JP2008293443A - Environmental load arithmetic program for construction work, recording medium, environmental load arithmetic unit for construction work, and construction work management system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow management of various construction works by using integrated information using generally spreading standard methods of measurement for construction works, depletion expenses tables, material information, etc. to preliminarily calculate the amount of CO<SB>2</SB>-NOx discharged from operation machines and the like in a civil engineering work and determining a target value according with a reduction plan based on the calculation result to reflect it on the preparation of a construction schedule. <P>SOLUTION: A construction work management system (S) includes an integration system (1), an environmental load operation system (2), and a construction schedule preparation system (3). The environmental load operation system (2) includes a machine operation time totalizing part (20), a daily operation conversion part (21), a CO<SB>2</SB>-NOx discharge calculation part (22), a reduction target value setting part (24) for setting the target value according with the reduction plan of CO<SB>2</SB>-NOx discharge, a construction work cost calculation part (25) for calculating the cost of the construction work after the reduction plan, and a machine operation time calculation part (26) for calculating total operation times per machine type after the reduction plan. Values operated by the machine operation time calculation part (26) are reflected on construction schedule data prepared by the construction schedule preparation system (3). <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

The present invention relates to a construction environmental load calculation program, a recording medium, a construction environmental load calculation device, and a construction management system.
More particularly, in various construction of civil engineering work such as (public works, including civil construction), construction emissions CO ₂ · NOx prospective discharged from the machine or the like, generally prevalent each construction integration reference and machinery are It relates to items that can be calculated using loss table / material information.
In addition, schedule data for creating schedules for changes in processes, construction costs, machine operating time, etc., due to replacement of construction machines, etc. to achieve reduction plans based on CO ₂ / NOx emissions It relates to the one that can be effectively reflected and managed in various constructions.
In addition, the CO ₂ emissions and reductions are converted into the number of trees, the amount of crude oil, etc., and shown as indicators, or the percentage of people achieving the target value is calculated and shown after the completion of construction. It is related to things that can contribute to environmental conservation such as prevention of global warming by raising awareness of environmental conservation.

In recent years, global warming due to the greenhouse effect of CO ₂ has been a concern, and global environmental deterioration due to an increase in environmental load is a concern. In Japan, following the resolution of “Kyoto Protocol 1997”, the target of “CO ₂ emission reduction by 6% (based on 1990)” is set by 2010. To achieve this goal, CO ₂ emissions are being reduced in each industry, and various efforts are being made in the civil engineering construction industry.

In addition, for example, in public construction bidding, not only the bid price but also the method of determining the winning bidder by evaluating the environmental protection and noise reduction efforts of the company in combination with the bid price has become common. This is an important issue.
An example of a construction management system that calculates the CO ₂ emission amount for each construction site is disclosed in Patent Document 1.

Patent Document 1 “Calculation system for carbon dioxide emissions in water treatment facilities” is used to input each construction material used in the construction of the water treatment facility and the amount of each construction energy to be input. The CO ₂ emission unit corresponding to energy is stored in advance in the first storage unit, the amount of each construction material and the amount of construction energy input by the input unit, and each construction material and construction stored in the storage unit based on the emission intensity of CO ₂ corresponding to the energy, which calculates the CO ₂ emissions in the construction phase of the water treatment facilities, determine the emissions of CO ₂ in the construction phase of the water treatment facilities, environmental It is possible to correctly evaluate the actual load.

JP 2004-126843 A

However, the “carbon dioxide emission calculation system in water treatment facilities” described in Patent Document 1 has the following problems.
That is, the system can obtain the CO ₂ emission amount at the construction stage of the water treatment facility in advance and correctly evaluate the actual environmental load. It was not supposed to be able to take.
On the other hand, the present inventor noticed that accumulation using each work accumulation standard, mechanical loss table, material information, etc. is prevalent in Japan, and from this accumulated information, CO ₂ and NOx emissions The present invention has been completed through research on the means for calculating the.

(Object of the present invention)
Accordingly, an object of the present invention is to estimate the amount of CO ₂ / NOx that is expected to be emitted from construction machinery, etc. in various constructions such as civil engineering (including public works and private works). It is to provide an environmental load calculation program and a construction management system that can be calculated using a standard, a mechanical loss table, material information, etc., and can be easily introduced into an existing system.

Another object of the present invention is to change the process, construction cost, machine operating time, etc. associated with replacement of construction machinery, etc. to achieve a reduction plan based on this after calculating CO ₂ / NOx emissions. Is to be reflected in the process chart data for creating the process chart, and to provide an environmental load calculation program and a construction management system capable of efficiently managing various works.

Furthermore, in addition to the above object, another object of the present invention is to indicate the CO ₂ emission amount or the target reduction amount as an index by converting it into the number of trees, the amount of crude oil, etc., and displaying it as an index, or the completion of construction. It is to provide an environmental load calculation program and a construction management system that can raise the awareness of environmental conservation among those involved in the construction by calculating and indicating the achievement rate with respect to the target value later.

Means taken by the present invention to solve the above problems are as follows.
In the first invention,
An environmental load calculation program for construction to make a computer function,
The target construction work is based on the unit price table data, price list data, breakdown document data, summary data, design document data recorded in the integrated data recording means and the mechanical loss master data recorded in the unit price master recording means. A means of summing up the total operating time for each machine type used for
Means for converting the total operating time of the total machine type into operating hours per operating day;
Means for calculating the expected CO ₂ / NOx emission amount by machine type based on the operating time per operation day and a predetermined coefficient;
This is a construction environmental load calculation program.

In the second invention,
Means for inputting a target value determined in a reduction plan based on the calculated CO ₂ / NOx emission amount;
Means for calculating the total operating time of each machine type to achieve the reduction plan based on the target value;
Means for reflecting the total operation time of each machine type for achieving the reduction plan in the process chart data for creating the process chart;
An environmental load calculation program for construction according to the first aspect of the invention.

In the third invention,
If the accumulated data does not include machine loss master data, it has means to calculate the total operating time for each machine type using the published cycle time.
It is an environmental load calculation program of construction of the 1st invention.

In the fourth invention,
The means for calculating CO ₂ / NOx emissions is:
When the work integration standard is transferred to the market unit price and the construction unit price, the CO ₂ / NOx emissions can be calculated using the latest construction integration standard immediately before the transfer included in the construction integration standard. ,
It is an environmental load calculation program of construction of the 1st invention.

In the fifth invention,
The means for calculating CO ₂ / NOx emissions is:
Virtual CO ₂ / NOx emissions can be calculated by exchanging or selecting machines, vehicles, ships, materials, human resources, or fuel based on the total operating time for each machine type. is there,
It is an environmental load calculation program of construction of the 1st invention.

In the sixth invention,
CO ₂ emissions or CO ₂ reduction, provided with means that can be shown as an index in terms of amount of oil or fuel amount generates the CO ₂ in the number or the same amount of wood that can absorb CO ₂ the same amount Yes,
It is an environmental load calculation program of construction of the 1st or 2nd invention.

In the seventh invention,
It has means to calculate the construction cost to achieve the reduction plan based on the target value.
It is an environmental load calculation program of construction of the 2nd invention.

In the eighth invention,
Actual value input means that can input the actual total fuel consumption after construction,
Means for calculating the achievement rate of the actual value relative to the target value;
With
Environmental load calculation program for construction of the second invention.

In the ninth invention,
A computer-readable recording medium on which an environmental load calculation program for construction of the first, second, third, fourth, fifth, sixth, seventh or eighth invention is recorded.

In the tenth invention,
The target construction work is based on the unit price table data, price list data, breakdown document data, summary data, design document data recorded in the integrated data recording means, and mechanical loss master data recorded in the unit price master recording means. A means of summing up the total operating time for each machine type used for
Means for converting the total operating time of the total machine type into operating hours per operating day;
Means for calculating the expected CO ₂ / NOx emission amount by machine type based on the operating time per operation day and a predetermined coefficient;
It is a construction environmental load calculation device.

In the eleventh invention,
Means for inputting a target value determined in a reduction plan based on the calculated CO ₂ / NOx emission amount;
Means for calculating the total operating time of each machine type to achieve the reduction plan based on the target value;
Means for reflecting the total operation time of each machine type for achieving the reduction plan in the process chart data for creating the process chart;
An environmental load calculation device for construction according to the tenth aspect of the invention.

In the twelfth invention,
A construction management system having an integration unit, a process chart creation unit, and an environmental load calculation unit,
The environmental load calculation unit is a construction management system including the environmental load calculation program for the construction of the first, second, third, fourth, fifth, sixth, seventh or eighth invention.

The construction integration information (integration data) includes information on construction machines, vehicles, ships, materials, human resources, fuel, and the like.
The means for calculating the CO ₂ / NOx emissions (CO ₂ emissions or / and NOx emissions) extracts and aggregates the above information from the construction integration information, and based on this aggregate information, construction machinery / vehicles / ships The operation (operation) time is calculated, and the CO ₂ / NOx emission amount of the construction machine / vehicle is calculated using a predetermined formula / coefficient.

As the accumulated information, each construction accumulated standard, mechanical loss table, and material information (including public organizations, various publication materials, material prices, fuel prices, personnel costs, etc.) are used.
The target reduction amount or the possible reduction amount can be calculated from the use situation of the construction machine or the like based on public experiment data or the like.

When calculating actual CO ₂ / NOx emissions, use the published formulas and coefficients based on the information (quantity, etc.) of the personnel, materials, fuel, and power used in the target construction. .

The cycle time represents the amount of work per hour, and indicates the number of times that the work is performed in a certain time when the same work is mainly repeated.
Also, the below-mentioned walk is to calculate the cost required for construction under certain conditions such as the number of workers in actual construction, the number of working days of machines, etc. It is an accumulation standard.

(Function)
The operation of the construction management system including the environmental load calculation program according to the present invention will be described.
In the present invention, in calculating the CO ₂ / NOx emission expected at each construction site, the total using each construction site standard, mechanical loss table, and material information generally used for each construction site is calculated. Calculate based on
Further, when calculating the actual amount of CO ₂ / NOx emission after the completion of construction, the actual information (quantity) of human resources, materials, fuel amount, and electric energy required at each construction site is used.

First, the integration system extracts and tabulates items related to construction machines, vehicles, and ships from the integration information related to the target construction.
After totaling, the respective operating hours are calculated based on the unit price table (skip) in the totaling information (cumulative data), and the total operating hours for each construction machine, vehicle, and ship by the machine operating time totaling unit 20 Tally.

  Using machine loss master data (public material) and construction machine master data (machine manufacturer's data), the operating day allowance conversion unit converts the operating hours into operating hours per operating day (operating hours per operating hour).

CO ₂ and NOx emissions using the emission factor, machine information (output, etc.) and calculation formulas / factors (announced by public bodies) for each fuel used during the total operation time for each construction machine / vehicle / ship Is calculated and digitized to calculate the CO ₂ / NOx emissions per construction site.

For CO ₂ and NOx emissions other than direct construction, the planned fuel consumption is input based on the construction plan and execution budget prepared for each construction site, and is calculated using predetermined formulas and coefficients. This was added to CO ₂ · NOx emissions is the arithmetic, and CO ₂ · NOx emissions of the entire construction.

The calculated CO ₂ · NOx emissions based on, but plans to reduce CO ₂ · NOx emission amount is established, the target value reduction at this time is set. As a method of setting the target value in the CO ₂ / NOx reduction plan, for example: 1. Based on the usage status of construction machinery, vehicles, ships, etc. in the integration information, A method to calculate the possible reduction amount in the construction and make it the target, 2. A method to set the target with reference to the calculated virtual CO ₂ / NOx emission amount (simulation value), 3. Enter any numerical value And how to set goals.

The simulation for calculating the virtual CO ₂ / NOx emission is performed by replacing or selecting (changing the selection, etc.) of each model based on the total information for each construction machine, vehicle, and ship. This simulation is used for formulating a reduction plan for CO ₂ / NOx emissions (setting target values, etc.) as described above. In addition, when calculating virtual CO ₂ / NOx emissions, due to changes in construction volume per hour and changes in mechanical loss, changes in the number of process days and changes in construction contracts occur. Recalculate at the same time.

From the amount of CO ₂ and fuel reduction calculation data after goal setting, trees (e.g. cedar wood: may be other trees) on the basis of the CO ₂ absorption data per one, the reduction amount of CO ₂ cedar Create a resource-saving image form that is an index converted to the number, or create a resource-saving image form by converting the reduced CO ₂ amount into the amount of crude oil by using a conversion factor for the amount of crude oil or fuel. By converting the reduced CO ₂ amount into the number of trees, crude oil amount, and fuel amount, for example, to make it easier to understand the invisible CO ₂ emissions, people involved in the construction work (managers / workers) ) Can raise awareness of environmental conservation.

After the reduction plan (after setting the target), use the construction machine master data and the CO ₂ / NOx conversion coefficient to calculate the CO ₂ / NOx reduction amount by batch replacement from the primary standard to the secondary standard of the construction machine standard . Using unit price table data to design document data and construction machine master data, recalculate (re-calculate) the construction amount of the construction machine after the reduction plan. Similarly, using unit price table data to design document data and construction machine master data, the operation time (or the amount of change in the number of process days) by the construction machine after the reduction plan is recalculated. Furthermore, the number of process days is recalculated from the post-reduction plan. Each calculated value is accumulated in the process chart data of the process chart creating system and used for creating the process chart.

After the completion of construction, the actual fuel used is aggregated, and the amount of CO ₂ / NOx that is actually emitted is calculated using the published predetermined coefficient and formula, and the planned CO ₂ / NOx emission is the target value. Make a comparison with the quantity. Thereby, a target achievement rate and the like are calculated.

(A) In the present invention, the CO ₂ / NOx emissions expected to be emitted from construction machinery, etc. in various construction works such as civil engineering works, etc., are commonly used for each work accumulation standard, machine loss list, material information, etc. Therefore, it can be relatively easily introduced into an existing system.

(B) After calculating the CO ₂ / NOx emissions, change the process, construction cost, machine operating time, etc. associated with replacement of construction machines to achieve the reduction plan formulated based on this schedule Can be reflected in the process chart data for creating the site, making it possible to manage various constructions smoothly and efficiently, thereby contributing to environmental conservation such as the prevention of global warming. .

(C) In the present invention, the CO ₂ emission amount or the target reduction amount is converted into the number of trees, the amount of crude oil, etc., and shown as an index, or the achievement rate with respect to the target value after completion of construction is indicated. Since it can be calculated and shown, the people involved in the construction can raise the awareness of environmental conservation.

The present invention will be described in detail based on the embodiments shown in the drawings.
Embodiment

FIG. 1 shows an embodiment of a construction management system according to the present invention, and is a flowchart showing an environmental load calculation system in detail.
FIG. 2 shows an embodiment of the construction management system of the present invention, and is a flow diagram showing in detail an integration system and a process chart creation system.
FIG. 3 is a flowchart of basic data creation processing in the environmental load calculation system.

FIG. 4 is a flow chart of automatic calculation processing of the possible reduction rate in the environmental load calculation system.
FIG. 5 is a flowchart of a reduction plan simulation process in the environmental load calculation system.
FIG. 6 is a flowchart of CO ₂ calculation processing in the environmental load calculation system.
FIG. 7 is a flowchart of NOx calculation processing in the environmental load calculation system.

FIG. 8 is a flowchart of the construction amount calculation processing after the reduction plan in the environmental load calculation system.
FIG. 9 is a flowchart of the operation time calculation process after the reduction plan in the environmental load calculation system.
FIG. 10 is a flowchart of actual value input processing in the environmental load calculation system.

  The construction management system S includes an integration system 1 that is an integration unit, an environmental load calculation system 2 that is an environmental load calculation unit, and a process table creation system 3 that is a process table creation unit. 1 shows details of the environmental load calculation system 2 in the construction management system S, and FIG. 2 shows details of the integration system 1 and the process chart creation system 3 in the construction management system S. In addition, the integration system 1 and the process chart creation system 3 constituting the construction management system S are substantially the same as the existing system, and thus detailed description is omitted and only necessary portions are described.

The integration system 1 includes an integration data file 10 that is an integration data recording unit and a unit price master file 11 that is a unit price master recording unit. Based on these data, the quantity and amount can be determined for each item and each design unit. It is to be counted.
The integrated data file 10 includes unit price table data 101, price list data 102, breakdown document data 103, summary document data 104, and design document data 105.
The unit price master file 11 includes master data of a fare master, a machine loss master 111, a temporary material unit price master, a material unit price master, and a labor unit price master.

The process schedule creation system 3 is a target that is based on the total data for each item and design unit created by the integration system 1 and the CO ₂ / NOx emission reduction plan calculated by the environmental load calculation system 2 described later. Process schedule of target construction based on each data such as recalculation value of construction amount after setting value, recalculation value of operation time (or change in process days) by construction machine, recalculation value of process days due to walking Is to create.

The environmental load calculation system 2 incorporates an environmental load calculation program. The environmental load calculation system 2 includes a machine operating time totaling unit 20, an operation daily allowance conversion unit 21, a CO ₂ / NOx emission calculation unit 22, a CO ₂ / NOx amount calculation data file 23, and a reduction target value that function in the program. A setting unit 24, a construction amount calculation unit 25, a machine operating time calculation unit 26, and a result input unit 27 are provided.

  The machine operating time totaling unit 20 includes an integration data file 10 of the integration system 1 (by accumulating unit price table data 101, price list data 102, breakdown data 103, summary data 104, and design data 105) and a unit price master 11. Based on the machine loss master 111, the total operation time for each machine type is totaled.

The operation day allowance conversion unit 21 converts the total operation time for each machine type into operation time per operation day (operation time per operation time).
CO ₂ · NOx emission amount calculator 22, for each machine model is for calculating the CO ₂ · NOx emissions.
The CO ₂ / NOx amount calculation data file 23 stores each data of the operation daily allowance conversion unit 21 and the CO ₂ / NOx emission amount calculation unit 22, and these data are used for each calculation.
The reduction target value setting unit 24 inputs a target value set in accordance with the calculated CO ₂ / NOx emission reduction plan.

The construction amount calculator 25 calculates a construction amount corresponding to the target value according to the reduction plan.
The machine operation time calculation unit 26 calculates the total operation time for each machine type corresponding to the target value according to the reduction plan.
The result input unit 27 is used to input the actual total amount of fuel used in the target construction.
Data on the total operation time of each machine type corresponding to the target value according to the reduction plan calculated by the machine operation time calculation unit 26 is sent to the process table creation system 3 and is data for creating a process table. It is reflected in the process chart data 30.

(Function)
FIG. 11 is an explanatory diagram of a calculation value sheet of the environmental load management table.
FIG. 12 is an explanatory diagram showing an input example of a calculation value sheet.

FIG. 13 is an explanatory diagram of a target value sheet of the environmental load management table.
FIG. 14 is an explanatory diagram showing an example of inputting a target value sheet.

FIG. 15 is an explanatory diagram of the NOx actual value sheet of the environmental load management table.
FIG. 16 is an explanatory diagram showing an input example of the NOx performance value sheet.

FIG. 17 is an explanatory diagram of the CO ₂ actual value sheet of the environmental load management table.
FIG. 18 is an explanatory diagram showing an input example of the CO ₂ actual value sheet.

FIG. 19 is an explanatory diagram of a summary sheet of the environmental load management table.
FIG. 20 is an explanatory diagram showing an example of input of a general sheet.

FIG. 21 is an explanatory diagram of a resource saving image form in which the reduced CO ₂ amount is converted into a cedar tree.
Figure 22 shows a resource-saving image form in which reduced CO ₂ is converted to cedar trees.
FIG. 23 is a resource saving image form in which the reduced CO ₂ amount is converted into crude oil.

  The operation of the construction management system S of this embodiment will be described with reference to FIGS. 1 to 10 and FIGS. 11 to 23.

(1) First, the integration system 1 extracts and tabulates items related to construction machines, vehicles, and ships from the integration data file 10 related to the target construction.
After the totalization, each operation time is calculated based on the step in the integrated data file 10, and the total operation time for each construction machine, vehicle, and ship is totaled by the machine operation time totaling unit 20. Specifically, the total working hours for each construction machine is calculated (calculated) by accumulating the accumulated form data using the civil engineering work, accumulation standard (MLIT data) and unit price table data 101 to design document data 105. The calculated value is stored in the CO ₂ / NOx amount calculation data file 23 (see FIGS. 3, 11, and 12). The calculation method for each item is shown in FIG.

When performing the calculation, the operation time per day is different even for the same construction machine / vehicle depending on the type of work, type, and subdivision, so the calculation is performed separately. In the case of unit price method integration in public construction, the corresponding work cannot be performed, but it can be handled by replacing with conventional integration.
In addition, when the work accumulation standard (including the protract) is shifted to the market unit price and construction unit price, the total operating hours for each machine type is calculated using the newest construction accumulation standard immediately before the transfer included in the work accumulation standard. The CO ₂ / NOx emission amount can be calculated. If the total operating time cannot be determined from the work integration standard, the total operating time is calculated from the cycle time.

(2) Using the mechanical loss fee master data (Japan Construction Mechanization Association data) / construction machine master data, the operation day allowance conversion unit 21 converts the operation time into operation time per day (per day). The converted value is stored in the CO ₂ / NOx amount calculation data file 23 (see FIGS. 3, 11, and 12).

(3) The CO ₂ / NOx emission calculation unit 22 calculates the emission factor, machine information (output, etc.) for each fuel used and the calculation formula (announced by the public organization) during the total operation time for each construction machine, vehicle, and ship. ) was used to quantify calculates the CO ₂ · NOx emission amount, and calculates the CO ₂ · NOx emissions in civil construction site units. Specifically, the carbon dioxide conversion coefficient by fuel (Ministry of the Environment data) / CO ₂ / NOx conversion coefficient is used to calculate the CO ₂ / NOx emission amount for each construction machine at the time of integration. The calculated value is stored in the CO ₂ / NOx amount calculation data file 23 (see FIGS. 3, 11, and 12).

(4) Next, formulate a plan to reduce CO ₂ / NOx emissions. When formulating a reduction plan, first, the construction machine master data and CO ₂ / NOx conversion coefficient are used, and the reduction rate possible for the entire target construction is automatically calculated based on the fuel consumption ratio of BF normal operation and energy-saving operation. Calculate. The calculated value is stored in the CO ₂ · NOx amount calculation data file 23 (see FIG. 4).

(5) Once the possible reduction rate has been calculated, the virtual CO ₂ / NOx emissions can be calculated by replacing or selecting (changing the selection of) each model based on the aggregated information for each construction machine, vehicle, and ship. (Simulation) is used to formulate a reduction plan for CO ₂ / NOx emissions. Specifically, the construction machine master data and the CO ₂ / NOx conversion coefficient are used to simulate a CO ₂ / NOx emission reduction plan by replacing construction machines or changing the selection. The simulation data is stored in the CO ₂ · NOx amount calculation data file 23 (see FIG. 5).

In addition, when calculating virtual CO ₂ / NOx emissions, due to changes in construction volume per hour and changes in mechanical loss, changes in the number of process days and changes in construction contracts occur. Recalculate at the same time.
When CO ₂ / NOx emissions cannot be calculated from the accumulated data file 10 (other than direct construction), the necessary fuels are tabulated and announced based on the construction plan and execution budget created by each contractor. Calculations and aggregations are performed using predetermined coefficients and formulas.

(6) When setting the target value (target rate) in the CO ₂ / NOx emission reduction plan, published experimental data based on, for example, the usage status of construction machines, vehicles, ships, etc. in the integrated data file 10 In consideration of the above, etc., calculate the possible reduction amount in the construction and make it the target. In addition, when experiment data or the like is insufficient, a target is set with reference to the simulation data.

(7) After setting the target value in the CO ₂ emission reduction plan, enter the target value (target rate) and the planned fuel consumption other than direct construction costs, and convert the construction machine master data and CO ₂ / NOx. The coefficient is used to calculate the amount of CO _{2 and the} amount of fuel reduction after reduction by the reduction rate. The calculated value is stored in the CO ₂ / NOx amount calculating data file 23 (see FIGS. 6, 13, and 14). The calculation method for each item is shown in FIG.

Based on the CO ₂ amount and fuel reduction amount calculation data corresponding to the reduction target value, the CO ₂ amount to be reduced is converted into the number of cedar trees based on the CO ₂ absorption amount data per cedar tree. A resource saving image form is created (see FIG. 22). Alternatively, a resource saving image form is created by converting the amount of CO ₂ to be reduced into the amount of crude oil that discharges the same amount of CO ₂ using the crude oil conversion coefficient (see FIG. 23). By converting the amount of CO ₂ to be reduced into the number of trees and the amount of crude oil and showing it in an illustration, it will make it easier to understand the invisible CO ₂ emissions and raise the awareness of the people involved in the construction for environmental protection. it can.

(8) Using the construction machine master data and the CO ₂ / NOx conversion coefficient, calculate the NOx reduction amount by batch replacement from the primary standard of the construction machine standard to the secondary standard. The calculated value is stored in the CO ₂ / NOx amount calculation data file 23 (see FIGS. 7, 15, and 16).

(9) Next, construction amount calculation processing corresponding to the target value of the formulated reduction plan is performed. The unit price data 101 to the design document data 105 and the construction machine master data are used to recalculate the construction cost by the construction machine after the reduction plan. The calculated value is stored in the CO ₂ / NOx amount calculation data file 23 (see FIG. 8).

(10) Next, an operation time calculation process after the reduction plan is performed. Using the unit price table data 101 to the design document data 105 and the construction machine master data, the operation time (or the amount of change in the number of process days) by the construction machine after the reduction plan is recalculated. The calculated value is stored in the CO ₂ / NOx amount calculation data file 23.
The total yield is recalculated based on the operation time after the reduction plan. The calculated values are accumulated in the unit price table data 101 to the design document data 105 and the reduction simulation data of the integrating system 1.
Furthermore, the number of process days is recalculated from the post-reduction plan. The calculated values are accumulated in the process chart data 30 of the process chart creation system 3 and used for creating a process chart (not shown).

(11) After the construction is completed, the fuel actually used is totaled, and the amount of CO ₂ / NOx actually emitted is calculated using the published predetermined coefficient and formula, and the planned CO ₂ that is the target value is calculated.・ Compare with NOx emissions. Thereby, a target achievement rate and the like are calculated. Specifically, the total fuel consumption is input, the construction machine master data and the CO ₂ / NOx conversion coefficient are used, and the target achievement rate is calculated by comparison with the reduction target amount. The calculated values are stored in the CO ₂ / NOx amount calculating data file 23 (see FIG. 10: FIGS. 15, 16, 17, and 18).
If necessary, a resource saving image form in which the target achievement rate is converted into the number of cedar trees can be created, or a resource saving image form in which the target achievement rate is converted into the amount of crude oil can be created. The calculated value, the target value, and the actual value are shown in the general sheet of the environmental load management table shown in FIGS.

Among the materials used in the calculation of the CO ₂ · NOx emissions, if the progress in research on CO ₂ · NOx emissions of CO ₂ · NOx emissions and human resources at the time of material production is, of each of the materials used during manufacture CO _2. By incorporating NOx emissions information, CO ₂ and NOx emissions can be calculated more accurately on a construction site basis, and CO ₂ and NOx reduction as a measure against global warming can be promoted. I can expect.

  The terms and expressions used in this specification are merely explanatory and are not limiting at all, and exclude terms and expressions equivalent to the features described in this specification and parts thereof. There is no intention to do. It goes without saying that various modifications are possible within the scope of the technical idea of the present invention.

The flowchart which showed one Embodiment of the construction management system of this invention, and represented the environmental load calculation system in detail. The flowchart which showed one Embodiment of the construction management system of this invention, and represented the integration | accumulation system and the process schedule preparation system in detail. The flowchart of the basic data creation process in an environmental load calculation system. The flowchart of the automatic calculation process of the reduction possible rate in an environmental load calculation system. The flowchart of the reduction plan simulation process in an environmental load calculation system. Flow diagram of a CO ₂ calculation processing in the environmental load calculation system. The flowchart of the NOx calculation process in an environmental load calculation system. The flowchart of the construction amount calculation process after the reduction plan in an environmental load calculation system. The flowchart of the operation time calculation process after the reduction plan in an environmental load calculation system. The flowchart of the actual value input process in an environmental load calculation system. Explanatory drawing of the calculation value sheet | seat of an environmental load management table | surface. Explanatory drawing which shows the example of an input of a calculation value sheet | seat. Explanatory drawing of the target value sheet | seat of an environmental load management table | surface. Explanatory drawing which shows the example of input of a target value sheet | seat. Explanatory drawing of the NOx performance value sheet | seat of an environmental load management table | surface. Explanatory drawing which shows the example of input of a NOx performance value sheet. Explanatory drawing of the CO ₂ performance value sheet of the environmental load management table. Explanatory view showing an input example of CO ₂ actual value sheet. Explanatory drawing of the summary sheet of the environmental load management table. Explanatory drawing which shows the example of input of a comprehensive sheet. Resource saving image form explanatory diagram that converted the amount of CO ₂ reduction into a cedar tree. Resource-saving image form in which reduced CO ₂ amount is converted to cedar trees. Resource-saving image form in which reduced CO ₂ amount is converted to crude oil.

Explanation of symbols

S Construction management system 1 Accumulation system 10 Accumulation data file 101 Unit price list data 102 Price list data 103 Breakdown list data 104 Summary data 105 Design document data 11 Unit price master file 111 Machine loss master 2 Environmental load calculation system 20 Machine operating time totaling section 21 operating daily allowance converter 22 discharge amount calculating section 23 CO ₂ · NOx amount calculation database 24 reduces the target value setting unit 25 work amount calculating section 26 machine operating time calculating unit 27 record input unit 3 process chart creation system 30 processes table data

Claims (12)

An environmental load calculation program for construction to make a computer function,
The target construction work is based on the unit price table data, price list data, breakdown document data, summary data, design document data recorded in the integrated data recording means, and mechanical loss master data recorded in the unit price master recording means. A means of summing up the total operating time for each machine type used for
Means for converting the total operating time of the total machine type into operating hours per operating day;
Means for calculating the expected CO ₂ / NOx emission amount by machine type based on the operating time per operation day and a predetermined coefficient;
With
Environmental load calculation program for construction. Means for inputting a target value determined in a reduction plan based on the calculated CO ₂ / NOx emission amount;
Means for calculating the total operating time of each machine type to achieve the reduction plan based on the target value;
Means for reflecting the total operation time of each machine type for achieving the reduction plan in the process chart data for creating the process chart;
With
A construction environmental load calculation program according to claim 1. If the accumulated data does not include machine loss master data, it has means to calculate the total operating time for each machine type using the published cycle time.
A construction environmental load calculation program according to claim 1. The means for calculating CO ₂ / NOx emissions is:
When the work integration standard is transferred to the market unit price and the construction unit price, the CO ₂ / NOx emissions can be calculated using the latest construction integration standard immediately before the transfer included in the construction integration standard. ,
A construction environmental load calculation program according to claim 1. The means for calculating CO ₂ / NOx emissions is:
Virtual CO ₂ / NOx emissions can be calculated by exchanging or selecting machines, vehicles, ships, materials, human resources, or fuel based on the total operating time for each machine type. is there,
A construction environmental load calculation program according to claim 1. CO ₂ emissions or CO ₂ reduction, provided with means that can be shown as an index in terms of amount of oil or fuel amount generates the CO ₂ in the number or the same amount of wood that can absorb CO ₂ the same amount Yes,
An environmental load calculation program for construction according to claim 1 or 2. It has means to calculate the construction cost to achieve the reduction plan based on the target value.
An environmental load calculation program for construction according to claim 2. Actual value input means that can input the actual total fuel consumption after construction,
Means for calculating the achievement rate of the actual value relative to the target value;
With
An environmental load calculation program for construction according to claim 2.   A computer-readable recording medium in which the environmental load calculation program for construction according to claim 1, 2, 3, 4, 5, 6, 7, or 8 is recorded. The target construction work is based on the unit price table data, price list data, breakdown document data, summary data, design document data recorded in the integrated data recording means, and mechanical loss master data recorded in the unit price master recording means. A means of summing up the total operating time for each machine type used for
Means for converting the total operating time of the total machine type into operating hours per operating day;
Means for calculating the expected CO ₂ / NOx emission amount by machine type based on the operating time per operation day and a predetermined coefficient;
With
Environmental load calculation device for construction. Means for inputting a target value determined in a reduction plan based on the calculated CO ₂ / NOx emission amount;
Means for calculating the total operating time of each machine type to achieve the reduction plan based on the target value;
Means for reflecting the total operation time of each machine type for achieving the reduction plan in the process chart data for creating the process chart;
With
The construction environmental load calculation device according to claim 10. A construction management system having an integration unit, a process chart creation unit, and an environmental load calculation unit,
The environmental load calculation unit includes a construction environmental load calculation program according to claim 1, 2, 3, 4, 5, 6, 7, or 8.
Construction management system.