CN102955896A - Energy consumption measured data processing apparatus - Google Patents

Abstract

Provided is an energy consumption measured data processing apparatus, which is provided with an electrical power system summation data processing portion (45) that processes the electrical power system summation data (26) as the summation data of the electrical power system based on the measuring point setting data (92) to collect the measurement data (25) related with the power consumption and process the measurement data (25). The electrical power system summation data processing portion (45), according to the electrical system setup data (42) as well as the electrical power measuring point correspondence setup data (44) that sets up the correspondence between the electrical system setup data (42) and the measuring point setup data (92), generates the electrical system summation data (26) or outputs the setup applicable to the generation of electrical power system summation data (26).

Description

Energy expenditure Measurement and Data Processing device

Technical field

The present invention relates to process time series to the consumption of energy (electric power) and become the 1 energy expenditure Measurement and Data Processing device of changing the data that are measured, particularly the visualization technique of deal with data and be used for visual data arithmetic technology.

Background technology

In the past, according to the exhaustion worry of fossil fuel, the viewpoint of earth environment protection, proposed various be used to realizing energy-conservation countermeasure.Realize energy-conservation countermeasure as being used for, can enumerate the high high-level efficiency instrument of energy-saving effect exploitation and importing, utilize the waste of the minimum activity of energy loss to cut down and the applying flexibly and social infrastructure outfit for this reason etc. of natural energy.

Wherein, carry out the minimum activity of energy loss and refer to, change by the time series of measuring energy expenditure, grasp the virtual condition of energy expenditure, from wherein finding out the part of the energy expenditure that becomes waste, continue to remove the effort of this waste.

In recent years, the minimum activity of energy loss is carried out as also many take reduction CO2 discharge rate as the situation of the carrying capacity of environment reduction activity of target, and the energy expenditure amount that wherein can directly measure is scaled the CO2 discharge rate and estimates.

Generally, as the typical example of the energy expenditure amount of direct measurement, can enumerate power consumption, in for example making raw-material factory, sometimes except electric power, also consume fossil fuel.

In addition, processing starting material make parts factory, the assembling manufacturing parts supply with in the factory of final products, processing unit (plant), assembling device major part are passed through power operation.

Like this, in the various factories that are assembled into the center, the major part of the energy of use is electric power.

In addition, in the general mansion such as the office building beyond the office building in factory, the factory, the major part of the energy of use also is electric power.

Therefore, energy-conservation in order to put into practice in the factory that consumes electric power, office building etc., the time series of measuring power consumption changes to grasp the virtual condition of power consumption, and the power consumption that suppresses to waste is integral.

In addition, in the process of the modern energy conversion development such as solar electrical energy generation, the virtual condition of power consumption grasps that not only minimum activity is important for energy loss, and for prediction and the control of electricity supply and demand also be important.

In order to tackle above-mentioned requirements, in the past, by the assisting system (for example, with reference to non-patent literature 1) of grasping the virtual condition of power consumption with the power consumption of measuring object system, realized the activity of strategy of Saving Energy.

Particularly, the assisting system of non-patent literature 1 record carries out following processing.

In order to grasp the virtual condition of power consumption, at first, must be from measuring power consumption, but need to determine at which position surveying instrument is set.In order to determine its measurement point, need to be grasped electric system (energy flow).

Figure 39 is the block diagram that the electric system of general factory schematically is shown, show in the factory site be subjected to electric chamber and mansion α, β ... measurement point in the electric system that γ draws (heavy line) and the electric system (black circle).

In Figure 39, electricity is indoor being subjected to, and has set measurement point in each input end of power receiving section and transformation section.

In addition, in mansion α, in zone 1, the switchboard of zone in 2, throw light on X1, X2, air-conditioning Y1, Y2, socket OA1, OA2 ..., and production line A, production line B in manufacturing equipment A1, A2, B1, B2 ... each input end in, set measurement point.

Generally, in large-scale factory site, have with extra-lnigh tension receive factory's integral body electric power be subjected to electric chamber each the mansion α～γ in the factory site has been distributed the high-tension bus-bar of transformation from being subjected to electric chamber branch.In addition, a plurality of regional 1 in the mansion and zone 2 have been distributed branch in each mansion α～γ and the low tension wire of transformation.

On the other hand, in the factory site of middle and small scale, have with extra-lnigh tension or high-voltage connecting knock off factory's integral body electric power be subjected to electric chamber, each mansion in the factory site is distributed from being subjected to electric chamber branch the low tension wire of transformation, and then each zone in the mansion is distributed.

In mansion α shown in Figure 39, in each zone, be provided with switchboard, the electric power by the further branch of switchboard is fed into the end-equipment (manufacturing equipment A1, A2, illumination X1, X2, socket OA1, OA2, air-conditioning Y1, Y2) that connects at its front end.

Herein, according to the electricity usage amount of each end-equipment and the easiness of wiring, determine how to separate switchboard or which equipment which switchboard is connected.

For example, in the situation that office building, generally for each zone switchboard that minute is arranged, but in the situation that the production line mansion also be not to divide the switchboard that is arranged for the zone sometimes, but divide the switchboard that is arranged for each production line.

Show in the mansion α of Figure 39, although be the production line mansion, separately be provided with the example of switchboard for each zone.

In addition, both can in a plurality of zones, production line, use 1 switchboard, also can 1 zone, production line accept the electric power supply from a plurality of switchboards.

In addition, although not shown in Figure 39, but owing to the branch part in electric system, be provided with cutter (isolating switch), if measure power consumption so cutter is arranged the position as measurement point, then can grasp the electric power energy flow of the interior integral body of each mansion α～γ or the integral body in the factory site.

Therefore, in the past, proposed to realize being used for measuring power consumption setting, be used for making the assisting system (for example, with reference to non-patent literature 2) of the setting of the visual data operation of measurement result and visual picture.

Below, with reference to Figure 40 ~ Figure 42, for the performed concrete processing of electricity consumption Measurement and Data Processing device of non-patent literature 2 record, the situation take the factory site of above-mentioned (Figure 39) as application is described as an example.

Figure 40 is the block diagram that the software configuration of electricity consumption Measurement and Data Processing device in the past is shown.In addition, Figure 41 illustrates the process flow diagram that carries out the processing when visual by display frame, show can grasp measure and factory site in the electric power energy flow of integral body the time step.And then Figure 42 is the key diagram of example that the visual picture of electricity consumption Measurement and Data Processing device in the past is shown.

In Figure 40, electricity consumption Measurement and Data Processing device 201 possesses the data preservation section 203 that preserves various data, communication process section 4, measurement handling part 21, measurement point configuration part 91, the measurement data that is taken into from the electricity consumption data of power measurement device (not shown) adds up to handling part 93, measurement data to show that generating unit 94, imaginary measurement point configuration part 95, imaginary measurement point total data handling part 97, search key configuration part 101, search key measurement point corresponding relation configuration part 103 and search key show generating unit 105.

Data preservation section 203 possesses setting data preservation section 222 and preserves measurement data preservation section 23 from the measurement data 25 of measuring handling part 21.In addition, data preservation section 203 possesses the total data preservation 224(of section as required with reference to dashed boxes).

Setting data preservation section 222 preserves by various configuration parts 101,103,95,91 search key setting data 102, search key measurement point corresponding relation setting data 104, imaginary measurement point setting data 96 and the measurement point setting datas 92 of setting.

Total data preservation section 224 preserves the total data that adds up to handling part 93 and imaginary measurement point total data handling part 97 from measurement data, and when showing the transmission of generating unit 105 to search key, as required, each total data 226 of preserving is input to measurement data and adds up to handling part 93 and imaginary measurement point total data handling part 97.

Below, with reference to Figure 41, the treatment step of electricity consumption Measurement and Data Processing device 201 in the past is described.

At first, as prior preparation, about measuring and visual object, grasp electric system, determine to measure which position of electric system, prepare surveying instrument and consist of.

For example, in Figure 39 such factory or the electric system in the enterprise, suppose that a plurality of positions corresponding with electricity consumption equipment in each mansion or floor are provided with the power measurement device, and for each mansion or storey setting electricity consumption Measurement and Data Processing device 201.

In Figure 41, at first, process setting measurement point (making measurement point setting data 92) (step S201) as setting.

Measurement point configuration part 91 generates measurement point setting data 92, to the electricity consumption Measurement and Data Processing device 201 under self, setting measurement point.

Namely, about the electricity consumption Measurement and Data Processing device 201 of self, set the CH(passage of the power measurement device of the power measurement device is connected with electricity consumption Measurement and Data Processing device 201, collection data), the data name when cycle of Data Collection, data preservation and the electricity consumption data that obtain (other electricity consumption Measurement and Data Processing device 201 is collected) from other electricity consumption Measurement and Data Processing device 201.

In addition, in the power measurement device, as required, sometimes only have 1 power measurement CH(passage that is used for measuring power consumption), but sometimes also have more than 2.

For example, each CH that can constitute the power measurement device with 4CH in a plurality of power measurement devices measures the power consumption of 4 measurement points, and the power measurement device with 1CH is measured the power consumption of 1 measurement point.

Next, the setting (making imaginary measurement point setting data 96) (step S202) carried out based on the imaginary measurement point of calculating formula (with aftermentioned) of imaginary measurement point configuration part 95.

That is the data name when, setting for the calculation process formula of the expectation of measured value and save data.Thus, although do not measure by the power measurement device is actual, the result who obtains measured value by computing can be set as imaginary measurement point.

Next, schichtenaufbau (making search key setting data 102) (step S203) is set with electric system in search key configuration part 101 as search key.

In addition, search key measurement point corresponding relation configuration part 103 makes search key measurement point corresponding relation setting data 104, sets shown search key and measurement point (step S204).

That is, electric system is set schichtenaufbau as search key, each measurement point (comprising imaginary measurement point) is set in which electric system is.

Thus, the visual setting when be used for using is set search key and is defined schichtenaufbau, is set in to show which measurement point (comprising imaginary measurement point) in which search key (level).

Next, when using, electricity consumption Measurement and Data Processing device 201 is collected and save data (step S211) for the measurement point that sets by measuring handling part 21, and, calculate imaginary measurement point (step S212) by imaginary measurement point total data handling part 97.

At last, with calculation process the visual picture of data of measurement point show that by search key generating unit 105 is shown as schichtenaufbau, and show that by measurement data generating unit 94 processes the figure (graph) of each measurement data and show (step S213).

As an example of in the past visual picture, can enumerate trend map.

Its latest Status to the data that the processing of collecting and preserve is proceeded carries out the figure demonstration.In addition, in trend map, the figure demonstration is updated when carrying out new Data Collection, so the data that figure shows are updated to last look along with the time process and show, figure is offset (transverse shifting) with the time and shows.

In addition, as other example of in the past visual picture, can enumerate the past of having collected and having preserved the electricity consumption data per diem, by week, monthly, figure per year shows.

In this case, for example, carry out following processing: even the electricity consumption data are the data of collecting according to 10 minute cycle, show in order in figure demonstration per diem, to carry out figure with chronomere, also add up to the data (perhaps, getting the difference at 1 hour interval) in 10 minute cycle and carry out the figure demonstration with hour unit.

Add up to processing for this, in assisting system in the past, add up to handling part 93, imaginary measurement point total data handling part 97 to carry out by measurement data, and both can carry out concurrently with the processing of collecting and preserve, also can when requiring that figure shows arranged, carry out according to needs (On-Demand).

Adding up to concurrently in the situation of processing with the processing of collecting and preserve, total data 226 becomes the state that is stored in total data preservation section 224, and is only shown when figure shows.

Therefore, when showing, figure do not add up to processing, so from requiring figure to show that extremely in fact the processing time of figure demonstration shortens.But on the contrary, figure shows that such total data is stored in total data preservation section 224 anything but, and the possibility that exists the capacity of data preservation section 203 to become huge.

On the other hand, when being arranged, requiring that figure shows add up in the situation of processing according to needs, although need not total data 226 pre-saves in total data preservation section 224, exist from requiring figure to show the elongated possibility of processing time that shows to figure in fact.

Figure 42 illustrates the example of the visual picture of electricity consumption Measurement and Data Processing device 201.

In Figure 42, in the measurement pattern of measurement point v, to carrying out that figure shows and visual in the data former state measured ground.In addition, imaginary measurement point g is set as the aggregate values (g=t+u+v) of measurement point t, u, v.

By such setting, measurement, visual, can grasp the electric power energy flow of the interior integral body of each mansion or the integral body in the factory site.

In addition, in order to grasp more detailed electricity consumption virtual condition, need to make an effort to total method etc. visual.

For example, in the situation that factory, existing office building also has the production line mansion, so according to each mansion, the tendency of power consumption is different.In addition, even office building is also different in the number of compiling in each floor, so also different in the quantity of the OA of this running instrument.Similarly, even the production line mansion, the manufacturing equipment that turns round in each production line is also different.

Therefore, in order to grasp more detailed electricity consumption virtual condition, for measurement data, add up to for each production line, device class, and to add up to come visualization method for each product that produces be effective.

Particularly, virtual condition for the power consumption of grasping each production line, from measurement data, add up to the data belong to this production line, the electricity consumption time series data of making this production line, and these data are carried out that figure shows and visualization method is effective.

In addition, to be used for adding up in the situation of required measurement point at undetermined, need to according to the data of the measurement point of measuring, to make approx the data required in order adding up to.

For example, in Figure 39, illumination X1 makes contributions to the part in the zone 1 of the zone 1 of production line A and production line B, but at the measurement point of illumination X1, does not measure other power consumption of each production line, and the illuminating power of the integral body of measured zone 1.

Under these circumstances, calculate by carrying out proportional distribution to the electricity consumption time series data of the illumination of the part in the zone 1 of each production line A, B in the time series data that the electric power feed point (measurement point) that the integral body in zone 1 is thrown light on is measured, and solve approx.

The proportional distribution ratio both can be impartial, also can be the ratio that the wattage of the ratio of Area Ratio, illumination component number of production line A, B or illumination component amounts to, and then also can decide according to the experimental data in past.

Often cause the situation that solves approx as mentioned above.It is former because even wish to grasp the virtual condition of detailed power consumption, as long as set power measurement device number increases, the cost that then correspondingly is used for measuring also increases, so need to suppress power measurement device number.

In addition, in the situation that can distribute sufficient approximation by passing ratio, the effect that a plurality of power measurement devices are set to high-density reduces, and contrary ground only cost increases.

For until which kind of degree arranges the power measurement device to high-density, in view of the electricity consumption virtual condition that needs to be grasped which kind of degree and can with measuring cost cost to which kind of degree, the consideration expense decides effect.

But, in the situation of having used assisting system in the past, need manually to set respectively (perhaps, programming) above-mentioned measuring setting, the data operation of visual usefulness and the setting of visual picture.

Especially, require the making of the visual picture required for the virtual condition of fully grasping power consumption, and the making of the data operation of visual usefulness processing, be about to for each production line, device class adds up to measurement data, and then add up to the data operation of measurement data to be set as the operation of imaginary measurement point for each product that manufactures, and for make imaginary measurement point according to schichtenaufbau easy to understand ground visual and set search key and set operation etc. which search key which measurement point belong to can fully grasp the virtual condition of power consumption such be used for providing total, visual huge engineering cost.

In addition, wish to grasp the virtual condition of detailed power consumption, the engineering cost that requires in the making that the making of visual picture and the data operation of visual usefulness are processed is larger.

エ ネ デ one タ collection ソ Off ト economizes in [non-patent literature 1] Mitsubishi, and (EcoViewerII) Let decides ソ Off ト ウ エ ア Qu Xi explanation Books IB63178

エ ネ デ one タ ベ one ス サ one バ ソ Off ト ウ エ ア (EcoManagerII) Qu Xi explanation Books (サ one バ Knitting) IB63440 economizes in [non-patent literature 2] Mitsubishi

Summary of the invention

Energy expenditure Measurement and Data Processing device in the past need to be distinguished manually setting (perhaps, programming) measuring setting, the data operation of visual usefulness and the setting of visual picture, so exist in order to grasp the virtual condition of detailed power consumption, require the such problem of huge engineering cost.

In addition, in the limited situation of engineering cost, can't carry out fully the required processing for the virtual condition of fully grasping power consumption, namely for each production line, device class adds up to measurement data, the data operation that adds up to measurement data for each product that manufactures, and make operation result according to the visual processing of schichtenaufbau, so the virtual condition that can't be provided for fully carrying out intuitively power consumption is grasped the understandable picture of operation, as a result of, exist the virtual condition that stays in inadequate power consumption to grasp, waste can't be found, the such problem of efficient strategy of Saving Energy can't be reached.

And then, in recent years, as the cost principal element, instrument cost is step-down relatively, it is cheap that surveying instrument also becomes, so exist to dispose the tendency of a plurality of measurement points, required engineering cost more and more increases such problem in the setting of the data operation of visual usefulness and understandable visual picture so exist.

The present invention finishes in order to solve problem as described above, its purpose is to obtain a kind of energy expenditure Measurement and Data Processing device, the workload of having cut down with the generation of visual picture and being used for the relevant engineering of setting that the total of visual picture processes.

The invention provides a kind of energy expenditure Measurement and Data Processing device, according to the measurement point setting data, collect the measurement data relevant with energy expenditure, and add up to and manipulate measurement data, it is characterized in that, possesses energy system total data handling part, this energy system total data handling part is processed conduct according to the energy system total data of the total data of energy system, energy system total data handling part is according to the energy system setting data, energy system measurement point corresponding relation setting data with the corresponding relation of having set energy system setting data and measurement point setting data, generate the energy system total data, perhaps, output is used for generating the setting of energy system total data.

According to the present invention, process by the generation of automatically extracting understandable visual picture out and the total that is used for visual picture, can cut down the workload of engineering.

Description of drawings

Fig. 1 is the block diagram of hardware configuration of summary that the electricity consumption Measurement and Data Processing device of embodiments of the present invention 1 ~ 6 is shown.

Fig. 2 is the integrally-built block diagram that the electricity consumption measuring object system that uses embodiments of the present invention 1 ~ 4 is shown.

Fig. 3 is the block diagram that the software configuration of embodiments of the present invention 1,2 electricity consumption Measurement and Data Processing device is shown.

Fig. 4 is the process flow diagram that the treatment step of embodiments of the present invention 1 is shown.

Fig. 5 A illustrates the electric system setting data of embodiments of the present invention 1 and the key diagram that surveying instrument consists of the mutual relationship (power system measuring instrument corresponding relation setting data) of setting data.

Fig. 5 B is the key diagram that the mutual relationship of the electric system setting data of embodiments of the present invention 1 and measurement point setting data is shown.

Fig. 5 C is the key diagram that surveying instrument that embodiments of the present invention 1 are shown consists of the mutual relationship of setting data and measurement point setting data.

Fig. 6 is the key diagram that is illustrated in the embodiments of the present invention 1 the electric system setting data of having recorded and narrated according to the data layout of recording and narrating the tree structure.

Fig. 7 is the key diagram that is illustrated in the embodiments of the present invention 1 according to recording and narrating the power system measuring point correspondence setting data that corresponding related data layout recorded and narrated.

Fig. 8 illustrates the process flow diagram that the total based on the data of electric system of embodiments of the present invention 1 is processed.

Fig. 9 is the key diagram that the visual picture of measurement data of embodiments of the present invention 1 is shown by the electric system figure.

Figure 10 is the key diagram that consists of the visual picture of measurement data that embodiments of the present invention 1 are shown by surveying instrument.

Figure 11 is the key diagram that the visual picture of measurement data of embodiments of the present invention 1 is shown by electric system ratio.

Figure 12 is the block diagram that other software configuration example of embodiments of the present invention 1,2 electricity consumption Measurement and Data Processing device is shown.

Figure 13 is other routine process flow diagram that the treatment step of embodiments of the present invention 1 is shown.

Figure 14 is the process flow diagram that the treatment step of embodiments of the present invention 2 is shown.

Figure 15 is the key diagram of mutual relationship (spatial configuration electric system corresponding relation setting data) that electric system setting data and the spatial configuration setting data of embodiments of the present invention 2 are shown.

Figure 16 is that the data based on spatial configuration that embodiments of the present invention 2 are shown add up to the process flow diagram of processing.

Figure 17 is the key diagram that the visual picture of measurement data of embodiments of the present invention 2 is shown by the demonstration of spatial configuration figure and spatial configuration ratio.

Figure 18 is other routine process flow diagram that the treatment step of embodiments of the present invention 2 is shown.

Figure 19 is the block diagram that the software configuration of embodiments of the present invention 3,4 electricity consumption Measurement and Data Processing device is shown.

Figure 20 is the process flow diagram that the treatment step of embodiments of the present invention 3 is shown.

Figure 21 is the key diagram of mutual relationship (electricity consumption electric power of equipment system corresponding relation setting data) that electric system setting data and the device class setting data of embodiments of the present invention 3 are shown.

Figure 22 be illustrate embodiments of the present invention 3 consideration the process flow diagram of processing based on the total of the device class of the data of electric system.

Figure 23 is the key diagram that the visual picture of measurement data of embodiments of the present invention 3 is shown by the device class figure.

Figure 24 is the key diagram that the visual picture of measurement data of embodiments of the present invention 3 is shown by device class ratio.

Figure 25 is the process flow diagram that the treatment step of embodiments of the present invention 4 is shown.

Figure 26 is the key diagram that the spatial configuration setting data of embodiments of the present invention 4 and the mutual relationship of electricity consumption apparatus settings data (spatial configuration electricity consumption equipment corresponding relation setting data) are shown.

Figure 27 illustrates the process flow diagram that the total based on the data of spatial configuration of embodiments of the present invention 4 is processed.

Figure 28 is the key diagram that the visual picture of measurement data of embodiments of the present invention 4 is shown by the demonstration of spatial configuration figure and device class figure.

Figure 29 is the key diagram that is illustrated in the mutual relationship (spatial configuration electricity consumption equipment corresponding relation setting data) of the spatial configuration setting data of the situation that makes spatial configuration become production line structure in the embodiments of the present invention 4 and electricity consumption apparatus settings data.

Figure 30 illustrates the integrally-built block diagram of using embodiments of the present invention 5,6 electricity consumption measuring object system.

Figure 31 is the block diagram that the software configuration of embodiments of the present invention 5,6 electricity consumption Measurement and Data Processing device is shown.

Figure 32 is the process flow diagram that the treatment step of embodiments of the present invention 5 is shown.

Figure 33 is the key diagram that surveying instrument that embodiments of the present invention 5 are shown consists of the mutual relationship (electricity consumption device control data corresponding relation setting data) of setting data and device class setting data.

Figure 34 is the key diagram that the visual picture of measurement data of embodiments of the present invention 5 is shown by the device class figure of having considered control information.

Figure 35 is the process flow diagram that the treatment step of embodiments of the present invention 6 is shown.

Figure 36 is the key diagram that the mutual relationship of the production process setting data of embodiments of the present invention 6 and device class setting data is shown.

Figure 37 illustrates the process flow diagram that the total based on the data of production process of embodiments of the present invention 6 is processed.

Figure 38 is the key diagram that the visual picture of measurement data of embodiments of the present invention 6 is shown by the production process figure.

Figure 39 is the block diagram that the electric system in the general factory site schematically is shown.

Figure 40 is the block diagram that the software configuration of electricity consumption Measurement and Data Processing device in the past is shown.

Figure 41 is the process flow diagram that the performed treatment step of in the past electricity consumption Measurement and Data Processing device is shown.

Figure 42 is the key diagram of an example that the visual picture of the power consumption that electricity consumption Measurement and Data Processing device in the past generates is shown.

(symbol description)

1: electricity consumption Measurement and Data Processing device; 2: microprocessor; 3: data preservation section; 4: communication process section; 5: signal input part; 6: the signal efferent; 7: Graphics Processing section; 8: operation inputting part; 9: display device; 11: electric system; 12: the power measurement device; 13: electricity consumption equipment; 14: the zone; 15: production line; 16: mansion or floor; 17: factory or enterprise; 21: measure handling part; 22: setting data preservation section; 23: measurement data preservation section; 24: total data preservation section; 25: measurement data; 26: total data (electric system total data, spatial configuration total data, electricity consumption equipment total data, production process total data); 28: control instrument; 29: the control data; 31: surveying instrument consists of the configuration part; 32: surveying instrument consists of setting data; 33: surveying instrument consists of measurement point corresponding relation configuration part; 34: surveying instrument consists of measurement point corresponding relation setting data; 36: surveying instrument adds up to and shows generating unit; 37: surveying instrument consists of the setting data transformation component; 38: surveying instrument consists of measurement point corresponding relation setting data transformation component; 41: the electric system configuration part; 42: the electric system setting data; 43: power system measuring point correspondence configuration part; 44: power system measuring point correspondence setting data; 45: electric system total data handling part; 46: electric system adds up to and shows generating unit; 47: electric system setting data transformation component; 48: power system measuring point correspondence setting data transformation component; 51: the spatial configuration configuration part; 52: the spatial configuration setting data; 53: spatial configuration electric system corresponding relation configuration part; 54: spatial configuration electric system corresponding relation setting data; 55: spatial configuration total data handling part; 56: spatial configuration adds up to and shows generating unit; 57: spatial configuration setting data transformation component; 58: spatial configuration electric system corresponding relation setting data transformation component; 59: spatial configuration electricity consumption equipment corresponding relation configuration part; 60: spatial configuration electricity consumption equipment corresponding relation setting data; 61: electricity consumption apparatus settings section; 62: electricity consumption apparatus settings data; 63: electricity consumption electric power of equipment system corresponding relation configuration part; 64: electricity consumption electric power of equipment system corresponding relation setting data; 65: electricity consumption equipment total data handling part; 66: electricity consumption equipment adds up to and shows generating unit; 69: electricity consumption device control data corresponding relation configuration part; 70: electricity consumption device control data corresponding relation setting data; 77: finish product; 78: middle product; 79: parts; 80: operation; 81: the production process configuration part; 82: the production process setting data; 83: production process electricity consumption equipment corresponding relation configuration part; 84: production process electricity consumption equipment corresponding relation setting data; 85: production process total data handling part; 86: production process adds up to and shows generating unit; 91: the measurement point configuration part; 92: the measurement point setting data; 93: measurement data adds up to handling part; 94: measurement data shows generating unit; 95: imaginary measurement point configuration part; 96: imaginary measurement point setting data; 97: imaginary measurement point total data handling part; 101: the search key configuration part; 102: the search key setting data; 103: search key measurement point corresponding relation configuration part; 104: search key measurement point corresponding relation setting data; 105: search key shows generating unit

Embodiment

Embodiment 1.

Below, with reference to accompanying drawing, describe embodiments of the present invention 1 in detail.

Fig. 1 is the block diagram of hardware configuration of summary that the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 1 is shown.

, with similarly above-mentioned, typically the electric power energy is described as determination object, even but in the situation of arbitrarily energy as determination object beyond the electric power, certainly also can similarly use herein.

In Fig. 1, electricity consumption Measurement and Data Processing device 1 possesses: microprocessor 2, the operation processing function of formation main body; Data preservation section 3 is made of various storeies; Communication process section 4 is taken into the electricity consumption data from power measurement device (not shown); Signal input part 5 is taken into from the simulating signal of various sensors (not shown) and is transformed to numerical data; Signal efferent 6; Graphics Processing section 7 comprises various demonstration generating units (with Fig. 3 aftermentioned); Operation inputting part 8 becomes the input interface from operating personnel; And display device 9, the display of visually picture.

Fig. 2 is the integrally-built block diagram that the electricity consumption measuring object system (factory or enterprise (κ) 17) that uses embodiments of the present invention 1 is shown.

In Fig. 2, electricity consumption Measurement and Data Processing device 1 is arranged at a plurality of positions in factory or the enterprise (κ) 17.

In factory or enterprise (κ) 17, be provided with electric system (κ) 11, power measurement device (a) 12, electricity consumption Measurement and Data Processing device (κ) 1 and mansion or floor (α) 16, (β) 16, (γ) 16.

In mansion or floor (α) 16, (β) 16, (γ) 16, be provided with respectively electricity consumption Measurement and Data Processing device (α) 1, (β) 1, (γ) 1.

Mansion or floor (α) 16, (β) 16, (γ) 16 have respectively same structure, so in Fig. 2, typically, mansion or floor (α) 16 only is shown at length.

In mansion or floor (α) 16, be provided with electricity consumption Measurement and Data Processing device (α) 1, power measurement device (f) 12 and zone (1) 14 and zone (2) 14.

In zone (1) 14, be provided with electricity consumption equipment (X1, Y1) 13 and power measurement device (p) 12, production line (A) 15(or, small-scale little) in electricity consumption equipment (A1) 13 and electricity consumption equipment (B1) 13 and the power measurement device (r) 12 in power measurement device (q) 12 and the production line (B) 15.

Similarly, in zone (2) 14, be provided with electricity consumption equipment (A2) 13 in electricity consumption equipment (X2, Y2) 13 and power measurement device (t) 12, the production line (A) 15 and the electricity consumption equipment (B2) 13 in power measurement device (u) 12 and the production line (B) 15 and power measurement device (v) 12.

A plurality of power measurement devices (f) 12, (p) 12 ~ (r) 12, (t) 12 ~ (v) 12 are connected with electricity consumption Measurement and Data Processing device (α) 1.

In addition, in the electric system in mansion or floor (α) 16, imaginary measurement point g, h, i that the power measurement device is not set have been set.In addition, in the electric system in factory or enterprise (κ) 17, set the imaginary measurement point e that the power measurement device is not set.

In factory or enterprise (κ) 17, electricity consumption Measurement and Data Processing device (α) 1, (β) 1, (γ) 1 that in each of a plurality of mansions or floor (α) 16, (β) 16, (γ) 16, arranges and direct a factory or enterprise (κ) 17 in the electricity consumption Measurement and Data Processing device (κ) 1 of integral body be connected.

In addition, to electricity consumption Measurement and Data Processing device (κ) 1, connected the electricity consumption Measurement and Data Processing device (λ) 1 of the integral body in other factory of management or the enterprise (λ) 17.

With similarly above-mentioned, measure power consumption by the power measurement device 12 that is arranged at a plurality of measurement points, in power measurement device 12,1 power measurement CH(passage that is used for measuring power consumption both can only have been arranged), also can be the power measurement CH(passage that is used for measuring power consumption more than 2).

In Fig. 2, show and have 4CH(κ, b, c, d) each CH of power measurement device (a) 12 measure the power consumption of 4 measurement point κ, b, c, d, for example have 1CH(, power measurement device (p) 12 p) is measured the example of the power consumption of 1 measurement point p.

Fig. 3 is the block diagram of software configuration that the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 1 is shown.

In Fig. 3, electricity consumption Measurement and Data Processing device 1 possesses data preservation section 3, communication process section 4, measurement handling part 21, electric system configuration part 41, power system measuring point correspondence configuration part 43, spatial configuration configuration part 51, spatial configuration electric system corresponding relation configuration part 53, measurement point configuration part 91, electric system total data handling part 45, electric system total demonstration generating unit 46, spatial configuration total data handling part 55, spatial configuration total demonstration generating unit 56, measurement data total handling part 93 and measurement data demonstration generating unit 94.

In addition, electricity consumption Measurement and Data Processing device 1 as required, possess surveying instrument consist of configuration part 31, surveying instrument consist of measurement point corresponding relation configuration part 33 and surveying instrument add up to show that generating unit 36(is with reference to the single-point piece of ruling).

In addition, in Fig. 3, constitute via communication process section 4 and be taken into electricity consumption data from power measurement device 12, but comprise at electricity consumption Measurement and Data Processing device 1 in the situation of processing capacity of power measurement device 12, also can replace communication process section 4 and signalization input part 5(with reference to Fig. 1).In this case, to signal input part 5, be not input digital data, and the input simulating signal.

Data preservation section 3 possesses setting data preservation section 22 and preserves measurement data preservation section 23 from the measurement data 25 of measuring handling part 21.

In addition, data preservation section 3 possesses the total data preservation 24(of section as required with reference to dashed boxes).

Total data preservation section 24 is by preserving below the electric system total data 26(that obtains with the regulation sampling period from various handling parts 45,55,93, comprise various total data described later, and also referred to as " total data 26 "), and as required output, via various handling parts 45,55,93, be input to various demonstration generating units 46,56,36.

In addition, total data 26 can also comprise spatial configuration total data (with embodiment 2 aftermentioneds).

Setting data preservation section 22 preserves from various configuration parts 41,43,51,53 electric system setting data 42, power system measuring point correspondence setting data 44, spatial configuration setting data 52 and spatial configuration electric system corresponding relation setting data 54.

In addition, setting data preservation section 22 as required, preservation from surveying instrument consist of configuration part 31 and surveying instrument consist of measurement point corresponding relation configuration part 33, surveying instrument consists of setting data 32 and surveying instrument consists of measurement point corresponding relation setting data 34, and be input to surveying instrument and add up to and show generating unit 36.

The electricity consumption Measurement and Data Processing device 1 of Fig. 1 ~ shown in Figure 3 is collected the electricity consumption data of being measured by the power measurement device 12 in Fig. 2 via communication process section 4, and time series be saved in data preservation section 3.Perhaps, obtain the electricity consumption data that other electricity consumption Measurement and Data Processing device 1 is collected via communication process section 4, and be saved in data preservation section 3.

At this moment, preliminary setting data title and collection cycle, and set the data of which CH that collects which power measurement device 12 or obtain which the electricity consumption data which electricity consumption Measurement and Data Processing device 1 is collected, and according to this setting content, process by microprocessor 2 controls.

In addition, carried out the setting of measurement point setting data 92 by measurement point configuration part 91 and process, the measurement point setting data 92 that sets is remained in setting data preservation section 22 in the electricity consumption Measurement and Data Processing device 1.

Perhaps, can also connect electricity consumption Measurement and Data Processing device 1 and personal computer (below, referred to as " PC ") and the setting of carrying out measurement point setting data 92 is processed via communication process section 4.In this case, both can set operation by the setting software of the special use of moving in PC, and this setting data is sent to electricity consumption Measurement and Data Processing device 1, perhaps, also can set with the operation inputting part 8 in the electricity consumption Measurement and Data Processing device 1.

That is, measurement point configuration part 91 also can replace being arranged at electricity consumption Measurement and Data Processing device 1, and is arranged at the setting software on the PC.For other various configuration parts 41,43,51,53,31,33, also be same.

In addition, sometimes also to preset the higher limit of power consumption, and surpassed moment of higher limit at the power consumption of measuring, output signal is carried out certain and is controlled to be purpose, and in electricity consumption Measurement and Data Processing device 1 signalization efferent 6(with reference to Fig. 1).

Generated the picture that shows by display device 9 by Graphics Processing section 7.Graphics Processing section 7 for example generates the figure display frame of collected time series data.

In addition, in Fig. 1, display device 9 is arranged at electricity consumption Measurement and Data Processing device 1, but also can display device 9 independently be set with electricity consumption Measurement and Data Processing device 1, and be connected with electricity consumption Measurement and Data Processing device 1 via communication process section 4.

The situation that display device 9 is arranged at electricity consumption Measurement and Data Processing device 1 refers to, for example, and the situation that display device 9 is made of liquid crystal panel (LCD).In this case, the Graphics Processing section 7 in the electricity consumption Measurement and Data Processing device 1 becomes lcd controller (hardware that is used for control LCD).

On the other hand, display device 9 be not arranged at electricity consumption Measurement and Data Processing device 1(independently display device 9 connect via communication process section 4) situation refer to, for example, display device 9 situation about being consisted of by Web picture client terminals such as () PC.In this case, the Graphics Processing section 7 in the electricity consumption Measurement and Data Processing device 1 becomes Web server.

Below, with Fig. 1 ~ Fig. 3, with reference to Fig. 4 ~ Fig. 7, the function of embodiments of the present invention 1 is described.

Fig. 4 is the process flow diagram that the treatment step of the setting of embodiments of the present invention 1 and utilization is shown.

Fig. 5 A is the key diagram that the mutual relationship (power system measuring instrument corresponding relation setting data) of electric system setting data 42 and surveying instrument formation setting data 32 is shown, and dotted arrow is corresponding to power system measuring point correspondence setting data 44.

Fig. 5 B is the key diagram that the mutual relationship of electric system setting data 42 and measurement point setting data 92 is shown, and dotted arrow is corresponding to power system measuring point correspondence setting data 44.

Fig. 5 C illustrates the key diagram that surveying instrument consists of the mutual relationship of setting data 32 and measurement point setting data 92, consists of measurement point corresponding relation setting data 34 corresponding to surveying instrument.

Fig. 6 is the key diagram that the record example of electric system setting data 42 is shown, and shows situation about having recorded and narrated according to the data layout of recording and narrating the tree structure.

Fig. 7 is the key diagram that the record example of power system measuring point correspondence setting data 44 is shown, and shows situation about having recorded and narrated according to recording and narrating corresponding related data layout.

Herein, before explanation is set and is used treatment step, further specify measurement point setting data 92 and power system measuring point correspondence setting data 44, and, with reference to Fig. 9 ~ Figure 11, further specify surveying instrument and consist of measurement point corresponding relation setting data 34.

At first, measurement point refers to each setting in the measurement point setting data 92, for example in Fig. 2, show in electric system 11, function with the electric power at 4 positions of 4CH(measurement) power measurement device (a) 12 is measured each measurement point (κ, b, c, d), and, have the function that 1CH(only measures the electric power at 1 position) power measurement device (p) 12 measure the example of measurement points (p).

Measurement point setting data 92 is the data of setting for electricity consumption Measurement and Data Processing device 1 as mentioned above, consists of by setting that the data measured for which power measurement device 12 are collected in cycle and which type of title to carry out the data that data preserve with in which.

That is, measurement point setting data 92 is " general names of setting " of preserving for the Data Collection relevant with such electricity consumption, represents the setting of preserving for the Data Collection of each electricity consumption with " measurement point " such term.

Particularly, will about measurement point p be used for setting that Data Collection preserves, about measurement point q be used for setting that Data Collection preserves, about measurement point r be used for setting that Data Collection preserves ..., the general name of whole settings be made as measurement point setting data 92.Certainly, only existing in 1 the situation of measurement point, in measurement point setting data 92, only comprise the setting of 1 measurement point.

Namely, in measurement point setting data 92, do not comprise the information relevant with electric system (electric system setting data 42) and and device and instrument between the relevant information (surveying instrument of having recorded and narrated the communication connection relation of electricity consumption Measurement and Data Processing device 1 and power measurement device 12 consists of setting data 32) of communication connection.

Therefore, visual for total method etc. is made an effort, in device in the past, need artificial imaginary measurement point setting data 96, the search key setting data 102 etc. set.Therefore, the purpose of embodiments of the present invention 1 is to cut down the workload of above-mentioned setting.

Power system measuring point correspondence setting data 44 is data that the setting measurement point measurement which part of electric system 11, be equivalent to setting measurement point setting data 92 each measurement point, with the data (dotted arrow that Fig. 5 B is interior) of the corresponding relation of the key element (node) of the tree structure of electric system setting data 42 expressions of recording and narrating electric system 11.

Setting step as power system measuring point correspondence setting data 44, at first, for the electricity consumption Measurement and Data Processing device (α) 1 in Fig. 2, shown in the double dot dash line piece in Fig. 5 B, setting measurement point setting data 92(measurement point f, p, q, r, t, u, v).

Next, for electricity consumption Measurement and Data Processing device (κ) 1, shown in the line of the single-point in Fig. 5 B piece, setting measurement point setting data 92(measurement point CH1, CH2, CH3, CH4), and divert measurement point setting data 92(measurement point f that electricity consumption Measurement and Data Processing device (α) 1 is set, p, q, r, t, u, v).

Like this, by each measurement point for the measurement point setting data 92 that electricity consumption Measurement and Data Processing device (κ) 1 is set, preset the corresponding relation of the key element (node) of the tree structure that represents with electric system setting data 42, as the dotted arrow in Fig. 5 B, obtain power system measuring point correspondence setting data 44(with reference to the dotted arrow in Fig. 5 B).

In addition, if with data mode performance power system measuring point correspondence setting data 44, then as shown in Figure 7.

It is to be set in the data of in the instrument of which part that surveying instrument consists of measurement point being measured that surveying instrument consists of measurement point corresponding relation setting data 34, be equivalent to set measurement point setting data 92 each measurement point, consist of setting data 32(with surveying instrument and record and narrate communication connection relation between device and the instrument) data (dotted arrow that Fig. 5 C is interior) of the corresponding relation of the key element (node) of the tree structure of expression.

Consist of the setting step of measurement point corresponding relation setting data 34 as surveying instrument, at first, for electricity consumption Measurement and Data Processing device (α) 1, shown in the double dot dash line piece in Fig. 5 C, setting measurement point setting data 92(measurement point f, p, q, r, t, u, v).

Next, for electricity consumption Measurement and Data Processing device (κ) 1, shown in the line of the single-point in Fig. 5 C piece, setting measurement point setting data 92(measurement point CH1, CH2, CH3, CH4), and divert measurement point setting data 92(measurement point f that electricity consumption Measurement and Data Processing device (α) 1 is set, p, q, r, t, u, v).

Like this, by each measurement point for the measurement point setting data 92 that electricity consumption Measurement and Data Processing device (κ) 1 is set, preset the corresponding relation of the key element (node) of the tree structure that represents with surveying instrument formation setting data 32, as the dotted arrow in Fig. 5 C, obtain surveying instrument and consist of measurement point corresponding relation setting data 34.

In Fig. 5 A, recorded and narrated in the lump Fig. 5 B and Fig. 5 C, the CH1(measurement point CH1 in Fig. 5 A) shown in part be equivalent to Fig. 5 C, the dotted arrow in Fig. 5 A is equivalent to the dotted arrow in Fig. 5 B.

Fig. 9 ~ Figure 11 is the key diagram that the visual picture of measurement data of embodiments of the present invention 1 is shown, and Fig. 9 illustrates that the electric system figure shows, Figure 10 illustrates that surveying instrument consists of (result that surveying instrument consists of measurement point corresponding relation setting data 34), Figure 11 illustrates electric system ratio and shows.

Consist of measurement point corresponding relation setting data 34 by the setting measurement instrument, the visual picture of measurement data (Figure 10) shown in consisting of with surveying instrument is finished.

The tree structure that Figure 10 shows is the tree structure itself that surveying instrument consists of setting data 32 expressions.

The figure of the measurement point that this node that the tree that figure is with surveying instrument formation setting data 32 represents of pointing out from the tree structure of Figure 10 demonstration constructs is corresponding, needs surveying instrument to consist of measurement point corresponding relation setting data 34 herein.

In addition, consist of measurement point corresponding relation setting data 34 even without the setting measurement instrument, the visual picture of measurement data (Fig. 9, Figure 11) shown in showing by the demonstration of electric system figure and electric system ratio is also finished.For the processing (process flow diagram of Fig. 8) that is used for the visual picture of measurement data (Fig. 9, Figure 11) is finished, with aftermentioned.

When the process flow diagram (aftermentioned) of execution graph 8, surveying instrument consists of measurement point corresponding relation setting data 34, and it doesn't matter (not needing), and integral is power system measuring point correspondence setting data 44.

In embodiments of the present invention 1, show the situation of setting in the lump each setting data.

As from Fig. 5 C as can be known, can be interpreted as consisting of in the measurement point corresponding relation setting data 34 at surveying instrument, do not include the information of the special meaning, key element (node) the former state ground that consists of the tree that setting data 32 represents with surveying instrument becomes measurement point.In other words, as its opposite explanation, become the mode of measurement point with key element (node) the former state ground that uses surveying instrument to consist of the tree of setting data 32 expressions, the making surveying instrument consists of setting data 32 and gets final product.

But, still there is " could be with in all scenario that might cause; key element (node) the former state ground that tree is constructed becomes the mode of measurement point; make surveying instrument and consist of setting data 32 " such problem, so its result needs surveying instrument to consist of measurement point corresponding relation setting data 34.

But, in most situation, can be so that key element (node) the former state ground of tree structure become the mode of measurement point sets, so as Fig. 5 A, put down in writing the key element (node) of the tree structure that represents with electric power default data 42, the corresponding relation of the key element (node) of constructing with the tree that represents with surveying instrument formation setting data 32 gets final product.

In Fig. 3 and Fig. 4, at first, as the treatment step in the stage of setting, make the electric system setting data 42(step S1 that has recorded and narrated electric system with the tree structure).

At this moment, can make electric system setting data 42 with the electric system configuration part 41 that arranges independently for the electricity consumption Measurement and Data Processing device 1 that possesses operation inputting part 8.

Perhaps, for electric system setting data 42, both can (for example, XML) make with the pattern of direct editing, and also can use the setting software of the special use of moving in PC to make according to the data layout that is used for recording and narrating the tree structure.

In the electric system shown in the concrete example of Fig. 2 (κ) 11, if record and narrate electric system setting data 42 with the tree structure, then shown in the tree structure in the left side in Fig. 5 A.But, only in the situation that electric system setting data 42, although can be by each node of tree conformation identification electric system (κ) 11, whether each node of None-identified is measurement point.

Therefore, whether be measurement point in order to identify, need the power system measuring point correspondence setting data 44 in Fig. 3.Perhaps, need the right side tree in surveying instrument formation setting data 32(Fig. 5 A to construct) and the interior dotted arrow of surveying instrument formation measurement point corresponding relation setting data 34(Fig. 5 A).

In addition, the data of electric system setting data 42 are recorded and narrated (with the corresponding relation of measurement point) for example as shown in Figure 6.

Return Fig. 4, next, the setting measurement point is made measurement point setting data 92(step S2).

Measurement point setting data 92 comprises the data (setting content in the past) for which CH of which the power measurement device 12 that is connected with the electricity consumption Measurement and Data Processing device 1 of self, carries out the such setting content of data preservation with which type of cycle collection and with which type of data name.Perhaps, measurement point setting data 92 comprises and obtains the such setting content of which electricity consumption data that other electricity consumption Measurement and Data Processing device 1 is collected.

In addition, ground same is by measurement point configuration part 91 setting measurement point setting datas 92.

Next, except making measurement point setting data 92, as required, also make surveying instrument and consist of setting data 32 and surveying instrument formation measurement point corresponding relation setting data 34(step S3).

It is to set the data that structure has been recorded and narrated the annexation of electricity consumption Measurement and Data Processing device 1 and power measurement device 12 that surveying instrument consists of setting data 32, and it is the data which measurement point expression is measured by which surveying instrument (power measurement device 12) that surveying instrument consists of measurement point corresponding relation setting data 34.

That is, to consist of setting data 32 are the data of measurement point setting data 92 same having been added the corresponding relation of the configuration information of surveying instrument and surveying instrument and measurement point to surveying instrument.

Consist of setting data 32 for surveying instrument, both can be according to the data layout that is used for record tree structure (for example, XML) pattern that consists of setting data 32 with the direct editing surveying instrument is made, and perhaps, also can make by the setting software of the special use of moving in PC.

In addition, also can be for possessing operation inputting part 8(Fig. 1) electricity consumption Measurement and Data Processing device 1, as shown in Figure 3, surveying instrument is set independently consists of configuration part 31 and surveying instrument formation measurement point corresponding relation configuration part 33, and make surveying instrument formation setting data 32 with surveying instrument formation configuration part 31 and surveying instrument formation measurement point corresponding relation configuration part 33.

If the annexation with the electricity consumption Measurement and Data Processing device 1 shown in the concrete example of tree structure record Fig. 2 and power measurement device 12 is that surveying instrument consists of setting data 32, then shown in the tree structure on the right side in Fig. 5 A.

In the tree on the right side in Fig. 5 A structure, to endpoint node (the non-existent node of the next structure that it is above) corresponding measurement point, for example, " CH1 of power measurement device a " is corresponding to " measurement point CH1 ".

Recorded and narrated should correspondence data be that surveying instrument consists of measurement point corresponding relation setting data 34.That is, the endpoint node of surveying instrument formation (tree structure) can carry out the disposal identical with measurement point.

Return Fig. 4, next, make power system measuring point correspondence setting data 44(step S4).

Power system measuring point correspondence setting data 44 is to be the data that the electric power (power consumption in the electric system 11, which measurement point) of which node of the tree structure of electric system 11 is mapped between each node (each take-off point) of each measurement point and electric system setting data 42 with the power consumption that each measurement point is measured.

For power system measuring point correspondence setting data 44, both can (for example, XML) make with the pattern of direct editing, and also can use the setting software of the special use of moving in PC to make according to be used for recording and narrating corresponding data layout.

Perhaps, also can be for possessing operation inputting part 8(Fig. 1) electricity consumption Measurement and Data Processing device 1, as shown in Figure 3, power system measuring point correspondence configuration part 43 is set independently, and makes power system measuring point correspondence setting data 44 with power system measuring point correspondence configuration part 43

In addition, power system measuring point correspondence configuration part 43 both can be set to the part of functions of electric system configuration part 41, also can be set to the part of functions that measurement point configuration part 91 or surveying instrument consist of configuration part 31.

In addition, also can as shown in Figure 3, with electric system configuration part 41, measurement point configuration part 91 and surveying instrument formation configuration part 31 etc. power system measuring point correspondence configuration part 43 be set independently in addition.

And then power system measuring point correspondence configuration part 43 also can be set to blanket configuration part that set-up function that the set-up function of electric system configuration part 41 and measurement point configuration part 91 or surveying instrument consist of configuration part 31 and power system measuring point correspondence configuration part 43 has been merged.

In Fig. 5 A, show the with dashed lines arrow make electric system tree structure (left side) and surveying instrument consist of tree structure (right side) correspondence related situation.

In Fig. 5 A, " corresponding related information " shown in the dotted arrow is equivalent to power system measuring point correspondence setting data 44.In addition, the data of power system measuring point correspondence setting data 44 are recorded and narrated for example as shown in Figure 7.

According to above-mentioned viewpoint, record and narrate the tree structure (power system measuring point correspondence setting data 44) of Fig. 5 A by following step.

At first, by the setting software of the special use of moving in PC, set electric system setting data 42 with the form (for example, as described later shown in the electric system label of the tree view of Fig. 9) of electric system tree view.

In addition, with electric system setting data 42 similarly, by the setting software of the special use of moving in PC, form (for example, as described later shown in the surveying instrument label of the tree view of Figure 10) the setting measurement instrument that consists of tree view with surveying instrument consists of setting data 32

Next, each node for the electric system tree view, which endpoint node that setting consists of tree view by surveying instrument (namely, measurement point) measures (perhaps, consist of each endpoint node of tree view for surveying instrument, the power consumption of which node of setting measurement electric system tree view).

Thus, as Fig. 5 A, obtain the record example of power system measuring point correspondence setting data 44.

In addition, under the original state before setting is the power consumption of which measurement point in the electric system 11, each node of electric system setting data 42 (take-off point, end) all becomes the setting of disposing as the imaginary measurement point that automatically calculates.

Then, as mentioned above, setting is the power consumption of which measurement point in the electric system.That is, for the node of in fact measuring, do not dispose as imaginary measurement point, dispose and be set as measurement point.

At this moment, about owing to not being node in each node (take-off point, end) of the electric system setting data 42 of imaginary measurement point, that can determine uniquely power consumption with corresponding related disposal of power measurement device 12, automatically calculate and get final product, but about can not determining uniquely the node of power consumption, known stationary value or proportional distribution ratio on the electricity consumption setting experience for this node.

In the tree structure of electric system, set stationary value or proportional distribution ratio from end herein.

For example, about the imaginary measurement point h(in Fig. 5 A with reference to Fig. 2), the power consumption of known on the experience (supposition) imaginary measurement point h stably is in the situation of constant value, imaginary measurement point h is set the stationary value j of the power consumption of both having known.

On the other hand, present in the situation of general proportions tendency at the power consumption of the power consumption relative measurement point f of known imaginary measurement point h on the experience, use the scale-up factor k that had both known, the power consumption that " h=k * f " is set as imaginary measurement point h gets final product.

In Fig. 5 A, show for imaginary measurement point h and set stationary value j(with reference to the dotted line frame) state.

At this moment, should notice that the setting that does not make stationary value, proportional distribution ratio is treated as " circulation reference ".

Circulation becomes loop computation with reference to the state that refers to cross-reference when calculating, so under these circumstances, become the state that can not get the result.

In addition, for the measurement point that can determine uniquely power consumption, former state ground automatically calculates and gets final product, but for determining uniquely, owing to calculating formula known (decision), thus preferably be not made as to former state automatic calculating, and set calculating formula.

In Fig. 5 A, about imaginary measurement point e, g, i, show the set condition of the former state of automatic calculating (with reference to dashed boxes).

For example, about imaginary measurement point g, deriving uniquely from the electric system tree structure of Fig. 5 A is " g=t+u+v ", and, each measurement point t, u, v are measuring objects, automatically calculate with reference to ground so can not circulate, thus need not manually to set in addition " g=t+u+v ", and also can automatically calculate on former state ground.

In addition, about imaginary measurement point e, if suppose in imaginary measurement point e without the next tree structure, then derive uniquely from the electric system of Fig. 5 A tree structure and become " e=κ-(b+c+d) ", and, each measurement point b, c, d are measuring objects, automatically calculate with reference to ground so can not circulate, so also can automatically calculate on former state ground.

But,, be assumed to be about imaginary measurement point e herein, there be the next tree structure (not shown) same with the situation of imaginary measurement point g, from the next automatic calculating of tree structure of imaginary measurement point e.

On the other hand, although known be " i=b-(f+g+h) " about imaginary measurement point i, therein, imaginary measurement point g becomes automatic calculating, so the possibility of remaining circulation reference.

In addition, imaginary measurement point h in the above-mentioned calculating formula is the setting of stationary value j at this, although so about the possibility of imaginary measurement point i without the circulation reference, but because and non-automatic calculating and be not measuring object, if be not stationary value j but the setting of proportional distribution ratio so be assumed to be, then can say according to the setting content of proportional distribution ratio and the possibility of residual circulation reference.

But, herein, imaginary measurement point g be automatically set at and imaginary measurement point i between do not become the relation of cross-reference, so can after calculating imaginary measurement point g, calculate imaginary measurement point i, so also can former state ground the automatic imaginary measurement point i of calculating.

And then, do not measuring in the situation of all take-off points in the electric system 11 with omitting, electric power is set transmits the loss Δ.

Transmit the loss Δ for electric power, both can manually set in the setting stage in Fig. 5 A, but also can the operational phase (aftermentioned) in Fig. 5 A automatically judge and set.

For example, in Fig. 5 A, about measurement point f, can pass through " f=p+q+r " and determine uniquely, but owing to pass through in addition power measurement device (f) 12(with reference to Fig. 2) measure measurement point f, so above-mentioned calculated value is inconsistent with actual measured value sometimes.

At this moment, just no problem as long as both difference is in the permissible range of error at measurment, but surpassing in the inconsistent situation in permissible range ground, need to consider that the electric power that can't ignore transmits loss Δ (for example, electric leakage etc.) and disposes.

Therefore, electric system total data handling part 45 in the electricity consumption Measurement and Data Processing device 1 is visual in order to make the electric power relevant with measurement point f transmit the loss Δ, set electric power and transmit the loss Δ, as " f=p+q+r+ Δ ", carry out total data by electric system 11 and process.

In addition, automatically calculate electric power and transmit the loss Δ.

At last, the electric system setting data 42 that will produce in setting the step S1 in stage of electricity consumption Measurement and Data Processing device 1, the measurement point setting data 92 of producing in step S2, the surveying instrument produced in step S3 consist of that setting data 32 and surveying instrument consist of measurement point corresponding relation setting data 34 and the power system measuring point correspondence setting data 44 produced is written to setting data preservation section 22 in step S4.

At this moment, for the above-mentioned various setting datas 42,92,32,34,44 of having recorded and narrated entire system, both can be written to equally the whole of a plurality of electricity consumption Measurement and Data Processing devices 1, and also can only cut out with the corresponding part of specific electricity consumption Measurement and Data Processing device (α) 1 and write.

But, although can only cut out the next structure in the tree structure of Fig. 5 A, can't only cut out upper structure.

Herein, in Fig. 2 and various setting datas 92,32,34,42,44 electricity consumption Measurement and Data Processing device (α) 1 corresponding part specify as example.

Consisting of setting data 32 and surveying instrument with measurement point setting data 92, the surveying instrument of the corresponding part of electricity consumption Measurement and Data Processing device (α) 1 and consist of measurement point corresponding relation setting data 34 and refer to, the subcomponent of electricity consumption Measurement and Data Processing device (α) 1, is power measurement device (f) 12, (p) 12, (q) 12, (r) 12, (t) 12, (u) 12, (v) each measurement point of 12.

In addition, refer to the subcomponent of the take-off point of electric system 11 (measurement point) f and the subcomponent of imaginary measurement point g or the subcomponent of measurement point b with the electric system setting data 42 of electricity consumption Measurement and Data Processing device (α) 1 corresponding part.

Measurement point setting data 92, the surveying instrument that cuts out like this can be consisted of setting data 32 and surveying instrument formation measurement point corresponding relation setting data 34 and electric system setting data 42 and power system measuring point correspondence setting data 44 and be written to electricity consumption Measurement and Data Processing device (α) 1.

But, if the various setting datas 92,32,34,42,44 with electricity consumption Measurement and Data Processing device (κ) 1 corresponding part are described, then consist of setting data 32 and surveying instrument with measurement point setting data 92, the surveying instrument of the corresponding part of electricity consumption Measurement and Data Processing device (κ) 1 and consist of measurement point corresponding relation setting data 34 and refer to, the tree structure on the right side in Fig. 5 A whole.

Therefore, for example, can't cast out and omit the subcomponent of electricity consumption Measurement and Data Processing device (α) 1, namely with power measurement device (f) 12, (p) 12, (q) 12, (r) 12, (t) 12, (u) the 12, (information that v) each measurement point of 12 is relevant.

In addition, refer to the electric system setting data 42 of electricity consumption Measurement and Data Processing device (κ) 1 corresponding part, it is whole that the tree in the left side in Fig. 5 A constructs, for example omit the information relevant with the subcomponent of the subcomponent of take-off point (measurement point) f of electric system 11 and imaginary measurement point g so can't cast out, and need to write all.

Return Fig. 4, next, operational phase (according to the generation step of the visual picture of electric system) is described.

At first, collect and preserve the electricity consumption data (step S11) from power measurement device 12, as required, add up to demonstration generating unit 36 by surveying instrument, generate the display frame (step S12) that consists of according to surveying instrument.

Next, by electric system total data handling part 45, carry out the total processing (step S13) based on the data of electric system.

At last, add up to demonstration generating unit 46 by electric system, generate the display frame (step S14) according to electric system, finish the processing routine of Fig. 4.

At this moment, electric system total data handling part 45 according to the electric system of recording and narrating in the electric system setting data 42, has been recorded and narrated the data with the corresponding relation of measurement point according to power system measuring point correspondence setting data 44(), process total data 26.

In addition, electric system adds up to and shows that generating unit 46 makes by the figure demonstration according to power system visualization of the total data after 45 processing of electric system total data handling part.

In addition, both add up to process and can carry out concurrently with the processing of collecting and preserving the electricity consumption data, also can occured that figure shows require the time carry out according to needing.

Next, with Fig. 5 A, with reference to the process flow diagram of Fig. 8, illustrate that the total based on the data of electric system of embodiments of the present invention 1 is processed.

In Fig. 8, show the processing that the upper (root of tree structure) of the electric system (κ) 11 in Fig. 5 A recursively adds up to.

In addition, even the processing of Fig. 8 also is effective under generating with the situation based on the imaginary measurement point setting data that adds up to calculating formula of the data of electric system.

In Fig. 8, at first, the upper of the tree of electric system (κ) 11 structure (Fig. 5 A) is set as processes Object node (step S41), transfer to Recursion process (in the single-point line frame).

In Recursion process, whether at first, judging has the next tree structure (step S42) in processing Object node (initial object is upper node κ), if be judged to be without the next tree structure (namely, "No"), then transfer to aftermentioned determination processing (step S50).

On the other hand, if in step S42, be judged to be and in processing Object node, have the next tree structure (with reference to Fig. 5 A) (namely, "Yes"), then next, judge (whether the Recursion process of the b in Fig. 5 A ~ e) finishes (step S43), finishes (namely if be judged to be Recursion process for all the next nodes, "Yes"), then transfer to aftermentioned determination processing (step S45).

On the other hand, if in step S43, be judged to be Recursion process and do not finish (that is, "No"), then the node of Recursion process is not set as the processing object, carries out Recursion process (step S44).

Below, return step S43, finish (that is, "Yes") until be judged to be Recursion process, repeatedly carry out Recursion process (step S44).

Thus, carry out Recursion process for all the next nodes of processing Object node (in the situation that κ, measurement point b, c, d, e).

After Recursion process (being described in detail later) is all finished, process the branch according to processing result of determination that whether Object node is measuring object (aftermentioned step S50).

If in step S43, be judged to be Recursion process and finish (that is, "Yes"), then next, whether the determination processing Object node is measurement point (step S45).

If in step S45, be judged to be process Object node be not measurement point (measuring object) (namely, "No"), then with the summation of the power consumption of the next node as the electricity consumption data (step S49) of processing Object node, finish the Recursion process of Fig. 8.

On the other hand, if in step S45, being judged to be and processing Object node is measurement point (measuring object) (that is, "Yes"), then will process the electricity consumption data of Object node as electricity consumption data (step S46).

Next, judge that whether the next node all is measurement point (step S47) also, comprises not being the node (that is, "No") of measurement point if be judged to be in the next node, then finishes the Recursion process of Fig. 8.

On the other hand, if in step S47, be judged to be the next node and all be measurement point (namely, "Yes"), electric power then also is set except the next node of the processing Object node set transmits the loss Δ, with process Object node power consumption, transmit the electricity consumption data (step S48) of loss Δ as electric power with the difference as the summation of the power consumption of all the next nodes of measuring object.

By more than, finish in processing Object node, to have Recursion process (the step S43 ~ S48) of the situation of the next tree structure.

Below, as concrete example, illustrate successively for the Recursion process of respectively processing Object node κ, b, f, g that the next tree structure is arranged in the structure example of Fig. 2 and Fig. 5 A.

At first, processing Object node κ is measurement point (CH1 by power measurement device (a) 12 measures), so this measurement data usefulness is dealt with the electricity consumption data of Object node κ.

In addition, are measuring objects if process all the next nodes of Object node κ, the electricity consumption data that the power consumption that then will process Object node κ and the difference of the summation of the power consumption of the next node are lost Δ as the electric power transmission.

But, as long as any one in the next node of processing Object node κ is not measuring object, electric power then is not set transmits the loss Δ.

In the said structure example, comprise among the next node b ~ e that processes Object node κ, owing to being not that measuring object is disposed node e into imaginary measurement point, so as the next node of processing Object node κ, do not set electric power and transmit and lose Δ.

Above, finish for the Recursion process of processing Object node κ.

Similarly, illustrate for the Recursion process of processing Object node b.

At first, because the next tree structure being arranged in processing Object node b, so (f～i) carries out Recursion process for all the next nodes of processing Object node b.

After Recursion process is finished, process the branch according to processing result of determination that whether Object node b is measuring object (aftermentioned step S50).

Herein, processing Object node b is measurement point (CH2 by power measurement device (a) 12 measures), so this measurement data usefulness is dealt with the electricity consumption data of Object node b.In addition, process among the next node f～i of Object node b, imaginary measurement point g～i is not measuring object, transmits the loss Δ so do not set electric power.

Above, finish for the Recursion process of processing Object node b.

Next, illustrate for the Recursion process of processing Object node f.

At first, because the next tree structure is arranged in processing Object node f, so carry out Recursion process for all the next nodes (p, q, r) of processing Object node f.

After Recursion process is finished, be measurement point (measuring by power measurement device (f) 12) owing to processing Object node f, so this measurement data usefulness is dealt with the electricity consumption data of Object node f.

In addition, the next node p, q, the r that process Object node f all are measuring objects, transmit the loss Δ so in the next node of processing Object node f, set electric power, the difference of the power consumption of processing Object node f and the summation of the power consumption of the next node p, q, r is transmitted the electricity consumption data of losing Δ as electric power.

Above, finish for the Recursion process of processing Object node f.

Next, illustrate for the Recursion process of processing Object node g.

At first, the next tree structure is arranged in processing Object node g, so (t, u, v) carry out Recursion process for all the next nodes of processing Object node g.

After Recursion process is finished, owing to processing Object node g(imagination measurement point) be not measuring object, so the summation of the power consumption of the next node t, u, v is set as the electricity consumption data of processing Object node g.

Above, finish for the Recursion process of processing Object node g.

Next, in Fig. 8, the Recursion process of the situation of constructing without the next tree is described in processing Object node.

If in step S42, be judged to be without the next tree structure (that is, "No"), then next, whether the determination processing Object node is measurement point (step S50).

If in step S50, being judged to be and processing Object node is measurement point (that is, "Yes"), and the electricity consumption data identification that then will process Object node is measurement data (step S51), finishes the Recursion process of Fig. 8.

On the other hand, if in step S50, being judged to be and processing Object node is not measurement point (that is, "No"), then next, determines whether in processing Object node and has set stationary value, proportional distribution than (step S52).

If in step S52, be judged to be in processing Object node and set stationary value, proportional distribution than (namely, "Yes"), then being identified as the electricity consumption data of processing Object node is stationary value, proportional distribution calculated value (step S53), finishes the Recursion process of Fig. 8.

On the other hand, if in step S52, be judged to be in processing Object node and do not set stationary value, proportional distribution than (that is, "No"), then next, can judgement do not circulate with reference to automatically calculating (step S54) of ground from father node and the brotgher of node.

If in step S54, be judged to be and do not circulate with reference to the automatic calculating in ground (namely from father node and the brotgher of node, "Yes"), then will deduct the summation of the brotgher of node and the difference that obtains is set as the electricity consumption data (step S55) of processing Object node from father node, finish the Recursion process of Fig. 8.

On the other hand, if in step S54, be judged to be and do not circulate with reference to automatically calculating (that is, "No") of ground from father node and the brotgher of node, then be defined as not existing the electricity consumption data (can't calculate) (step S56) of processing Object node, finish the Recursion process of Fig. 8.

By more than, finish Recursion process (the step S50 ~ S56) of the situation of in processing Object node, constructing without the next tree.

Below, as concrete example, illustrate successively for the Recursion process of respectively processing Object node h, i, p without the next tree structure in the structure example of Fig. 2 and Fig. 5 A.

At first, illustrate for the Recursion process of processing Object node h.

Without the next tree structure, whether so then step S42, processing according to processing Object node h is the result of determination of measurement point (measuring object) (step S50) and branch in processing Object node h.

If processing Object node h is measuring object, then with this measurement data electricity consumption data that deal with Object node h.

But in this case, processing Object node h is not measuring object, so next, processes according to the result of determination of the setting (step S52) whether stationary value, proportional distribution ratio are arranged in processing Object node h and branch.

In the situation of the setting that does not have stationary value, proportional distribution ratio, electricity consumption data that can't computing Object node h, but as mentioned above, in processing Object node h, the such setting of stationary value j is arranged, so stationary value j usefulness is dealt with the electricity consumption data of Object node h.

Above, finish for the Recursion process of processing Object node h.

Next, illustrate for the Recursion process of processing Object node i.

About processing Object node i, without the next tree structure, it is not measuring object, there is not the setting of stationary value, proportional distribution ratio, so process according to can (f～h) does not circulate with reference to the ground automatically result of determination of reference (step S54) and branch from the father node (b) of processing Object node i and the brotgher of node.

If the circulation reference, electricity consumption data that then can't computing Object node i.

But, in this case, as mentioned above, the difference (i=b-(f+g+h) that can obtain by the summation that deducts brotgher of node f～h from father node b) do not circulate with reference to the electricity consumption data of ground computing Object node i, so adopt this value.

Above, finish for the Recursion process of processing Object node i.

Next, illustrate for the Recursion process of processing Object node p.

About processing Object node p, without the next tree structure, and be measurement point (measuring by power measurement device (p) 12), so this measurement data usefulness is dealt with the electricity consumption data of Object node p.

Above, finish for the Recursion process of processing Object node p.

In addition, for the Recursion process of processing Object node q, r, t, u, v, since identical, so description thereof is omitted herein.

In addition, for the Recursion process of processing Object node c, d, e, also some identical with content described above is so description thereof is omitted herein.

The electricity consumption data that can add up to as described above, all nodes of the electric system (κ) 11 shown in Fig. 2, Fig. 5 A.Also be same for other electric system (λ) 11 in Fig. 2, Fig. 5 A.

In addition, above-mentioned Recursion process is the processing for the mode of the electricity consumption data that determine how to calculate each node.

In addition, need the Recursion process in long processing time to shorten the processing time in order to omit as far as possible, preferred only carry out Recursion process initial 1 time of operational phase, the account form that storage obtains as its result (perhaps, according to executable form of scripts output), when needs calculate the data of each node, with reference to this account form (carrying out this script).

But, such as the situation of using the high hardware of computing ability etc., if the required time of Recursion process is as short as the degree that does not produce especially fault, also can constitutes and carry out where necessary Recursion process at every turn.

Next, with Fig. 3, with reference to Fig. 9, illustrate to be used for making and the processing that figure show visual according to electric system 11 of the total data 26 processed as described above.

Fig. 9 is the key diagram that the visual picture of measurement data of embodiments of the present invention 1 is shown by the electric system figure, shows by electric system add up to show generating unit 46(Fig. 3) processing carried out.

In Fig. 9, visual picture comprises the tree view of the demonstration of the schichtenaufbau that can realize electric system 11 and operation and shows the operating area (amplify show on the right side) of figure of the electricity consumption data of this node.

In all nodes (take-off point) in electric system 11, there are the electricity consumption data by above-mentioned total processing, so the operation of the node that shows by the hope figure of specifying on the tree view (with the mouse double-click etc.), as the illustration pattern of Fig. 9, can carry out figure to the electricity consumption data of this node and show.

In addition, as required, surveying instrument in the electricity consumption Measurement and Data Processing device 1 adds up to and shows that generating unit 36 consists of the hierarchical link structure of the surveying instrument of recording and narrating in the setting data 32 according to surveying instrument, consist of measurement point corresponding relation setting data 34 according to the surveying instrument of having recorded and narrated with the corresponding relation of measurement point, the measurement data 25 that makes measurement point is visual and figure shows.

Figure 10 is the key diagram that consists of the visual picture of measurement data that embodiments of the present invention 1 are shown by surveying instrument.

By as shown in figure 10, on the tree view of the demonstration of the schichtenaufbau that can realize surveying instrument and operation, (for example, operation v) (with the mouse double-click etc.) can be carried out figure to the electricity consumption data of this node and show to specify the node of wishing figure and showing.

Generation and relative total for the visual picture of such power consumption are processed, manually set in the past, but according to the embodiment of the present invention 1, can automatically process, can cut down the workload such effect relevant with the engineering of the visual picture of the operation of the virtual condition that is used for grasping intuitively power consumption so have.

Namely, according to the embodiment of the present invention 1, only to grasp the visualization processing of usefulness according to the virtual condition of the power consumption of electric system 11 required in order automatically to process by arrangement, with all imaginary measurement points (namely, all nodes of not measuring) relevant computing is set and the setting of visual picture and required set information, and set this set information (herein for the electric system schichtenaufbau, measurement point information, with and mutual relationship), just can utilize electric system to add up to and show that generating unit 46, automatically realization are used for the visual picture of grasping according to the virtual condition of the power consumption of electric system 11.

In embodiments of the present invention 1, by the rule application that " summations of the data of the data=child node of father node " are such in electric system 11, make the computing setting robotization relevant with all the visual required imaginary measurement points that are used for grasping according to the virtual condition of the power consumption of electric system 11, and, these operation result former states ground and demonstration according to electric system 11 are mapped, so for the also robotization of setting of visual picture.

In addition, embodiments of the present invention 1 similarly, only by the setting measurement instrument consist of schichtenaufbau, measurement point information, with and mutual relationship, just can utilize surveying instrument to add up to and show generating unit 36, automatically realize the visual picture according to the measurement data of surveying instrument formation.The setting of the visual required imaginary measurement point of the measurement data that does not consist of according to surveying instrument in addition.

In addition, as showing the only figure Show Styles in addition of 1 figure of the electricity consumption data of this node, in Fig. 9, the example that the electricity consumption data that show node b ~ e that this node κ and its 1 stage is the next show by the broken line figure altogether and the example that shows the electricity consumption data of node b ~ e that 1 stage of this node κ is the next by the accumulation figure.

In the accumulation figure in Fig. 9 (with reference to epimere), uppermost broken line becomes the electricity consumption data of this node κ, and can know each layer of its thin (b+c+d+e).

In addition, even replace to specify the operation (with the mouse double-click etc.) of the node that the hope figure on the tree view shows, and carrying out the operation of specifying 1 part suitable with this node in the shown figure (with the mouse double-click etc.), also is same.

For example, also can show the operation of the accumulation figure relevant with the next node b from tree view, but in Fig. 9, show by for the accumulation figure display frame relevant with this node κ, specify the next node b wherein, and show the example of the accumulation figure relevant with the next node b.

Like this, by specifying 1 figure in the shown figure, and then can realize detailed thin item to this figure carry out operation, namely relevant with detailed demonstration picture that figure shows move (below, be called " deeply excavating (drill-down) "), grasp operation so can carry out intuitively the virtual condition of power consumption.

But, only (for example, v), when showing this figure, do not have thin, so become 1 figure of the electricity consumption data of this node (endpoint node) only (in Fig. 9 hypomere) about the endpoint node of the tree of electric system structure.

Figure 11 is the key diagram that the visual picture of measurement data of embodiments of the present invention 1 is shown by electric system ratio, shows to replace figure to show, and makes the visual example of electricity consumption ratio of each node of electric system.

In Figure 11, can be according to figure to the power consumption of the time per unit of each node (for example, during 1 day, 1 week, 1 month etc.) total that adds up, making its result visualization is the ratio of power consumption.

As shown in figure 11, in making electricity consumption ratio visualization method, the size of the width means ratio of each table (right side), for example can carrying out, the ratio of 3 levels shows.

For example, in the table of epimere, the ratio (b〉c=d〉e) of the next node (b, c, d, e) in the visualized objects node (κ) is shown, can be further also shows altogether with the ratio of the next node f～i of the next node (b).

In addition, can also replace from tree view display of visually picture, deeply excavate and the visual picture of click electricity consumption ratio is first-class.

In Figure 11, show by on the visual picture about the electricity consumption ratio of visualized objects node κ, specify the next node b by click, prompting is about the example of the visual picture of the electricity consumption ratio of the next node b.

Namely, carry out that electric system is deeply excavated and in the table of the hypomere that obtains at the table to epimere, with the ratio of the further the next node f～i of the next node (b) (f＞g〉h=i), can further also show altogether with the next node p ~ r of the next node (f), the ratio of Δ (similarly, the ratio of the next node t～v of g).

For visual picture and the relative deeply excavation that realizes that above accumulation figure (Fig. 9), ratio show that (Figure 11) is such, in the past, still manually set setting, the total of the data that show by accumulation figure, ratio and deeply excavated source and the relation of deeply excavating the destination, but in embodiments of the present invention 1, can automatically extract out.

Therefore, according to the embodiment of the present invention 1, can cut down with the virtual condition that is used for carrying out intuitively power consumption and grasp the relevant workload of the engineering of visual picture of operation.

Namely, in embodiments of the present invention 1, by will for the child node that has take father node as the accumulation figure of graphical element shows, ratio shows rule application in electric system, can make with the visual deep excavation, the ratio that are used for according to the virtual condition of the power consumption of electric system is grasped to show relevant setting robotization.

In addition, in Fig. 3, as the software configuration that is used for automatically processing, electric system total data handling part 45 and spatial configuration total data handling part 55(or have as required been used, surveying instrument adds up to and shows generating unit 36), but also can consist of as shown in Figure 12 to be applied to install (Figure 40) in the past.

Figure 12 is the block diagram of other software configuration example that the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 1 is shown, to the part same with above-mentioned (with reference to Fig. 3, Figure 40), and additional symbol same as described above.In addition, the structure of not shown search key demonstration generating unit 105 as shown in figure 40.

In Figure 12, electricity consumption Measurement and Data Processing device 1 possesses: with above-mentioned (Fig. 3) same various setting datas 42 of setting, 44,52,54,92 various configuration parts 41,43,51,53,91; Consist of electric system setting data transformation component 47 and the power system measuring point correspondence setting data transformation component 48 of electric system total data handling part 45; Spatial configuration setting data transformation component 57 and spatial configuration electric system corresponding relation setting data transformation component 58 with Special composition structure total data handling part 55.

In addition, the electricity consumption Measurement and Data Processing device 1 of Figure 12 possesses as required: with the above-mentioned same various setting datas 32 of setting, 34 various configuration parts 31,33; Surveying instrument consists of setting data transformation component 37; And surveying instrument consists of measurement point corresponding relation setting data transformation component 38.

Electric system setting data transformation component 47, spatial configuration setting data transformation component 57 and surveying instrument consist of setting data transformation component 37 and generate search key setting data 102.

Power system measuring point correspondence setting data transformation component 48, spatial configuration electric system corresponding relation setting data transformation component 58 and surveying instrument consist of measurement point corresponding relation setting data transformation component 38 and generate search key measurement point corresponding relation setting data 104.

In addition, power system measuring point correspondence setting data transformation component 48 and spatial configuration electric system corresponding relation setting data transformation component 58 generate imaginary measurement point setting data 96.

In Figure 12, the various setting datas 102,104,96,92 that finally generate become the setting that device (Figure 40) in the past can be identified.

In addition, for spatial configuration, with embodiment 2 aftermentioneds.

Next, with reference to Figure 13, the action of other structure example of embodiments of the present invention shown in Figure 12 1 is described.

Figure 13 is the process flow diagram that the treatment step that the software configuration by Figure 12 carries out is shown, for the processing same with above-mentioned (with reference to Fig. 4), and additional symbol same as described above.In addition, (step S31 ~ S33) is corresponding to the processing of the operational phase of above-mentioned (with reference to Figure 41) (step S211 ~ S213) in the processing of operational phase.

In Figure 13, for the processing of setting the stage (step S1 ~ S4), same with above-mentioned (Fig. 4), so description thereof is omitted herein.

In this case, then set and process (step S4), transfer to processing by various transformation components 47,48,57,58,37,38 conversion stages of carrying out (step S21 ~ S25).

At first, as required, surveying instrument consists of setting data transformation component 37 and consists of setting data 32 according to surveying instrument, generates schichtenaufbau setting data (search key setting data 102) (step S21).

In addition, as required, surveying instrument consists of measurement point corresponding relation setting data transformation component 38 and consists of measurement point corresponding relation setting data 34 according to surveying instrument, generates schichtenaufbau measurement point corresponding relation setting data (search key measurement point corresponding relation setting data 104) (step S22).

Next, electric system setting data transformation component 47 generates schichtenaufbau setting data (search key setting data 102) (step S23) according to electric system setting data 42.

Next, power system measuring point correspondence setting data transformation component 48 and spatial configuration electric system corresponding relation setting data transformation component 58 generates with the imaginary measurement point setting data 96(step S24 that adds up to calculating formula based on the data of electric system).

In addition, power system measuring point correspondence setting data transformation component 48 generates schichtenaufbau measurement point corresponding relation setting data (search key measurement point corresponding relation setting data 104) (step S25) according to power system measuring point correspondence setting data 44.

Next, transfer to processing (the step S31 ~ S33) of operational phase.

At first, measure handling part 21 and the 23(Fig. 3 of measurement data preservation section) collect and be kept at the electricity consumption data (step S31) that each measurement point is measured.

Next, imaginary measurement point total data handling part 97(Figure 40) calculate imaginary measurement point (step S32).

At last, for make calculation process the data of measurement point become visual picture, search key demonstration generating unit 105(Figure 40) generates the display frame as schichtenaufbau, measurement data shows generating unit 94(Figure 40) generate the figure display frame (step S33) of each measurement data, finish the processing routine of Figure 13.

In Figure 12, electric system setting data 42 is data of representational level structure, install the search key setting data 102 that (Figure 40) can explain so can be transformed in the past, and then, can also be transformed to the search key measurement point corresponding relation setting data 104(that device in the past can explain from electric system setting data 42 and power system measuring point correspondence setting data 44 and represent which measurement point belongs to the setting data of which search key).

In addition, (step S42 ~ S56) is the processing for the mode of the electricity consumption data of each node that determines how to calculate electric system 11 to the Recursion process of above-mentioned (Fig. 8), the account form of the data of each node of extracting out so utilize this Recursion process can be applied to step S24, the S25 by 48 processing of power system measuring point correspondence setting data transformation component, can be as installed imaginary measurement point setting data 96 outputs that can explain in the past.

In addition, it can also be applied as the form of scripts carried out of above-mentioned (the 34th page of 12-15 is capable for instructions).

Surveying instrument consists of setting data 32 and surveying instrument, and to consist of measurement point corresponding relation setting data 34 are the data of corresponding relation that only represent the schichtenaufbau of measurement point and surveying instrument, owing to need not to export imaginary measurement point, so similarly, can be transformed to search key setting data 102 and the search key measurement point corresponding relation setting data 104 that device in the past can be explained.

Therefore, according to the structure of Figure 12, Figure 13, even device (Figure 40) in the past also can be transformed to setting data imaginary measurement point and search key, can realization and the same automatic processing of the situation of Fig. 3, Fig. 4.

As described above, the electricity consumption Measurement and Data Processing device 1(energy expenditure Measurement and Data Processing device of embodiments of the present invention 1(Fig. 1 ~ Figure 13)) possesses electric system total data handling part 45(energy system total data handling part), this electric system total data handling part 45(energy system total data handling part) according to measurement point setting data 92, collect the measurement data 25 relevant with electricity consumption (energy expenditure), and process in order to add up to measurement data 25, process as according to electric system 11(energy system) the electric system total data 26(energy system total data of total data).

Electric system total data handling part 45(energy system total data handling part) according to electric system setting data 42(energy system setting data) and set the power system measuring point correspondence setting data 44(energy system measurement point corresponding relation setting data of electric system setting data 42 with the corresponding relation of measurement point setting data 92), generating power system total data 26, perhaps, output is used for the setting (the various setting datas 102,104,96,92 in Figure 12) of generating power system total data 26.

In addition, electric system total data handling part 45 is measured the position of the take-off point of electric system 11 for net for catching fish or birds property ground, be created on this position and added that electric power transmits the electric system total data 26 of loss Δ (energy transmits loss), perhaps, output is used for the setting of generating power system total data 26.

In addition, embodiments of the present invention 1(Fig. 3) electricity consumption Measurement and Data Processing device 1 possesses for the electric system total demonstration generating unit 46(energy system total demonstration generating unit that shows electric system total data 26), electric system adds up to and shows that generating unit 46 makes electric system total data 26 show according to electric system setting data 42 levels ground, perhaps, output is used for the setting that level ground shows.

And then, embodiments of the present invention 1(Fig. 3) surveying instrument that electricity consumption Measurement and Data Processing device 1 possesses for display measurement data 25 adds up to demonstration generating unit 36, the surveying instrument total shows that generating unit 36 consists of setting data 32 according to surveying instrument and set the surveying instrument formation measurement point corresponding relation setting data 34 of measurement point setting data 92 with the corresponding relation of surveying instrument formation setting data 32, making measurement data 25 consist of setting data 32 according to surveying instrument shows, perhaps, output is for the setting that shows.

Thus, can automatically extract the generation of understandable visual picture out and be used for visual picture that (total of Fig. 9 ~ Figure 11) is processed, the workload that can cut down with the generation of visual picture and be used for the relevant engineering of setting that the total of visual picture processes.

In addition, the demonstration object as energy expenditure can effectively show for the most general electricity consumption.

Embodiment 2.

In addition, in above-mentioned embodiment 1(Fig. 1 ~ Fig. 4), main in order automatically to realize the visual picture according to electric system 11, obtained electric system total data 26, but also can be in addition, in order also automatically to realize the visual picture according to spatial configuration, and as shown in Figure 14, obtain spatial configuration total data (total data 26).

Figure 14 is the process flow diagram for the treatment of step that embodiments of the present invention 2 are shown (set, use), and the processing for same with above-mentioned (with reference to Fig. 4) has added symbol same as described above.

Figure 15 illustrates the electric system setting data 42 of embodiments of the present invention 2 and the key diagram of the mutual relationship (spatial configuration electric system corresponding relation setting data 54) of spatial configuration setting data 52.

In addition, Figure 16 is that the data based on spatial configuration that embodiments of the present invention 2 are shown add up to the process flow diagram of processing, and Figure 17 is the key diagram that the visual picture of measurement data of embodiments of the present invention 2 is shown by the demonstration of spatial configuration figure and spatial configuration ratio.

And then Figure 18 is other routine process flow diagram that the treatment step of embodiments of the present invention 2 is shown.

In addition, be made as factory or the interior buildings of the 17(of enterprise factory site that the electric system 11 of using embodiments of the present invention 2 is in above-mentioned (Fig. 2)), the software configuration of the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 2 is shown in the block diagram of Fig. 3.

In Fig. 3 and Figure 14, at first, in the setting stage, with above-mentioned (Fig. 4) similarly, electric system configuration part 41 makes electric system setting data 42(step S1), measurement point configuration part 91 makes measurement point setting data 92(step S2), power system measuring point correspondence configuration part 43 makes power system measuring point correspondence setting data 44(step S4).

In addition, as required, before step S4, surveying instrument consists of configuration part 31 and surveying instrument consists of measurement point corresponding relation configuration part 33 making surveying instruments formation setting datas 32 and surveying instrument consists of measurement point corresponding relation setting data 34(step S3).

Follow step S4, spatial configuration configuration part 51 makes spatial configuration setting data 52(step S5).

At this moment, both can directly record and narrate spatial configuration setting data 52, also can as shown in Figure 3 spatial configuration configuration part 51 be set independently, and come setting space structure setting data 52 by this spatial configuration configuration part 51.

Spatial configuration setting data 52 be level recorded and narrated data about the configuration of the space of buildings.

Become which type of spatial configuration record for spatial configuration setting data 52 and depend on object application, but generally recorded and narrated and (several mansions are arranged in land used for land used → mansion → floor → room, several floor are arranged in each mansion, several rooms are arranged in each layer) such situation.

If for the buildings in the factory site of above-mentioned (Fig. 2), make spatial configuration setting data 52, then become the tree structure shown in the right side in Figure 15.

In Figure 15, for buildings not shown in Fig. 2, be provided with the such node of " other " (" zone other ", " mansion or floor other ").

Next, make spatial configuration electric system corresponding relation setting data 54(step S6).

Spatial configuration electric system corresponding relation setting data 54 is as the dotted arrow in Figure 15, node (each take-off point) by electric system setting data 42, corresponding with the node of spatial configuration setting data 52, which node of recording and narrating the tree structure of electric system 11 carries out electric power to which space of which buildings and supplies with.

For spatial configuration electric system corresponding relation setting data 54, both can directly record and narrate, also can as shown in Figure 3 spatial configuration electric system corresponding relation configuration part 53 be set independently, and set by spatial configuration electric system corresponding relation configuration part 53.

In addition, spatial configuration electric system corresponding relation configuration part 53 both can be set to the part of electric system configuration part 41, also can be set to the part of spatial configuration configuration part 51, perhaps, also can arrange independently with electric system configuration part 41 and spatial configuration configuration part 51 etc.

And then spatial configuration electric system corresponding relation configuration part 53 also can be set to the blanket configuration part that set-up function with electric system configuration part 41, spatial configuration configuration part 51 and spatial configuration electric system corresponding relation configuration part 53 has merged.

In Figure 15, show the electric system tree structure in left side and the spatial configuration tree on right side are constructed by a dotted line situation corresponding to arrow, the corresponding related information shown in the dotted arrow becomes spatial configuration electric system corresponding relation setting data 54.

According to this meaning, in example shown in Figure 15, for example with above-mentioned embodiment 1 similarly, set electric system setting data 42 by the setting software of the special use of moving in PC with the form of electric system tree view.

Similarly, for example, as described later shown in the spatial configuration label of the tree view in Figure 17, the setting software by the special use of moving in PC is with the form setting space structure setting data 52 of spatial level structure tree view.

In addition, each node of electric system tree view by setting electric system setting data 42 carries out electric power to which node of the spatial level structure tree view of spatial configuration setting data 52 and supplies with (perhaps, each node of spatial level structure tree view receives the electric power supply from which node of electric system tree view), record and narrate spatial configuration electric system corresponding relation setting data 54.

At this moment, in Figure 15, also can replace making " endpoint node " of electric system tree structure to be mapped with the spatial configuration node one by one, and " branch node " of electric system tree structure is mapped with the spatial configuration node.

Like this, the endpoint node of recording and narrating into the spatial configuration node is supplied with from accepting electric power more than the node of electric system tree structure some without omitting ground.

In addition, cross in the situation of a plurality of spatial configurations at identical electric system node, the next node as this electric system node, new settings imaginary node (child node of the electric system of the non-object of measurement), and for this imaginary node set proportional distribution than after, record and narrate the corresponding of these imaginary node and spatial configuration node.

Below, setting stage in Figure 14 last, the measurement point setting data 92 that will produce in above-mentioned steps S1 ~ S6, surveying instrument consist of setting data 32, surveying instrument consists of measurement point corresponding relation setting data 34, electric system setting data 42, power system measuring point correspondence setting data 44, spatial configuration setting data 52 and spatial configuration electric system corresponding relation setting data 54 and is written to electricity consumption Measurement and Data Processing device 1.

At this moment, for various setting datas, as described in above-mentioned embodiment 1, both can be written to equally the whole of a plurality of electricity consumption Measurement and Data Processing devices 1, and also can only cut out with the corresponding part of electricity consumption Measurement and Data Processing device (α) 1 and write.

Next, operational phase in Figure 14 (according to the generation step of the visual picture of electric system and spatial configuration) is described.

In operational phase, at first, with similarly above-mentioned, collect and preservation electricity consumption data (step S11), and as required, generate the display frame (step S12) that consists of according to surveying instrument.In addition, add up to the data (step S13) based on electric system, generate the display frame (step S14) according to electric system.

In this case, follow step S13, carry out the generation of visual picture and process (step S14), in addition, spatial configuration total data handling part 55 is according to the spatial configuration of recording and narrating in the spatial configuration setting data 52, according to the spatial configuration electric system corresponding relation setting data 54 of having recorded and narrated with the corresponding relation of electric system setting data 42, process total data 26(step S15).

At last, spatial configuration add up to show that generating unit 56 makes total data 26 after the processing visual and figure shows (step S16) according to spatial configuration, finishes the processing routine of Figure 14.

In addition, process for the total of step S15, as described in above-mentioned embodiment 1, both can carry out concurrently with the processing (step S11) of collecting and preserving the electricity consumption data, also can be according to needing execution when requiring that figure shows arranged.

Figure 16 is the process flow diagram that the total processing of embodiments of the present invention 2 is shown, and the processing for same with above-mentioned (with reference to Fig. 8) has added symbol same as described above.

After the total of above-mentioned (Fig. 8) was finished dealing with, the distinctive total of carrying out among Figure 16 was processed.

In Figure 16, at first, factory or enterprise (κ) 17 are set as processing Object node (step S61), transfer to Recursion process (in the single-point line frame).

In Recursion process, at first, process according to the result of determination whether the next tree structure (step S42) is arranged in processing Object node (that is, the node κ in Fig. 2) and branch.

In this case, as Fig. 2 and Figure 15, the next tree structure is arranged in processing Object node κ, so next, carry out Recursion process (step S43, S44) for all the next nodes of processing Object node κ (mansion or floor α, β, γ, other).

,, after all finishing, processes according to the result of determination of whether having set the corresponding relation (step S62) of processing Object node κ and electric system node and branch Recursion process aftermentioned for concrete Recursion process.

If in step S62, be judged to be and set the electric system node corresponding with processing Object node κ (namely, "Yes"), then with the electricity consumption data electricity consumption data (step S63) that deal with Object node κ of this electric system node, finish the Recursion process of Figure 16.

On the other hand, if in step S62, being judged to be does not have to set the electric system node corresponding with processing Object node κ (namely, "No"), then with the summation of the power consumption of the next node as the electricity consumption data (step S49) of processing Object node κ, finish the Recursion process of Figure 16.

In addition, in step S49, all in the situation of countless certificates, process also countless certificates of Object node κ in any one in the next node.

Herein, set owing to having carried out factory or (κ) 17 of enterprise and electric system (κ) 11 corresponding relations, so will be by adding up to the electricity consumption data of processing the electric system (κ) 11 of calculating to be used as the electricity consumption data of factory or enterprise (κ) 17.

Above, process the Recursion process of Object node κ and finish.

Next, Recursion process for mansion or floor (α) 16 is described.

As Fig. 2 and Figure 15, in mansion or floor (α) 16, the next tree structure is arranged, so branch into step S43, S44 from step S42, carry out Recursion process for all the next nodes of mansion or floor (α) 16 (zone (1) 14, zone (2) 14, other).

,, after all finishing, processes according to the result of determination of whether having set the corresponding relation (step S62) of processing Object node κ and electric system node and branch Recursion process aftermentioned for concrete Recursion process.

In this case, owing to having carried out relation setting corresponding to mansion or floor (α) 16 and electric system (b) 11, so will be used as the electricity consumption data (step S63) of mansion or floor (α) 16 by the electricity consumption data that add up to the electric system (b) 11 of processing calculating, finish the processing routine of Figure 16.

Above, the Recursion process of mansion or floor (α) 16 is finished.

Next, illustrate for zone (1) 14 Recursion process.

Owing in zone (1) 14, without the next tree structure, so transfer to step S64 from step S42, processing according to regional (1) 14 whether set the branch with the result of determination of the corresponding relation of electric system node.

If in step S64, be judged to be and set the electric system node corresponding with regional (1) 14 (namely, "Yes"), then the electricity consumption data of this electric system node is used as the electricity consumption data (step S65) in zone (1) 14, finishes the processing routine of Figure 16.

On the other hand, do not have to set the electric system node corresponding with regional (1) 14 (namely if be judged to be, "No"), then transfer to the determination processing that step S54(could calculate automatically), if can not circulate with reference to automatically calculating then calculate (step S55) of ground from father node and the brotgher of node, if can't automatically calculate then be defined as countless certificates (step S56), finish the processing routine of Figure 16.

Herein, owing to having carried out relation setting corresponding to zone (1) 14 and electric system (f) 11, so transfer to step S65 from step S64, by adding up to the electricity consumption data of processing the electric system (f) 11 of calculating to be used as the electricity consumption data in zone (1) 14, the Recursion process in zone (1) is finished with.

For the Recursion process of zone (2) 14, other and mansion or floor (β) 16, (γ) 16, other and then factory or enterprise (λ) 17, also by some the carrying out in the content described above, so omit herein explanation.

The electricity consumption data that can add up to thus, each node of spatial configuration.Above also is same for electric system (λ) 11.

In addition, the Recursion process of Figure 16 is with similarly above-mentioned, be used for to determine how to calculate the processing of mode of the electricity consumption data of each node, usually needs the long processing time.

Therefore, shorten the viewpoint in processing time from omitting as far as possible Recursion process, preferably constitute initial 1 time that only carries out operational phase, and the account form that storage obtains as its result (perhaps, can carry out form of scripts output), when needs calculate the data of each node, with reference to the account form (carrying out this script) of storing.

But such as the situation of using the high hardware of computing ability etc., the required time of Recursion process is as short as in the situation of the degree that does not produce especially fault, constitutes that to carry out where necessary Recursion process also no problem at every turn.

Below, spatial configuration adds up to and shows that generating unit 56 makes the total data of processing as mentioned above visual according to spatial configuration, and figure shows as shown in Figure 17.

By the visual picture for above-mentioned (Fig. 9), add can show and the tree view of the schichtenaufbau of operating space structure, consist of visual picture shown in Figure 17.

In Figure 17, in all nodes (take-off point) in spatial configuration, process by above-mentioned total and to have the electricity consumption data, so the operation of the node that shows by the hope figure of specifying on the tree view (with the mouse double-click etc.), the electricity consumption data of this node are carried out figure show.In addition, the Show Styles of figure is identical with the situation of above-mentioned (Fig. 9).

In embodiments of the present invention 2, only by arrangement for the setting of automatically processing the computing setting relevant with all the visual required imaginary measurement points that are used for grasping according to the virtual condition of the power consumption of spatial configuration and visual picture required set information, and set this set information (herein, the mutual relationship of spatial configuration schichtenaufbau and electric system schichtenaufbau), just can automatically realize the visual picture (Figure 17) grasped for according to the virtual condition of the power consumption of spatial configuration.

Namely, in spatial configuration, can make the computing setting robotization relevant with all the visual required imaginary measurement points that are used for grasping according to the virtual condition of the power consumption of spatial configuration by the rule application that " data of father node "=" summations of the data of child node " are such.

In addition, these operation result former states ground is mapped with demonstration according to spatial configuration, so also can robotization for the setting of visual picture.

In addition,, as showing such rule application in spatial configuration, demonstration, the ratio of " the accumulation figure " of graphical element can make with the visual deep excavation, the ratio that are used for according to the virtual condition of the power consumption of spatial configuration is grasped to show relevant setting robotization by the child node that will have take father node.

Therefore, in embodiments of the present invention 2, also obtain the effect same with above-mentioned embodiment 1.

Herein, the distinctive effect of embodiments of the present invention 2 is, with respect in the device spatial configuration and measurement point were mapped in the past, spatial configuration and electric system is mapped, according to the total data according to treated electric system, carry out the point according to the processing of spatial configuration.

Thus, has following effect: even the corresponding relation of electric system and measurement point (for example changes, increased measurement point in order to measure in more detail), as long as spatial configuration do not change with the corresponding of electric system, then keep intact with spatial configuration, setting that electric system is relevant and do not change and get final product.

In addition, has following effect: even the corresponding relation of spatial configuration and electric system (for example changes, because spatial configuration changes with organizing change to wait again layout together), as long as the corresponding not variation of electric system and measurement point, then keep intact with electric system, setting that measurement point is relevant and do not change and get final product.

In addition, in the above description, in order automatically to process various setting datas, the software configuration of application drawing 3 has been carried out the processing of Figure 14, but also can carry out the processing of the Figure 18 that can be applied in the past to install (Figure 40).

Figure 18 illustrates to use the in the past process flow diagram of the treatment step of the embodiments of the present invention 2 of device (Figure 40), and the processing for same with above-mentioned (with reference to Figure 13, Figure 14) has added symbol same as described above.

In addition, be used for to carry out Figure 18 processing software configuration as shown in figure 12.In addition, in Figure 18, only be the point that has appended step S26 ~ S28 as conversion stages from above-mentioned different processing.

By the processing (setting, conversion and utilization) of Figure 18, even installed in the past, also can by prior conversion setting data, carry out and above-mentioned same automatic processing.

In Figure 18, then (step S6) processed in the making of the spatial configuration electric system corresponding relation setting data 54 of above-mentioned (Figure 14), transfers to conversion stages, carries out the processing same with above-mentioned (Figure 13) (step S21 ~ S25).

Next, then step S25 generates schichtenaufbau setting data (search key setting data 102) (step S26) according to spatial configuration setting data 52.

In addition, generate with the imaginary measurement point setting data 96(step S27 that adds up to calculating formula based on the data of spatial configuration).

And then, generate schichtenaufbau measurement point corresponding relation setting data (search key measurement point corresponding relation setting data 104) (step S28) according to spatial configuration electric system corresponding relation setting data 54.

Below, transfer to operational phase, measurement handling part 21 and the 23(Fig. 3 of measurement data preservation section in the electricity consumption Measurement and Data Processing device 1) collect and be kept at the electricity consumption data (step S31) that each measurement point is measured.

In addition, imaginary measurement point total data handling part 97(Figure 40) calculate imaginary measurement point (step S32).

At last, for make calculation process the data of measurement point become visual picture, search key demonstration generating unit 105(Figure 40) generates the display frame as schichtenaufbau, measurement data shows generating unit 94(Figure 40) generate the figure display frame (step S33) of each measurement data, finish the processing routine of Figure 18.

In above-mentioned conversion stages, the spatial configuration setting data 52(that obtains in step S26 is with reference to Fig. 3, Figure 12) be and other setting data data of representational level structure similarly, so can be transformed to the search key setting data 102 that device (Figure 40) in the past can be explained.

In addition, can also according to from spatial configuration setting data 52(step S26) and spatial configuration electric system corresponding relation setting data 54(step S28) imaginary measurement point setting data 96(step S27 that the spatial configuration of conversion is relevant) and with from the relevant imaginary measurement point setting data 96(step S24 of the electric system of electric system setting data 42 and 44 conversion of power system measuring point correspondence setting data), be transformed to the search key measurement point corresponding relation setting data 104 that device (Figure 40) in the past can be explained.

And then, the Recursion process of Figure 16 is be used to determining the how processing of the mode of the electricity consumption data of each node of computer memory structure, so utilize the account form of the data of each node that this Recursion process extracts out can be applied to step S27 and the step S28 that processes by spatial configuration electric system corresponding relation setting data transformation component 58, imaginary measurement point setting data 96 outputs that can explain as device (Figure 40) in the past.

In addition, it can also be as the form of scripts carried out of above-mentioned (the 47th page of 12-17 is capable for instructions).

As described above, embodiments of the present invention 2(Fig. 1 ~ Fig. 3, Figure 12, the electricity consumption Measurement and Data Processing device 1(energy expenditure Measurement and Data Processing device of Figure 14 ~ Figure 18)) possesses for generating as the spatial configuration total data handling part 55 according to the spatial configuration total data 26 of the total data of spatial configuration, spatial configuration total data handling part 55 is according to spatial configuration setting data 52, with set electric system setting data 42(energy system setting data) with the spatial configuration electric system corresponding relation setting data 54(spatial configuration energy system corresponding relation setting data of the corresponding relation of spatial configuration setting data 52), span structure total data 26, perhaps, output is used for the setting of span structure total data 26 (with reference to Figure 12, Figure 18).

In addition, the spatial configuration that the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 2 possesses for display space structure total data 26 adds up to demonstration generating unit 56, spatial configuration adds up to and shows that generating unit 56 makes spatial configuration total data 26 show (Figure 17) according to spatial configuration setting data 52 levels ground, perhaps, output is used for the setting (with reference to Figure 12, Figure 18) that level ground shows.

Thus, with similarly above-mentioned, the total processing that can automatically extract the generation of understandable visual picture out and be used for visual picture, and the workload of reduction engineering.

Embodiment 3.

In addition, in above-mentioned embodiment 1,2(Fig. 1 ~ Figure 18), in order automatically to realize according to the visual picture of electric system 11 and according to the visual picture of spatial configuration, as total data 26, electric system total data and spatial configuration total data have been obtained, but in addition, for the electricity consumption equipment 13(that also automatically realizes consumption electric power with reference to Fig. 2) the visual picture of each classification, also can as shown in Figure 19, obtain electricity consumption equipment total data (total data 26).

Figure 19 is the block diagram of software configuration that the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 3 is shown, to the part same with above-mentioned (with reference to Fig. 3), and additional symbol same as described above and omit detailed description.

In Figure 19, electricity consumption Measurement and Data Processing device 1 is except automatically realizing the visual picture according to electric system, for the visual picture of each classification of also automatically realizing electricity consumption equipment 13, possess electricity consumption apparatus settings section 61, electricity consumption electric power of equipment system corresponding relation configuration part 63, spatial configuration electricity consumption equipment corresponding relation configuration part 59, electricity consumption equipment total data handling part 65 and electricity consumption equipment and add up to and show generating unit 66.

In addition, setting data preservation section 22 in the electricity consumption Measurement and Data Processing device 1 also preserves electricity consumption apparatus settings data 62 from electricity consumption apparatus settings section 61, from the electricity consumption electric power of equipment system corresponding relation setting data 64 of electricity consumption electric power of equipment system corresponding relation configuration part 63 and from the spatial configuration electricity consumption equipment corresponding relation setting data 60 of spatial configuration electricity consumption equipment corresponding relation configuration part 59 except above-mentioned various setting datas.

In addition, herein, although for fear of miscellaneous and not shown, electricity consumption Measurement and Data Processing device 1 possesses the surveying instrument formation configuration part 31 same with above-mentioned (Fig. 3), surveying instrument formation setting data 32, surveying instrument formation measurement point corresponding relation configuration part 33 as required, surveying instrument consists of measurement point corresponding relation setting data 34 and surveying instrument adds up to demonstration generating unit 36.

In Figure 19, electric system setting data 42 and measurement data 25 also are input to electricity consumption equipment total data handling part 65.

Electricity consumption apparatus settings data 62 are input to electric system total data handling part 45, spatial configuration total data handling part 55, electricity consumption equipment total data handling part 65 and electricity consumption equipment add up to demonstration generating unit 66.

Electricity consumption electric power of equipment system corresponding relation setting data 64 is input to electric system total data handling part 45 and electricity consumption equipment total data handling part 65, spatial configuration electricity consumption equipment corresponding relation setting data 60 is input to spatial configuration total data handling part 55.

To be saved in from the electricity consumption equipment total data 26 of electricity consumption equipment total data handling part 65 after the total data preservation section 24, be input to measurement data and add up to handling part 93, and be input to various demonstration generating units 46,66,56 via electric system total data handling part 45, electricity consumption equipment total data handling part 65 and spatial configuration total data handling part 55.

Next, with Fig. 2, with reference to Figure 20 and Figure 21, the setting stage of embodiments of the present invention shown in Figure 19 3 and the treatment step of operational phase are described.

Figure 20 is the process flow diagram that the treatment step of embodiments of the present invention 3 is shown, to the processing same with above-mentioned (with reference to Fig. 4), and additional symbol same as described above and omit detailed description.

The step in setting stage at first, is described.

In Figure 20, with above-mentioned (Fig. 4, Figure 14) similarly, carry out the making (step S1) of electric system setting data 42, the making (step S2) of measurement point setting data 92, the making (step S4) of power system measuring point correspondence setting data 44.

In addition, as required, before step S4, shown in single-point line piece, carry out that surveying instrument consists of setting data 32 and surveying instrument consists of measurement point corresponding relation setting data 34(with reference to Fig. 3) making (step S3).

Next, electricity consumption apparatus settings section 61 makes electricity consumption apparatus settings data 62(step S5A).

Also can classify to electricity consumption equipment for each classification, make and directly record and narrate electricity consumption apparatus settings data 62.Perhaps, also can as shown in Figure 19 electricity consumption apparatus settings section 61 be set independently, and set electricity consumption apparatus settings data 62 by electricity consumption apparatus settings section 61.

, if for the electricity consumption equipment shown in the structure example of above-mentioned (Fig. 2) (below, also referred to as " equipment "), make electricity consumption apparatus settings data 62 herein, then shown in the tree structure on the right side in Figure 21.

Figure 21 is the electric system setting data 42 and electricity consumption apparatus settings data 62(device class setting data that embodiments of the present invention 3 are shown) the key diagram of mutual relationship (electricity consumption electric power of equipment system corresponding relation setting data 64).The tree structure expression electric system setting data 42 same with above-mentioned (with reference to Fig. 5 A) in the left side in Figure 21.

In Fig. 2 and Figure 21, electricity consumption equipment (A1) 13, (A2) 13, (B1) 13, (B2) the 13rd, the equipment of formation production line, so as device class definition " production equipment ", as the electricity consumption equipment 13 of the classification that belongs to " production equipment ", set " A1 ", " A2 ", " B1 ", " B2 ".

In addition, electricity consumption equipment (X1) 13, (X2) the 13rd, illumination component is so as device class definition " illumination ", as the electricity consumption equipment 13 of the classification that belongs to " illumination ", set " X1 ", " X2 ".

Similarly, electricity consumption equipment (Y1) 13, (Y2) the 13rd, the air-conditioning instrument is so as device class definition " air-conditioning ", as the electricity consumption equipment 13 of the classification that belongs to " air-conditioning ", set " Y1 ", " Y2 ".

In addition, although not shown in the structure example of Fig. 2, except above-mentioned, as the classification of device class, as shown in figure 21, also consider by " OA instrument " etc.

In addition, also consider in the part as the classification undefined value of device class, as the class definition " other " of device class, set electricity consumption equipment 13 as the part of the classification that belongs to " other ".

Return Figure 20, next, electricity consumption electric power of equipment system corresponding relation configuration part 63 makes the dotted arrow in electricity consumption electric power of equipment corresponding relation setting data 64(Figure 21 of system) (step S6A).

Electricity consumption electric power of equipment system corresponding relation setting data 64 is to set the electric power of recording and narrating each electricity consumption equipment 13 consumption to construct in (left side in Figure 21) in the tree of electric system 11, is the data of the electric power (electric power of each node of which electricity consumption device consumes electric system) of which node.

That is, electricity consumption electric power of equipment system corresponding relation setting data 64 makes the tree structure on the right side in each electricity consumption equipment 13(Figure 21 in the electricity consumption apparatus settings data 62) corresponding related with each node (the tree structure in the left side in Figure 21) of electric system setting data 42.

For electricity consumption electric power of equipment system corresponding relation setting data 64, both can directly record and narrate, perhaps, also can be as shown in Figure 19, electricity consumption electric power of equipment system corresponding relation configuration part 63 is set independently, and sets electricity consumption electric power of equipment system corresponding relation setting data 64 by electricity consumption electric power of equipment system corresponding relation configuration part 63.

In addition, for electricity consumption electric power of equipment system corresponding relation configuration part 63, both can be set to the part of functions in the electric system configuration part 41, also can be set to the part of functions in the electricity consumption apparatus settings section 61.

And then, electricity consumption electric power of equipment system corresponding relation configuration part 63 also can arrange independently with electric system configuration part 41 and electricity consumption apparatus settings section 61, perhaps, also can be set to the blanket configuration part that set-up function with electric system configuration part 41, electricity consumption apparatus settings section 61 and electricity consumption electric power of equipment system corresponding relation configuration part 63 has merged.

In Figure 21, it is corresponding related that the tree that the with dashed lines arrow makes the tree of electric system (κ) 11 construct (left side) and electricity consumption apparatus settings data 62 constructs (right side), and the corresponding related information shown in the dotted arrow is electricity consumption electric power of equipment system corresponding relation setting data 64.

According to this meaning, in example shown in Figure 21, for example, with above-mentioned embodiment 1 similarly, by the setting software of the special use of moving in PC, set electric system setting data 42 with the form of electric system tree view.

Similarly, for example, as described later shown in the consumer device label of the tree view in Figure 34, by the setting software of the special use of moving in PC, set electricity consumption apparatus settings data 62 with the form of electricity consumption device class tree view.

In addition, by each node for the electric system tree view of electric system setting data 42, setting is consumed electric power (perhaps by which node of the electricity consumption device class tree view of electricity consumption apparatus settings data 62, each node of electricity consumption device class tree view is accepted electric power from which node of electric system tree view and is supplied with), record and narrate the corresponding relation setting data 64(of electricity consumption electric power of equipment system dotted arrow).

In addition, in this case, note the electric power of " endpoint node " of device consumes electric system tree structure.It is former because can not cause that in fact device consumes electric system tree constructs the such situation of electric power of " branch node ".

But, produced in hypothesis in the situation of the such situation of the electric power of " branch node " of device consumes electric system tree structure, this branch node being appended 1 endpoint node, and make the mode of the electric power of the endpoint node that device consumes appends, record and narrate electric system tree structure, equipment gets final product.

Under the original state of the association of the electric power of which node in having set which device consumes electric system 11, the proportional distribution ratio all becomes impartial proportional distribution.

That is, special in the position that does not have the preset proportion allotment ratio, it is impartial proportional distribution that the proportional distribution ratio is all disposed.

In 1 the situation, to need not the electricity consumption data of this node are carried out proportional distribution (that is, the proportional distribution ratio is 100%) at the equipment of electric power of 1 electric system node of consumption.

Under the equipment of electric power of 1 electric system node of consumption is situation more than 2, setting under the related original state, the electricity consumption data of this node are carried out impartial proportional distribution (for example, in the situation that equipment is 2, the proportional distribution ratio is respectively 50%).

But, in the situation of the proportional distribution ratio of known equipment more than 2 on the experience, other preset proportion allotment ratio.

In the example of Figure 21, show the electric power of electricity consumption equipment (X1) 13, (Y1) 13 consumption electric system node p, the proportional distribution ratio is set as the state of X1=60%, Y1=40%.

On the other hand, show the electric power about electric system node t, although electricity consumption equipment (X1) 13, (Y1) 13 consumption become impartial proportional distribution, and do not have the state of special preset proportion allotment ratio.

In addition, also can be for to which equipment supply capability is not (namely, the endpoint node of the electric system tree structure corresponding relation that does not have record and equipment), hypothetically append " miscellaneous equipment ", and be set as the electric power supply of the endpoint node of this electric system tree structure of imaginary " miscellaneous equipment " occupying property ground consumption.

At last, the measurement point setting data 92 that will produce in the setting stage, surveying instrument consist of setting data 32, surveying instrument and consist of measurement point corresponding relation setting data 34, electric system setting data 42, power system measuring point correspondence setting data 44, electricity consumption apparatus settings data 62 and electricity consumption electric power of equipment system corresponding relation setting data 64 and be written to electricity consumption Measurement and Data Processing device 1(Figure 19 in Fig. 2).

At this moment, for each setting data, both can be written to equally all electricity consumption Measurement and Data Processing devices 1 that illustrate in Fig. 2, and also can only cut out with the corresponding part of electricity consumption Measurement and Data Processing device (α) 1 and write.It is as described in the above-mentioned embodiment 1.

Return Figure 20, next, the treatment step of operational phase (the visual picture of each device class and considered generation according to the visual picture of the device class of electric system) is described.

In operational phase, at first, with similarly above-mentioned, Collection and conservation electricity consumption data (step S11) add up to the data (step S13) based on electric system 11.In addition, as required, add up to demonstration generating unit 36(with reference to Fig. 3 by surveying instrument), make the display frame (step S12) according to surveying instrument.

Next, electricity consumption equipment total data handling part 65 is determined the electricity consumption data (step S17) of each equipment according to having recorded and narrated the electricity consumption electric power of equipment system corresponding relation setting data 64 of electric system setting data 42 with the corresponding relation of electricity consumption apparatus settings data 62.

In addition, electricity consumption equipment add up to show that generating unit 66 makes the electricity consumption data visualization of each equipment and figure shows (step S14A).

Next, electric system total data handling part 45 is according to the electric system 11 of recording and narrating in the electric system setting data 42, according to the electricity consumption electric power of equipment system corresponding relation setting data 64 of having recorded and narrated with the corresponding relation of electricity consumption apparatus settings data 62, process total data (step S15A) when considering device class.

And then, electric system add up to show that generating unit 46 makes total data after being processed by electric system total data handling part 45 visual and figure shows according to electric system 11, generation has been considered device class according to electric system 11() display frame (step S16A), finish the processing routine of Figure 20.

In addition, in step S17, according to the order of electricity consumption apparatus settings data 62, in the time of with reference to electricity consumption electric power of equipment system corresponding relation setting data 64, determine the electricity consumption data of each electricity consumption equipment 13.

Determine to process for this, also can carry out concurrently with the processing of collecting and preserving the electricity consumption data as described in the above-mentioned embodiment 1, also can be when requiring that figure shows arranged carry out according to needing.

In Fig. 2 and Figure 21, electricity consumption equipment (A1) 13 consumption in the zone (1) 14 are provided with the electric power of the node q of power measurement device (q) 12, and, accept the equipment that electric power supplies with from node q and only be electricity consumption equipment (A1) 13, so with the electricity consumption data of the node q electricity consumption data as electricity consumption equipment (A1) 13.

At this moment, carry out proportional distribution according to the ratio that sets, but become impartial proportional distribution herein.In addition, in this case, only there is electricity consumption equipment (A1) 13, so become A1=100%.

Similarly, electricity consumption equipment (A2) 13 in the zone (2) 14 becomes the electricity consumption data of node u, electricity consumption equipment (B1) 13 in the zone (1) 14 becomes the electricity consumption data of node r, and the equipment (B2) 13 in the zone (2) 14 becomes the electricity consumption data of node v.

The electric power of electricity consumption equipment (X1) 13 consumption node p in the zone (1) 14, but for the equipment of accepting the electric power supply from node p, except electricity consumption equipment (X1) 13, also there is electricity consumption equipment (Y1) 13, so with the ratio of setting the electricity consumption data of node p are carried out proportional distribution.

In this case, become the proportional distribution ratio of X1=60%, Y1=40%, so the 60% electricity consumption data that become electricity consumption equipment (X1) 13 of the electricity consumption data of node p, electricity consumption equipment (Y1) 13 becomes 40% of node p.

Similarly, electricity consumption equipment (X1) 13, (Y1s) 13 of zone in (2) 14 become 50% the electricity consumption data of node t.

Like this, the electricity consumption data of each equipment are determined, and figure shows (step S14A) so electricity consumption equipment adds up to demonstration generating unit 66 can make the electricity consumption data visualization of each equipment.

For example, embodiment 5(Figure 34 as described later) shown in the consumer device label in the tree view, electricity consumption equipment is classified and set demonstration for each classification, and wish operation such as (with the mouse double-click) of the node of display graphics by appointment, can show the visual picture of the electricity consumption data of this equipment.

In the situation that ratio shows, show similarly with figure, electricity consumption equipment total data handling part 65 with time per unit (for example, during 1 day, 1 week, 1 month etc.) power consumption separate with the form corresponding with the value of control information and from the figure total that adds up, electricity consumption equipment adds up to and shows that the ratio that generating unit 66 makes this cumulative aggregate result be visualized as power consumption gets final product.

In addition, process (step S15A) for the total of having considered device class according to electric system, both can carry out concurrently with the processing (step S11) of collecting and preserving the electricity consumption data as described in the above-mentioned embodiment 1, also can be according to needing execution when requiring that figure shows arranged.

Next, with Figure 19 ~ Figure 21, with reference to Figure 22, further specify the total processing (the step S15A in Figure 20) of having considered device class according to electric system 11.

Figure 22 be illustrate embodiments of the present invention 3 consideration the process flow diagram of processing based on the total of the device class of the data of electric system, the processing for same with above-mentioned (Fig. 8, Figure 16) has added symbol same as described above.

In Figure 22, show with similarly above-mentioned, from the recursively processing of total of upper (root of tree structure) of electric system 11.

It is necessary for the electricity consumption data of determining each equipment that the total of above-mentioned (Fig. 8) is processed (Recursion process), but afterwards, needs as shown in Figure 22, has again considered the total processing (Recursion process) of device class according to electric system 11.

In Figure 22, at first, node κ as processing Object node (step S41), is transferred to Recursion process.

In Recursion process, at first, generate the set (step S71) of each classification of processing Object node κ.

At this moment, as shown in Figure 21, classification as device class, " production equipment ", " illumination ", " air-conditioning ", " OA instrument ", " other " (reference) are arranged, so generate " production equipment " set, " illumination " set, " space " set, " OA instrument " set and " other " set of processing Object node κ.

Next, process according to the result of determination whether the next tree structure (step S42) is arranged in processing Object node κ and branch.

In this case, in processing Object node κ, the next tree structure is arranged, so transfer to step S43 from step S42, carry out Recursion process (step S43, S44) for all the next nodes (b, c, d, e) of processing Object node κ.

Below, if in step S43, being judged to be for all the next nodes, Recursion process is finished (that is, "Yes"), and the equipment in the set of each classification of the equipment that then the next node is had is appended to the set (step S72) of processing Object node.

At last, the electricity consumption data (step S73) of the equipment in the set of each classification of total equipment, the Recursion process of end Figure 22.

Next, Recursion process for node b is described.

At first, generate " production equipment " set, " illumination " set, " space " set, " OA instrument " set and " other " set (step S71) of node b.Next, the next tree structure is arranged, so carry out Recursion process for all the next nodes (f, g, h, i) of node b in node b.

Next, Recursion process for node f is described.

At first, generate " production equipment " set, " illumination " set, " space " set, " OA instrument " set and " other " set (step S71) of node f.Next, the next tree structure is arranged, so carry out Recursion process for all the next nodes (p, q, r) of node f in node f.

Next, Recursion process for node p is described.

At first, " OA instrument " set of " production equipment " set of generation node p, " illumination " set, " space " set, p, " other " of p are gathered (step S71).

Next, in node p, without the next tree structure, so transfer to step S74 from step S42, determine whether the equipment (electricity consumption equipment) of the electric power of consumption node p.

In Fig. 2, Figure 21, in node p, electricity consumption equipment (X1) 13, (Y1) 13 are arranged, so these electricity consumption equipment are appended to the set (step S75) of each classification, for each classification of device class, (consider proportional distribution ratio) adds up to the electricity consumption data (step S76) of the electricity consumption equipment in the set of each classification.

In Figure 21, in the electricity consumption equipment of node p, without the equipment that is classified as " production equipment ", " OA instrument ", " other ", so without the equipment of " production equipment " set that is appended to node p, " OA instrument " set, " other " set, the aggregate result among the step S76 also is " 0 " in step S75.

On the other hand, electricity consumption equipment (X1) 13 is classified as " illumination ", so in step S75, electricity consumption equipment (X1) 13 is appended to " illumination " set of node p, in step S76, with the summation (the electricity consumption data of electricity consumption equipment (X1) 13 herein) of the electricity consumption data of all devices in node p " illumination " set aggregate result as node p " illumination ".

In addition, electricity consumption equipment (Y1) 13 is classified as " air-conditioning ", so in step S75, electricity consumption equipment (Y1) 13 is appended to " air-conditioning " set of node p, in step S76, with the summation (the electricity consumption data of electricity consumption equipment (Y1) 13 herein) of the electricity consumption data of all devices in node p " air-conditioning " set aggregate result as node p " air-conditioning ".

Above, the Recursion process of node p is finished.

Similarly, if carry out Recursion process for node q, then owing to such as Fig. 2, shown in Figure 21, the electricity consumption equipment (A1) 13 of node q being arranged, so in step S75, S76, carry out the total of each classification of device class.

But, in the electricity consumption equipment of node q, without the equipment that is classified as " illumination ", " air-conditioning ", " OA instrument " and " other ", so the aggregate result that obtains by step S76 is " 0 ".

In addition, electricity consumption equipment (A1) 13 is classified as " production equipment ", so in step S75, electricity consumption equipment (A1) 13 is appended to " production equipment " set of node q, in step S76, with the electricity consumption data of electricity consumption equipment (A1) 13 aggregate result as node q " production equipment ".

Above, the Recursion process of node q is finished.In addition, for other node r, also be same processing, description thereof is omitted herein.

By more than, the Recursion process of the next node of node f (p, q, r) is all finished, so next, adds up to the aggregate result of each classification of device class of the next node of node f for node f.

That is,

" production equipment " set of node f

" production equipment " of=node p gathered (gather and be sky) herein,

" production equipment " set of+node q (herein, A1)

" production equipment " set of+node r (herein, B1)

={A1、B1}。

Like this, for each adds up to (herein as " production equipment ", " illumination " of the classification of device class, " air-conditioning ", " OA instrument ", " other ", the aggregate result of node f " production equipment " become electricity consumption equipment (A1) 13 the electricity consumption data, with the electricity consumption data sum of electricity consumption equipment (B1) 13), the Recursion process of node f is finished.

The next node (g, h, i) for the node b beyond the node f carries out Recursion process similarly, if the Recursion process of these the next nodes is all finished, then similarly carries out processing about the total of node b, and the Recursion process of node b is finished.

Above, finally process the Recursion process of Object node κ and finish.

By more than, can realize the total of each classification of device class of all nodes of electric system (κ) 11.Also be same for other electric system (λ) 11.

In addition, the Recursion process of Figure 22 is with similarly above-mentioned, be used for to determine how to calculate the processing of mode of electricity consumption data of each classification of device class of each node of electric system 11, so according to shorten the processing time viewpoint of (omitting the Recursion process that needs the long processing time), preferably only carry out operational phase initial 1 time.

That is, preferably constitute the account form (perhaps, can carry out form of scripts output) that storage obtains as 1 time initial execution result, when needs calculate the data of each node, with reference to the account form (perhaps, carrying out this script) of storing.

But, such as the situation of using the high hardware of computing ability etc., if the required time of Recursion process is as short as the degree that does not produce especially fault, then also can constitutes and carry out where necessary Recursion process at every turn.

Figure 23 and Figure 24 illustrate the key diagram that adds up to the figure display case that shows that generating unit 46 generates by above-mentioned processing electric system, show to make according to electric system 11 and have considered that the total data of device class is according to electric system 11 visual display cases.

In Figure 23 and Figure 24, (herein, visual picture b) can be realized electric system figure, electric system ratio, device class figure, device class ratio as this node.

In utilizing electric system figure visual, have as shown in Figure 23 the total of the power consumption of this node and the next node is carried out the pattern that figure shows (identical with above-mentioned embodiment 1, Fig. 9) and the total of each classification of wherein device class is carried out the pattern that figure shows.

In Figure 23, show carrying out the example that figure shows about the total of the production equipment of node b, but the node that production equipment is arranged in the next node of node b is node f, g, in node h, i without production equipment, so in the accumulation figure about the production equipment of node b shows, only node f, g are carried out figure and show.

In addition, in electric system ratio visual, have as shown in Figure 24 the total of the power consumption of this node and the next node is carried out pattern (namely the Figure 11 with embodiment 1 is identical) that ratio shows and the total of each classification of wherein device class is carried out the pattern that ratio shows.

In Figure 24, show carried out the example that ratio shows about the total of the production equipment of node b, but the node that production equipment is arranged in the next node of node b is node f, g, in node h, i without production equipment, so in the ratio about the production equipment of node b shows, only node f, g are carried out ratio and show.

In addition, in utilizing device class figure visual, have as shown in Figure 23 the total of the power consumption of each classification of the device class of this node is carried out pattern that figure shows and the electricity consumption data of each equipment of each classification of wherein device class are carried out the pattern that figure shows.

In " the device class figure b(accumulation) " of Figure 23, show the total of the power consumption of each classification of the device class among the node b has been carried out the example that figure shows.In this figure, the electricity consumption data of each equipment that exists in the set for each classification of the device class that Node B is had add up to and the result that obtains implements figure and shows and get final product.

In addition, in " the device class figure b(accumulation) production equipment " of Figure 23, show the electricity consumption data of each equipment of being classified as among the node b " production equipment " have been carried out the example that figure shows.In this figure, the electricity consumption data former state of each equipment that exists in the set of each classification of the device class that node b is had ground carries out figure and shows and get final product.In addition, can also replace carrying out figure from tree view and show, and by carrying out deep excavation according to the selections such as production equipment of click " device class figure b(accumulation) ", show this figure.

And then, in device class ratio visual, only have as shown in Figure 24 the total of the power consumption of each classification of the device class of this node is carried out the pattern that ratio shows.

In Figure 24, show the total of the power consumption of each classification of the device class among the node b has been carried out the example that ratio shows.In this figure, the total of the electricity consumption data of the time per unit of each equipment that exists in the set of each classification of the device class that node b is had is carried out ratio and is shown and get final product.

In addition, in embodiments of the present invention 3, omit diagram and explanation, but also can with above-mentioned (Figure 12, Figure 13, Figure 18) similarly, generation can be applied to install the output of (Figure 40) in the past.

As described above, embodiments of the present invention 3(Fig. 1, Fig. 2, the electricity consumption Measurement and Data Processing device 1(energy expenditure Measurement and Data Processing device of Figure 19 ~ Figure 24)) possess process electricity consumption apparatus settings data 62(energy expenditure apparatus settings data) electricity consumption equipment total data handling part 65(energy expenditure equipment total data handling part), electricity consumption equipment total data handling part 65 is according to electricity consumption apparatus settings data 62, with set electric system setting data 42(energy system setting data) with the corresponding relation setting data 64(of the electricity consumption electric power of equipment system energy expenditure plant capacity system corresponding relation setting data of the corresponding relation of electricity consumption apparatus settings data 62), generation is as the electricity consumption equipment total data 26(energy expenditure equipment total data of the total data of each electricity consumption equipment (energy expenditure equipment)), perhaps, output is used for generating the setting of electricity consumption equipment total data 26.

In addition, embodiments of the present invention 3(Figure 19) electricity consumption Measurement and Data Processing device 1 possesses for the electricity consumption equipment total demonstration generating unit 66(energy expenditure equipment total demonstration generating unit that shows electricity consumption equipment total data 26), electricity consumption equipment adds up to and shows that generating unit 66 shows electricity consumption equipment total data 26 according to electricity consumption apparatus settings data 62, perhaps, output is for the setting that shows.

In addition, electricity consumption equipment total data handling part 65 is according to electricity consumption equipment total data 26 and electricity consumption electric power of equipment system corresponding relation setting data 64, generate conduct according to the electric system total data 26 of each electricity consumption device class (energy expenditure device class) of the total data of each classification of the electricity consumption equipment of electric system 11, perhaps, output is used for the setting of generating power system total data 26.

In addition, electric system adds up to and shows that generating unit 46 makes the electric system total data 26 of each electricity consumption device class show according to electric system setting data 42 levels ground, and perhaps, output is used for the setting that level ground shows.

In addition, embodiments of the present invention 3(Figure 19) electricity consumption Measurement and Data Processing device 1 possesses for generating the spatial configuration total data handling part 55 of conduct according to the spatial configuration total data 26 of the total data of spatial configuration, spatial configuration total data handling part 55 is according to spatial configuration setting data 52, spatial configuration electricity consumption equipment corresponding relation setting data 60(spatial configuration energy expenditure equipment corresponding relation setting data with the corresponding relation of having set electricity consumption equipment and spatial configuration setting data 52), span structure total data 26, perhaps, output is used for the setting of span structure total data 26.

Thus, with similarly above-mentioned, only by arrangement for the setting of automatically processing the computing setting relevant with all visual required imaginary measurement points of grasping usefulness according to the virtual condition of the power consumption of electric system 11 and device class and visual picture required set information, and set this set information (herein, device class, electric system schichtenaufbau and mutual relationship thereof), just can automatically realize the visual picture of grasping for according to the virtual condition of the power consumption of electric system 11 and device class.

Namely, in embodiments of the present invention 3, by the rule application that " summations of the data of the data=child node of father node " are such in electric system 11 and device class, make the computing setting robotization relevant with all the visual required imaginary measurement points that are used for grasping according to the virtual condition of the power consumption of electric system 11 and device class, and, these operation result former states ground and demonstration according to electric system 11 are mapped, so for the also robotization of setting of looking picture.

And then, in embodiments of the present invention 3, by will " showing " such rule application as the accumulation figure of graphical element shows or carries out ratio to the child node that has take father node in electric system 11 and device class, make with grasp usefulness visual according to the virtual condition of the power consumption of electric system 11 and device class in deep excavation, ratio show relevant setting robotization.

Namely, with respect to installing in (Figure 40) in the past, equipment and measurement point are mapped and visual required total computing manually is set as imaginary measurement point, the unique point of embodiments of the present invention 3 is, electricity consumption equipment and electric system 11 are mapped, according to the total data 26 according to treated electric system, carry out and the device-dependent processing of electricity consumption.

Its result, has following effect: even the corresponding relation of electric system 11 and measurement point (for example changes, in order to measure and measurement point increase etc. in more detail), as long as electricity consumption equipment do not change with the corresponding of electric system 11, then the setting relevant with electricity consumption equipment, electric system 11 kept intact and be need not variation.

In addition, has following effect: even the corresponding relation of electricity consumption equipment and electric system 11 (for example changes, owing to waiting again layout together with tissue change for the electric power supply source variation of equipment etc.), as long as electric system 11 do not change with the corresponding of measurement point, then keep intact with electric system 11, setting that measurement point is relevant and need not variation.

Installed the conversion process that (Figure 40) uses the technology of embodiments of the present invention 3 records for being used for applying flexibly, although description thereof is omitted, it also plays same action effect in this case as illustrated the same together with Figure 12, Figure 13, Figure 18 in the past.

Embodiment 4.

In addition, in above-mentioned embodiment 3(Figure 19 ~ Figure 24), described in detail for the processing that automatically realizes according to the visual picture of electric system 11 and device class, do not add up to the concrete processing that shows generating unit 56 but mention spatial configuration total data handling part 55 and spatial configuration, but can as Figure 25 ~ Figure 29, process yet.

Figure 25 is the process flow diagram that the treatment step of embodiments of the present invention 4 is shown, and the processing for same with above-mentioned (with reference to Figure 14, Figure 20) has added symbol same as described above.In this case, as the final processing in the stage of setting, appended step S6B.

In addition, the software configuration of the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 4 as shown in figure 19.

Below, with reference to Fig. 2, Figure 19 and Figure 25, the treatment step of setting stage and operational phase is described.

In embodiments of the present invention 4, by the processing of Figure 25, be not only the visual picture of automatically realizing according to electric system 11 and device class, but also automatically realize the visual picture according to spatial configuration.

At first, the setting stage in Figure 25, with above-mentioned (Figure 20) similarly, make electric system setting data 42, measurement point setting data 92, power system measuring point correspondence setting data 44, electricity consumption apparatus settings data 62 and the corresponding relation setting data 64(of electricity consumption electric power of equipment system step S1, S2, S4, S5A, S6A), and, as required, make surveying instrument and consist of setting data 32 and surveying instrument formation measurement point corresponding relation setting data 34(step S3).

Next, with above-mentioned (Figure 14) similarly, make spatial configuration setting data 52(step S5).For the record of spatial configuration setting data 52, as mentioned above.

If in step S5, produce the spatial configuration setting data 52 about the buildings in the illustrative factory site among Fig. 2, then shown in the tree structure in the left side in Figure 26.

In Figure 26, for not illustrative buildings among Fig. 2 (mansion or floor 16), be provided with the node in called after " other " (" mansion other " and " zone other ").

At last, make spatial configuration electricity consumption equipment corresponding relation setting data 60(step S6B), transfer to operational phase.

In spatial configuration electricity consumption equipment corresponding relation setting data 60, each node (each equipment) by electricity consumption apparatus settings data 62, corresponding with each node of spatial configuration setting data 52 are recorded and narrated which zone which mansion electricity consumption equipment is disposed at.

For spatial configuration electricity consumption equipment corresponding relation setting data 60, also can directly record and narrate, perhaps, also can be as shown in Figure 19, spatial configuration electricity consumption equipment corresponding relation configuration part 59 is set independently, and by spatial configuration electricity consumption equipment corresponding relation configuration part 59 setting spaces structure electricity consumption equipment corresponding relation setting data 60.

In addition, spatial configuration electricity consumption equipment corresponding relation configuration part 59 both can be set to the part of functions of electricity consumption apparatus settings section 61 or a part of mechanism of spatial configuration configuration part 51, also can as shown in Figure 19, arrange independently with electricity consumption apparatus settings section 61 and spatial configuration configuration part 51.

And then spatial configuration electricity consumption equipment corresponding relation configuration part 59 also can be set to the blanket configuration part that set-up function with electricity consumption apparatus settings section 61, spatial configuration configuration part 51 and spatial configuration electric system corresponding relation configuration part 53 has merged.

Figure 26 is the key diagram that spatial configuration electricity consumption equipment corresponding relation setting data 60 is shown, and shows the dotted arrow by spatial configuration electricity consumption equipment corresponding relation setting data 60() tree in spatial configuration setting data 52(left side is constructed) construct with the tree on electricity consumption apparatus settings data 62(right side) corresponding related situation.

According to this meaning, in example shown in Figure 26, by the setting software of the special use of moving in PC, set electricity consumption apparatus settings data 62 with the form of electric system tree view.

Similarly, for example, by the setting software of the special use of moving in PC, with the form setting space structure setting data 52 of spatial level structure tree view.

In addition, be disposed at which node of spatial level structure tree view by each node of setting electricity consumption device tree view, perhaps, select to set the equipment of each node that is disposed at spatial level structure tree view from the node of electricity consumption device tree view, record and narrate spatial configuration electricity consumption equipment corresponding relation setting data 60(dotted arrow).

In addition, also can replace setting operation that equipment and spatial configuration are mapped, and the setting operation by electric system and spatial configuration are mapped, make and accept all devices and this spatial configuration that electric power supplies with from this electric system and be mapped.

For example, by as above-mentioned shown in Figure 15, electric system (f) 11 and zone (1) 14 are mapped, and the equipment of accepting the electric power supply from electric system (f) 11 from above-mentioned Figure 21 extraction is electricity consumption equipment (A1) 13, (B1) 13, (X1) 13, (Y1) 13, so these equipment and zone (1) are mapped.Thus, can simplify the setting operation that each equipment is mapped with spatial configuration respectively.

In the situation that only for 1 spatial configuration corresponding association is arranged from 1 equipment, its proportional distribution ratio is 100%.On the other hand, in the situation that for a plurality of spatial configurations corresponding association is arranged from 1 equipment, its proportional distribution ratio is impartial proportional distribution under original state, sets as required.

Return Figure 25, the measurement point setting data 92 that to produce in each step S1 ~ S6B, surveying instrument formation setting data 32, surveying instrument formation measurement point corresponding relation setting data 34, electric system setting data 42, power system measuring point correspondence setting data 44, electricity consumption apparatus settings data 62, electricity consumption electric power of equipment system corresponding relation setting data 64, spatial configuration setting data 52 and spatial configuration electricity consumption equipment corresponding relation setting data 60 are last the stage of setting, are written to electricity consumption Measurement and Data Processing device 1.

At this moment, with similarly above-mentioned, both can be written to equally all electricity consumption Measurement and Data Processing devices 1, and also can only cut out with the corresponding part of electricity consumption Measurement and Data Processing device (α) 1 and write.

Next, operational phase (having considered the generation step according to the visual picture of the device class of spatial configuration) is described.

Operational phase in Figure 25 at first, with similarly above-mentioned, collected and preservation electricity consumption data (step S11), and as required, is generated the display frame (step S12) that consists of according to surveying instrument.

In addition, the data (step S13) that electric system total data handling part 45 adds up to based on electric system, determine the electricity consumption data (step S17) of each equipment, electricity consumption equipment adds up to the display frame (visual picture) (step S14A) that shows that generating unit 66 generates according to device class.

In addition, in addition, electric system total data handling part 45 according to electricity consumption electric power of equipment system corresponding relation setting data 64, is processed total data (step S15A) also according to the electric system 11 of recording and narrating in the electric system setting data 42 when considering device class.

Next, electric system add up to show that generating unit 46 makes total data after being processed by electric system total data handling part 45 visual and figure shows according to electric system 11, generates to have considered device class according to electric system 11() display frame (step S16A).

In addition, spatial configuration total data handling part 55 is according to the spatial configuration of recording and narrating in the spatial configuration setting data 52, according to the spatial configuration electricity consumption equipment corresponding relation setting data 60 of having recorded and narrated with the corresponding relation of electricity consumption apparatus settings data 62, process total data 26(step S15).

At last, spatial configuration add up to show that generating unit 56 makes the total data 26 processed by spatial configuration total data handling part 55 visual and figure shows (step S16) according to spatial configuration, finishes the processing routine of Figure 25.

In addition, with similarly above-mentioned, for add up to processing, both can carry out concurrently with the processing (step S11) of collecting and preserving the electricity consumption data, also can be according to needing execution when requiring that figure shows arranged.

Next, with Fig. 2, Figure 19 and Figure 26, with reference to Figure 27, further specify to add up to and process (step S15).

Figure 27 is the process flow diagram that the total treatment step of embodiments of the present invention 4 is shown, for the processing same with above-mentioned (with reference to Fig. 8, Figure 16, Figure 22), and additional symbol same as described above.

After the total of the embodiment 3 of above-mentioned (Figure 22) was finished dealing with, the distinctive total of carrying out in the embodiments of the present invention 4 was processed.

In Figure 27, at first, factory or enterprise (κ) 17 as processing Object node (step S61), are carried out Recursion process.

Classification as device class, " production equipment ", " illumination ", " air-conditioning ", " OA instrument ", " other " are arranged, in Recursion process, generate at first, respectively " production equipment " set, " illumination " set, " space " set, " OA instrument " set and " other " set (step S71) of processing Object node κ.

Next, process according to the result of determination whether the next tree structure (step S42) is arranged at processing Object node κ and branch.

In this case, the next tree structure is arranged, so carry out Recursion process (step S43, S44) for all the next nodes of processing Object node κ (mansion or floor (α) 16, (β) 16, (γ) 16, other) in processing Object node κ.

Below, if in step S43, be judged to be for all the next node Recursion process and finish (namely, "Yes"), then after will processing the summation of electricity consumption data as the next node of Object node (step S77), equipment in the set of each classification of the equipment that the next node is had is appended to the set (step S72) of processing Object node, adds up to the electricity consumption data (step S73) of the equipment in the set of each classification of equipment, finishes the Recursion process of Figure 27.

Recursion process for mansion or floor (α) 16 is described herein.

Generate at first, respectively " production equipment " set, " illumination " set, " space " set, " OA instrument " set and " other " set of mansion or floor (α) 16.

Next, as from Fig. 2, Figure 26 as can be known, the next tree structure is arranged in mansion or floor (α) 16, so carry out Recursion process for all the next nodes of mansion or floor (α) 16 (zone (1) 14, zone (2) 14, other).

Herein, illustrate for zone (1) 14 Recursion process.

At first, respectively " production equipment " of formation zone (1) 14 set, " illumination " set, " space " set, " OA instrument " set and " other " set.

Next, as shown in Figure 26, without the next tree structure, whether so transfer to step S74A from step S42, processing basis has the result of determination of the equipment (whether having set the corresponding relation with the electricity consumption device node) that is disposed at zone (1) 14 and branch in zone (1) 14.

If set the electricity consumption device node (result of determination of step S74A is "Yes") that is disposed at zone (1) 14, then with the summation of the electricity consumption data of these electricity consumption device nodes electricity consumption data (step S78) as zone (1) 14.

On the other hand, if do not have to set the electric system node (if the result of determination of step S74A is "No") that is disposed at zone (1) 14, then be defined as the electricity consumption data (step S56) without zone (1) 14, finish the processing routine of Figure 27.

In the example of Fig. 2, the equipment that is disposed at zone (1) 14 is electricity consumption equipment (A1) 13, (B1) 13, (X1) 13, (Y1) 13, so the summation of these electricity consumption data is used as the electricity consumption data (step S78) in zone (1) 14.

In addition, for each classification of device class, add up to the electricity consumption data (step S75, S76) of these equipment, finish the processing routine of Figure 27.

In this case, in the equipment of the consumption electric power regional (1) 14, without being classified as the equipment of " OA instrument ", " other ", so be not appended to the equipment of " OA instrument " set and " other " set in zone (1) 14, aggregate result also is " 0 ".

On the other hand, as shown in Figure 26, electricity consumption equipment (A1) 13, (B1) 13 are classified as " production equipment ", so electricity consumption equipment (A1) 13, (B1) 13 are appended to " production equipment " set in zone (1) 14, the summation (the electricity consumption data sum of A1 and B1 herein) of the electricity consumption data of all devices during " production equipment " with regional (1) 14 gathered is as the aggregate result of " production equipment " in zone (1) 14.

In addition, electricity consumption equipment (X1) 13 is classified as " illumination ", so electricity consumption equipment (X1) 13 is appended to " illumination " set in zone (1) 14, the summation (the electricity consumption data of X1 herein) of the electricity consumption data of all devices during " illumination " with regional (1) 14 gathered is as the aggregate result of " illumination " in zone (1) 14.

And then, electricity consumption equipment (Y1) 13 is classified as " air-conditioning ", so electricity consumption equipment (Y1) 13 is appended to " air-conditioning " set in zone (1) 14, the summation (the electricity consumption data of Y1 herein) of the electricity consumption data of all devices during " air-conditioning " with regional (1) 14 gathered is as the aggregate result of " air-conditioning " in zone (1) 14.

Above, the Recursion process in zone (1) 14 is finished.

For the zone (2) 14, the zone other, also identical with above-mentioned processing, so description thereof is omitted herein.

By more than, the next node of mansion or floor (α) 16 (zone (1) 14, the zone (2) 14, the zone other) Recursion process all finish, so next, with the summation of the power consumption of the next node of mansion or floor (α) the 16 electricity consumption data as mansion or floor (α) 16, and add up to the aggregate result of each classification of device class of the next node of mansions or floor (α) 16 to add up to for mansion or floor (α) 16.

That is,

The set of " production equipment " of mansion or floor (α) 16

The set (herein A1, B1) of " production equipment " in=zone (1) 14

The set (herein A2, B2) of " production equipment " in+zone (2) 14

Other the set (herein set for empty) of " production equipment " of+zone

={A1、B1、A2、B2}。

Like this, add up to respectively (herein for " production equipment ", " illumination ", " air-conditioning ", " OA instrument ", " other " as the classification of device class, the aggregate result of α " production equipment " becomes the summation of the electricity consumption data of the electricity consumption data of electricity consumption data, A2 of electricity consumption data, the B1 of A1 and B2), the Recursion process of mansion or floor (α) 16 is finished.

In addition, for the Recursion process of mansion or floor (β) 16, (γ) 16, other and factory or enterprise (κ) 17, (λ) 17, also according to some the carrying out in the content described above, description thereof is omitted herein.

By more than, can add up to the electricity consumption data of each node of spatial configuration.

In addition, the Recursion process of Figure 27 is the processing with the mode of the above-mentioned electricity consumption data that similarly be used for to determine how to calculate each node, so viewpoint according to shortening processing time (omitting the Recursion process that needs the long processing time), only preferably constitute and to carry out initial 1 time that uses, the account form that storage obtains as its result (perhaps, can carry out form of scripts output), when needs calculate the data of each node, with reference to this account form (carrying out this script).

But, as the situation of using the high hardware of computing ability etc., if the required time of Recursion process is as short as the degree that does not produce especially fault, also can constitutes and carry out where necessary Recursion process at every turn.

Figure 28 is the figure that the figure display case of embodiments of the present invention 4 is shown, and shows the total data that obtains according to above-mentioned processing to be added up to by spatial configuration show that generating unit 56(is with reference to Figure 19) according to spatial configuration visual example.

By the visual picture for the embodiment 3 of above-mentioned (Figure 23), add can show and the tree view of the schichtenaufbau of operating space structure, consist of visual picture shown in Figure 28.

In Figure 28, in all nodes (take-off point) in spatial configuration, the electricity consumption data that obtain are processed in existence by above-mentioned total, so the node that shows by the hope figure of specifying on the tree view (with the mouse double-click etc.) operation, the electricity consumption data of this node are carried out figure show.

Thus, play the action effect same with above-mentioned embodiment 3.

Namely, only by arrangement for the setting of automatically processing the computing setting relevant with all visual required imaginary measurement points of grasping usefulness according to the virtual condition of the power consumption of spatial configuration and visual picture required set information, and set this set information (spatial configuration, device class, with and mutual relationship), just can automatically realize grasping according to the virtual condition of the power consumption of spatial configuration and device class the visual picture of usefulness.

Particularly, by the rule application that " summations of the data of the data=child node of father node " are such in spatial configuration and device class, make the computing setting robotization relevant with all visual required imaginary measurement points of grasping usefulness according to the virtual condition of the power consumption of spatial configuration and device class, and then, these operation result former states ground and demonstration according to spatial configuration and device class are mapped, thus also can robotization for the setting of visual picture.

In addition, according to the embodiment of the present invention 4, by showing such rule application in spatial configuration and device class as " the accumulation figure " of graphical element shows or carry out ratio to the child node that has take father node, can make with grasp usefulness visual according to the virtual condition of the power consumption of spatial configuration and device class in deep excavation, ratio show relevant setting robotization.

In addition, with respect in the device spatial configuration and measurement point were mapped in the past, in embodiments of the present invention 4, spatial configuration and equipment are mapped, so by carrying out the processing relevant with spatial configuration according to the total data according to treated equipment, has following distinctive effect: even equipment, electric system, the corresponding relation of measurement point (for example changes, measurement point increases in order to measure in more detail, perhaps, electric system change in the way), as long as spatial configuration does not change with the corresponding of equipment, with spatial configuration, device-dependent setting is kept intact and be need not change.

And then, has following effect: even the corresponding relation of spatial configuration and equipment (for example changes, because spatial configuration changes with organizing change to wait again layout together), as long as the correspondence of equipment, electric system, measurement point does not change, then keep intact and need not with equipment, electric system, setting that measurement point is relevant and change.

In addition, which type of record and narrate for becoming spatial configuration, depend on object application, but by replacing that equipment and spatial configuration (zone etc.) are mapped, and be mapped such as the spatial configuration that is derived from production (production line etc.), can automatically obtain the visual picture according to the power consumption of activity in production.

For example, for spatial configuration electricity consumption equipment corresponding relation setting data 60, can also replace being set as shown in Figure 26, and set as shown in Figure 29.

Figure 29 is the spatial configuration electricity consumption equipment corresponding relation setting data 60(dotted arrow that embodiments of the present invention 4 are shown) other routine key diagram, show mutual relationships in the situation that makes spatial configuration become production line structure, spatial configuration setting data 52 and electricity consumption apparatus settings data 62.

In Figure 29, provide " illumination " for electricity consumption equipment (X1) 13, production line (A) 15, (B) 15, so only by setting the proportional distribution ratio that is fit to, just can automatically obtain the visual picture according to the power consumption of production line (A) 15, (B) 15.In addition, the example for visual picture omits diagram.

In addition, conversion process and the applicable output of device (Figure 40) generate for being used for applying flexibly in the past, and description thereof is omitted herein, but same action effect is also played in its explanation as carrying out with Figure 12, Figure 13, Figure 18 in this case.

As described above, embodiments of the present invention 4(Fig. 1, Fig. 2, Figure 19, the electricity consumption Measurement and Data Processing device 1(energy expenditure Measurement and Data Processing device of Figure 25 ~ Figure 29)) possesses for generating as the spatial configuration total data handling part 55 according to the spatial configuration total data 26 of the total data of spatial configuration, spatial configuration total data handling part 55 is according to spatial configuration setting data 52, with set electricity consumption equipment 13(energy expenditure equipment) with the spatial configuration electricity consumption equipment corresponding relation setting data 60(spatial configuration energy expenditure equipment corresponding relation setting data of the corresponding relation of spatial configuration setting data 52), span structure total data 26, perhaps, output is used for the setting of span structure total data 26.

In addition, spatial configuration total data handling part 55 is according to electric system setting data 42(energy system setting data) with the corresponding relation of spatial configuration setting data 52, with reference to the corresponding relation setting data 64(of electricity consumption electric power of equipment system energy expenditure plant capacity system corresponding relation setting data), extract out and set the spatial configuration electricity consumption equipment corresponding relation setting data 60 of electricity consumption apparatus settings data 62 with the corresponding relation of spatial configuration setting data 52.

In addition, the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 4(Figure 19, Figure 25 ~ Figure 29) possesses spatial configuration for display space structure total data 26 and adds up to and show generating unit 56, spatial configuration adds up to and shows that generating unit 56 is according to spatial configuration setting data 52 display spaces structure total data 26, perhaps, output is for the setting that shows.

Perhaps, spatial configuration adds up to and shows that generating unit 56 makes the spatial configuration total data 26 of each electricity consumption device class show according to spatial configuration setting data 52 levels ground, and perhaps, output is used for the setting that level ground shows.

In addition, spatial configuration total data handling part 55 generates conduct according to the spatial configuration total data 26 of each electricity consumption device class of the total data of each classification of the electricity consumption equipment 13 of spatial configuration, perhaps, output is used for the setting of span structure total data 26.

Thus, play the action effect same with above-mentioned embodiment 3.

Embodiment 5.

In addition, in above-mentioned embodiment 1 ~ 4(Fig. 2 ~ Figure 29), although consider not especially, also can as Figure 30 ~ Figure 34, consider the processing of the control information of electricity consumption equipment 13.

Below, with reference to Figure 30 ~ Figure 34, embodiments of the present invention 5 are described.

Figure 30 is the integrally-built block diagram that the electricity consumption measuring object system that uses embodiments of the present invention 5 is shown, for the part same with above-mentioned (with reference to Fig. 2), and additional symbol same as described above and omit detailed description.

In Figure 30, at electricity consumption equipment 13(A1, B1, A2, B2, X1, Y1, X2, Y2) in, be provided with corresponding respectively control instrument 28(A1, B1, A2, B2, X1, Y1, X2, Y2).

Each control instrument 28(A1, B1, A2, B2, X1, Y1, X2, Y2) electricity consumption equipment 13(A1, B1, A2, B2, X1, Y1, X2, Y2 under the control respectively), and each control data 29 is input to electricity consumption Measurement and Data Processing device 1.

Figure 31 is the block diagram of software configuration that the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 5 is shown, for the part same with above-mentioned (with reference to Fig. 3, Figure 19), and additional symbol same as described above and omit detailed description.

In Figure 31, electricity consumption Measurement and Data Processing device 1 also possesses production process configuration part 81, production process electricity consumption equipment corresponding relation configuration part 83, electricity consumption device control data corresponding relation configuration part 69, production process total data handling part 85 and production process and adds up to demonstration generating unit 86 except said structure.

In addition, herein, for fear of miscellaneous and not shown, but electricity consumption Measurement and Data Processing device 1 as required, possesses the surveying instrument formation configuration part 31 same with above-mentioned (Fig. 3), surveying instrument formation setting data 32, surveying instrument formation measurement point corresponding relation configuration part 33, surveying instrument formation measurement point corresponding relation setting data 34 and surveying instrument and add up to demonstration generating unit 36.

Setting data preservation section 22 in the electricity consumption Measurement and Data Processing device 1 also preserves production process setting data 82 from production process configuration part 81, from the production process electricity consumption equipment corresponding relation setting data 84 of production process electricity consumption equipment corresponding relation configuration part 83 and from the electricity consumption device control data corresponding relation setting data 70 of electricity consumption device control data corresponding relation configuration part 69 except above-mentioned various setting datas.

Measurement data preservation section 23 in the electricity consumption Measurement and Data Processing device 1 also preserves the control data 29 from control instrument 28 except above-mentioned measurement data 25.

In addition, the total data preservation section 24 in the electricity consumption Measurement and Data Processing device 1 also will also save as total data 26 from the production process total data of production operation total data handling part 85 except above-mentioned various total datas.

Next, with reference to Figure 32 ~ Figure 34, embodiments of the present invention 5(Figure 31, Figure 32 are described) treatment step, namely be used for automatically realizing having considered the treatment step of visual picture of the control information of each equipment.

Figure 32 is the process flow diagram for the treatment of step (setting stage and operational phase) that embodiments of the present invention 5 are shown, for the processing same with above-mentioned (with reference to Fig. 4, Figure 14, Figure 20, Figure 25), and additional symbol same as described above and omit detailed description.

In this case, process as the rear class in the stage of setting, appended step S7 ~ S9.

In Figure 32, in the setting stage, at first, with similarly above-mentioned, make electric system setting data 42, measurement point setting data 92, power system measuring point correspondence setting data 44, electricity consumption apparatus settings data 62 and the corresponding relation setting data 64(of electricity consumption electric power of equipment system step S1, S2, S4, S5A, S6A), and, as required, make surveying instrument and consist of setting data 32 and surveying instrument formation measurement point corresponding relation setting data 34(step S3).

Next, for measurement point setting data 92, append and control relevant measurement point (step S7).

As concrete example, passing through PLC(Programmable Logic Controller, programmable logic controller (PLC)) or sequencer (below, be called typically " sequencer ") controlled in the situation of electricity consumption equipment 13, this sequencer maintains this equipment " duty " and as built-in variable, so in step S7, set this built-in variable.

Embodiments of the present invention 5(Figure 30, Figure 31) electricity consumption Measurement and Data Processing device 1 according to above-mentioned setting, collect altogether the control data 29 relevant with the duty of equipment and be saved in time series with the measurement data 25 relevant with electricity consumption.It is the collecting function that electricity consumption Measurement and Data Processing device 1 in the past possesses.

In addition, as required, then step S7 consists of setting data 32 for surveying instrument, append the control instrument 28 as the controller of control electricity consumption equipment 13, and also append (step S8) for surveying instrument formation measurement point corresponding relation setting data 34.

In above-mentioned concrete example, control instrument 28 becomes sequencer.

Next, electricity consumption Measurement and Data Processing device 1 is according to above-mentioned setting, with the measurement data 25 relevant with electricity consumption altogether, collect the control data 29 relevant with the duty of equipment and be stored in time series.It is to install the collecting function that (Figure 40) possesses in the past.

Next, make electricity consumption device control data corresponding relation setting data 70(step S9).

Corresponding with the relevant measurement point of control of electricity consumption device control data corresponding relation setting data 70 nodes by electricity consumption apparatus settings data 62 (each equipment) recorded and narrated the duty which electricity consumption equipment which measurement point (with controlling relevant measurement point, being which built-in variable of which control instrument) represents.

For electricity consumption device control data corresponding relation setting data 70, both can directly record and narrate, perhaps, also can be as shown in Figure 31, electricity consumption device control data corresponding relation configuration part 69 is set independently, and sets by electricity consumption device control data corresponding relation configuration part 69.

In addition, electricity consumption device control data corresponding relation configuration part 69 both can be set to the part of electricity consumption apparatus settings section 61 or measurement point configuration part 91, perhaps, also can arrange independently with electricity consumption apparatus settings section 61, measurement point configuration part 91, perhaps, also can be set to the blanket configuration part that set-up function with electricity consumption apparatus settings section 61, measurement point configuration part 91 and electricity consumption device control data corresponding relation configuration part 69 has merged.

Figure 33 illustrates electricity consumption device control data corresponding relation setting data 70(dotted arrow) key diagram, show surveying instrument and consist of setting data 32 and electricity consumption apparatus settings data 62(device class setting data) mutual relationship.

In Figure 33, make the surveying instrument in left side consist of setting data 32(tree structure) in the built-in variable (measurement point relevant with control) of control instrument node and the electricity consumption apparatus settings data 62(tree on right side construct) corresponding related information (dotted arrow) is electricity consumption device control data corresponding relation setting data 70.

Below, as the final processing in the setting stage in Figure 32, the measurement point setting data 92 that will produce in above-mentioned steps S1 ~ S9, surveying instrument consist of setting data 32, surveying instrument consists of measurement point corresponding relation setting data 34, electric system setting data 42, power system measuring point correspondence setting data 44, electricity consumption apparatus settings data 62, electricity consumption electric power of equipment system corresponding relation setting data 64 and electricity consumption device control data corresponding relation setting data 70 and is written to electricity consumption Measurement and Data Processing device 1.

At this moment, with similarly above-mentioned, for various setting datas, both can similarly be written to all electricity consumption Measurement and Data Processing devices 1, and also can only cut out with the corresponding part of electricity consumption Measurement and Data Processing device (α) 1 and write.

Next, the operational phase (having considered the generation step of the visual picture of the information relevant with the control of equipment) that Figure 32 is interior is described.

In operational phase, at first, with similarly above-mentioned, collect and preserve electricity consumption data (step S11).

In step S11, electricity consumption Measurement and Data Processing device 1 and the measurement data 25 relevant with electricity consumption are collected the control data 29 relevant with the duty of equipment and are stored in time series altogether.

In addition, as required, generate the display frame (step S12) that consists of according to surveying instrument, transfer to the total processing (step S13) based on the data of electric system, determine the electricity consumption data (step S17B) of each equipment.

At this moment, at above-mentioned (Figure 19, during the total of embodiment 3 Figure 20) is processed, electricity consumption equipment total data handling part 65 is according to having recorded and narrated the electricity consumption electric power of equipment system corresponding relation setting data 64 of electric system setting data 42 with the corresponding relation of electricity consumption apparatus settings data 62, the electricity consumption data of each equipment have been determined, but in addition, among Figure 32, according to having recorded and narrated the electricity consumption device control data corresponding relation setting data 70 of electricity consumption apparatus settings data 62 with the corresponding relation of the measurement point (built-in variable of control instrument) relevant with control, power consumption is separated with the form corresponding with the value of control information and total (step S17C) independently.

Next, electricity consumption equipment add up to show that generating unit 66 will be by step S17B(17C) total data that obtains separates with the form corresponding with the value of control information, and as shown in Figure 34, visual and figure demonstration (step S14B).

Figure 34 illustrates the key diagram that add up to be shown the visual picture of measurement data that generating unit 66 generates by electricity consumption equipment, shows the figure display case of the device class of having considered the control information (with reference to solid line grade between each cut section) relevant with electricity consumption equipment (A1) 13 and the display case of electricity consumption ratio.

In the figure of Figure 34, separate with the form corresponding with the value of control information and shown the electricity consumption figure.

" 0 " indication equipment of control information (value of the built-in variable of control instrument) is " off working state ", and " 1 " indication equipment of control information is " duty ".Therefore, in the figure of Figure 34, for electricity consumption equipment (A1) 13, with the form that can distinguish, make power consumption and the power consumption under the duty under the off working state visual.

In addition, at the value representation of the built-in variable of control instrument than the more detailed state of above-mentioned 2 states (off working state/duty) (for example, make " in the starting " that off working state further changed in detail, " mistake stop in ", make " in operation 1 running ", " in operation 2 work " that duty further changed in detail, " free time " etc.) situation under, can also add up to according to the value former state ground of each state and visual.

In addition, the value of each state can also be categorized as 2 states (off working state/duty) and after distributing, add up to respectively power consumption under the off working state and the power consumption under the duty, visual with the form that can distinguish.

In addition, as other distribution method, the power consumption that purely uses can also be categorized as positive power consumption in activity in production, power consumption of use is categorized as negative power consumption and (for example in will be beyond it, with further detailedization of duty and in the state that obtains, " in operation 1 work ", " in operation 2 runnings " are assigned as positive power consumption, with beyond it namely " free time of duty " and " off working state " be assigned as negative power consumption) distribute after, add up to respectively positive power consumption and negative power consumption, visual with the form that can distinguish.

Show similarly with figure, in ratio shows, electricity consumption equipment total data handling part 65 with time per unit (for example, during 1 day, 1 week, 1 month etc.) power consumption separate with the form corresponding with the value of control information and from the figure total that adds up, electricity consumption equipment adds up to and shows that the ratio that generating unit 66 makes its result be visualized as shown in Figure 34 power consumption gets final product.

Like this, in order to realize distinguishing the power consumption of each device class and visual picture according to state of a control, manually setting total and demonstration in the device (Figure 40) in the past, but in embodiments of the present invention 5(Figure 30 ~ Figure 34), all automatically extract out and set, so can cut down the workload relevant with the engineering of the visual picture of grasping operation for the virtual condition of carrying out intuitively power consumption.

In addition, conversion process and the applicable output of device (Figure 40) generate for being used for applying flexibly in the past, and description thereof is omitted herein, but same action effect is also played in its explanation as carrying out with Figure 12, Figure 13, Figure 18 in this case.

As described above, the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 5(Figure 30 ~ Figure 34) possesses control according to the control instrument 28 of the electricity consumption equipment 13 of electric system 11, according to measurement point setting data 92, from the duty of the control instrument 28 collections control data 29(electricity consumption equipment 13 relevant with the control of electricity consumption equipment 13).

Electricity consumption equipment total data handling part 65 according to measurement data 25 and control data 29 and electricity consumption device control data corresponding relation setting data 70(energy expenditure device control data corresponding relation setting data in having set measurement point setting data 92 and the corresponding relation relevant measurement point of control and electricity consumption equipment 13), for the electricity consumption equipment total data 26 of electricity consumption equipment 13 generations as each duty of the total data of each duty, perhaps, output is used for generating the setting of electricity consumption equipment total data 26.

Electricity consumption equipment adds up to and shows that generating unit 66 shows the electricity consumption equipment total data 26 of each duty, and perhaps, output is for the setting that shows.

In addition, embodiments of the present invention 5(Figure 31) electricity consumption Measurement and Data Processing device 1 possesses production process total data handling part 85, production process total data handling part 85 is according to production process setting data 82 and set the production process electricity consumption equipment corresponding relation setting data 84(production process energy expenditure equipment corresponding relation setting data of electricity consumption equipment 13 with the corresponding relation of production process setting data 82), generate production process total data 26, perhaps, output is used for generating the setting of production process total data 26.

Thus, with similarly above-mentioned, the total processing that can automatically extract the generation of understandable visual picture out and be used for visual picture, the workload of reduction engineering.

Embodiment 6.

In addition, in above-mentioned embodiment 5(Figure 30 ~ Figure 34), although specifically do not mention the processing based on production process, but also can be as Figure 35 ~ Figure 38, the total data 26 of power consumption of the control information of equipment has been considered in utilization, automatically realizes the visual picture relevant with the electricity consumption required in order to finish final products.

Below, with reference to Figure 35 ~ Figure 38, embodiments of the present invention 6 are described.

Figure 35 is the process flow diagram that the treatment step of embodiments of the present invention 6 is shown, for the processing same with above-mentioned (with reference to Fig. 4, Figure 14, Figure 20, Figure 25, Figure 32), and additional symbol same as described above and omit detailed description.

In this case, as the final processing in the stage of setting, append step S10, S10A, as the final processing of operational phase, appended step S18, S19.

In addition, Figure 36 is the electricity consumption device control data corresponding relation setting data 70(dotted arrow that embodiments of the present invention 6 are shown) key diagram, show production process setting data 82 and electricity consumption apparatus settings data 62(device class setting data) mutual relationship.

In addition, the software configuration of embodiments of the present invention 6 as shown in figure 31.

Below, with reference to Figure 31 and Figure 35, the treatment step of setting stage and operational phase is described.

At first, with above-mentioned (Figure 32) similarly, in setting the step S1 in stage ~ S9, make various setting datas 42,92,44,70,32,34.

Next, make production process setting data 82(step S10).

In addition, for production process setting data 82, both can directly record and narrate, and also can as shown in Figure 31 production process configuration part 81 be set independently, and set by production process configuration part 81.

Production process setting data 82 be level recorded and narrated the parts required in order to finish product and the data of operation, general, be equivalent to be called as M-BOM(Manufacturing BOM, make BOM, make the parts table) data.

Herein, BOM(Billsof Material, Bill of Material (BOM)) refer to the required parts table in order to finish product.

For with M-BOM contrast, be called as in addition E-BOM(Engineering BOM, designing BOM, design parts table) example.

In the process that product is finished, also sometimes via the middle product that made up parts and parts, product and become the product of finishing in the middle of the combination, E-BOM becomes the schichtenaufbau that is made of parts, middle product.

M-BOM has given the process information that makes up parts, middle product for E-BOM and has obtained.

Therefore, M-BOM also becomes schichtenaufbau, and is special, becomes the schichtenaufbau (that is, finishing the schichtenaufbau of the form of product/middle product/parts and operation alternate repetition) that has inserted the form of operation between the level of finishing product/middle product/parts.

For example, the tree with the left side in Figure 36 constructs to represent production process setting data 82.

In Figure 36, the information (dotted arrow) corresponding to tree structure of the procedure-node in the tree structure of the production process setting data 82 on the left of production process electricity consumption equipment corresponding relation setting data 84 is represented as and makes and the electricity consumption apparatus settings data 62 on right side.

As the node of production process setting data 82, middle product (Σ 1) 78, (Σ 2) 78 that at first, can enumerate the product of finishing 77, become the operation (B2) 80 of the next node of the product of finishing 77 and become the next node of operation (B2) 80.

In addition, can enumerate operation (B1) 80, the parts (Ω 1) 79 that become the next node of operation (B1) 80, (Ω 2) 79 of the next node that becomes middle product (Σ 1) 78, the operation (A1) 80, the operation (A2) 80 that become the next node of middle product (Σ 2) 78, the parts (Ω 4) 79 that become the parts (Ω 3) 79 of the next node of operation (A1) 80 and become the next node of operation (A2) 80.

In addition, in parts, middle product, also has the part of being made by other factory or enterprise, so for example about parts (Ω 1) 79, can provide and utilize for relevant with its manufacturing each control information and distinguish in the result's that ground adds up to the situation of Value Data, its node for parts (Ω 1) 79 is set in addition independently be got final product.

For its total technology, with aftermentioned, but the Value Data that the positive power consumption that for example needs purely in per 1 manufacturing of parts (Ω 1) 79 and negative electricity consumption become aggregate result.

Herein, be made as for parts (Ω 1) 79, (Ω 2) 79, (Ω 3) 79, (Ω 4) 79, provide respectively such information, to each node is set and each per 1 manufacturing is required positive power consumption and the negative relevant information of electricity consumption.

Return Figure 35, as the final processing in the stage of setting, make production process electricity consumption equipment corresponding relation setting data 84(step S10A).

Production process electricity consumption equipment corresponding relation setting data 84 be by electricity consumption apparatus settings data 62 node (each equipment), with the corresponding data of being carried out the operation of recording and narrating in the production process setting datas 82 by which electricity consumption equipment 13 of having recorded and narrated of the procedure-node of production process setting data 82.

For production process electricity consumption equipment corresponding relation setting data 84, both can directly record and narrate, also can as shown in Figure 31 production process electricity consumption equipment corresponding relation configuration part 83 be set independently, and set by production process electricity consumption equipment corresponding relation configuration part 83.

In addition, for production process electricity consumption equipment corresponding relation configuration part 83, both can be set to the part of electricity consumption apparatus settings section 61 or production process configuration part 81, perhaps, also can arrange independently with electricity consumption apparatus settings section 61, production process configuration part 81, perhaps, also can be set to the blanket configuration part that set-up function with electricity consumption apparatus settings section 61, production process configuration part 81 and production process electricity consumption equipment corresponding relation configuration part 83 has merged.

Below, setting stage in Figure 35 last, the measurement point setting data 92 that will in above-mentioned steps S1 ~ S10A, produce, surveying instrument consists of setting data 32, surveying instrument consists of measurement point corresponding relation setting data 34, electric system setting data 42, power system measuring point correspondence setting data 44, electricity consumption apparatus settings data 62, electricity consumption electric power of equipment system corresponding relation setting data 64, electricity consumption device control data corresponding relation setting data 70, production process setting data 82 and production process electricity consumption equipment corresponding relation setting data 84 are written to electricity consumption Measurement and Data Processing device 1.

At this moment, with similarly above-mentioned, for various setting datas, both can be written to equally all electricity consumption Measurement and Data Processing devices 1, and also can only cut out with the corresponding part of electricity consumption Measurement and Data Processing device (α) 1 and write.

Next, the operational phase (the generation step of the visual picture relevant with the electricity consumption required in order to finish product) that Figure 35 is interior is described.

In operational phase, at first, with similarly above-mentioned, collect and preserve electricity consumption data (step S11).

In step S11, electricity consumption Measurement and Data Processing device 1 and the measurement data 25 relevant with electricity consumption are collected the control data 29 relevant with the duty of equipment and are saved in time series altogether.Below, carry out the total processing (step S13) same with above-mentioned (Figure 32), and generate as required the display frame (step S12) that consists of according to surveying instrument.

In addition, with similarly above-mentioned, add up to processing (step S17B, S17C, S15A) and display frame to generate and process (S14B, S14C, S16A).

Next, production process total data handling part 85(Figure 31) according to the schichtenaufbau of recording and narrating in the production process setting data 82, according to the production process electricity consumption equipment corresponding relation setting data 84 of having recorded and narrated with the corresponding relation of electricity consumption apparatus settings data 62, process total data 26(step S18).At this moment, distinguish total (step S18C) for each operating condition.

At last, production process add up to show that generating unit 86 makes total data 26 visual and figure shows (step S19) according to production process setting data schichtenaufbau.At this moment, distinguish total (step S19C) for each operating condition.

In addition, with similarly above-mentioned, for add up to processing, both can carry out concurrently with the processing (step S11) of collecting and preserving the electricity consumption data, also can be according to needing execution when requiring that figure shows arranged.

Figure 37 illustrates the process flow diagram that the total based on the data of production process of embodiments of the present invention 6 is processed, for above-mentioned same processing, added symbol same as described above.

In Figure 37, after the total of above-mentioned embodiment 5 is finished dealing with, carry out distinctive total and process.

Below, with Figure 31 and Figure 36, with reference to Figure 37, the total that specifies embodiments of the present invention 6 is processed.

In Figure 37, at first, the upper (finishing product 77) of production process tree as processing Object node (step S81), is carried out Recursion process.

In Recursion process, at first, process according to the result of determination whether the next tree structure (step S42) is arranged in processing Object node (finishing product 77) and branch.

As can be seen from Figure 36, in processing Object node (finishing product 77), the next tree structure is arranged, so carry out Recursion process (step S43, S44) for all the next nodes (operation (B2) 80) of processing Object node (finishing product 77).

After this Recursion process (in detail with aftermentioned) is finished, transfer to step S82 from step S43, whether the determination processing Object node is operation.

At this moment, become the node that the product of finishing 77 of processing Object node are not the expression operation, so the power consumption of the node that 1 stage is the next (operation (B2) 80), with the summation of the next node (middle product (Σ 1) 78, (Σ 2) 78) of 2 stages as the electricity consumption data (step S85) of processing Object node (finishing product 77), process the Recursion process (Figure 37) of Object node (finishing product 77) and finish.

At this moment, the power consumption that represents the node of the next operation of 1 stage (B2) 80 is the related time series data of following with control information.

On the other hand, represent the next middle product of 2 stages (Σ 1) 78, (Σ 2) 78, further the power consumption of the node of the next parts (Ω 1) 79 ~ (Ω 4) 79 is not the time series data, but distinguishes the result's that ground adds up to Value Data for each control information.

Therefore, in step S85, will be to following the result that carries out summation with the related time series data of the control information of the node that represents the operation that 1 stage is the next and obtain as the electricity consumption data of the time series of processing Object node (finishing product 77), and will distinguish for each control information of the node of the next operation of 1 stage of expression the result's that ground adds up to Value Data, with for expression the next middle product of 2 stages, the summation of the result's that each control information of the node of parts adds up to with distinguishing Value Data is as the electricity consumption data of the aggregate result value of processing Object node (finishing product 77).

Next, Recursion process for operation (B2) 80 is described.

At first, the next tree structure is arranged in operation (B2) 80, so with similarly above-mentioned, carry out Recursion process (step S43, S44) for all the next nodes (middle product (Σ 1) 78, (Σ 2) 78) of operation (B2) 80.

After these Recursion process are all finished, for operation (B2) 80, owing to being the node of expression operation, so transfer to step S83 from step S82, determine whether the relation setting of processing Object node and consumer device node.

If in step S83, be judged to be the setting of the electricity consumption equipment corresponding with operation (B2) 80 (namely, "Yes"), then with the electricity consumption data of the electricity consumption equipment that the sets electricity consumption data (step S84) as operation (B2) 80, the Recursion process (Figure 37) of operation (B2) 80 is finished.

On the other hand, if in step S83, be judged to be the setting (that is, "No") without the electricity consumption equipment corresponding with operation (B2) 80, then be defined as the electricity consumption data (step S56A) without operation (B2) 80, the Recursion process (Figure 37) of operation (B2) 80 is finished.

In the structure example of Figure 30, operation (B2) 80 has the setting with the corresponding relation of electricity consumption equipment (B2) 13, thus with the electricity consumption data former state of electricity consumption equipment (B2) 13 be made as operation (B2) 80 the electricity consumption data get final product.

Next, Recursion process for middle product (Σ 1) 78 is described.

At first, the next tree structure is arranged, so restart processing for all the next nodes (operation (B1) 80) in middle product (Σ 1) 78.

This restart finish dealing with after, transfer to step S82 from step S43, whether the determination processing Object node is operation.

Middle product (Σ 1) 78 are not the node of expression operation, so transfer to step S85 from step S82, the node that 1 stage is the next (namely, operation (B1) 80) power consumption, with the summation of the next node (parts (Ω 1) 79, (Ω 2) 79) of the 2 stages electricity consumption data as middle product (Σ 1) 78, the Recursion process (Figure 37) of middle product (Σ 1) 78 is finished.

In addition, for the summation of situation that is not the node of expression operation, as mentioned above.

Next, Recursion process for operation (B1) 80 is described.

At first, the next tree structure is arranged, so carry out Recursion process for all the next nodes (parts (Ω 1) 79, (Ω 2) 79) of operation (B1) 80 in operation (B1) 80.

After these Recursion process are all finished, for operation (B1) 80, owing to being the node of expression operation, so transfer to step S83 from step S82, determining whether with the relation of consumer device node and set.

If the setting of the electricity consumption equipment corresponding with operation (B1) 80 is arranged, then with the electricity consumption data of the electricity consumption equipment that the sets electricity consumption data (step S84) as operation (B1) 80, the Recursion process (Figure 37) of operation (B1) 80 is finished.

On the other hand, if without the setting of the electricity consumption equipment corresponding with operation (B1) 80, then be defined as the electricity consumption data (step S56A) without operation (B1) 80, the Recursion process (Figure 37) of operation (B1) 80 is finished.

In the structure example of Figure 30, for operation (B1) 80, because the setting with the corresponding relation of electricity consumption equipment (B1) 13 being arranged, so the electricity consumption data former state ground of the electricity consumption equipment of electricity consumption equipment (B1) the 13 electricity consumption data as operation (B1) 80 are got final product.

Next, illustrate for the Recursion process of the parts (Ω 1) 79 of the next node.

At first, without the next tree structure, so transfer to step S86 from step S42, whether the determination processing Object node is operation in parts (Ω 1) 79.

If in step S86, be judged to be parts (Ω 1) the 79th, the node (that is, "Yes") of expression operation is then transferred to step S88, determines whether the relation setting of processing Object node and consumer device node.

If in step S88, be judged to be the setting of the electricity consumption equipment corresponding with parts (Ω 1) 79 (namely, "Yes"), then with the electricity consumption data of this electricity consumption equipment electricity consumption data (step S89) as parts (Ω 1) 79, the Recursion process (Figure 37) of parts (Ω 1) 79 is finished.

On the other hand, if in step S88, without the setting (that is, "No") of the electricity consumption equipment corresponding with parts (Ω 1) 79, then be defined as the electricity consumption data (step S56B) without parts (Ω 1) 79, the Recursion process of parts (Ω 1) 79 is finished.

But parts (Ω 1) 79 are not the node of expression operation, so transfer to step S87 from above-mentioned steps S86.

Namely, at the node for parts (Ω 1) 79, set independently in addition for each control information and distinguished in the result's that ground adds up to the situation of Value Data, with the electricity consumption data of these data as parts (Ω 1) 79, if set-point data not, then be defined as the electricity consumption data without Ω 1, the Recursion process (Figure 37) of parts (Ω 1) 79 is finished.

In addition, for the Recursion process for each node of parts (Ω 2) 79, middle product (Σ 2) 78, operation (A1) 80, parts (Ω 3) 79, operation (A2) 80, parts (Ω 4) 79, some identical with in the above-mentioned contents processing is so description thereof is omitted herein.

By above Recursion process, can add up to the electricity consumption data of each node of production process setting data schichtenaufbau.

In addition, with similarly above-mentioned, above-mentioned Recursion process is the processing for the mode of the electricity consumption data that determine how to calculate each node, so viewpoint according to shortening processing time (omitting the Recursion process that needs the long processing time), preferred initial 1 time of only carrying out operational phase, the account form that storage obtains as its result (perhaps, can carry out form of scripts output), when needs calculate the data of each node, with reference to this account form (carrying out this script).

But, as the situation of using the high hardware of computing ability etc., if the required time of Recursion process is as short as the degree that does not produce especially fault, then also can constitutes and carry out where necessary Recursion process at every turn.

Below, production process add up to show that generating unit 86 makes the total data 26 processed as described above visual and figure shows according to production process setting data schichtenaufbau.

Figure 38 is the key diagram that the visualized graphs display case of embodiments of the present invention 6 is shown, and shows the concrete example that the visual picture of measurement data has been carried out the situation of production process figure demonstration.

Visual picture by for the embodiment 5 of above-mentioned (Figure 34) adds to show and to operate the tree view of production process setting data schichtenaufbau, and consists of visual picture shown in Figure 38.

In Figure 38, in the node in production process setting data schichtenaufbau, for process the node that has the electricity consumption data by above-mentioned total, the operation of the node that shows by the hope figure of specifying on the tree view (with the mouse double-click etc.) is carried out figure to the electricity consumption data of this node and is shown.

In addition, in the node of expression parts (Ω 1 ~ Ω 4), only there is the Value Data of distinguishing the result of ground total for each control information, so show the visual picture that ratio shows.

In addition, in the node of expression operation (A1, A2, B1, B2), only existing with this operation has the electricity consumption data of the electricity consumption equipment 13 of corresponding relation, so show the figure of these electricity consumption data and the visual picture that ratio shows.

(Σ 1 for product in the middle of expression, Σ 2), finish in the node of product, may exist following the electricity consumption data of the time series that carries out summation with the related time series data of the control information of the node that represents the operation that 1 stage is the next and obtain, with to for the node of expression the next operation of 1 stage and represent the middle product that 2 stages are the next, the Value Data that the result that ground adds up to is distinguished in each control information of the node of parts carries out summation and the electricity consumption data of the aggregate result value that obtains, so show the figure of these electricity consumption data and the visual picture that ratio shows.

In order to realize the visual picture relevant with the electricity consumption required in order to finish product as described above, installing in (Figure 40) in the past, manually set and added up to and demonstration, but according to the embodiment of the present invention 6, can automatically extract out and add up to and show, so can cut down and can grasp intuitively product and finish the relevant workload of the engineering of visual picture of virtual condition of required power consumption.

Namely, in embodiments of the present invention 6, only by arrangement for the setting of automatically processing the relevant computing setting of all visual required imaginary measurement points of grasping with the virtual condition that is used for the required power consumption in order to finish product and visual picture required set information, and set this set information (production process schichtenaufbau, device class, with and mutual relationship), automatically realize being used for the visual picture of grasping according to the virtual condition of the power consumption of production process schichtenaufbau.

Particularly, in production process schichtenaufbau (M-BOM), can make the computing setting robotization relevant with all the visual required imaginary measurement points that are used for grasping according to the virtual condition of the power consumption of production process schichtenaufbau by the rule application that " summations of the data of the data=child node of father node " are such.In addition, these operation result former states ground is mapped with demonstration according to the production process schichtenaufbau, so also can robotization for the setting of visual picture.

In addition, in the rule application that " summations of the data of the data=child node of father node " are such when production process schichtenaufbau (M-BOM), the such schichtenaufbau of production process schichtenaufbau (M-BOM) and spatial configuration as described above is different, for being the schichtenaufbau of finishing product/middle product/parts and operation alternate repetition, study as mentioned above disposal route.

And then, by will be to the child node that has take father node as " the accumulation figure " of graphical element shows or ratio shows such rule application in the production process schichtenaufbau, can make with the visual deep excavation, the ratio that are used for according to the virtual condition of the power consumption of production process schichtenaufbau is grasped to show relevant setting robotization.

In addition, conversion process and the applicable output of device (Figure 40) generate for being used for applying flexibly in the past, and description thereof is omitted herein, but same action effect is also played in its explanation as carrying out with Figure 12, Figure 13, Figure 18 in this case.

As described above, embodiments of the present invention 6(Figure 31, the electricity consumption Measurement and Data Processing device 1 of Figure 35 ~ Figure 38) possesses production process total data handling part 85, production process total data handling part 85 is according to production process setting data 82, production process electricity consumption equipment corresponding relation setting data 84(production process energy expenditure equipment corresponding relation setting data with the corresponding relation of having set electricity consumption equipment 13 and production process setting data 82), generate production process total data 26, perhaps, output is used for generating the setting of production process total data 26.

In addition, the electricity consumption Measurement and Data Processing device 1 of embodiments of the present invention 6 possesses production process and adds up to demonstration generating unit 86, production process adds up to and shows that generating unit 86 makes production process total data 26 show according to production process level ground, perhaps, output is used for the setting that level ground shows.

Thus, with similarly above-mentioned, the total processing that can automatically extract the generation of understandable visual picture out and be used for visual picture, the workload of reduction engineering.

Claims (20)

1. an energy expenditure Measurement and Data Processing device according to the measurement point setting data, is collected the measurement data relevant with energy expenditure, and adds up to and process described measurement data, it is characterized in that,

Possess energy system total data handling part, this energy system total data handling part is processed conduct according to the energy system total data of the total data of energy system,

Described energy system total data handling part is according to the energy system setting data and set the energy system measurement point corresponding relation setting data of the corresponding relation of described energy system setting data and described measurement point setting data, generate described energy system total data, perhaps, output is used for generating the setting of described energy system total data.

2. energy expenditure Measurement and Data Processing device according to claim 1 is characterized in that,

Described energy system total data handling part for net for catching fish or birds property measured the position of the take-off point of described energy system, generation has added that to this position energy transmits the energy system total data of loss, perhaps, output is used for generating the setting of described energy system total data.

3. energy expenditure Measurement and Data Processing device according to claim 1 is characterized in that,

Possess energy system and add up to the demonstration generating unit, this energy system adds up to and shows that generating unit is used for showing described energy system total data,

Described energy system adds up to and shows that generating unit makes described energy system total data show according to described energy system setting data level ground, and perhaps output is used for the setting that described level ground shows.

4. energy expenditure Measurement and Data Processing device according to claim 1 is characterized in that,

Possess surveying instrument and add up to the demonstration generating unit, this surveying instrument adds up to and shows that generating unit is used for showing described measurement data,

Described surveying instrument adds up to and shows that generating unit consists of setting data according to surveying instrument and set described measurement point setting data and the surveying instrument formation measurement point corresponding relation setting data of the corresponding relation of described surveying instrument formation setting data, making described measurement data consist of setting data according to described surveying instrument shows, perhaps, output is used for carrying out the setting of described demonstration.

5. energy expenditure Measurement and Data Processing device according to claim 1 is characterized in that,

Possess spatial configuration total data handling part, this spatial configuration total data handling part is used for generating conduct according to the spatial configuration total data of the total data of spatial configuration,

Described spatial configuration total data handling part is according to described spatial configuration setting data and set the spatial configuration energy system corresponding relation setting data of the corresponding relation of described energy system setting data and described spatial configuration setting data, generate described spatial configuration total data, perhaps, output is used for generating the setting of described spatial configuration total data.

6. energy expenditure Measurement and Data Processing device according to claim 5 is characterized in that,

Possess spatial configuration and add up to the demonstration generating unit, this spatial configuration adds up to and shows that generating unit is used for showing described spatial configuration total data,

Described spatial configuration adds up to and shows that generating unit makes described spatial configuration total data show according to described spatial configuration setting data level ground, and perhaps, output is used for the setting that described level ground shows.

7. energy expenditure Measurement and Data Processing device according to claim 1 is characterized in that,

Possess energy expenditure equipment total data handling part, this energy expenditure equipment total data handling part is processed energy expenditure apparatus settings data,

Described energy expenditure equipment total data handling part is according to described energy expenditure apparatus settings data and set described energy system setting data and the energy expenditure plant capacity system corresponding relation setting data of the corresponding relation of described energy expenditure apparatus settings data, generation is as the energy expenditure equipment total data of the total data of each energy expenditure equipment, perhaps, output is used for generating the setting of described energy expenditure equipment total data.

8. energy expenditure Measurement and Data Processing device according to claim 7 is characterized in that,

Possess energy expenditure equipment and add up to the demonstration generating unit, this energy expenditure equipment adds up to and shows that generating unit is used for showing described energy expenditure equipment total data,

Described energy expenditure equipment adds up to and shows that generating unit makes described energy expenditure equipment total data show according to described energy expenditure apparatus settings data, and perhaps, output is used for carrying out the setting of described demonstration.

9. energy expenditure Measurement and Data Processing device according to claim 7 is characterized in that,

Described energy system total data handling part is according to described energy expenditure equipment total data and described energy expenditure plant capacity system corresponding relation setting data, generate conduct according to the energy system total data of each energy expenditure device class of the total data of each classification of the energy expenditure equipment of described energy system, perhaps, output is used for generating the setting of described energy system total data.

10. energy expenditure Measurement and Data Processing device according to claim 9 is characterized in that,

Described energy system adds up to and shows that generating unit makes the energy system total data of each described energy expenditure device class show according to described energy system setting data level ground, and perhaps, output is used for the setting that described level ground shows.

11. energy expenditure Measurement and Data Processing device according to claim 7 is characterized in that,

Possess spatial configuration total data handling part, this spatial configuration total data handling part is used for generating conduct according to the spatial configuration total data of the total data of spatial configuration,

Described spatial configuration total data handling part is according to described spatial configuration setting data and set the spatial configuration energy expenditure equipment corresponding relation setting data of the corresponding relation of described energy expenditure equipment and described spatial configuration setting data, generate described spatial configuration total data, perhaps, output is used for generating the setting of described spatial configuration total data.

12. energy expenditure Measurement and Data Processing device according to claim 11 is characterized in that,

Described spatial configuration total data handling part is according to the corresponding relation of described energy system setting data and described spatial configuration setting data, the described energy expenditure plant capacity of reference system corresponding relation setting data, the spatial configuration energy expenditure equipment corresponding relation setting data of the corresponding relation of described energy expenditure apparatus settings data and described spatial configuration setting data has been set in extraction.

13. energy expenditure Measurement and Data Processing device according to claim 11 is characterized in that,

Possess spatial configuration and add up to the demonstration generating unit, this spatial configuration adds up to and shows that generating unit is used for showing described spatial configuration total data,

Described spatial configuration adds up to and shows that generating unit makes described spatial configuration total data show according to described spatial configuration setting data, and perhaps, output is used for carrying out the setting of described demonstration.

14. energy expenditure Measurement and Data Processing device according to claim 11 is characterized in that,

Described spatial configuration total data handling part generates conduct according to the spatial configuration total data of each energy expenditure device class of the total data of each classification of the energy expenditure equipment of spatial configuration, perhaps, output is used for generating the setting of described spatial configuration total data.

15. energy expenditure Measurement and Data Processing device according to claim 14 is characterized in that,

Possess spatial configuration and add up to the demonstration generating unit, this spatial configuration adds up to and shows that generating unit is used for showing described spatial configuration total data,

Described spatial configuration adds up to and shows that generating unit makes the spatial configuration total data of each described energy expenditure device class show according to described spatial configuration setting data level ground, and perhaps, output is used for the setting that described level ground shows.

16. energy expenditure Measurement and Data Processing device according to claim 7 is characterized in that,

The control instrument that possesses energy expenditure equipment, the control instrument of this energy expenditure equipment is controlled according to described energy system,

Described energy expenditure Measurement and Data Processing device is collected the control data relevant with the control of described energy expenditure equipment according to described measurement point setting data from described control instrument, wherein,

Described control data are duties of described energy expenditure equipment,

Described energy expenditure equipment total data handling part according to described measurement data and described control data with set described measurement point setting data in the measurement point relevant with control and the energy expenditure device control data corresponding relation setting data of the corresponding relation of described energy expenditure equipment, for the energy expenditure equipment total data of described energy expenditure equipment generation as each duty of the total data of each duty, perhaps, output is used for generating the setting of described energy expenditure equipment total data.

17. energy expenditure Measurement and Data Processing device according to claim 16 is characterized in that,

Described energy expenditure equipment adds up to and shows that generating unit shows the energy expenditure equipment total data of each described duty, and perhaps, output is used for carrying out the setting of described demonstration.

18. energy expenditure Measurement and Data Processing device according to claim 16 is characterized in that,

Possess production process total data handling part,

Described production process total data handling part is according to the production process setting data and set the production process energy expenditure equipment corresponding relation setting data of the corresponding relation of described energy expenditure equipment and described production process setting data, generate the production process total data, perhaps, output is used for generating the setting of described production process total data.

19. energy expenditure Measurement and Data Processing device according to claim 18 is characterized in that,

Possess production process and add up to the demonstration generating unit,

Described production process adds up to and shows that generating unit makes described production process total data show according to production process level ground, and perhaps, output is used for the setting that described level ground shows.

20. the described energy expenditure Measurement and Data Processing of any one according to claim 1 ~ 19 device is characterized in that,

Described energy expenditure is electricity consumption.

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