JP2023091103A - Product estimate/order device and product estimate/order program - Google Patents

Abstract

To provide a product estimate/order device, etc. for promoting activities to reduce carbon dioxide emissions.SOLUTION: A product estimate/order device connected to a user terminal of a user via a network and receiving a price estimate and order of a product desired by the user, the product estimate/order device includes specification condition selection means allowing the user to select specification conditions of the product, CO2 emission display means for displaying first CO2 emissions to be emitted from a manufacturing process of the product in the specification conditions, offset CO2 emission selection means allowing the user to select second CO2 emissions that the user desires to offset out of the first CO2 emissions, user burden charge calculation means for calculating the user's burden charge to offset the second CO2 emissions based on a capital investment cost relating to the CO2 emission reduction, and estimate display means for displaying a first price of the product in the specification conditions and the user's burden charge.SELECTED DRAWING: Figure 9

Description

The present invention relates to a product estimate ordering device and a product estimate ordering program.

Traditionally, customers have diverse tastes and needs when it comes to luxury products such as clothing. A product ordering system is known in which a finished product with original specifications can be determined while selecting and then an estimate and order can be placed for the finished product. When an order for a product is received through an online shopping site, the sewing factory manufactures the product according to the original sewing specifications ordered by the customer, and delivers the finished product to the customer according to the original specifications.

As a technology related to this, for example, in Patent Document 1, after obtaining necessary product information such as the design, size, characteristics, and price of the customer's preference, the customer can easily purchase the original product by himself/herself using an information terminal. Also, an original merchandise ordering system and an original merchandise providing system are described which allow the user to order and purchase the original merchandise with peace of mind.

JP-A-2002-133201

By the way, in recent years, as the problem of global warming is widely recognized on a global scale, the reduction of carbon dioxide (CO2) emissions is one of the management issues for companies. In the general manufacturing industry, most of the energy consumption is related to manufacturing equipment, so companies are actively working to introduce solar power generation equipment and manufacturing equipment that consumes less power and emits less CO2. This is where I am.

However, needless to say, there is a problem that introduction of such equipment requires a huge capital investment cost. In particular, it is difficult for companies with severe business conditions to raise capital investment costs, and it is difficult for users to understand the transfer of fees to such costs, which is not directly visible to users. There is

SUMMARY OF THE INVENTION The present invention has been proposed in view of the above points, and one aspect of the present invention aims to provide a product estimate ordering device or the like that promotes activities to reduce carbon dioxide emissions.

In order to solve the above problems, a product estimate ordering device according to the present invention is a product estimate ordering device that is connected to a user terminal of a user via a network and receives price estimates and orders for products desired by the user. specification condition selection means for allowing a user to select specification conditions of the product; CO2 emissions display means for displaying a first CO2 emission amount emitted in the manufacturing process of the product under the specification conditions; Offset CO2 emission amount selection means for selecting a second CO2 emission amount for which offset is desired from the first CO2 emission amount; and an estimate display means for displaying the first price of the product under the specification conditions and the user burden.

In order to solve the above-mentioned problems, a product quotation order program according to the present invention comprises a computer, a specification condition selection means for allowing a user to select the specification conditions of the product, and offset CO2 emission amount display means for displaying a first CO2 emission amount to be offset; offset CO2 emission amount selection means for allowing a user to select a second CO2 emission amount for which offset is desired from the first CO2 emission amount; user burden amount calculation means for calculating a user burden amount for offsetting the second CO2 emissions based on a capital investment cost related to emission reduction; a first price of the product under the specification conditions; It functions as an estimate display means for displaying the amount borne by the user.

According to the embodiment of the present invention, it is possible to provide a product estimate ordering device or the like that promotes carbon dioxide emission reduction activities.

It is a figure which shows the network configuration example of the goods estimate order system which concerns on this embodiment. It is a figure which shows the hardware structural example of the product estimate order server which concerns on this embodiment. It is a figure which shows the software structural example of the product estimate order server which concerns on this embodiment. It is a figure which shows the data structural example of user DB which concerns on this embodiment. It is a figure which shows the data structural example of goods DB which concerns on this embodiment. FIG. 4 is a diagram showing a data configuration example of a CO2 offset burden amount master according to the present embodiment; FIG. 10 is a diagram showing an example 1 of a product estimate order screen for a user according to the present embodiment; FIG. 10 is a diagram showing an example 2 of a product estimate order screen for a user according to the present embodiment; FIG. 3 is a diagram showing a user's carbon offset participation screen 1 according to the present embodiment; FIG. 4 is a diagram showing a user's carbon offset participation screen 2 according to the present embodiment; FIG. 11 is a diagram showing an example 3 of a user's product estimate order screen according to the present embodiment; FIG. 11 is a diagram showing an example 4 of a user's product estimate order screen according to the present embodiment; FIG. 3 is a diagram showing a user's carbon offset participation screen 3 according to the present embodiment;

An embodiment of the present invention will be described in detail with reference to the drawings.
<System configuration>
(network configuration)
FIG. 1 is a diagram showing a network configuration example of a product quotation ordering system according to this embodiment. The product quotation ordering system 100 of FIG. 1 includes a product quotation ordering server 10 , a user terminal 20 and a manufacturer terminal 30 , which are connected via a network 50 .

A product estimate order server (hereinafter also referred to simply as an order server) 10 allows the user to select the desired specifications (sewing, tailoring, etc.) and determine the original specifications of clothing, and then estimate and order the finished clothing product. It is a server device.

The user terminal 20 is, for example, a smart phone, a tablet terminal, a personal computer, or the like, and is an information terminal for the user to access the order server 10 . A user can access/login to the order server 10 using the user terminal 20 and search for a product to be purchased from the website of the order server 10, determine specifications, make an estimate, place an order, and the like. A predetermined application program (general-purpose web browser or dedicated application) is installed in the user terminal 20 in advance in order to access the order server 10 .

The manufacturer terminal 30 is, for example, a smart phone, a tablet terminal, or a personal computer, and is an information terminal for the product manufacturer to access the order server 10 . The manufacturer can access/login to the order server 10 using the manufacturer terminal 30, register/manage products, receive user orders, and the like on the site. The manufacturer manufactures the product according to the original sewing specifications ordered by the user and delivers the finished product.

The network 50 is a communication network including wired and wireless. The network 50 includes, for example, the Internet, a public line network, WiFi (registered trademark), Bluetooth (registered trademark), and the like.

(Hardware configuration)
FIG. 2 is a diagram showing a hardware configuration example of a product estimate order server according to this embodiment. The product estimate order server 10 has a CPU (Central Processing Unit) 11 , ROM (Read Only Memory) 12 , RAM (Random Access Memory) 13 , HDD (Hard Disk Drive) 14 , and communication device 15 .

The CPU 11 executes various programs and performs arithmetic processing. The ROM 12 stores programs necessary for activation. The RAM 13 is a work area for temporarily storing processing by the CPU 11 and storing data. The HDD 14 stores various data and programs. The communication device 15 communicates with other devices via the network 50 .

(software configuration)
FIG. 3 is a diagram showing a software configuration example of the product quotation order server according to the present embodiment. The product estimate order server 10 includes, as main functional units, a specification condition selection unit 101, a CO2 emission calculation display unit 102, an offset CO2 emission selection unit 103, a user burden calculation unit 104, an estimate calculation display unit 105, and a storage unit. A part 107 is provided.

The specification condition selection unit 101 has a function of allowing the user to select the specification condition of the product.

The CO2 emission amount calculation display unit 102 has a function of calculating and displaying a first CO2 emission amount emitted during the product manufacturing process under the specification conditions selected by the user.

The offset CO2 emission amount selection unit 103 has a function of allowing the user to select a second CO2 emission amount for which offset is desired from among the first CO2 emission amounts.

The user burden amount calculation unit 104 has a function of calculating the user burden amount for offsetting the second CO2 emissions based on the equipment investment cost related to CO2 emission reduction.

The estimate calculation display unit 105 has a function of calculating and displaying the first price of the product under the specification conditions selected by the user and the user burden amount for offsetting the second CO2 emissions. The estimated calculation display unit 105 also has a function of summing and displaying a second price obtained by summing the first price and the user burden amount.

The storage unit 107 stores a user DB 107a, a product DB 107b, and a CO2 offset burden amount master 107c. Details will be described later.

These functional units are functional units according to the present invention, and needless to say, the product quotation order server 10 also includes various functional units necessary for providing products. Each functional unit is implemented by a program executed on hardware resources such as the CPU, ROM, and RAM of the computer that constitutes the product estimate order server 10 . These functional units may be read as "means", "module", "unit", or "circuit". Each DB of the storage unit 107 in the product estimate order server 10 can also be arranged in an external storage device on the network 50 . Moreover, the computer program and the application program may be stored in a computer-readable storage medium.

(database information)
FIG. 4 is a diagram showing a data configuration example of a user DB according to this embodiment. The user DB 107a is a DB in which user information of users is registered in advance. The user DB 107a according to this embodiment has data items such as "user ID", "password", "mail address", "name", "address", "telephone number", and "purchase history".

"User ID" is a unique identifier assigned to each user. The “user ID” and “password” are the ID and password for the user to access and log into the order server 10 . "E-mail address", "name", "address", and "telephone number" are the user's e-mail address, name, address (and delivery address), and telephone number, respectively. “Purchase history” is purchase history information related to products purchased by the user in the past.

FIG. 5 is a diagram showing a data configuration example of a product DB according to this embodiment. The product DB 107b is a DB in which product information sold by the manufacturer on the website of the order server 10 is registered in advance. The product DB 107b according to the present embodiment includes, for example, “product ID”, “product name”, “sewing specification 1”, “sewing specification 2”, “price”, “work type machine classification”, “power classification”, “unit time CO2 emissions per (second) (kg), working hours (seconds), CO2 emissions (kg), total working hours (seconds), total CO2 emissions (kg), etc. It has data items.

"Product ID" is a unique identifier assigned to each product for management purposes. "Product name" is the name of the product. "Sewing specification 1" is a specification type of sewing for each part. In the case of the product name "basic jacket", parts subject to sewing specifications include, for example, tailoring, pents, chest pockets, waist pockets, and the like. "Sewing specification 2" is a specification type that further subdivides "sewing specification 1". The user can arbitrarily select a specification type from "sewing specification 2". In the case of the sewing specification 1 "tailoring", the types of tailoring include, for example, full lining tailoring, backless tailoring, and lining only. "Price" is the price corresponding to "sewing specification 2". The price varies according to the "sewing specification 2" selected by the user. For example, if the user selects full lining, the price is 1,156 yen, if the user selects unlined tailoring, the price is 2,176 yen, and if only the lining is selected, the price is 1,459 yen.

The "type of work machine classification" is a classification of the type of work and the machine used for the type of work according to the manufacturer's sewing specifications. For example, there are a CAM (cutting machine), an interlining machine, a sewing machine, an iron, and manual work. "Electric power category" indicates whether or not the power to be used is required. Machines that consume power, such as CAMs, stapling machines, sewing machines, irons, etc., are "Electric", and manual or non-electric machines are "None".

“CO2 emission amount (kg) per unit time (second)” is the CO2 emission amount per unit time (second) in the case of a machine that consumes electric power. It can be calculated based on the CO2 emission coefficient (kg-CO2/kWh) or the like according to the machine for each "machine type machine classification". In the case of work or non-electric machinery, the "CO2 emission amount (kg) per unit time (second)" is zero. "Working time (seconds)" is the working time required by the manufacturer for each "work type machine category". "CO2 emission (kg)" is the CO2 emission for each "machine type machine category". "CO2 emissions (kg)" = "CO2 emissions (kg) per unit time (second)" x "working time (seconds)".

"Total work time (seconds)" is the total work time for each "sewing specification 2". It is calculated by summing the "work time (seconds)". The "total CO2 emission amount (kg)" is the total CO2 emission amount for each "sewing specification 2". It is calculated from the sum of "CO2 emissions (kg)". Specifically, when the user selects the sewing of the "full lining" for the product name "basic jacket", the "total work time (seconds)" of the worker is 1654 seconds (27.5 minutes). "Total CO2 emissions (kg)" to be discharged to 0.28059 kg.

Note that the data configuration of the product DB 107b according to the present embodiment is merely an example, and some data items are omitted for convenience of explanation. In addition, for example, there may be product description information, product introduction images, product word-of-mouth information, product evaluation information, and the like.

FIG. 6 is a diagram showing a data configuration example of the CO2 offset burden amount master according to the present embodiment. The CO2 offset burden amount master 107c is the amount per unit amount (for example, 100 kg) that the user should bear when offsetting (meaning indirect absorption, offsetting, or making up for) the amount of CO2 emissions emitted in the manufacturing process of the product. Information on the amount of expenses is registered in advance.

For example, if a manufacturer introduces solar power generation equipment or manufacturing equipment with less power consumption and CO2 emissions, or if there is a plan to introduce such equipment in the future, the capital investment cost and the CO2 reduction effect associated with the introduction of the equipment (CO2 Considering the CO2 offset burden amount master 107c, the facility investment cost corresponding to the unit amount of the CO2 reduction effect (CO2 emission reduction amount) is converted as a user burden amount and registered in advance. As mentioned above, when mechanical equipment that consumes electricity is used in the manufacturing process of a product, CO2 is emitted. This is because the user can bear part of the equipment investment cost based on the investment cost. The amount borne by the user can be calculated by taking into account the equipment investment cost including the initial installation cost and maintenance cost, as well as the service life, the power consumption in the case of mechanical equipment, and the amount of power generated in the case of power generation equipment. .

<Screen example>
(Example of user's product quotation order screen)
FIG. 7 is a diagram showing an example 1 of a product estimate order screen for a user according to this embodiment. As described above, the user can use the user terminal 20 to order products to be sold on the site of the order server 10 .

Specifically, when the user uses the user terminal 20 to search for product information that the user wants to order on the site, a product screen is displayed on the screen of the user terminal 20 by referring to the product DB 107b. The product according to the present embodiment is, for example, clothing, and the user can select the desired specifications (sewing, tailoring, etc.) and decide on the finished product with original specifications, and then estimate and place an order for the finished product. . When the user decides which product (for example, a basic jacket) 111 he or she wants to order from the product screen, he/she presses the "spec selection/estimate" 112 .

FIG. 8 is a diagram showing an example 2 of a product estimate order screen for a user according to this embodiment. Next, the user selects the desired specification 115 from each option 116 for a product (for example, a basic jacket) 111 . A specification selected by a user is called a selected specification.

For example, in the case of a basic jacket, the user can select one of the options for "tailoring" from among "full lining", "unlined", and "only lining". In the same way, the user can arbitrarily select specifications such as a predetermined part of the basic jacket that the user wants to order from the predetermined options, such as "pent", "breast pocket", and "waist pocket".

Since the price (additional charge) varies depending on the specification selected by the user, the price corresponding to the option 116 (the price corresponding to the sewing specification 2 in the product DB 107b) may be written together for each option 116. In addition, the product price of the currently selected specification is displayed and changed in real time in the unit price 117 according to the selected specification. Also, when the user inputs the quantity 118 of the product the user wants to order, the total amount 119 is calculated and displayed. In the case of FIG. 8, the unit price 117 of the product price in the currently selected specification is ¥945,000, and the quantity 118 is 50 pieces, so the total price 119 is ¥945,000.

When the user presses "order" 120, the screen transitions to the order screen for the currently selected specification conditions. When the user presses "confirm specification/estimate" 121, the screen transitions to a detailed screen for confirming a list of currently selected specifications and an additional charge for each specification. On the other hand, if the user wants to temporarily suspend the quotation, he/she can save the currently selected specification conditions by pressing "save as draft" 122 .

The CO2 emission amount 123 indicates the CO2 emission amount emitted during the manufacturing process of the product under the specification conditions being selected (under estimation). As for the CO2 emissions 123, referring to the product DB 107b, the "total CO2 emissions (kg)" corresponding to each selection specification selected by the user is registered. kg)” can be calculated. Note that when the specification condition (sewing specification 2) being selected (under estimation) is changed, the sewing process (work type machine classification) is also changed, so the CO2 emission amount 123 is also changed and displayed in real time. When the user confirms the CO2 emission amount 123 and intends to participate in the carbon offset, the user presses "participate in carbon offset with this specification" 124 before pressing "order" 120. FIG.

Here, carbon offset refers to greenhouse gases such as carbon dioxide (carbon) emitted in "a certain place" through human economic activities and lives, for example, by afforestation, forest protection, or clean energy projects. It is a general term for ideas and activities that indirectly absorb, offset, or make up for (offset) "other places" through reduction activities (including the purchase of emission rights). In this embodiment, CO2 shown in the CO2 emissions 123 is emitted in the manufacturing process of the product under the specification conditions currently selected (estimated). CO2 emissions 123 can be counteracted.

FIG. 9 is a diagram showing a user's carbon offset participation screen 1 according to the present embodiment. On the carbon offset participation screen, 500 kg of CO2 is specifically emitted in the manufacturing process of the product under the specification conditions currently selected (estimate), so participating in carbon offset, that is, part of the capital investment cost for clean energy It is shown that the CO2 amount of up to 500 kg can be offset (indirectly reduced) this time by the user bearing the burden.

The "amount to be invested in the environment" 131 is the amount borne by the user required to offset the CO2 emissions 123 emitted in the manufacturing process of the product under the currently selected (estimated) specification conditions. As described above, the CO2 offset burden amount master 107c contains information on the amount of expenses per unit amount (for example, 100 kg) that the user should bear when offsetting the amount of CO2 emissions emitted during the product manufacturing process. Registered. Therefore, when offsetting 500 kg of CO2 emissions, for example, the user's burden is calculated as 50,000 yen.

In addition, by moving the operation bar 132 left and right, the user can change the amount of investment in the environment 131 between the minimum amount (0 yen) and the maximum amount (50,000 yen). is. For example, when the "amount to be invested in the environment" 131 is the initial value of 0 yen indicating the minimum amount, the CO2 emission amount 133 remains at 500 kg (CO2 reduction amount of 0 kg). Note that the initial value of the "amount to be invested in the environment" 131 may be the maximum amount of 50,000 yen instead of the minimum amount. In this case, the CO2 emission amount 133 is displayed as 0 kg (CO2 reduction amount of 500 kg), which makes it easier for the user to feel the effects of participating in carbon offsetting, and further encourages the user to participate in carbon offsetting. can.

FIG. 10 is a diagram showing a user's carbon offset participation screen 2 according to this embodiment. As the user moves the operation bar 132 to the right, the "amount invested in the environment" 131 increases and the CO2 emission amount 133 decreases. For example, when the user moves the operation bar 132 to the right until the "amount to be invested in the environment" 131 reaches 38,000 yen, the CO2 emission amount 133 changes from 500 kg (CO2 reduction amount 0) to 120 kg (CO2 reduction amount 380 kg). )become. Ultimately, when the user moves the operation bar 132 to the rightmost position, the "amount to be invested in the environment" 131 becomes a maximum amount of 50,000 yen, and the CO2 emission amount 133 at this time is 500 kg (the amount of CO2 reduction is 0). to 0 kg (500 kg of CO2 reduction).

After the user sets the carbon offset participation conditions (“amount to be invested in the environment” 131 and CO2 emissions 133), when the user presses “participate in carbon offset with this amount” 134, the product estimate order screen ( The screen transitions to FIG. 11). On the other hand, if the user does not participate in the carbon offsetting, when the user presses "return to estimate without participating in environmental activities" 135, the screen transitions to the product estimate order screen (FIG. 8).

FIG. 11 is a diagram showing an example 3 of a product estimate order screen for a user according to this embodiment. In FIG. 11, as compared with FIG. 8, it can be seen that the "amount to invest in the environment" 125 set by the user has been added. Along with this, the total amount 119 has also been increased. When the user presses "order" 120, an order screen appears with the specification conditions currently selected and the carbon offset participation conditions set by the user ("environmental investment amount" 131 and CO2 emissions 133). Transition.

Note that the following embodiments are also referred to.
・As shown in FIG. 12, the order server 10 can select, as an initial selection specification, a specification that minimizes the amount of CO2 emissions 123 emitted during the product manufacturing process, and can make an initial display proposal to the user. . Specifically, the selected specification with the lowest total CO2 emission amount among the selected specifications can be displayed, for example, as "Most eco-friendly".

- Also, as shown in FIG. 12, the order server 10 can display the CO2 emissions corresponding to each selection specification that can be selected by the user. That is, for each option 116, the total CO2 emissions corresponding to the option 116 (total CO2 emissions corresponding to the sewing specification 2 in the product DB 107b) are written together. At the same time, the CO2 emissions 123 emitted in the manufacturing process of the product are displayed in real time according to the specification conditions being selected (estimated), so the user is advised to select specifications with as little CO2 emissions as possible. It is possible to raise awareness and further encourage reduction of the absolute amount of CO2 emissions emitted in the manufacturing process of the product.

・As shown in FIG. 13, the order server 10 converts the CO2 emissions corresponding to the selected specifications (the total CO2 emissions corresponding to the sewing specification 2 in the product DB 107b) into carbon offsets for each selected specification. The user can select whether or not to participate by checking the check box. Specifically, the amount of CO2 emissions in the case of the full lining selected by the user is 0.28059 kg, and the amount of money invested in the environment is 28 yen when participating in carbon offsetting for this portion.

・Clean energy power generation facilities are natural energy power generation facilities that basically emit no or little carbon dioxide when generating electricity, such as solar power, wind power, hydroelectric power, and so on.

- The target product of the product estimate ordering system 100 is not limited to clothing. Like the clothing according to the present embodiment, the customer can decide the finished product with the original specifications while selecting the desired specifications, and the finished product can be estimated and ordered according to the specification selected by the user. It is possible to apply the present invention to any product in which the amount of CO2 emitted during the manufacturing process of the product fluctuates.

The product estimate ordering system 100 according to the present embodiment can also be called a product order sales system, a product ordering system, an estimate support system, a special order product (estimate) ordering system, or an original product (estimate) ordering system.

<Summary>
As described above, according to the product estimate ordering system 100 according to the present embodiment,
・Since the CO2 emissions 123 emitted in the product manufacturing process are displayed in real time according to the specification conditions being selected (estimated), the user can select specifications with as little CO2 emissions as possible. , the absolute amount of CO2 emitted in the manufacturing process of the product can be reduced.
・Since the user can freely set the "amount to be invested in the environment" 131, in order to reduce the amount of CO2 emitted in the manufacturing process of the product, It is possible to participate in carbon offsetting.
・In the past, it was difficult for users to understand the significance of participating in carbon offsetting, which was difficult to see directly. It will be easier for people to understand the need to participate in carbon offsetting.
・In addition, original carbon offset products manufactured in this way can be appealing to final consumers, and can be expected to improve the image of the original brand and increase sales.
・On the other hand, manufacturers can bear some or all of the cost of investing in clean energy power generation equipment and manufacturing equipment with low CO2 emissions through participation and cooperation in carbon offsetting by product ordering users. It is possible to actively encourage the introduction of such equipment to manufacturers who had difficulty raising the investment cost.
・In addition, the company's stance of actively working on CO2 reduction can be appealed to the outside world, which can be expected to improve the image of the company's brand and increase sales.

As described above, according to the present embodiment, it is possible to provide a product estimate ordering device or the like that promotes carbon dioxide emission reduction activities. It should be noted that, although the preferred embodiment of the invention has been described with reference to specific examples, these specific examples should not depart from the broader spirit and scope of the invention as defined in the appended claims. Obviously, various modifications and changes can be made to the examples. Thus, the details of the specific examples and accompanying drawings should not be construed as limiting the present invention.

10 product estimate order server 20 user terminal 30 manufacturer terminal 50 network 100 product estimate order system 101 specification condition selection unit 102 CO2 emission calculation display unit 103 offset CO2 emission selection unit 104 user burden calculation unit 105 estimate calculation display unit 107 storage unit

Claims (7)

A product estimate ordering device connected to a user terminal of a user via a network and receiving a price estimate and an order for a product desired by the user,
Specification condition selection means for allowing a user to select specification conditions of the product;
CO2 emissions display means for displaying a first CO2 emissions emitted during the manufacturing process of the product under the specification conditions;
offset CO2 emission amount selection means for allowing a user to select a second CO2 emission amount for which offset is desired from the first CO2 emission amount;
user burden calculation means for calculating a user burden for offsetting the second CO2 emissions based on capital investment costs related to CO2 emission reduction;
an estimate display means for displaying a first price of the product under the specification conditions and the user's burden;
A product quotation ordering device, characterized by comprising: the estimate display means displaying a second price that is the sum of the first price and the user's charge;
2. A product estimate ordering device according to claim 1, characterized by: The offset CO2 emission amount selection means is an operation unit that allows the second CO2 emission amount to be selected within a range from 0 to the first CO2 emission amount, with the first CO2 emission amount being the maximum amount. to display
The estimated display means displays the user's burden amount corresponding to the selected second CO2 emission amount in accordance with the user's operation on the operation unit;
2. A product estimate ordering device according to claim 1, characterized by: The CO2 emission amount display means
displaying, for each of the specification conditions, a third CO2 emission amount emitted during the manufacturing process of the product under the specification conditions;
2. A product estimate ordering device according to claim 1, characterized by: The user burden amount calculation means,
Based on the capital investment cost related to CO2 emission reduction, for each of the specification conditions selected by the user, the amount borne by the user for offsetting the third CO2 emissions emitted in the manufacturing process of the product under the specification conditions calculated,
The estimate display means is
displaying the user burden amount for each of the specification conditions selected by the user;
The offset CO2 emission amount selection means includes:
allowing the user to select the third CO2 emission amount for which an offset is desired for each of the specification conditions selected;
2. A product estimate ordering device according to claim 1, characterized by: storage means for storing the product, the specification conditions of the product, the price for each specification condition, and the amount of CO2 emitted during the manufacturing process according to each specification condition;
2. A product estimate ordering device according to claim 1, characterized by comprising: to the computer,
Specification condition selection means for allowing a user to select specification conditions of a product;
CO2 emissions display means for displaying a first CO2 emissions emitted during the manufacturing process of the product under the specification conditions;
offset CO2 emission amount selection means for allowing a user to select a second CO2 emission amount for which offset is desired from the first CO2 emission amount;
user burden calculation means for calculating a user burden for offsetting the second CO2 emissions based on capital investment costs related to CO2 emission reduction;
A product estimate order program for functioning as estimate display means for displaying the first price of the product under the specification conditions and the user burden amount.

Images