JP2003167953A - Environmental load management device and system therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device for evaluating an environmental load reflecting actual use state and period, transport distance, and the improvement, disposal, and recycling state of a transport means. <P>SOLUTION: The device is built in an industrial product or a part. This environmental load management device is characterized in having (a) a means for storing product information for specifying the industrial product or the part, (b) a means for inputting and/or measuring environmental load information required for calculating an environmental load over the life cycle of the industrial product or the part, and (c) a means for calculating the environmental load from the inputted and/or measured environmental load information. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and system for quantitatively calculating the environmental load over the life cycle of industrial products and parts in consideration of actual usage conditions.

[0002]

2. Description of the Related Art With increasing awareness of environmental problems, so-called LCA (Life Cycle Assessment) evaluation, which calculates and evaluates environmental load over the life cycle of industrial products, has begun to spread. A device for performing this LCA evaluation,
Several patent applications have already been filed for the system or method (JP-A-11-353384, JP-A-10-57936,
JP-A-10-228309). The mechanism of these LCA evaluation is
In terms of software, it mainly consists of information that is the basis of calculation, a calculation program that processes the information, and a user interface program that the user inputs the information each time. Further, the LCA evaluation, in terms of hardware, comprises an external storage device that stores the software, a processing unit that executes a program, and an input unit / display unit that receives an input from the outside.

In the LCA evaluation, an actual calculation mechanism will be described in detail using an example. First, data describing input / output of substances and energy in each process is created in advance. There are various individual processes,
For example, a manufacturing process of components such as a power transformer and a plastic component, a transportation process of these components, an assembly process and the like can be mentioned. Moreover, as a process related to the production and consumption of energy, a process of power consumption, a process of burning city gas, and the like are also included. Here, these are collectively referred to as inventory data. Figure 1 shows an example of inventory data. Inventory data is generally created by quoting other inventory data when inputting. for that reason,
Have a mutual connection.

FIG. 2 is a diagram showing the connection between inventory data. In this example, the power transformer inventory data cites material manufacturing inventory data of copper wire, ferrite, and epoxy resin, and power consumption inventory data. Next, create inventory data that describes the inputs and outputs required to manufacture the target product. FIG. 2 shows the case where the product A is manufactured as this example. The inventory data of the product A refers to the inventory data of the parts (power transformer and housing) produced as described above and the inventory data of power consumption. Further, output data such as emissions in the production process may be added. Finally, the environmental load of each inventory data is accumulated and product A is added.
Calculate the overall environmental load. In the example of FIG. 2, the environmental load is C
O ₂ emissions are calculated, and it is calculated that there is 430 g of CO ₂ emissions per product A manufactured. Thus, L
By calculating the environmental load at each stage of the life cycle based on CA and evaluating the environmental load of the product, it becomes possible to improve the product and reduce the environmental load.

For example, in Japanese Patent Laid-Open No. 10-57936, it is possible to easily evaluate the environmental load by using uniformized information that can be obtained based on statistical data as information on components, materials, input energy, and the like. An apparatus and method capable of doing so have been proposed. In the known environmental load evaluation device and method, the evaluation of the environmental load during manufacturing is
Since the environmental load coefficient according to the situation at each time can be used, the error from the actual environmental load is not so large. However, the evaluation of the environmental load after the product is shipped has a large error from the actual environmental load because the environmental load coefficient is set based on the statistical data at the time of manufacturing or shipping. Here, the environmental load coefficient is the amount of emission of an environmental load factor (for example, CO ₂ , SO _x , NO _x, etc.) per unit amount at each stage of the product life cycle such as manufacturing, transportation, use, disposal and recycling. Say.

A detailed description will be given with reference to FIG. The product life cycle is roughly divided into manufacturing, transportation, use, transportation of used products, disposal and recycling. Also, thin arrows indicate the input of environmental load information at each stage of the life cycle. In the conventional environmental load evaluation apparatus and method, the environmental load is calculated at the time of manufacturing or shipping of a product.
Therefore, the environmental load at the time of manufacturing is evaluated from the environmental load information input according to the manufacturing situation, but the environmental load evaluation at other stages is based on the forecast at the time of manufacturing or shipping obtained from statistical data. Done.

More specifically, for example, regarding transportation,
The transportation distance and the CO ₂ emission coefficient during transportation (CO ₂ emission amount per unit distance) are given as standard values, and factors such as differences in transportation distance, improvement of transportation methods, and transportation means are not considered. Also, the input materials and energy generated in the use stage are calculated from the average value per time and the average use frequency,
The actual operating time, standby time, deterioration of products, changes in materials used or energy used for repairs, etc. are not considered. In particular, in the case of a TV, etc., which has the largest environmental load during use, the environmental load greatly differs depending on the usage time, and it is easy for the appearance and performance to differ. In addition, for products such as solar cells that deteriorate with use, the product is estimated from the worst case or the average case in which deterioration is taken into consideration. Furthermore, at the disposal / recycling stage, the environmental load is evaluated based on the standard recovery rate or energy return rate calculated from past disposal statistics, etc., and the actual recovery rate, variations in energy return rate among recycling centers, etc. The improvement of the recycling method due to the rapid progress of recycling technology will not be considered.

[0008] Actually, the sales route, the usage time, the disposal / recycling method, etc. are different for each product. Therefore, uniform estimation of them has caused a large error from the actual results. In other words, all products are represented by the same standard environmental load factor, and the environmental load does not reflect the actual usage status, period, disposal / recycling status. Further, it is difficult to accurately estimate the situation for a long period of time, for example, 10 years after, particularly for an industrial product having a long product life. In this way, when the environmental load is far from the actual environmental load, the LCA aims to improve the products and the disposal / recycling method based on the evaluation of the environmental load, which leads to the reduction of the environmental load. The original purpose of is damaged.

[0009]

SUMMARY OF THE INVENTION The present invention provides an apparatus or system for evaluating the environmental load that reflects the actual use status and period, improvement of transportation distance and means, disposal / recycling status, and the like. With the goal.

[0010]

Means for Solving the Problems As a result of intensive studies to achieve the above-mentioned object, the present inventors have found that industrial products or parts have product information and environmental load information for specifying the industrial products or parts, It has been found that by incorporating a device having a function of further managing manufacturing information as desired, it is possible to calculate the environmental load that reflects the actual usage status, period, transportation distance and transportation means improvement, and disposal / recycling status. This will be described in more detail with reference to FIG. Environmental load information necessary for evaluation of environmental load is input to the above-mentioned device built in an industrial product or part at each stage of the life cycle even after shipment. For example, in the transportation stage, the distance from the transportation source to the transportation destination or the transportation improvement degree of the transportation facility is input. Further, in the use stage, the cumulative operating time, the cumulative waiting time, the product deterioration degree of the industrial product or parts, etc. are input. Furthermore, at the disposal / recycling stage, the disposal improvement degree, the recycling rate, the recycling improvement degree, and the like are input. And, in the present invention, unlike the conventional environmental load evaluation apparatus, the environmental load of the product is not calculated at the time of manufacturing or at the time of shipping of the product, but the above-mentioned input to the above-mentioned device built in the industrial product or part The environmental load is evaluated after disposal and recycling from various environmental load information such as. The present inventors have further studied and completed the present invention.

In Japanese Patent Laid-Open No. 10-222568, the product history (management) is based on a database of individual product information and ID information.
A repair support and processing support system in which information is provided in products and parts themselves has been proposed. However, this publication does not describe an environmental load management system at all.

That is, the present invention is (1) a device built in an industrial product or part, comprising: (a) means for storing product information for specifying the industrial product or part; and (b) the industrial product. A means for inputting and / or measuring environmental load information necessary for calculating an environmental load over the life cycle of a product or a part, and (c) a means for calculating an environmental load from the input or / and measured environmental load information. (2) At least one piece of information in which the product information for specifying an industrial product or part is selected from the group consisting of a product ID, a product name, a product code, and a manufacturer's name. The environmental load management device according to (1) above,
(3) The environmental load management device according to (1), wherein the product information cannot be rewritten.
(4) Further, at least one piece of manufacturing information selected from the group consisting of a manufacturing site, a manufacturing date, a software version number, the number of repairs and version upgrade contents is stored together with the product information. The environmental load management device described in (1) above, and (5) at least a part of the manufacturing information and the product information are not rewritable, and the environmental load management device described in (4) above.

Further, according to the present invention, (6) environmental load information input or / and measured is (a) environmental load information during transportation, (b) environmental load information during use, and (c) usage The environmental load management device according to (1) above, which includes environmental load information at the time of transporting used products and (d) environmental load information at the time of disposal and recycling, and (7) calculates the environmental load. The means calculates the environmental load by multiplying the environmental load coefficient that is not affected by the life cycle and one or more environmental parameters that are affected by the life cycle, and sequentially adding the obtained values. The environmental load management device according to (6) above,
(8) Environmental load factor and one or more environmental parameters
The environmental load management device according to (7), which has a rewritable initial value, and (9) recalculates the environmental load when the initial value of the environmental load coefficient or environmental parameter is rewritten. The environmental load management device according to (8), wherein the calculated environmental load is stored.

Further, according to the present invention, (10) the environmental load at the time of transportation and at the time of transportation of used products is expressed by the formula [A]; environmental load = (emission amount of environmental load factor per unit volume and unit distance × transportation) Volume) × Transport distance × Transportation degree of transportation improvement, or Equation [B]; Environmental load = (emission amount of environmental load factor per unit weight and unit distance × Transportation weight) × Transportation distance × Transportation transportation improvement The environmental load management device according to (7) above, wherein the environmental load during use is calculated by
Formula [C]; Environmental load = (emission amount of environmental load factor per unit time)
× Cumulative operating time × Environmental load at the time of operation calculated from the degree of product deterioration, and equation [D]; Environmental load = (emission amount of environmental load factor per unit time)
The environmental load management device according to (7) above, wherein the environmental load management device is calculated by adding the accumulated environmental standby time and the environmental load during standby calculated by the degree of product deterioration.

Further, according to the present invention, (12) the environmental load at the time of disposal and recycling is expressed by the formula [E]; environmental load = (emission amount of environmental load factor per unit weight ×
Industrial product or part weight) x Recycling rate x Recycling improvement rate + (Emissions of environmental load factors per unit weight x
Industrial product or part weight) x (1-recycle rate) x
The environmental load management device according to (7), which is calculated based on the degree of improvement in disposal, and (13) the environment according to (7), characterized in that at least a part of environmental parameters is measured. Load management device, (14) environmental parameters,
The environmental load management device according to (13) above, which is an operating time and a standby time, (15) by directly supplying power from outside even when power is not supplied to the industrial product or component, The environmental load management device according to (1) above, wherein the input or / and measured environmental load information or the calculated environmental load can be read, or the environmental load information or the environmental load can be input. About.

Further, the present invention has (16) the environmental load management device according to (1) above, and an external device having means for writing and / or reading information stored in the environmental load management device. Environmental load management system, (1
7) Further, it has a means for storing environmental load information in association with product information for specifying an industrial product or a part, and has a central device connected to an external device via a network. (16) The environmental load management system according to (16), and (18) the environmental load management system according to (17), wherein the total environmental load of the product group is evaluated by the operating quantity.

The present invention is also (19) (i) an apparatus incorporated in an industrial product or part, (a) means for storing product information for specifying the industrial product or part, and (b) ) An environmental load management device having means for inputting and / or measuring environmental load information necessary for calculating an environmental load over the life cycle of the industrial product or part, and (ii) (a) inputting // from the device. And means for reading the measured environmental load information or the calculated environmental load, (b) means for calculating the environmental load from the read information, and (c) a means for writing the calculated environmental load in the device. An environmental load management system having an external device, (20)
Further, there is provided a central device connected to an external device via a network, having means for storing environmental load information in association with product information for specifying industrial products or parts. The environmental load management system described in 1.

Further, according to the present invention, (21) the environmental load information input to or measured by the environmental load management apparatus built in an industrial product or part is:
(A) Environmental load information during transportation, (b) Environmental load information during use, (c) Environmental load information during transportation of used products, (d) Environmental load information during disposal and recycling. (20) The environmental load management system according to (20), (22) the environmental load information during transportation and the environmental load information during transportation of used products, the transportation volume or transportation weight, the transportation distance, and the transportation. (21) The environmental load management system according to (21), which includes the degree of transportation improvement of the engine, and (23) the environmental load information during use includes cumulative operating time, cumulative waiting time, and product deterioration level. The environmental load management system according to (21), characterized in that (2
4) The environmental load management system according to (21) above, wherein the environmental load information at the time of disposal and recycling includes the weight of the discarded and recycled products, the degree of disposal improvement, the recycling rate, and the degree of recycling improvement. The present invention relates to the environmental load management system according to (20), wherein the total environmental load of the product group is evaluated by the operating quantity.

The present invention also provides (26) an environmental load management device built in an industrial product or part, an external device having means for writing and / or reading information stored in the environmental load management device, and Having a central unit connected to an external unit via a network, (a)
At least one or more product information selected from the group consisting of product ID, product name, product code, and company name;
(B) at least one piece of manufacturing information selected from the group consisting of a manufacturing site, a manufacturing date, a software version number, the number of repairs, and version upgrade contents; and (c) an environmental load calculation system name, its version, and a set. weight,
Environmental load management characterized by managing at least one or more environmental load information selected from the group consisting of packaging volume, environmental load discharge amount, environmental load coefficient, environmental parameter, assembly / disassembly method, recycling method and harmful substances At least a part of the system, (27) product information, and manufacturing information cannot be rewritten after being input once, (28) The environmental load management system according to (26), (28) Total environment of product group The environmental load management system according to (26) above, wherein the load is evaluated by the operating quantity.

[0020]

BEST MODE FOR CARRYING OUT THE INVENTION The environmental load management device according to the present invention is built in an industrial product or part, and (a) means for storing product information for specifying the industrial product or part; A means for inputting and / or measuring environmental load information necessary for calculating the environmental load over the life cycle of industrial products or parts, and (c) calculating the environmental load from the input or / and measured environmental load information. It is characterized by having means. In the present invention, "industrial products" include so-called semi-finished products. The industrial product is not particularly limited, but is preferably an electric product or an electronic product. The product information stored in the environmental load management device according to the present invention is not particularly limited as long as it is information for specifying an industrial product or a part, and is selected from the group consisting of a product ID, a product name, a product code and a manufacturer name. It is preferable to include at least one or more pieces of information.

It is also preferable that the environmental load management apparatus according to the present invention further stores manufacturing information together with product information. The manufacturing information is not particularly limited as long as it is information on the manufacture of an industrial product or a part incorporating the environmental load management device according to the present invention, for example, a manufacturing site, a manufacturing date, a software version number, It is preferable that it is at least one or more pieces of information selected from the group consisting of the number of repairs and the contents of version upgrade.

It is preferable that at least a part of the product information and the manufacturing information cannot be rewritten. Specifically, for example, the ID information is stored in a non-rewritable non-volatile memory, and the manufacturing information that is unchanged after shipment such as the manufacturing date is stored in the non-rewritable memory. On the other hand, it is preferable to store manufacturing information that can be changed after shipping, such as the number of repairs and version upgrades, in a rewritable memory.

The environmental load information input or / and measured in the environmental load management device according to the present invention is (a)
Environmental load information during transportation, (b) Environmental load information during use, (c) Environmental load information during transportation of used products,
(D) It is preferable to include environmental load information at the time of disposal and recycling. More specifically, as environmental load information at the time of transportation and environmental load information at the time of transportation of used products that is input to or measured by a device built in an industrial product or part, for example, the transportation volume or Examples include transportation weight, transportation distance from the transportation source to the transportation destination, and the degree of transportation improvement of transportation facilities. Further, as the environmental load information at the time of use that is input to or measured by a device built in an industrial product or part, cumulative operating time, cumulative standby time, product deterioration degree of the industrial product or part, and the like can be mentioned. . In addition, as the environmental load information at the time of disposal or recycling that is input to or measured by the device built into industrial products or parts, the weight of the discarded or recycled product, the degree of improvement of disposal, the recycling rate and the degree of improvement of recycling, etc. Is mentioned.

In the environmental load management apparatus according to the present invention, the means for calculating the environmental load from the environmental load information input or / and measured as described above is not particularly limited, and known means may be used. In the present invention,
As the calculation means, the environmental load is calculated by multiplying the environmental load coefficient not affected by the life cycle and one or more environmental parameters affected by the life cycle, and sequentially adding the obtained values. It is preferable to use the means. Here, as described above, the environmental load factor refers to the emission amount per unit amount of the environmental load factor at each stage of the life cycle such as transportation, use, transportation of used products, disposal / recycling, etc. Not affected by. Further, the environmental load factor means a substance known to be added to the environment such as CO ₂ , SO _x , and NO _x . The environmental load coefficient can be easily obtained from the environmental load information that has been conventionally stored. For example, as reliable data, there is an input-output table data for each country.

In the device according to the present invention, the environmental load at each stage of the life cycle is calculated as follows, for example. Environmental load at the time of transportation and at the time of transportation of used products is expressed by [A]; Environmental load = (emission amount of environmental load factor per unit volume and unit distance x transportation volume) x transportation distance x transportation improvement degree of transportation means Or, mathematical expression [B]; environmental load = (emission amount of environmental load factor per unit weight and unit distance × transport weight) × transport distance × transport improvement degree of transport facility. In the above formulas [A] and [B], the numerical values in parentheses are environmental load factors that are not affected by the life cycle. In addition, the transportation distance and the degree of transportation improvement of the transportation system are environmental parameters that are affected by the life cycle.

The environmental load at the time of use is expressed by the formula [C]; environmental load = (emission amount of environmental load factor per unit time)
× Cumulative operating time × Environmental load at the time of operation calculated from the degree of product deterioration, and equation [D]; Environmental load = (emission amount of environmental load factor per unit time)
It is calculated by adding the accumulated standby time and the environmental load during standby calculated from the product deterioration degree. Here, the emission amount of the environmental load factor per unit time is an environmental load coefficient that is not affected by the life cycle. The cumulative operating time, the cumulative waiting time, and the product deterioration degree are environmental parameters that are affected by the life cycle.

The environmental load at the time of disposal and recycling is expressed by the formula [E]; environmental load = (emission amount of environmental load factor per unit weight ×
Industrial product or part weight) x Recycling rate x Recycling improvement rate + (Emissions of environmental load factors per unit weight x
Industrial product or part weight) x (1-recycle rate) x
Calculated according to the degree of disposal improvement. Here, the numerical values in parentheses except (1-recycling rate) are environmental load factors that are not affected by the life cycle. Further, the recycling rate, the degree of recycling improvement, and the degree of disposal improvement are environmental parameters affected by the life cycle. In the above formula, the recycle weight is the value calculated from the formula: weight of industrial product or part x recycling rate. Further, the value calculated from the formula of weight of industrial product or parts × (1-recycling rate) is the waste weight. In the present invention, the environmental load at each stage of the life cycle is not limited to the above formula, and various environmental load coefficients and environmental parameters can be set.

It is preferable that the environmental load coefficient and one or more environmental parameters are given rewritable initial values at the time of manufacturing or shipping of the product. Then, when the environmental load coefficient or the initial value of the environmental parameter is rewritten at each stage of the life cycle, it is preferable to recalculate the environmental load and store the calculated environmental load. The rewriting of the environmental load coefficient or the initial value of the environmental parameter may be rewritten from an external device via wired or wireless communication, or the device according to the present invention may have a writing function.

The environmental parameters may be input from the outside as described above, but may be measured by the environmental load management device itself according to the present invention. In particular, it is preferable that the device itself measures at least a part of the environmental parameters. More specifically, it is particularly preferable that the operating time and the standby time of an industrial product or a part in which the environmental load management device according to the present invention is built-in are measured by the device. The operation time and the standby time can be measured by a known method. Specifically, the environmental load management device according to the present invention or an industrial product or part in which the environmental load management device according to the present invention is built in has a timer built therein, and the operating time and the standby time are measured by the timer, and By storing the cumulative time of each when the mode is switched from the operation to the standby or from the standby to the operation, the operation time and the standby time can be measured.

The environmental load management device according to the present invention supplies input or / and measured environmental load information by directly or externally supplying power by wire or wirelessly even when no power is supplied to industrial products or parts. Alternatively, it is preferable that the calculated environmental load can be read and environmental load information or environmental load can be input.

A preferred mode of the environmental load management apparatus according to the present invention will be described. Such an environmental load management device includes (a) product information such as individual product IDs and set names, manufacturing sites,
A function to store manufacturing information such as manufacturing date and number of repairs,
(B) A function of storing environmental information such as environmental loads collected and calculated during product manufacturing, environmental parameters, and recycling-related information, (c) a function of inputting environmental load factors or environmental parameters, (d) measuring environmental parameters, The measurement function stores the measured value, and (d) the calculation function calculates the environmental load up to that point from the input or measured environmental parameter and the environmental load coefficient, and displays it if desired. Manufacturing information and environmental information can be overwritten or added after shipping. Further, (e) the communication is performed even when the product itself is not supplied with power, so that it is preferable to have a function of receiving power from the outside. Further, (f) it is also preferable to additionally have a communication function for writing and / or reading these pieces of information from an external device.

The above-mentioned environmental load management device according to the present invention is usually used in combination with an external device having a function of reading information stored in such a device. That is, the present invention provides an environmental load management system including the environmental load management device described above and an external device having a function of reading information stored in the device. Here, the system represents the entire apparatus including a plurality of devices. The external device may also have a function of inputting environmental load information into the environmental load management device according to the present invention, that is, a function of writing the environmental load information.

Further, the external device may instead have the environmental load calculation means included in the above-described environmental load management device according to the present invention. That is, the present invention is (i) a device built in an industrial product or part, (a) means for storing product information for specifying the industrial product or part, and (b) the industrial product or part. Environmental load management device having means for inputting and / or measuring environmental load information necessary for calculating the environmental load over the life cycle of (ii) (a) environmental load input or / and measured from the device An environment having an external device having means for reading information or the calculated environmental load, (b) means for calculating the environmental load from the read information, and (c) means for writing the calculated environmental load to the device. Provide a load management system.

In the environmental load management system according to the present invention of the above aspect, the environmental load management device has no means for calculating the environmental load from the environmental load information, and the external device reads the environmental load from the device. The environmental load may be calculated from the information. In addition, the environmental load management device,
It has a means to calculate the environmental load at one or more stages of the life cycle of an industrial product or part, and the external device calculates the environmental load at other stages of the life cycle and adds the environmental load at each stage. It may be that. For example, the environmental load during use is calculated by the environmental load management device, and the environmental load during transportation, used transportation, and disposal / recycling is calculated by an external device, and the external device reads it from the device. The environmental load over the life cycle of the industrial product or part is calculated by adding the environmental load during use and the calculated environmental loads during transportation, used transportation, and disposal / recycling.

Further, the details of the environmental load management system according to the present invention in the above aspect are the same as the description about the environmental load management apparatus according to the present invention described above.

In the environmental load management system according to the present invention described above, the external device further comprises (a) a power supply function,
(B) A function of exchanging information with the central device via a network line typified by the Internet, (c) Data read from the product and data read from the central device, and the result of environmental load calculated from them is stored. It is preferable to have a function of displaying the result and feeding back the result to the central unit. That is, the present invention provides an environmental load management system including the environmental load management device described above, the external device described above, and a central device. In such a system, the external device and the central device are usually connected via a network line. Here, the network line may be wireless or wired. For example, the Internet, a network line configured by a LAN, a network line connected by a dedicated line, and the like are included.

In the environmental load management system according to the present invention of the above aspect, the central device stores environmental load information at each stage from manufacturing to disposal / recycling, and corresponds to product information for specifying industrial products or parts. Therefore, it is preferable that the environmental information and, if desired, the manufacturing information can be managed. In such a system, data can be exchanged with an external device through a network line typified by the Internet, and the information fed back from each product, which is obtained by the data communication, makes it possible to compare the data under actual use conditions. There is an advantage that an accurate environmental load can be estimated. Further, by making the central device compatible with a general browser, the convenience can be further improved.

As another preferred embodiment of the environmental load management system according to the present invention, an environmental load management device built in an industrial product or a part, and information written in and / or read from the information stored in the environmental load management device are read. At least one product selected from the group consisting of (a) product ID, product name, product code, and manufacturer name, and an external device having means, and a central device connected to the external device via a network. Information, and (b) at least one or more manufacturing information selected from the group consisting of a manufacturing site, a manufacturing date, a software version number, the number of repairs, and version upgrade contents, and (c) an environmental load calculation system name, Version, set weight, packaging volume, environmental load emission, environmental load factor, environmental parameters, assembly and disassembly method, recycling At least one or more environmental load management system for managing the environmental load information and the like is selected from the group consisting of law and hazardous substances.

In the environmental load management system according to the present invention in the above aspect, it is preferable that at least a part of the product information and the manufacturing information is set so that it cannot be rewritten after being once input.

The environmental load management system according to the present invention described above can evaluate the total environmental load of the product group by the operating quantity. In the environmental load management system according to the present invention, since the quantity discarded in the manufacturing group can be accurately grasped, by subtracting the discarded quantity from the manufactured quantity, the product is put on the market in the manufacturing group. You can see how many products you have. In the conventional environmental load system, it was difficult to accurately grasp the discarded quantity, so the environmental load for each current fiscal year was calculated from the perspective of the production quantity, which was produced at the time of manufacturing. However, in this system, since it becomes possible to grasp the operating quantity as described above, it is possible to calculate the environmental load for each fiscal year based on the operating quantity, and it becomes possible to evaluate the actual environmental load. Here, the product group is a group of products having at least one common point, and examples thereof include a product group having a common model or a product group having a common year.

In order to collect the environmental load information necessary for calculating the environmental load over the life cycle of industrial products or parts from the time of manufacturing to the time of disposal / recycling, the environmental load management system according to the present invention uses Environmental load information at each stage is collected from each product as appropriate, and there is a means for managing such information.Furthermore, the results of comparing the environmental load and actual environmental load are fed back to the product design and environmental load calculation method. It is preferable to have a means for doing so. By having such a function together, it is possible to construct an environmental load management system for evaluating the environmental load in a state of being actually used in the market.

[0042]

FIG. 4 shows an embodiment of the environmental load management apparatus and the environmental load management system according to the present invention. However,
It goes without saying that the present invention is not limited to such an aspect. In the environmental load management device according to the present invention shown in FIG. 4, the environmental load information or the data such as the environmental load is transferred via an I / F section with an industrial product (hereinafter simply referred to as a product) in which the device is built. It is possible to give and receive. Further, in the environmental load management device shown in FIG. 4, for example,
A calculation function and a display function are incorporated so that basic operations can be performed even when the power of the product is not turned on, such as the battery is not included in the industrial product. As for the power source, when the power source of the product side is turned on, that power source is prioritized, and as described above, when the power source of the product side is not turned on, the power is supplied from the outside. In FIG. 4, power is supplied from the outside in a contactless manner, but the invention is not limited thereto. As described above, even if the product incorporating the environmental load management apparatus according to the present invention is in an incomplete state, the environmental load management apparatus according to the present invention can operate if there is either the power source of the product or the external power supply. Has become. Therefore, it is possible to write and read information to and from the environmental load management apparatus according to the present invention by supplying power from the outside even when the product is not powered at a recycling center or the like.

In the environmental load management apparatus according to the present invention shown in FIG. 4, the clock function is provided, and the operating time and the waiting time are measured by the measuring function part in the control block, and the cumulative operating time and the waiting time are stored in the memory. It is possible to store in blocks. In addition, the measurement function part or the calculation function part in this control block also determines whether or not the environmental parameters have been rewritten in the device.
This can be dealt with by comparing with the previous rewriting time.
Further, the environmental load management device according to the present invention shown in FIG.
It also has a communication function for writing and / or reading data stored in the device, such as environmental load information or environmental load, from an external device.

The environmental load management system according to the present invention shown in FIG. 4 has the above-described environmental load management device according to the present invention, an external device, and a central device. As described above, data can be exchanged between the environmental load management device and the external device via the communication function of the environmental load management device. Data can be exchanged between the external device and the central device via the Internet.

In the manufacturing process of the product, the product information such as the individual ID or the product name is stored in the nonvolatile non-rewritable memory in the memory block of the environmental load management apparatus according to the present invention in the manufacturing site. Among the manufacturing information such as the manufacturing date or the manufacturing site, the information that has not changed since the shipment such as the manufacturing date is stored in the non-rewritable memory in the memory block of the environmental load management apparatus according to the present invention. Of the manufacturing information, information that can be changed after shipment such as the number of repairs and software version upgrades and environmental load information are stored in a rewritable memory in a memory block of the environmental load management apparatus according to the present invention. The environmental load coefficient and environmental parameters that are expected to change in the future are set as the initial values of the information derived from the latest data at the time of manufacturing, and the memory blocks of the environmental load management device according to the present invention are not contacted on the manufacturing line. Write in. At this time, the power to the product can be externally supplied to only the environmental load management device according to the present invention as described above in a non-contact manner, so that the power of the product does not have to be supplied.

The above-mentioned environmental load information includes CO ₂ emission amount, apparent environmental load related to energy consumption amount or resource consumption amount, environmental load coefficient, environmental parameter, disposal method at disposal, disposal means or recycling method. . Initial values are given to the above-mentioned environmental load coefficient and environmental parameters at the time of manufacturing, and it is possible to rewrite the optimum value for each product at each stage of the product life cycle.

In the environmental load management apparatus according to the present invention, the calculation function portion in the control block calculates the environmental load by multiplying the environmental load coefficient and the environmental parameter as shown in FIG. Here, the environmental load coefficient and the environmental parameter are simply given as coefficients, but they can also be given as functions. For example, when a solar cell deteriorates with time, an environmental parameter called product deterioration can be given as a function of time.

More specifically, for example, the environmental load during transportation can be obtained by multiplying the environmental load coefficient by two environmental parameters as shown in FIG. For example, the initial value of the environmental load coefficient is set by using domestic truck transportation as a transportation means at the time of manufacturing. Further, the distance from Tokyo to Sendai is input as an initial value as a transportation distance which is one of environmental parameters. Further, in order to consider the influence of the change in the transportation efficiency on the environmental load at the transportation stage, an environmental parameter called the degree of transportation improvement is provided and 1.0 is given as an initial value.
When the product is actually transported, an actual transportation distance is obtained at a transportation destination such as a store, and an external device rewrites the environmental parameter called the transportation distance from the initial value to the actual transportation distance.
The transportation distance may be derived from the map, or may be simplified by dividing Japan into blocks and obtaining the distance from the blocks. Further, when the transportation efficiency changes, such as when a transportation means other than the truck is used or when the fuel efficiency of the truck is improved, the transportation improvement degree is also rewritten. For example, when shipping by sea, the environmental load at the time of shipping is reduced, so the value is rewritten to a value smaller than 1, while when shipping by air, the environmental load at the time of shipping increases. Therefore, it is rewritten to a value larger than 1. The rewriting of the environmental parameters is performed by using an external device, but the environmental load management device according to the present invention may of course have a writing function.

The environmental load during transportation of used products can also be calculated in exactly the same manner as described above. That is, in the disposal / recycling factory that is the destination of transportation, the actual distance that the used product has been transported from the retail store to the disposal / recycling factory, etc. is calculated, and the external load or the environmental load management apparatus according to the present invention is used. By directly writing, the environmental parameters are rewritten from the initial values to the actual transportation distance. In addition, when transporting used products, it is quite possible that a long time has passed since the product was manufactured or shipped, for example, about 10 years, and transportation efficiency is improved compared to the time of manufacture or shipment. There is a case. In such a case, the transportation improvement degree is rewritten in consideration of the improvement degree. For example, transportation efficiency is 5% compared to manufacturing or shipping
If it has been improved, 0.95 is overwritten as the transportation improvement degree.

The environmental load during operation of the product is obtained by multiplying the environmental load coefficient by two environmental parameters, as shown in FIG. For the sake of simplification, the product deterioration degree is quantified as the yearly deterioration, but it may be given as a function of time in order to calculate the environmental load more accurately. Further, the environmental load during standby can be calculated in exactly the same manner as the environmental load during operation, except that the environmental parameter called the operating time is replaced by the standby time. At this time, the product deterioration degree may be different from that at the time of operation, or may be common. The environmental load during use can be calculated by adding the environmental load during operation and the environmental load during standby obtained in this way.

As described above, the environmental load management apparatus according to the present invention shown in FIG. 4 has a clock function, and measures the operating time and the standby time at the measurement function part in the control block to calculate the cumulative operating time and It is possible to store the waiting time in a memory block. In the present invention, the cumulative time is calculated by adding the time measured by the measurement function part in the control block to the time previously stored, and there is a mode transition from operation to standby or vice versa. In this case, the calculated time is stored as a new cumulative time. When the battery is removed as the power source of the product, the information up to that point is retained as it is,
When a new battery is replaced, the process is performed again with the same flow. At the time of shipment, it is considered that the usage time in manufacturing can be ignored, and both the cumulative time and the measurement time are set to zero. Even when the environmental load management device according to the present invention is operating by the external power source, the load is regarded as zero and the time is not measured. Here, “time” refers to either “operating time” or “standby time”.

The flow relating to the above functions will be described in detail with reference to FIG. When the product is turned on, it reads the operating and standby times stored in memory and resets the measuring time. In the operation mode, the operation time measurement is started as it is. Operation in standby mode →
When changing to the standby mode, the measured operating time measured in is added to the operating time read in and stored, the measuring time is reset, and then the standby time starts to be measured. When changing from standby to operation, the standby time read in is added to the measured standby time measured and stored, and the operation time is started after resetting the measurement time.

For example, when it is detected that the environmental load coefficient or the environmental parameter is changed from the initial value, the environmental load management device according to the present invention calculates the environmental load again using the new environmental load coefficient or the environmental parameter, Re-store in the memory in the memory block. This result is read by the external device and transmitted to the central device via the Internet. The calculation of the environmental load was performed by the environmental load management apparatus according to the present invention, but once the environmental load information is read from the environmental load management apparatus according to the present invention, the external terminal calculates the environmental load and the result is calculated by the present invention. It may be overwritten in the memory of the environmental load management device related to.

Other product information after shipping includes repairs, maintenance, and software version upgrades.
As for these, similarly, records can be held in the environmental load management device or the central device according to the present invention. By using these, it becomes possible to easily obtain information on the value and market quality of used products.

At the time of disposal / recycling, after reading all the information by the external device, the recycling rate can be obtained from the read product weight and the weight sent to the recycling process. Further, by using the environmental load coefficient concerning landfill disposal at the recycling center at that time, a more accurate environmental load from manufacturing to disposal can be obtained. These values are not overwritten in the memory of the environmental load management device according to the present invention incorporated in the product, or the calculation function of the device is not used, and the external device is read based on the information read at the time of recycling start. By processing the data above, it is possible to simplify the system. The result is sent to the central unit via the internet. At the same time, such results can be used as basic data for grasping the operation status at the recycling center, and the daily input number, total input weight,
You can easily grasp the processing quantity and processing weight.

In the central device, NO _{x of} load items not stored in the environmental load management device according to the present invention,
Data on greenhouse gases other than SO _x and CO ₂ can be converted into data, and the product I
The data can be searched based on product information such as D code and product name. The data can be appropriately updated by obtaining the detailed environmental load from the usage status data of the product returned from the environmental load management device according to the present invention such as information about environmental parameters such as operating time. Furthermore, the central device can also convert information on disposal, recycling, dangerous substances, etc. into data, and the recycling center can search the information based on the ID information and easily refer to the optimal disposal method at any time. it can.

According to the system of the present invention, it is possible to add a new item of environmental load information even after the product is shipped. It is also possible to re-evaluate substances that have become a new environmental pollution problem after shipping the product or that are newly found to be harmful to humans and animals based on the data of the materials used in the products. In particular, even if the product has already been shipped, it is a great advantage that the new item can be re-evaluated at least at the time of disposal. Further, according to the system of the present invention, it is possible to easily cope with the fact that the method of calculating the environmental load and the basis of the calculation are improved due to the progress of research. In this way, by dividing the contents of the environmental load information managed by the environmental load management device built into the product and the contents of the environmental load information managed by the central device, the expandability of the environmental load management system and the device according to the present invention It is also possible to reduce the cost of products incorporating the same and at the same time.

[0058]

According to the apparatus or system of the present invention, when evaluating the environmental load, not the appearance control at the time of manufacturing or shipping, but the actual use condition, period, transportation distance and transportation means are improved. It is possible to manage the environmental load that reflects the status of disposal and recycling. The evaluation in accordance with the actual environmental load obtained in this way can improve the appropriate product and the disposal / recycling method, which in turn can lead to a reduction in the environmental load.

According to the apparatus or system of the present invention, it is possible to cope with the progress and transition of the recycling technology and the method of estimating the environmental load, or change / review of the database (DB) which is the standard of the environmental load. In addition, it is possible to flexibly respond to differences in product specifications such as destinations. further,
It can flexibly respond to products or parts that change over time such as solar cells. According to the system of the present invention, since the movement of products can be traced from manufacturing to disposal, the operating quantity of the product group can be grasped. As a result, when the environmental load of the product group is evaluated, the actual environmental load based on the operating quantity can be calculated instead of the expected environmental load based on the production amount.

With the device or system according to the present invention, it is possible to obtain the usage status and quality information of each product. By collecting and managing such information, it is possible to feed back the comparison result of the appearance of the environmental load and the actual environmental load to the product design and the calculation method of the environmental load.
In addition, information such as the value of second-hand goods, market quality, and optimal recycling method will be easily available.

[Brief description of drawings]

FIG. 1 is a diagram showing an example of inventory data.

FIG. 2 is a diagram showing a tree structure between inventory data.

FIG. 3 is a diagram schematically showing a difference between an environmental load evaluation performed using the environmental load management device or the environmental load management system according to the present invention and a conventional environmental load evaluation.

FIG. 4 is a diagram showing an embodiment of an environmental load management device or an environmental load management system according to the present invention.

FIG. 5 is a diagram showing an example of a means for calculating environmental load in the present invention.

FIG. 6 is a diagram showing an example of environmental information regarding disassembly.
In this figure, parent-child relationships are shown from top to bottom and from right to left.

FIG. 7 shows that the parent-child relationship shown in FIG. 6 is actually a code number indicating classification. It is stored as comma-delimited text data in the form of a pair with. In this figure, the meaning of the code and the text data are shown.

FIG. 8 is a diagram showing a flow of measurement of operation time and standby time, and storage of accumulated operation time and accumulated standby time.

Claims (28)

[Claims] 1. An apparatus built in an industrial product or part, comprising: (a) means for storing product information identifying the industrial product or part; and (b) a life cycle of the industrial product or part. A means for inputting and / or measuring environmental load information necessary for calculating the environmental load, and (c) means for calculating the environmental load from the input or / and measured environmental load information. Environmental load management device that does. 2. The product information for specifying an industrial product or part includes at least one piece of information selected from the group consisting of a product ID, a product name, a product code and a manufacturer name. Environmental load management device described. 3. The environmental load management device according to claim 1, wherein the product information cannot be rewritten. 4. Further, at least one piece of manufacturing information selected from the group consisting of a manufacturing site, a manufacturing date, a software version number, a repair frequency, and a version upgrade content is stored together with the product information. The environmental load management device according to claim 1, which is characterized in that. 5. The environmental load management apparatus according to claim 4, wherein at least a part of the manufacturing information and the product information cannot be rewritten. 6. The environmental load information that is input and / or measured includes (a) environmental load information during transportation, (b) environmental load information during use, and (c) environment during transportation of used products. The environmental load management device according to claim 1, which includes load information and (d) environmental load information at the time of disposal and recycling. 7. The means for calculating environmental load multiplies an environmental load coefficient not affected by the life cycle by one or more environmental parameters affected by the life cycle, and sequentially adds the obtained values. The environmental load management device according to claim 6, wherein the environmental load is calculated by going through. 8. The environmental load management device according to claim 7, wherein the environmental load coefficient and one or more environmental parameters have rewritable initial values. 9. The environmental load is recalculated when the initial value of the environmental load coefficient or the environmental parameter is rewritten, and the calculated environmental load is stored.
Environmental load management device described in. 10. The environmental load at the time of transportation and at the time of transportation of used products is expressed by the formula [A]; environmental load = (emission amount of environmental load factor per unit volume and unit distance × transport volume) × transport distance × transport The degree of transportation improvement of the engine, or the formula [B]; Environmental load = (emission amount of environmental load factor per unit weight and unit distance x transportation weight) x transportation distance x transportation improvement degree of the transportation facility. The environmental load management device according to claim 7. 11. The environmental load at the time of use is represented by the formula [C]; environmental load = (emission amount of environmental load factor per unit time)
× Cumulative operating time × Environmental load at the time of operation calculated from the degree of product deterioration, and equation [D]; Environmental load = (emission amount of environmental load factor per unit time)
8. The environmental load management device according to claim 7, wherein the environmental load management device is calculated by adding the accumulated environmental standby time and the environmental load during standby calculated by the degree of product deterioration. 12. The environmental load at the time of disposal and recycling is represented by the formula [E]; environmental load = (emission amount of environmental load factor per unit weight ×
Industrial product or part weight) x Recycling rate x Recycling improvement rate + (Emissions of environmental load factors per unit weight x
Industrial product or part weight) x (1-recycle rate) x
The environmental load management device according to claim 7, wherein the environmental load management device is calculated based on a degree of disposal improvement. 13. The environmental load management device according to claim 7, wherein at least a part of the environmental parameters is measured. 14. The environmental load management device according to claim 13, wherein the environmental parameters are an operating time and a standby time. 15. The input or / and measured environmental load information or the calculated environmental load can be read by directly supplying power from the outside even when the industrial product or part is not supplied with power. Alternatively, the environmental load management device according to claim 1, wherein environmental load information or environmental load can be input. 16. An environmental load management system comprising: the environmental load management device according to claim 1; and an external device having a unit for writing and / or reading information stored in the environmental load management device. 17. A central device connected to an external device via a network, further comprising means for storing environmental load information in association with product information for specifying industrial products or parts. The environmental load management system according to claim 16. 18. The environmental load management system according to claim 17, wherein the total environmental load of the product group is evaluated by the operating quantity. 19. An apparatus incorporated in (i) an industrial product or part, comprising: (a) means for storing product information for specifying the industrial product or part; and (b) the industrial product or part. An environmental load management device having means for inputting and / or measuring environmental load information necessary for calculating an environmental load over a life cycle, and (ii)
(A) means for reading out environmental load information input or / and measured from the device or calculated environmental load,
An environmental load management system comprising: (b) a unit for calculating an environmental load from the read information; and (c) an external device having a unit for writing the calculated environmental load in the device. 20. A central device connected to an external device via a network, further comprising means for storing environmental load information in association with product information for specifying an industrial product or a part. 20. The environmental load management system according to claim 19. 21. Environmental load information input to or measured by an environmental load management device built in an industrial product or part includes (a) environmental load information during transportation and (b) 21. The environmental load according to claim 20, including environmental load information during use, (c) environmental load information during transportation of used products, and (d) environmental load information during disposal and recycling. Management system. 22. The environmental load information at the time of transportation and the environmental load information at the time of transportation of used products include a transportation volume or a transportation weight, a transportation distance, and a transportation improvement degree of a transportation system. Environmental load management system described. 23. The environmental load management system according to claim 21, wherein the environmental load information at the time of use includes a cumulative operation time, a cumulative waiting time, and a product deterioration degree. 24. The environmental load management system according to claim 21, wherein the environmental load information at the time of disposal and recycling includes the weight of the discarded and recycled products, the degree of disposal improvement, the recycling rate, and the degree of recycling improvement. 25. The environmental load management system according to claim 20, wherein the total environmental load of the product group is evaluated by the operating quantity. 26. An environmental load management device built in an industrial product or part, an external device having means for writing and / or reading information stored in the environmental load management device, and an external device via a network. (A) at least one product information selected from the group consisting of a product ID, a product name, a product code, and a company name, and (b) a manufacturing site, a manufacturing date, At least one piece of manufacturing information selected from the group consisting of software version number, number of repairs, and version upgrade content, and (c) environmental load calculation system name,
Managing at least one or more environmental load information selected from the group consisting of its version, set weight, packaging volume, environmental load emission amount, environmental load factor, environmental parameter, assembly / disassembly method, recycling method and harmful substances. A characteristic environmental load management system. 27. The environmental load management system according to claim 26, wherein at least a part of the product information and the manufacturing information cannot be rewritten once input. 28. The environmental load management system according to claim 26, wherein the total environmental load of the product group is evaluated by the operating quantity.