a is transferred to the D building 108. When the power is supplied to the outside, the amount of supplied power is displayed as a number.

  The LiB charging power display unit 72 is a display area that is disposed in the vicinity of the extension path 209 of the power path display unit 20, and corresponds to the solar cell module display unit 50c in the solar cell module unit 108a. The amount of charging power from the solar cell module to the secondary battery unit 108c is displayed as a number.

  The LiB discharge power display unit 73 is a display region that is disposed in the vicinity of the extension path 208 of the power path display unit 20, and discharges from the secondary battery unit 108c to the load D side of the load 108b in the display region. Displays the amount of discharge power in numbers.

  The PV generated power display unit 77 is a display region that is arranged in the vicinity of the extension path 204 of the power path display unit 20, and in the display region, the load from the solar cell module corresponding to the solar cell module display unit 50 c. The amount of generated power supplied to the D side is displayed numerically.

  The commercial power display unit 74 is a display area that is arranged in the vicinity of the extension path 207 of the power path display unit 20, and is supplied from the commercial power supply 110 to the loads C and D of the load unit 108 b in the display area. Displays the amount of commercial power used.

  The commercial power display unit 75 is a display area that is disposed in the vicinity of the extension path 205 of the power path display unit 20, and in this display area, the commercial power supplied from the commercial power supply 110 to the load A side of the load unit 108b. Display the quantity as a number.

  The commercial power display unit 76 is a display area that is disposed in the vicinity of the extension path 206 of the power path display unit 20, and in this display area, the commercial power supplied from the commercial power supply 110 to the load B side of the load unit 108b. Display the quantity as a number.

  The operation of display on the display unit 11 of the power management apparatus 10 having the above configuration will be described. As shown in FIG. 2, the display unit 11 of the power management apparatus 10 displays the presence / absence of power and the flow of power in the power management target facility 100 on the same screen using arrow marks on the power path display unit 20. In addition to this, since each power information in each facility is displayed as a number, the power information of the power management target facility 100 can be easily grasped quantitatively and qualitatively.

  In addition, in the load information display sections 12f to 18f in each building, as the breakdown of the power supplied to the load, each power amount of PV power, commercial power, and LiB power is displayed numerically. It is possible to easily grasp whether or not the electric power is mainly used.

  And the load information display parts 12f-18f in each building are each provided on the extending | stretching path | route extended from the cyclic | annular path | route 201 toward each ridge display part among the electric power path display parts 20, and the flow of electric power is displayed. Therefore, it is possible to easily grasp the type of power and the relationship between the power flow and each piece of power information.

Further, since the CO ₂ reduction amount display units 12g to 18g are arranged in the vicinity of the load information display units 12f to 18f, the relationship between the power information and the CO ₂ reduction amount can be easily grasped. Then, by confirming each CO ₂ reduction amount, a secondary battery having surplus power in consideration of a change in the power management method in the power management target facility 100, for example, the amount of power stored in the secondary battery part of each building, etc. It is possible to perform an effective feedback process in power management, such as effectively utilizing a power source as a power supply source.

  Furthermore, since the load information display units 12f to 18f, the power generation amount display units 12d to 18d, and the storage amount display units 12e to 18e in each building are displayed in different colors or different patterns, the load information display units 12f to 18f are displayed. Can be easily distinguished from other display areas.

  And among the electric power which flows into the electric power path | route display part 20, since commercial electric power is displayed with the color different from PV electric power and LiB electric power, or a different pattern, commercial electric power can be easily distinguished from other electric power.

  In addition, in the load information display units 12f to 18f, the total amount of power display unit 24 displays the total power value of each PV power, the total power value of each LiB power, the total power value of each commercial power, and each load power. The total power value is displayed as a number. Thereby, the electric power information of the whole power management object facility 100 can be grasped easily.

Furthermore, CO ₂ reduction amount sum display section 25, because it is the total value of the CO ₂ reduction of CO ₂ reduction amount display unit 12g~18g numerically, the total CO ₂ reduction in power managed facility 100 The amount can be easily grasped.

Further, in addition to the power amount total value display unit 24 and the CO ₂ reduction amount total value display unit 25, power amount total value display units 26, 28, and 30 and CO ₂ reduction amount total value display units 27, 29, and 31 are provided. Therefore, it is possible to easily perform power management in various periods such as one day unit, one month unit, and one year unit as well as the current total value.

  And even if it is a case where the detailed electric power information of each building of the electric power management object facility 100 is displayed on the same screen of the display part 11 as FIG. 3 shows, the electric power information in the display part 11 of FIG. Similarly to the display screen, the presence / absence of power and the flow of power are displayed in each display area, and in addition to this, power information is displayed in numbers. This has the same effect as the power information display screen displayed on the display unit 11 of FIG. Here, when FIG. 2 is compared with FIG. 3, in FIG. 3, since each facility of D building 108 is described without being omitted, it is necessary to grasp detailed power information in each facility in D building 108. Can do. On the other hand, in FIG. 2, when there are a plurality of identical facilities in each facility in the D building 108, only one such facility is displayed as a representative. And as FIG. 2 shows, although only one is displayed about a solar cell module and only one is displayed also about load, 18f of load information displays each generated electric power and each load electric power. The total value of is listed. In this way, in FIG. 2, when there are a plurality of overlapping facilities, space saving is achieved by displaying only one as a representative of the facilities. Therefore, more information is displayed on the same screen. Can be displayed.

  As shown in FIGS. 2 and 3, the units of power information displayed in each display area are unified in either kW or kWh. Thereby, electric power information can be grasped | ascertained quantitatively more easily compared with the case where a unit is not unified.

10 power management device, 11 display unit, 12 A building display unit, 12a solar cell module display unit, the secondary battery display section 12c, 12d power generation amount display section, 12e charge amount indicator, 12f load information display unit, 12 g CO ₂ Reduction amount display unit, 14 building B display unit, 14a solar cell module display unit, 14c secondary battery display unit, 14d power generation amount display unit, 14e storage amount display unit, 14f load information display unit, 14g CO ₂ reduction amount display unit 16C building display unit, 16a solar cell module display unit, 16d power generation amount display unit, 16f load information display unit, 16g CO ₂ reduction amount display unit, 18D building display area, 18a solar cell module display unit, 18c secondary Battery display unit, 18d Power generation amount display unit, 18e Storage amount display unit, 18f Load information display unit, 18g CO ₂ reduction amount display unit, 19 System power supply display region, 19a Commercial power amount display unit, 20 Power path display unit, 22 Weather information display unit, 24, 26, 28, 30 Total power amount display region, 25, 27, 29, 31 Total CO ₂ reduction value display region, 50a, 50b, 50c Solar cell module display unit, 52 Power generation amount display unit, 54 Secondary battery display unit, 56 Storage amount display unit, 57 CO ₂ reduction amount display unit, 58a, 58b, 58c, 58d Load information display unit, 60 Weather Information display unit, 62, 64, 66 Total electric energy display area, 63, 65, 67 Total CO ₂ reduction display area, 100 Power management target facility, 102 building A, 102a, 104a, 106a, 108a Solar cell module Part, 102b, 104b, 106b, 108b Load part, 102c, 104c, 108c Secondary battery part, 104 B building, 106 C building, 108 D building, 110 Use power.

Claims (11)

A power information display method for schematically displaying a plurality of facilities including facilities whose power is managed by a power management apparatus and a power path connecting each facility of the plurality of facilities on a display unit,
The power management device acquires information on the power of the facility and outputs a signal corresponding to the information on the power of the facility to the display unit.
The display unit divides and displays the plurality of facilities for each facility, displays the presence / absence of the power and the direction in which the power flows on the power path, and displays power information regarding each facility in numbers. A method for displaying power information, characterized by: The power information display method according to claim 1,
Each facility has a photoelectric conversion device, a secondary battery, and a load,
The power information includes a power generation amount of the photoelectric conversion device, a storage amount of the secondary battery, and a load power amount of the load. The power information display method according to claim 2,
The display unit displays a load information display unit provided in a display area of each of the divided facilities,
As a breakdown of the power supplied to the load, the amount of power generated is divided into the amount of generated power from the photoelectric conversion device, the amount of discharged power from the secondary battery, and the amount of commercial power from a commercial power source. Is displayed on the load information display unit together with the load power amount by a number. The power information display method according to claim 3,
The display unit displays the load information display unit on a power path in a display area of the facility. The power information display method according to claim 4,
The display unit displays a carbon dioxide reduction amount display unit provided in the vicinity of the load information display unit in a display area of the facility, and displays a carbon dioxide reduction amount in the facility on the carbon dioxide reduction amount display unit. A method for displaying power information. In the display method of the electric power information of any one of Claims 2-5,
In the display area of the facility, the display unit displays a power generation amount display unit that represents a power generation amount of the photoelectric conversion device, and a power storage amount display unit that represents a power storage amount of the secondary battery,
The method for displaying power information, wherein the load information display unit is displayed in a different color or a different pattern from the power generation amount display unit and the stored electricity amount display unit. The power information display method according to any one of claims 1 to 6,
The display unit displays the power information supplied from a commercial power source and the power other than the commercial power in different colors or different patterns among the power. In the display method of the electric power information of any one of Claims 3-7,
The display unit displays a total power amount display unit provided in a region different from the display region of each facility, and the total amount of each power amount is displayed on each load information display unit of each facility. A display method of power information, characterized by being displayed on a value display section. The power information display method according to claim 8,
In the area different from the display area of each facility, the display unit,
For each power amount of the power amount total value display unit, a power amount daily unit total value display unit that displays a total value calculated in units of one day;
For each power amount of the power amount total value display unit, a power amount monthly unit total value display unit that displays a total value calculated in units of one month;
For each power amount of the power amount total value display unit, a power amount year unit total value display unit for displaying a total value calculated in units of one year;
A method for displaying power information, characterized in that at least one of them is displayed. The power information display method according to claim 9,
In the vicinity of the power amount total value display unit, the power amount daily unit total value display unit, the power amount monthly unit total value display unit, and the power amount yearly total value display unit, each display unit CO2 reduction total value display, carbon dioxide reduction daily total value display, carbon dioxide reduction monthly total value display, and carbon dioxide reduction A display method of power information, characterized by displaying an annual unit total value display section. The power information display method according to claim 3,
In the display area of the facility, when there are a plurality of the same equipment provided in the facility, the display unit displays one facility as a representative,
The load information display unit displays the total amount of power of the same equipment, and displays the power information.

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