JP2002329061A - Environmental resource accumulation device ahd environmental resource accumulation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that accurate and speedy accumulation of environmental resource can not be performed due to the frequent change of an administrative system. SOLUTION: Speedy and accurate accumulation processing for the environmental resources is realized by making clear the accumulation unit of the environmental resource through making a server 20 have a plant name, a department name, a line name, an environmental resource name, an accumulation level, information for the measuring instrument which is the object of accumulation, an allocation formula, and the found value information obtained by actual measurement.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an aggregation device and an aggregation system for environmental resources.

[0002]

2. Description of the Related Art Conventionally, when tallying an arbitrary tallying object,
The efficiency of tabulation has been improved by hierarchizing the management system of the information to be tabulated following the organizational structure of the company.

[0003]

With respect to the total use and cost of all environmental resources (hereinafter referred to as environmental resources) including electric power, fuel, paper, water, etc., at any level of the hierarchical organization, If the totaling level having information on whether to perform totaling is different, the unit for measuring the actual value of the environmental resource is also different. Therefore, information on the totaling level is necessary in order to improve the efficiency of totaling.

[0004] In addition, when totalizing measured actual values, it is necessary to apportion the actual measured values according to the totaling level. However, since the apportioning ratio is frequently changed, the frequency of environmental resources is high throughout the year. In consideration of the above, if only the management system of organization information to be totalized is hierarchized, the amount of work required for totaling becomes enormous, and a quick totaling process cannot be performed.

At present, companies are strongly demanded by the general public to effectively utilize limited environmental resources by feeding back the results of aggregation to existing management systems in order to improve environmental resource management. By the way, for that purpose, it is necessary to sum up the usage status of environmental resources quickly and accurately.

[0006] When the environmental resource is electric power, the electric power meter often has a plurality of hierarchical structures. The meter value measured by the power meter in the layer does not match, and an error often occurs in the meter value measured by each power meter belonging to the lower layer.

An object of the present invention is to collect environmental resources efficiently and accurately.

[0008]

In order to achieve the above object, an environmental resource totalizing apparatus according to the present invention comprises an organization information recording unit for recording information of an organization composed of departments hierarchized into a plurality of levels. And an environmental resource information recording unit that records the type information of a plurality of environmental resources that are included in the organization of the organization recorded by the organization information recording unit, and an environmental resource recorded by the environmental resource information recording unit. A totaling level recording unit that records as a totaling level at which level of a unit that constitutes an organization recorded by the organizational information recording unit, and an environmental resource recording unit that records the environmental resources recorded by the environmental resource information recording unit. A measuring instrument information recording unit that records information on measuring instruments that measure actual consumption values, a database unit that records actual measured values measured by multiple measuring instruments, and the above-mentioned totaling for each measuring instrument of multiple measuring instruments Level recording Is stored in the environmental resource information recording unit by retaining the ratio allocated to the section belonging to the level indicated by the aggregation level recorded and allocating the measured values of the plurality of measuring instruments recorded by the database unit according to the ratio. And a calculation unit for totalizing the environmental resources obtained.

Further, the measuring instrument information recording section records information of measuring instruments having a plurality of layers, and the calculating section computes actual measurement values measured by a lower layer measuring instrument recorded by the measuring instrument information recording section. The ratio of the total value and the measured value measured by the measuring device of the upper layer recorded by the measuring device information recording unit is multiplied by the measured value measured by the measuring device of the lower layer as a conversion coefficient. And

[0010] Further, the environmental resource totaling system of the present invention comprises:
An organization information recording unit that records information of an organization composed of departments hierarchized into a plurality of levels, and a plurality of environmental resources that are collected by the departments that constitute the organization recorded by the organization information recording unit. An environmental resource information recording unit that records the type information of the environmental resources recorded by the environmental resource information recording unit,
Of the departments constituting the organization recorded by the organization information recording unit,
The aggregation level recording unit that records at which level the aggregation is performed as an aggregation level, and a measuring device that records information of a plurality of measuring devices that measure actual consumption values of environmental resources recorded by the environmental resource information recording unit. An information recording unit and a measurement command are transmitted to a plurality of measuring instruments indicated by the information of the measuring instruments recorded by the measuring instrument information recording unit, and the measured values measured by the plurality of measuring instruments are transmitted from the plurality of measuring instruments. A measuring unit for receiving and outputting
Receive the measured values of multiple measuring instruments output by the measuring unit,
A database unit that records the received actual measurement values, and a unit that transmits a measurement command to the measurement unit and belongs to the level indicated by the aggregation level recorded by the aggregation level recording unit for each of a plurality of measuring instruments. And a calculation unit that totals the environmental resources recorded in the environmental resource information recording unit by allocating the measured values of the plurality of measuring instruments recorded by the database unit according to the ratio. It is characterized by having.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 Hereinafter, Embodiment 1 of the present invention will be described. FIG. 1 is a diagram showing an embodiment relating to an environmental resource totaling device. In FIG. 1, the server 20 is an environmental resource totalizing device. The server 20 includes an organization information recording unit 10, an environmental resource information recording unit 1,
1, aggregation level recording unit 12, measuring instrument information recording unit 13, calculation unit 14, search condition setting unit 15, numerical output display unit 16,
It comprises a graph output display section 17, a conversion value registration section 18, and a database section 19.

The organization information recording unit 10 records information on factory names, department names belonging to each factory, and production line names belonging to each department. FIG. 2 shows a specific example of information recorded by the organization information recording unit 10. As shown in the figure, the organization information recording unit 10 hierarchically records a company organization for which environmental resources are to be counted, with a factory as an upper layer, a department as an intermediate layer, and a production line as a lower layer. That is,
The company consists of XX factory, △△ factory, and XX factory,
The XX factory is composed of XX, △△, and XX parts.
The 部 section is composed of a ○ production line and a △△ production line. In addition, for example, the factory code is attached to each factory name such as the code “A01” for the factory XX. These codes are necessary for computer processing. Similarly, a department code and a management code are assigned to the department name and the line name. The factory information includes district information indicating to which district the factory belongs. For example, XX factory and ×
× The factories belong to the same area A. Like factory △△,
May not belong to any district.

The environmental resource information recording unit 11 records a plurality of environmental resources to be counted in each factory. Further, the totaling level recording unit 12 records, as a totaling level, information indicating at what level the actual measured value of a meter or the like is totaled for each environmental resource recorded by the environmental resource information recording unit 11. FIG. 3 is a diagram showing an example of a data configuration recorded by the environmental resource information recording unit 11 and the aggregation level recording unit 12. In this figure, XX factory has electricity, city gas, copy paper, and groundwater as environmental resource names.
It can be seen that the XX factory covers these environmental resources. Here, among the environmental resource names, the power may be distinguished as daytime power or nighttime power. A fine counting process can be performed by making such fine distinctions. An environmental resource code is assigned to each of the environmental resource names for the same reason as the organization information recording unit 10. In FIG. 3, when the environmental resource name is electric power, the totaling level is 1, so that the totaling is performed at the level of the production line. When the environmental resource name is city gas and copy paper, the totaling level is 2, so that the totaling level is 2 at the section level. Since the total level is 3 for groundwater, the total is calculated at the factory level. Therefore, for example, the power is totaled for each manufacturing line, the totaled results for each manufacturing line are totaled to be a department total, and the totaled results for each department are totaled to be a factory total. On the other hand, for groundwater, the aggregation level is 3
Therefore, the production line total and the department total are not performed, but only the total of each factory.

The measuring instrument information recording unit 13 is a measuring instrument for measuring an actual measurement value indicating how much of each of the environmental resources recorded by the environmental resource information recording unit 11 has been actually consumed during a certain period. Record information. Here, examples of the measuring device include a power meter, a gas meter, and a copy counter. FIG. 4 shows a measuring instrument information recording unit 1.
3 shows an example of a data configuration recorded. When the name of the environmental resource is electric power, the four meters of the electric power meters 1, 2, 3, and 4 are set as the measuring instruments to be counted. Similarly, for city gas,
The gas meters 1, 2, and 3 are used as measuring instruments to be counted.
Each measuring instrument has a measuring instrument code.

The database unit 19 records and holds actual measured values measured by a measuring instrument. For example, a meter value of a power maker is recorded and held as an actually measured value.

The calculating unit 14 includes, for each environmental resource recorded by the environmental resource information recording unit 11,
In accordance with the totaling level recorded by the measuring instrument information recording unit 13, the ratio of actual measurement values to each measuring instrument of the plurality of measuring instruments recorded by the measuring instrument information recording unit 13 is held, and an allocation formula indicating the proportion is held. are doing. Then, the measured values of the plurality of measuring instruments recorded by the database unit 19 are stored in the database unit 19.
, And allocate according to the allocation formula.
FIG. 5 is a diagram illustrating an allocation formula held by the calculation unit 14. When the environmental resource is electric power, the totaling level is 1, and therefore it is necessary to perform totaling for each production line. Therefore, a fixed ratio is allocated to each measuring instrument recorded by the measuring instrument information recording unit 13 for the XX production line and the △△ production line. Here, each of the power meters M01, M02, M03, and M04, which are measuring instruments to be counted in the XX production line, is assigned as a ratio of the allocation held by the calculation unit 14,
0.3, 0.4, 0.5 and 0.1 are allocated.
Similarly, (1) Each of the power meters M01, M02, M03, and M04, which are the measuring instruments to be counted in the manufacturing line, has a ratio of 0.
7, 0.6, 0.5 and 0.9 are allocated. In the case of city gas, the counting level is 2, so it is necessary to count for each section. For this reason, the allocation values are allocated to the respective gas meters for the XX section, the △△ section, and the XX section.

The search condition setting unit 15 includes the organization information recording unit 1
0, or information recorded by the environmental resource information recording unit 11, information recorded by the aggregation level recording unit 12, or a combination of these search conditions. , Database section 19
Perform a search. Then, based on the search condition, the calculation unit 1
The calculation result is calculated from the above-mentioned allocation formula held in No.4. FIG. 6 is a diagram illustrating an example of a screen displayed by the search condition setting unit 15. If the totaling level is for each manufacturing line, and if the display of the manufacturing line name is provided, the search result display performed by the numerical output display unit 16 described later will display the manufacturing line name for each department and the manufacturing line name for each manufacturing line. Actual measured values can be displayed. On the other hand, if neither the department name nor the production line name is displayed, only the total value of the designated factory (the XX factory in FIG. 6) is displayed.

The numerical value output display section 16 includes a search condition setting section 1
5 is displayed. FIG. 7 is a diagram illustrating an example of a screen displayed by the numerical value output display unit 16.
This diagram is a diagram corresponding to the search condition set in FIG. That is, when the search condition is set on the search condition setting screen in FIG. 6 and the search is performed, the tally result in FIG. 7 can be obtained.

The graph output display section 17 displays a graph of the data displayed on the numerical output display section 16.

According to the present embodiment, in the tabulation regarding environmental resources such as electric power, the names of factories, departments, lines,
By setting the environmental resource name, aggregation level, measurement instrument information to be aggregated, and allocation formula, the aggregation unit for environmental resources is clarified, and quick and accurate general-purpose aggregation results are provided for environmental resources It is possible to efficiently perform environmental tallying work. In addition, by making each of the above items have a hierarchical structure, general-purpose environmental resources can be easily aggregated, and effective utilization of environmental resources can be achieved by increasing the efficiency of the aggregation work.

Embodiment 2 FIG. Embodiment 2 will be described below. The basic configuration is the same as that of the first embodiment, and is as shown in FIG. In the present embodiment,
The measuring instrument information recording unit 13 records information of measuring instruments composed of a plurality of layers. For example, there is a case where lower-layer power meters 1 to 4 are hierarchically recorded with respect to an upper-layer power meter. As described above, the power meter usually has a hierarchical structure. FIG. 8 shows the conversion value registration unit 18.
FIG. 5 is a diagram showing an example of a screen displayed by. If the name of the environmental resource is electric power, in the XX factory, the lower-level measuring instruments to be counted are the electric power meters 1 to 4, and for April 1999,
The actual measurement value of each power meter "10.0, 15.0, 20.
0, 25.0 ”and their total value“ 70.0 ”are displayed. In addition, the measured value “80.0” is displayed as the overall value for the upper-layer power meter to be counted. As described above, the total value of the power meters in the lower layer is often different from the total value of the power meters in the upper layer. In consideration of this, the calculation unit 14 converts the total value of the measured values measured by the power meters 1 to 4 belonging to the lower layer and the measured value measured by the power meter A of the upper layer. Match by multiplying by a coefficient. Specifically, in FIG. 8, the sum of the actually measured values of the power meters 1 to 4 is [70.
Although the value is “0”, the total value is “80.0”, so the calculation unit 14 obtains a conversion coefficient by dividing the total value by the total value of the actually measured values of the power meters 1 to 4. That is, in FIG. 8, the conversion coefficient is 1.14 because of 80.0 / 70.0 = 1.14. This conversion factor is calculated for each power meter 1 to
4 by multiplying the measured value of each power meter to “11.4, 17.1, 22.9, 28.6” for the converted value of each power meter and “80.0” for the total value of the converted values. Match the value. The functions of the other units of the second embodiment are the same as those of the first embodiment shown in FIG. In the present embodiment, electric power is taken as an environmental resource, but the environmental resource is not limited to electric power, and may be other resources such as paper and water. In addition, the input of the actual measurement value may prompt the person to input on the screen in a table as shown in FIG. 8 or may automatically automatically input the actual measurement value measured by the measuring instrument.

According to the present embodiment, the value obtained by summing the measured values measured by the plurality of measuring instruments belonging to the lower layer and the measured value measured by the measuring instrument of the upper layer are made coincident with each other and belong to the lower layer. Correction that eliminates errors in actual measurement values measured by individual measuring instruments is enabled. Therefore, the usage status of environmental resources can be tabulated more accurately, and the tabulation results are fed back to the existing management system to improve environmental resource management.
Effective use of environmental resources can be achieved.

Embodiment 3 FIG. The third embodiment will be described below. FIG. 9 is an overall view of this embodiment. Each configuration of the server 20 is the same as in the first embodiment.
In the present embodiment, there is further provided a measuring unit 30 that transmits and receives data to and from the server 20 via the network 31. Calculation unit 1
4 transmits a measurement command to the measurement unit 30 at a certain date and time. When receiving the measurement command, the measurement unit 30 transmits a measurement command to each of the measuring instruments recorded by the measuring instrument information recording unit 13 to be counted, and the measuring instruments that have received the command transmit their own environmental resources. After measuring the consumption amount as the actually measured value, the measured value is transmitted to the measuring unit 30. The measuring unit 30 receives the measured values from each measuring device and outputs the measured values to the database unit 19. The database unit 19 receives and records the actual measured values of each measuring device output by the measuring unit 30. The network 31 is a network connecting the server 20 and the measurement unit 30 to each other, and includes any means capable of transmitting and receiving to and from an electronic device regardless of wired or wireless.

In the present embodiment, the server 20 and the measuring unit 3
By connecting 0 to the network 31, it is possible to automatically measure the measured values of the environmental resources at a certain time,
Aggregation of environmental resources can be performed more efficiently.

In the first to third embodiments, the tabulation processing has been described based on the organization "factory-section-production line". However, the present invention is not limited to such an organization. All organizations related to environmental resources, such as "districts-households belonging to the districts", will be counted.
In addition, the server 20 and the measuring unit 30 may be provided not only on a computer but also on an electronic device capable of performing each function.

[0026]

As described above, according to the present invention, it is possible to efficiently and accurately perform a totaling operation on environmental resources.

Further, by using the conversion coefficient, it is possible to eliminate the error of the measured value of the measuring device belonging to the lower layer.

Further, the provision of the measuring unit 30 enables automatic measurement of the actual measurement value of the environmental resource at a certain time.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing Embodiments 1 and 2 of the present invention.

FIG. 2 is a diagram showing an example of data recorded by an organization information recording unit 10;

FIG. 3 is a diagram showing an example of data recorded by an environmental resource information recording unit 11 and a tally level recording unit 12.

FIG. 4 is a diagram showing an example of data recorded by a measuring instrument information recording unit 13;

FIG. 5 is a diagram showing an example of an allocation formula managed by a calculation unit 14;

FIG. 6 is a view showing an example of a screen displayed by a search condition setting unit 15;

FIG. 7 is a view showing an example of a screen displayed by a numerical value output display unit 16;

FIG. 8 is a view showing an example of a screen displayed by a conversion value registration unit 18;

FIG. 9 is a system configuration diagram showing a third embodiment of the present invention.

[Explanation of symbols]

10 Organization information recording unit, 11 Environmental resource information recording unit, 1
2 Total level recording unit, 13 Measuring instrument information recording unit, 14
Calculation section, 15 search condition setting section, 16 numerical output display section, 17 graph output display section, 18 converted value registration section, 1
9 database section, 20 servers, 30 measuring section, 3
1 Network.

Claims (3)

[Claims] 1. An organization information recording section for recording information of an organization composed of sections hierarchized into a plurality of levels, and a section constituting the organization recorded by the organization information recording section as an object of aggregation. The environmental resource information recording unit that records the type information of a plurality of environmental resources that are present, and the environmental resources recorded by the environmental resource information recording unit, Whether or not to count, a counting level recording unit that records as a counting level, a measuring instrument information recording unit that records information of a measuring instrument that measures the actual value of consumption of environmental resources recorded by the environmental resource information recording unit, A database unit that records the actual measurement values measured by multiple measuring instruments, and a ratio that is allocated to the section belonging to the level indicated by the aggregation level recorded by the aggregation level recording unit for each of the multiple measuring instruments. A calculation unit that totals the environmental resources recorded in the environmental resource information recording unit by allocating the measured values of the plurality of measuring instruments recorded by the database unit according to the ratio. Environmental resource aggregation device. 2. The measuring instrument information recording section records information of measuring instruments composed of a plurality of layers, and the calculating section calculates an actual measurement value measured by a measuring instrument of a lower layer recorded by the measuring instrument information recording section. The ratio of the total value and the measured value measured by the measuring device of the upper layer recorded by the measuring device information recording unit is multiplied by the measured value measured by the measuring device of the lower layer as a conversion coefficient. Environmental resource aggregation device. 3. An organization information recording section for recording information of an organization composed of sections hierarchized into a plurality of levels, and a section constituting the organization recorded by the organization information recording section as an object of aggregation. The environmental resource information recording unit that records the type information of a plurality of environmental resources that are present, and the environmental resources recorded by the environmental resource information recording unit, A totaling level recording unit that records whether or not to perform the totaling as a totaling level; and a measuring device information recording unit that records information of a plurality of measuring devices that measure actual consumption of environmental resources recorded by the environmental resource information recording unit. And transmitting a measurement command to a plurality of measuring instruments indicated by the measuring instrument information recorded by the measuring instrument information recording unit, and receiving actual measurement values measured by the plurality of measuring instruments from the plurality of measuring instruments. A measuring unit for outputting Receiving the measured values of multiple instruments whose serial measurement unit is output,
A database unit that records the received actual measurement values, and a unit that transmits a measurement command to the measurement unit and belongs to a level indicated by the aggregation level recorded by the aggregation level recording unit for each of a plurality of measuring instruments. And a calculation unit that totals the environmental resources recorded in the environmental resource information recording unit by allocating the measured values of the plurality of measuring instruments recorded by the database unit according to the ratio. An environmental resource totaling system comprising: