JP2002117103A - Method and system for calculating environmental load of product - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and a system for calculating environmental load of product, with which the value of high reliability can be calculated concerning the environmental load of a product. SOLUTION: The environmental load calculation system is provided with plural measuring instruments 10-21, flowmeters 7a-7c and a managing system 22 for production. Each of measuring instruments 10-21 measures an environmental load generated in the production process of the product. Each of flowmeters 7a-7c and 9a-9d specifies a proportional division parameter for proportionally dividing the environmental load related to each of plural production processes measured by the measuring instruments 19-21 into environmental loads related to a PCB process. The managing system 22 for production specifies a distribution parameter for distributing the proportionally divided environmental loads for each product.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and a system for calculating the environmental load of a product, and more particularly, to a method and a system for calculating an environmental load generated during the manufacture of a product.

[0002]

2. Description of the Related Art In order to hand over the rich earth to future generations, environmental problems have become an unavoidable issue, and companies have been paying attention to environmental conservation activities. For this reason, companies are required to develop environmentally friendly products,
Various efforts have been made to reduce the environmental load caused by the production of products serving as the guideline.

[0003]

However, in the manufacturing process, it is easy to calculate the direct environmental load such as raw materials and wastes used (the environmental load related to a predetermined process). Indirect environmental load (e.g., environment not only related to a given process but also to other processes) used to maintain manufacturing conditions for other processes, such as equipment for maintaining manufacturing conditions such as pressure. Load) is difficult to calculate. For this reason, it was not possible to specify a highly reliable value for the environmental load related to the product, and it was sometimes difficult to determine whether the environmental load of the product was truly reduced.

In the case of manufacturing new products having different standards using the same equipment, for example, it may be difficult to specify a highly reliable value for the environmental load of each product. .

The present invention has been made in view of the above problems, and an object of the present invention is to provide a method and a system for calculating the environmental load of a product which can calculate a highly reliable value of the environmental load of the product. Aim.

[0006]

In order to achieve the above object, a method for calculating an environmental load of a product according to a first aspect of the present invention includes a measuring step of measuring an environmental load generated in a manufacturing process of a product; Of the environmental loads measured in the measurement step, the environmental load related to a plurality of manufacturing processes, an apportioning step of apportioning the environmental load related to a predetermined manufacturing process, and the environmental load apportioned in the apportioning step, And a distribution step of allocating each product.

In this configuration, the environmental load is measured using various measuring devices. Among the measured environmental loads, the environmental loads related to a plurality of manufacturing processes are apportioned to the environmental loads related to a predetermined manufacturing process. The apportioned environmental load is distributed for each product, and the environmental load of the product is calculated.

In the measuring step, the environmental load is measured using a measuring instrument corresponding to the type of the environmental load. As such a measuring instrument, for example, a watt-hour meter, a water meter, a weight meter, a concentration meter, and a flow meter are used.

In the apportioning step, it is preferable that the environmental load related to the plurality of manufacturing steps is distributed to the environmental load for each manufacturing step by a predetermined parameter, and the environmental load related to the predetermined manufacturing step is apportioned. . The environmental load related to the plurality of manufacturing processes is, for example, an environmental load generated for supplying a fluid to the plurality of manufacturing processes, and in this case, the predetermined parameter is a flow rate ratio of the fluid.

[0010] In the distribution step, it is preferable to distribute the environmental load apportioned by a predetermined parameter according to the type of the product. The predetermined manufacturing process is, for example, a manufacturing process of a board, and in this case, the predetermined parameter is a component number ratio of the board.

In the measuring step, the measured environmental load is registered in a database, and in the apportioning step, a parameter for apportioning the registered environmental load is registered in the database to reduce the environmental load related to a predetermined manufacturing process. It is preferable that, in the distribution step, the parameter for distributing the distributed environmental load be registered in the database and distributed to the environmental load for each product.

According to a second aspect of the present invention, there is provided a system for calculating an environmental load of a product, comprising: a measuring unit for measuring an environmental load generated in a manufacturing process of the product; and a plurality of environmental loads among the environmental loads measured by the measuring unit. A distribution means for apportioning the environmental load related to the manufacturing process to the environmental load related to the predetermined manufacturing process, and a distribution means for distributing the environmental load apportioned by the apportioning means for each product. I do.

In this configuration, the environmental load is measured using the measuring means. Among the measured environmental loads, the environmental loads related to a plurality of manufacturing processes are apportioned by the apportioning means to the environmental loads related to a predetermined manufacturing process. The apportioned environmental load is distributed for each product by the distribution means, and the environmental load of the product is calculated.

The measuring means is a measuring instrument corresponding to the type of environmental load. Such measuring instruments are, for example, a watt-hour meter, a water meter, a weight meter, a concentration meter, and a flow meter.

The apportioning means specifies a predetermined parameter for distributing the environmental load related to the plurality of manufacturing processes to the environmental load for each manufacturing process, and apportions the parameter to the environmental load related to the predetermined manufacturing process based on the parameter. Is preferred. The environmental load related to the plurality of manufacturing processes is, for example, an environmental load generated for supplying a fluid to the plurality of manufacturing processes, and in this case, the predetermined parameter is a flow rate ratio of the fluid.

It is preferable that the distribution means specifies a predetermined parameter corresponding to the type of the product, and distributes the environmental load apportioned by the parameter. The predetermined manufacturing process is, for example, a manufacturing process of a board, and in this case, the predetermined parameter is a component number ratio of the board.

The measuring means registers the measured environmental load in a database, and the apportioning means registers in the database a parameter for apportioning the registered environmental load, and registers the parameter in the database to reduce the environmental load related to a predetermined manufacturing process. It is preferable that the apportioning means registers the parameter for distributing the apportioned environmental load in the database and distributes the parameter to the environmental load for each product. Further, when the measuring means, the apportioning means, and the distribution means are connected to a database via a network, it is easy to calculate the environmental load of the product.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an environmental load calculation system according to the present invention will be described by using a printed circuit board (PCB) manufacturing facility, OA
An example will be described in which the present invention is used in a factory having a manufacturing facility or the like for an operation section of a device. FIG. 1 is a schematic diagram of an environmental load calculation system showing a flow of factors (electric power, air, raw materials, wastes, and the like) related to an environmental load in a manufacturing process in a factory.

As shown in FIG. 1, a PC is installed in this factory.
A PCB facility 1 in which the manufacture of B (PCB process) is performed, an operation facility 2 in which an operation section is assembled (operation section process),
Three facilities, such as a facility 3 where other product processes are performed, are provided. These three (plural) facilities can be operated simultaneously, and a plurality of manufacturing processes can be executed simultaneously.

In the factory, each of the facilities 1 to
A receiving unit 4 for receiving parts and the like used in 3, a reflow compressor 5, a compressor 6, and an air conditioner 8 are provided.

The reflow compressor 5 is a facility for supplying compressed air into the PCB equipment 1,
Are connected via a flow path. Then, the machine in the PCB facility 1 is driven by the compressed air, for example.

The compressor 6 is a facility for supplying air to each of the facilities 1 to 3, and is connected to each of the facilities 1 to 3 via flow paths 6a to 6c. Flow meters 7a to 7c are interposed in the flow paths 6a to 6c, respectively, and the amount of air supplied from the compressor 6 to each of the facilities 1 to 3 is measured by the flow meters 7a to 7c.
It is measured by c.

The air conditioner 8 is connected to each of the equipments 1 to 3 and the reception 4 via flow paths 8a to 8d, and cool and hot air is supplied into each of the equipments 1 to 3 and the reception 4 via the flow paths 8a to 8d. You. Flow meters 9a to 9d are interposed in the flow paths 8a to 8d, respectively, and the amount of cold / hot air supplied to each of the facilities 1 to 3 and the reception 4 is measured by the flow meters 9a to 9d.

Also, in the PCB equipment 1, the components from the receiving 4, the cold / hot air from the air conditioner 8, the compressed air from the compressor 5 for reflow, the air from the compressor 6, and the electric power used in the PCB process , Lead solder, I
PCBs are manufactured by supplying materials (chemical substances) such as PA. As for the amount of electric power, the amount of chemicals such as lead solder, IPA, etc. used in the PCB process, the measuring devices 10 measure the respective amounts used. The measuring device 10 includes a watt-hour meter, a weighing scale, and the like. In addition, waste and chemical substances generated during PCB production are measured by the measuring device 11 (waste,
A weight meter, a flow meter, a concentration meter, or the like is provided according to the chemical substance, for example), and the weight and the like are measured.

In the operation unit 2, the parts from the reception 4 are
The PCB manufactured by the PCB facility 1, the cool / hot air from the air conditioner 8, the air from the compressor 6, and the electric power used in the operation section process are supplied to manufacture the operation section. The amount of power used in the operation section process is measured by the watt hour meter 12. Further, the weight of the waste generated during the manufacture of the operation unit is measured by the weighing scale 13 and is discarded after performing a predetermined process.

In the facility 3, the parts from the receiving 4, the cold / hot air from the air conditioner 8, the air from the compressor 6, and the electric power used in other product processes are supplied to produce other products. ing. The amount of power used in other product processes is measured by the watt hour meter 14. In addition, the weight of the waste generated during the manufacture of another product is measured by the weighing scale 15, and is discarded after performing a predetermined process.

At receiving 4, parts used in each step are
Cold and hot air from the air conditioner 8 and electric power used in the reception 4 are supplied, and components are supplied to each process. The amount of power used in the reception 4 is measured by the watt hour meter 16. The weight of the waste such as the packing material of the parts is measured by the weighing scale 17, and is discarded after performing a predetermined process. The number of parts supplied to each process is determined by the production management system 22.

In the reflow compressor 5, electric power used in the reflow compressor 5 is supplied.
The reflow compressor 5 is driven to supply compressed air to the PCB equipment 1. The amount of power used by the reflow compressor 5 is measured by the watt hour meter 18.

In the compressor 6, the compressor 6
Is supplied, and the compressor 6 is driven to supply air to each of the facilities 1 to 3. The amount of power used by the compressor 6 is measured by a watt hour meter 19.

In the air conditioner 8, electric power, fuel and water used in the air conditioner 8 are supplied, the air conditioner 8 is driven, and cool and hot air is supplied to each of the facilities 1 to 3 and the reception 4. The amount of electric power, fuel, and water used in the air conditioner 8 is measured by the measuring device 20. The measuring device 20 includes a watt-hour meter, a weight meter, a flow meter, and the like. Air pollutants such as NOx and SOx generated by driving of the air conditioner 8 are converted into N by a measuring device 21 (provided with a gas flow meter and a concentration meter).
The amount of Ox and SOx is measured and exhausted after performing a predetermined process.

Each measuring device (measuring devices 10, 11, 2)
0, 21, watt-hour meters 12, 14, 16, 18, 19, and weight scales 13, 15, 17), production management system 22
Are connected to the server 31 via a network. FIG. 2 is a configuration diagram showing connection of each measuring instrument.

As shown in FIG. 2, the server 31 includes a communication control unit 31a, a processing control unit 31b, and an environmental load database 31c. The communication control unit 31a performs communication with each measuring device via a network under the control of the processing control unit 31b. The processing control unit 31b registers the measurement data of each measuring device communicated by the communication control unit 31a, for example, periodically in the environmental load database 31c.

The server 31 is connected to a terminal 32 via a network. The terminal 32 is provided with a browser, and can access the server 31 (processing control unit 31b) via a network and input necessary information to the environmental load database 31c.

FIG. 3 shows the structure of the environmental load database 31c. As shown in FIG.
c is the measuring instrument No, the type of environmental load, the process used,
Items such as measurement values, apportionment ratios, apportionment values, etc. are configured. Then, the measurement values and the like measured by each measuring device are registered in the environmental load database 31c by the processing control unit 31b.

Next, a method of calculating the environmental load of a product using the environmental load calculating system configured as described above will be described. In the present embodiment, a method of calculating an environmental load when one PCB product is manufactured will be described. In this calculation method, after measuring the environmental load of the PCB process,
By apportioning the environmental load related only to the process and distributing the apportioned environmental load per PCB product,
The environmental load at the time of manufacturing one B product can be calculated.

First, a method of measuring and apportioning the environmental load of the PCB process will be described. The environmental load of the entire PCB process includes a direct environmental load of the PCB process (an environmental load related only to the PCB process) and an indirect environmental load of the PCB process (an environmental load related to other than the PCB process). And can be classified.

The direct environmental impact of the PCB process includes PC
The amount of electric power used in the B facility 1, the amount of the chemical substance used in the PCB facility 1, and the amount of the discharged chemical substance,
There are the amount of waste discarded in the PCB process and the amount of electric power used by the reflow compressor 5. FIG. 4 shows a registration example of the environmental load database 31c in which the direct environmental load of the PCB process is measured.

The amount of power used in the PCB facility 1 is measured by a measuring device (watt hour meter) 10. The amount of chemical substances used in PCB equipment 1 is measured (weighing scale, flow meter)
Measured by 10. The amount of chemical substances discharged from the PCB equipment 1 is measured by a measuring device (weighing scale, flow meter, concentration meter) 1
Measured by 1. The amount of waste discarded in the PCB process is measured by a measuring device (weighing scale) 11. The amount of power used by the reflow compressor 5 is measured by a watt hour meter 18. Then, it is registered in the environmental load database 31c by the processing control unit 31b. Since these environmental loads are related only to the PCB process, the measured values are directly apportioned values as shown in FIG.

The indirect environmental loads of the PCB process include the amount of power used in the air conditioner 8, the amount of power used in the compressor 6, the amount of power used in the reception 4, and the amount of fuel used in the air conditioner 8. The amount and the amount of water, the amount of air pollutants discharged from the air conditioner 8, and the amount of waste discarded in the reception 4.

The amount of power used in the air conditioner 8 is measured by a measuring device (watt hour meter) 20. The amount of power used by the compressor 6 is measured by a watt-hour meter 19.
The amount of power used in reception 4 is measured by watt hour meter 16. The amount of fuel used and the amount of water used in the air conditioner 8 are measured by a measuring device (weight meter, flow meter) 20. The amount of air pollutants discharged from the air conditioner 8 is measured by a measuring device (flow meter and concentration meter) 21. The amount of waste discarded at receiving 4 is measured by weigh scale 17. Then, the environmental load database 31 is processed by the
c.

Incidentally, the indirect environmental load includes environmental loads related to processes other than the PCB process, for example, the operation unit process and other product processes, and the values measured by the respective measuring instruments and the like are related to the PCB process. It is necessary to perform an apportionment that allocates the environmental load to each process so as to obtain a value.

As the apportioning parameters, for example, for the compressor 6, the flow rate of the flow meter 7a (the flow rate of 7a / (the total flow rate from 7a to 7c)), and for the air conditioner 8, the flow rate ratio of the flow meter 9a (for 9a) Flow rate / (total flow rate from 9a to 9d)). This is because the amount of power or the like related to the PCB process is almost proportional to the amount of air or cold / hot air.

FIG. 5 shows an example of registration of the amount of electric power used by the compressor 6 in the environmental load database 31c.
As shown in FIG. 5, the amount of power used by the compressor 6 measured by the watt hour meter 19 is P (kwh), the flow ratio of the flow meter 9a is a, the flow ratio of the flow meter 9b is b, and the flow amount of the flow meter 9c is When the flow rate ratio is c (a + b + c = 1), P
The electric energy used by the compressor 6 related to the CB process is apportioned to P × a = aP (kwh).

For the reception 4, for example, the ratio of the cost of the components in the PCB process (the cost of the components in the PCB process / (PCB)
Process, operation unit process, and all parts of other manufacturing process)
Can be used.

As described above, the value of the indirect environmental load can be apportioned by multiplying the value measured by each measuring device or the like by the predetermined parameter. Therefore, the indirect environmental load can be apportioned to the environmental load (direct environmental load) related to a predetermined manufacturing process, and a highly reliable value can be calculated for the environmental load of the product. Then, the value obtained by adding the direct environmental load and the indirect environmental load apportioned is the environmental load of the PCB process.

Next, a method for allocating the environmental load per PCB product will be described. The distribution per PCB product can be calculated, for example, based on the number of components (number of resistors, capacitors, etc.) used in the PCB product.
This is because the environmental load such as electric power is almost proportional to the number of parts of the PCB. If there is a product called "PCB-1", the environmental load per "PCB-1" is expressed by the following equation. Environmental load per “PCB-1” = (Environmental load of entire PCB process) × Parts number ratio Here, the parts number ratio is (“PCB-1” one parts number)
/ (Total number of parts of the PCB). The total number of parts on the PCB is
For each type of PCB, the product of the number of parts and the production amount is calculated, and the total number of the obtained numerical values (the number of parts of “PCB-1” ×
Production number of "PCB-1" + number of parts of "PCB-2" x
The production number of “PCB-2” + ...). In this way, by allocating the environmental load of the PCB process according to the ratio of the number of components used in the PCB product, it is possible to calculate the environmental load when one PCB product is manufactured.

The “PC” obtained by the above calculation
The environmental load of "B-1" is shown in FIG. As shown in FIG.
The environmental load of “PCB-1” includes electric power, chemical substance use, chemical substance discharge, waste, fuel consumption, water, and air pollutant. Of these, part of electric energy, waste, chemical substance use, and chemical substance discharge are values directly measured by the measuring devices 10 and 11, and part of electric power, fuel consumption, water amount, The air pollutant amount is a value obtained by apportioning the value measured by the measuring instrument.

By statistically processing the environmental load calculated in this way, it is possible to clarify the environmental load for each product type and each production line. This can contribute to the development of a product that can reduce the environmental load.

Next, as an example of a method of calculating the environmental load at the time of manufacturing one PCB product, a method of calculating the power consumption per PCB product and the NOx emission per PCB product will be described.

(Electric Power Consumption per PCB Product) FIG. 7 is a schematic diagram showing a procedure for calculating the electric power consumption per PCB product. The direct power consumption is the power consumption used in the PCB equipment 1 and the reflow compressor 5, and these power consumptions are measured by the measuring instrument 10 and the watt hour meter 18 as shown in FIG. These power amounts were a total of A (kwh).

The indirect power consumption is the power consumption used in the air conditioner 8, the power consumption used in the compressor 6, and the power consumption used in the reception 4, and these power consumptions are the power consumption. It is measured by the total 20, the watt-hour meter 19, and the watt-hour meter 16. The amount of power used in the air conditioner 8 is B (kwh)
And the amount of power used in the compressor 6 is C (kw
h), and the amount of power used in reception 4 was D (kwh).

When the flow ratio of the flow meter 9a and the flow meter 7a was measured to apportion the indirect power consumption, the flow ratio of the flow meter 9a was X and the flow ratio of the flow meter 7a was Y.
Further, when the price ratio of the components in the PCB process was determined, the price ratio was Z. Therefore, the electric energy used in the air conditioner 8 is XB (kwh), the electric energy used in the compressor 6 is YC (kwh), and the electric energy used in the reception 4 is ZD (kwh).
(Kwh). Therefore, the power consumption in the PCB process is A + XB + YC + ZD (kwh).

Subsequently, when the number of parts and the total number of parts of one PCB product were obtained, the number of parts of one PCB product was P,
The total number of parts was Q. For this reason, the power consumption per PCB product is P (A + XB + YC + ZD) / Q
(Kwh) is calculated.

(Emission of NOx per PCB Product) Next, the emission of NOx per PCB product is calculated. NOx is indirectly discharged through the air conditioner 8. The NOx emissions in all the processes including the PCB process are measured by the measuring device 21. The measuring instrument 21 is provided with a gas flow meter and a concentration meter, and the RS obtained by multiplying the measured value R of the gas flow meter by the measured value S of the concentration meter is the NOx emission amount. The NOx emissions related to the PCB process were measured using a flow meter 9
XRS multiplied by the flow ratio X of a. The NOx emission per PCB product is calculated as PXR / Q.

As described above, according to this embodiment, the use of the predetermined apportioning parameters such as the flow ratio of the flow meter 7a reduces the indirect environmental load related to the predetermined manufacturing process. Can be apportioned to the environmental load related to only the manufacturing process, and a highly reliable value can be calculated for the environmental load of the product.

According to the present embodiment, the flow paths 6a to 6a
6c is provided with flow meters 7a to 7c, and flow paths 8a to 8d are provided with flow meters 9a to 9d only, so that the amount of electric power used in the compressor 6 and the air conditioner 8 can be controlled only in the PCB process, the operation unit process, and the like. Can be calculated for the amount of power used.

The present invention is not limited to the above embodiment,
Various modifications and applications are possible. Hereinafter, modifications of the above-described embodiment applicable to the present invention will be described.

In the above embodiment, the measuring devices 10 to 2
1. Flow meters 7a to 7c, 9a to 9d, and a production management system 22 are connected to a server 31 via a network,
The case where the process control unit 31b periodically registers the environmental load in the environmental load database 31c has been described as an example. May be registered in the environmental load database 31c.

In the above-described embodiment, the present invention has been described by taking as an example the case where the electric energy is measured by the electric energy meter 18 or the like. However, the electric energy used during a predetermined period can be specified. The amount of power used within a predetermined period may be specified by a monitor. Also, it is preferable to specify the amount of power and the like for each type of manufactured product. For example, by monitoring the amount of power used for one month, the amount of power during that period is specified. Is also good. In this case, the amount of electric power used for each product can be specified by specifying the amount of products manufactured in one month.

In the above embodiment, the present invention has been described by taking as an example the case where the indirect environmental load is apportioned using the flow ratio or the like. However, the indirect environmental load is reduced to the environmental load used in a predetermined process. Any apportioning parameter may be used, and other apportioning parameters may be used.

For example, when a plurality of manufacturing processes (manufacturing lines) for manufacturing different products are provided in the same facility, it is necessary to select a distribution parameter corresponding to the type of the manufactured product. As the indirect environmental load apportioning parameters such as the amount of electric power and the amount of water used in the air conditioner 8 that supplies cold and hot air to the entire facility, if similar products having similar manufacturing processes are manufactured, It is preferable to use the production ratio as the apportioning parameter. This is because there is no significant difference between the products. In the case where products whose manufacturing processes are significantly different from each other are manufactured, it is preferable to use the ratio of the floor area of the manufacturing equipment in the equipment as the apportioning parameter. This is because they can be apportioned regardless of the type of product. Another reason is that the apportioning parameters of the parameters related to the product greatly differ depending on the type of the product. As described above, after measuring the environmental load generated in the manufacturing process in the facility, in order to apportion the environmental load related to a plurality of manufacturing processes to the environmental load related to a predetermined manufacturing process, it is necessary to determine the It is preferable to select an optimal apportioning parameter in consideration of the type and the like.

Further, in the above-described embodiment, the present invention has been described by taking as an example the case where the environmental load of each product is calculated by allocating the environmental load to each product using the ratio of the number of parts. It is preferable to select an optimal distribution parameter in consideration of the above. For example, when the sizes of the products are almost the same as in the operation section process, the product may be distributed to the environmental load of each product using the production ratio.

[0063]

As described above, according to the present invention,
A highly reliable value can be calculated for the environmental load of the product.

[Brief description of the drawings]

FIG. 1 is a schematic diagram of an environmental load calculation system according to an embodiment of the present invention.

FIG. 2 is a configuration diagram showing connection of each measuring device according to the embodiment of the present invention.

FIG. 3 is a configuration diagram of an environmental load database according to the embodiment of the present invention.

FIG. 4 is an example of registration of an environmental load database according to the embodiment of the present invention.

FIG. 5 is an example of registration of an environmental load database according to the embodiment of the present invention.

FIG. 6 is a schematic diagram showing the environmental load per PCB product according to the embodiment of the present invention.

FIG. 7 is a schematic diagram illustrating a procedure for calculating the amount of power consumption per PCB product according to the embodiment of the present invention.

[Explanation of symbols]

 7a-7c Flow meter 9a-9d Flow meter 10-21 Measuring instrument (measuring instrument, watt-hour meter, weighing scale) 22 Production management system 31c Environmental load database

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Tsutomu Abe 1-3-6 Nakamagome, Ota-ku, Tokyo F-term in Ricoh Co., Ltd. 4D004 AA46 DA16

Claims (15)

[Claims] 1. A measuring step for measuring an environmental load generated in a manufacturing process of a product, and an environmental load related to a plurality of manufacturing processes among the environmental loads measured in the measuring process is related to a predetermined manufacturing process. A method for calculating the environmental load of a product, comprising: an apportioning step of apportioning the environmental load to be performed; and an allocation step of apportioning the environmental load apportioned in the apportioning step to each product. 2. The method for calculating the environmental load of a product according to claim 1, wherein said measuring step measures the environmental load using a measuring instrument corresponding to the type of the environmental load. 3. The apportioning step includes: distributing an environmental load associated with the plurality of manufacturing processes to an environmental load for each manufacturing process using a predetermined parameter, and apportioning the environmental load associated with the predetermined manufacturing process. 3. The method according to claim 1, wherein the environmental load of the product is calculated. 4. The environmental load related to the plurality of manufacturing processes is an environmental load generated for supplying a fluid to the plurality of manufacturing processes, and the predetermined parameter is a flow rate ratio of the fluid. The method according to claim 3, wherein the environmental load of the product is calculated. 5. The method according to claim 1, wherein the distributing step distributes the apportioned environmental load according to a predetermined parameter corresponding to a type of the product.
The method for calculating the environmental load of a product according to any one of claims 1 to 4, characterized in that: 6. The calculation of the environmental load of a product according to claim 5, wherein the predetermined manufacturing process is a manufacturing process of a board, and the predetermined parameter is a ratio of the number of components of the board. Method. 7. The measuring step registers the measured environmental load in a database, and the apportioning step registers parameters for apportioning the registered environmental load in the database to register an environment related to a predetermined manufacturing process. 7. The method according to claim 1, wherein the apportioning step registers the parameters for distributing the apportioned environmental load in the database and distributes the parameters to the environmental load for each product. 8. The method for calculating the environmental load of products described in the section. 8. A measuring means for measuring an environmental load generated in a manufacturing process of a product, and among the environmental loads measured by the measuring means, an environmental load related to a plurality of manufacturing processes is related to a predetermined manufacturing process. A product environmental load calculation system, comprising: an apportioning means for apportioning the environmental load; and a distribution means for distributing the environmental load apportioned by the apportioning means for each product. 9. The system according to claim 8, wherein said measuring means is a measuring instrument corresponding to the type of environmental load. 10. The apportioning means specifies a predetermined parameter for distributing an environmental load related to the plurality of manufacturing processes to an environmental load for each manufacturing process, and uses the parameter to reduce an environmental load related to the predetermined manufacturing process. The system for calculating the environmental load of a product according to claim 8, wherein the product is apportioned. 11. The environmental load related to the plurality of manufacturing processes is an environmental load generated for supplying a fluid to the plurality of manufacturing processes, and the predetermined parameter is a flow rate ratio of the fluid. The environmental load calculation system according to claim 10, wherein: 12. The apparatus according to claim 8, wherein said distribution means specifies a predetermined parameter according to a type of the product and distributes an environmental load apportioned by the parameter. The environmental load calculation system for products described in 1. 13. The calculation of the environmental load of a product according to claim 12, wherein the predetermined manufacturing process is a manufacturing process of a board, and the predetermined parameter is a ratio of the number of components of the board. system. 14. The measuring means registers the measured environmental load in a database, and the apportioning means registers parameters for apportioning the registered environmental load in the database, and registers the environment related to a predetermined manufacturing process. 14. The method according to claim 8, wherein the distribution means registers parameters for distributing the apportioned environmental load in the database and distributes the parameters to the environmental load for each product. The environmental load calculation system for products described in the section. 15. The system according to claim 14, wherein said measuring means, said apportioning means and said distribution means are connected to a database via a network.