JP2000312874A - Method and apparatus for aiding treatment of recovered product - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make an interface with an operator comfortable and to aid the inexpensive treatment of a covered product by preparing a disassembly information table in which information on the disassembly of the connection parts of the recovered product is accumulated, setting up the connection information and treatment specifications of parts, and analyzing treatment information. SOLUTION: A user inputs information, which can be set up, such as the connection information of the parts, disassembly order information, material information, treatment information, and others of a recovered product as user input information from an input part 4 into a main control part 1 through an input/output control part 3. The main control part 1 accesses the disassembly information table 21 of a memory means 2, calculates total disassembly time for disassembling the connection of parts, accesses a treatment information table 22, selects a treatment method of a minimum environmental load index from the material sorts of each part, calculates a comprehensive environmental load index concerning the treatment of all parts, and displays the results as treatment information to a display part 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for supporting the processing of collected products collected from the market, and more particularly to improving the efficiency of collection work, improving the accuracy of sorting, and promoting recycling. The processing information on the processing content in the processing specification of the collected product on the user side can be provided at low cost.

[0002]

2. Description of the Related Art Conventionally, a method of disposing of a collected product has been adopted, such as whether the collected product is disassembled by an operator or is disassembled in a reverse procedure to the assembly procedure of the collected product. . Therefore, it has been determined which parts should be disassembled, at what stage the disassembly should be stopped, how long it takes to disassemble, and how much it will cost. However, as a result, collecting the collected product is expensive and requires more work.

Therefore, conventionally, for example, Japanese Patent Application Laid-Open No. 9-14124
A method of disposing of the recovered product as disclosed in Japanese Patent Publication No. 2 has been proposed. This method uses C
The AD data is used as a database, and the disposal method of the collected product is determined based on the connection information between each component of the collected product and the disposal information of each component included in the information.

[0004]

According to the conventional method of disposing of collected products, the processing information of the collected products must be determined from an enormous amount of database called CAD data at the time of production design of the collected products. There is a problem in that the apparatus becomes complicated, and when it is configured as an apparatus, the apparatus is required to be expensive.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and a method of supporting collected products in which an interface with a worker can be made comfortable and the processing of collected products can be supported at low cost. It is another object of the present invention to provide a processing support device for collected products.

[0006]

Means for Solving the Problems Claim 1 according to the present invention.
The method for supporting the processing of collected products according to the present invention comprises the steps of: creating a disassembly information table that stores disassembly information relating to disassembly between connected parts of the collected products; and setting connection information relating to connections between each part of the collected products. And setting a processing specification of the collected product, and analyzing processing information on processing contents in the processing specification of the collected product from the disassembly information table and the connection information.

According to a second aspect of the present invention, there is provided a method for supporting the processing of a collected product according to the first aspect, further comprising the step of setting disassembly order information relating to the order of disassembly of each part of the collected product. The step of analyzing the processing information on the processing content in the specification is added to the decomposition order information.

According to a third aspect of the present invention, there is provided a method for supporting the processing of a recovered product according to the first or second aspect.
The disassembly information table includes a disassembly method type indicating the type of disassembly method for disassembly between components, a disassembly difficulty type indicating the type of difficulty for disassembly between components, and a work indicating the type of work method for disassembly between components. It is provided with each decomposition time logical expression for calculating the time required for decomposition in each case where the method type is a condition.

According to a fourth aspect of the present invention, there is provided a method for supporting the processing of a recovered product according to any one of the first and third aspects, wherein the disassembly information table indicates the type of disassembly method for disassembly between parts. The disassembly cost required for disassembly in each case where the disassembly difficulty type indicating the type of difficulty in disassembly between components and the work method type indicating the work method for disassembly between components is calculated. With a decomposition cost logical expression for

According to a fifth aspect of the present invention, there is provided a method for supporting the processing of a collected product, comprising the steps of accumulating information relating to the disposal of components used in the collected product for each material type and creating a disposal information table; A step of setting material information relating to the material of each part of the product; a step of setting processing specifications of the recovered product; and a step of analyzing processing information relating to the processing content in the processing specifications of the recovered product from the disposal information table and the material information. It is provided with.

According to a sixth aspect of the present invention, there is provided a method for supporting the processing of a recovered product according to the fifth aspect, wherein the disposal information table indicates a material type indicating a type of material of the component and a disposal method according to the material type. It is provided with an environmental load index logical formula for calculating an environmental load index indicating the effect on the environment in each case where the disposal method type is a condition.

According to a seventh aspect of the present invention, there is provided a method for supporting the processing of a collected product according to the fifth or sixth aspect.
The disposal information table includes a disposal cost logical expression for calculating a disposal cost in each case where a material type indicating a type of material of a part and a disposal method type indicating a disposal method in the material type are conditions. It is a thing.

[0013] Further, according to the invention, there is provided a method for supporting the processing of a recovered product according to any one of claims 5 and 7, wherein the disposal information table is provided if the disposal method type is recycle or recycle. It is provided with a recycle amount logical formula for calculating the recycle amount from the recycle rate of the recycle.

According to a ninth aspect of the present invention, there is provided a method for supporting the processing of a collected product according to any one of the first to fourth aspects. A method for supporting the processing of a recovered product according to any one of the above, wherein the processing information on the processing content in the processing specification of the recovered product is analyzed from the decomposition information table and the disposal information table, and the connection information, the material information, and the decomposition order information. And steps.

According to a tenth aspect of the present invention, there is provided a method for supporting the processing of collected products according to the ninth aspect, wherein in the step of analyzing the processing information, the parts determined to be the same in the disposal method are replaced with the same parts. They are grouped and analyzed as things.

According to a further aspect of the present invention, there is provided a processing support apparatus for a collected product, comprising: storage means for storing a disassembly information table for accumulating information on disassembly of the collected products between mutually connected parts; An input unit for setting connection information relating to connection between parts of the product and processing specifications of the collected product; a disassembly information table; and a main control unit for analyzing processing information regarding processing contents in the processing specifications of the collected product based on the connection information. And a display unit for displaying processing information.

According to a twelfth aspect of the present invention, there is provided the collected product processing support device according to the eleventh aspect,
Disassembly order information relating to the order of disassembly of each part of the collected product is set, and the main control unit adds the disassembly order information to the analysis of the processing information.

According to a thirteenth aspect of the present invention, there is provided a collected product processing support apparatus for storing a disposal information table for accumulating information on disposal of each component used in a collected product for each material type. Main control to analyze the processing information on the processing contents in the processing specifications of the collected product, based on the input unit for setting the material information on the material of each part of the collected product and the processing specification of the collected product, the disposal information table, and the material information And a display unit for displaying processing information.

According to a fourteenth aspect of the present invention, there is provided a collected product processing support apparatus having both functions of the collected product processing support apparatus and the collected product processing support apparatus according to the twelfth aspect. In addition, the main control unit analyzes the processing information on the processing content in the processing specifications of the collected product based on the disassembly information table and the disposal information table, the connection information, the material information, and the disassembly order information.

[0020]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 Hereinafter, embodiments of the present invention will be described. FIG. 1 is a diagram showing a structure of, for example, a television as a collected product used in the first embodiment of the present invention. In the figure, A to H indicate respective component codes in the television. A is a back case, B and D are speaker holders, C and E are speakers, F is a cathode ray tube,
G is a printed circuit board, and H is a front case.

FIG. 2 is a configuration diagram of a collected product processing support apparatus using the collected product processing support method according to the first embodiment of the present invention. 1 is a main control unit in which a program for analyzing processing information relating to the processing content in the processing specification of the collected product is installed, 2 is a storage unit connected to the main control unit 1, and 3 is connected to the main control unit 1 The main control unit 1 is an input / output control unit that inputs and outputs information from the outside and information from the main control unit 1 to the outside.

Reference numeral 4 denotes an input unit connected to the input / output control unit 3 for inputting external user input information. Reference numeral 5 denotes a display unit that can display user input information of the input unit 4 and display processing information determined by the main control unit 1. The storage unit 2 has a disassembly information table 21 and a disposal information table 22.

The disassembly information table 21 is a table in which disassembly information relating to disassembly between parts connected to each other of the collected products is stored. For example, a disassembly method indicating the type of disassembly method for disassembly between parts is provided. Calculates the time required for disassembly of each type that is a condition, which is a type, a disassembly difficulty type indicating a type of difficulty in disassembly between components, and a work method type indicating a type of work method in disassembly between components. 6 is an information table in which each decomposition time logical expression is set.

The decomposition time logical expression is obtained by taking experimental data based on the decomposition time relating to decomposition for each type in advance,
It has to be decided. Then, the number of operations t ₁ or t ₂
Can be calculated by setting.

Further, as another logical expression, a decomposition cost logical expression for calculating the decomposition cost required for the decomposition is set. This means that labor costs of workers are reduced by, for example, 1 hour 2
When 000 _{yen, - (t 3/3600)} × 2000 yen (Note, t ₃ is shown in seconds in degradation time) it can be calculated by. FIG. 3 shows these examples.

It goes without saying that there is a possibility that information other than the decomposition information shown here may be information relating to decomposition or other information to be added. Also, it goes without saying that the disassembly method type, the work method type, the disassembly difficulty type, and the like may be classified more finely than shown here.
Although the burden on the user when inputting user input information increases, more precise processing information can be provided.

Next, the disposal information table 22 is a table in which information on the disposal of parts used in the collected products for each material type is stored. The material type indicating the material type and the disposal method in the material type are stored. It is an information table in which an environmental load index logical formula for calculating an environmental load index indicating an influence on the environment in each case where the indicated disposal method type is a condition is set.

Further, as another logical expression, a disposal cost logical expression for calculating a disposal cost is set. Further, as another logical formula, when the disposal method type is recycling, a logical formula for recycling for calculating a recycling amount from a recycling rate when recycling is set is set.

The logical formula of the environmental load index is obtained by referring to data existing in the general market, such as a product line cycle analysis (the converted data can be used as it is). The formula and the recycle amount formula are set, for example, with reference to information from a disposal company. FIG. 4 shows these examples.

It goes without saying that there is a possibility that information other than the disposal information shown here may be information relating to the disposal of the material type or other information to be added. Further, the above-described disassembly information and disposal information may be configured to be updated at any time by external access so as to always obtain the latest information.

Next, the user input information input from the input unit 4 refers to information that can be set in advance by the user, for example, connection information relating to connection between each part of the collected product, and information of each part of the collected product. This is information such as disassembly order information on the order of disassembly, material information on materials of each part of the collected product, and processing specifications of the collected product.

By configuring the apparatus for supporting the processing of a recovered product according to the first embodiment configured as described above, the following processing support method for the recovered product can be performed. FIG. 12 shows a flowchart of the method for supporting the processing of collected products. First, a decomposition information table is created (FIG. 1).
Step S1). Next, a disposal information table is created (Step S2 in FIG. 12). Next, user input information is set (step S3 in FIG. 12). Next, the processing information is analyzed (step S4 in FIG. 12). In this way, the processing information on the processing content in the processing specification is analyzed.

Hereinafter, processing relating to processing contents when an operator sets various processing specifications using the collected product processing supporting apparatus using the recovered product processing supporting method of the first embodiment configured as described above. Processing support will be described with a focus on analysis of processing information in which information is analyzed. As an example, a case will be described in which “to disassemble all television components” is input as a processing specification to the input unit 4 and it is desired to know how much time is required for the total disassembly time.

First, the operator inputs the connection information relating to the connection between the components of the collected product to the input unit 4 as the user input information to the television of the collected product (step S5 in FIG. 13). For example, a disassembly method type indicating the type of disassembly method in disassembly for each component, the number of operations (or the amount of work) required for disassembly between each component, and a separation difficulty indicating the type of difficulty for disassembly between each component The type is a work method type indicating the type of work method in disassembly between components.

As shown in FIG. 5, an actual input example in this case is, as shown in FIG. 5, for each component, as the disassembly method type setting, for example, input of only outside the screw or outside of the snap fit, setting of the number of operations (that is, the number of screws, , The number of snap fits, etc.), an input of whether the separation difficulty level is simple or complex, and an input of the work method type such as manual or automatic, for example.

The user input information is input to the input unit 4
Is input to the main control unit 1 via the input / output control unit 3. Next, the main control unit 1 accesses the disassembly information table 21 of the storage unit 2 to determine which type each component belongs to (step S6 in FIG. 13), and uses the disassembly time logical expression of that type to determine each type. The disassembly time required to disassemble the connection between the components is calculated (step S7 in FIG. 13), and the total disassembly time required for disassembly of all the components is calculated (step S7 in FIG. 13).
8).

Next, the result is displayed on the display unit 5 via the input / output control unit 3 as processing information relating to the processing content. As shown in FIG. 6, the actual display example in this case is the type between the components, the disassembly time between the components, and the total disassembly time, and the total disassembly time is 112 seconds. In this way,
The worker can know the time related to the work in advance.

As the next example, a case where the operator wants to know the disassembly cost related to the disassembly in the processing specifications will be described. First, the main control unit 1 stores the storage unit 2
Is accessed again, and the total decomposition cost is calculated from the logical expression of the decomposition cost (step S9 in FIG. 13). Next, the result is displayed on the display unit 5 via the input / output control unit 3 as processing information. An actual display example in this case is as shown in FIG.
You can see that it is 22 yen.

As an example of the next example, the processing specification for the operator to "disassemble all parts of the television" is "optimization (minimum value) of the total environmental load index at that time, and
"I want to know how to dispose of each part".
First, the operator inputs user input information to the television of the collected product (step S10 in FIG. 14). For example,
Information on the material of each component includes, for example, a material type and a component weight.

An actual input example in this case is, as shown in FIG. 7, a material type setting indicating a material type of each component, for example, PS (abbreviation of polystyrene), PP (abbreviation of polypropylene), magnet, The input of the product I (mixed product containing lead and glass), the input of the mixed product II (mixed product containing lead and not containing glass), and the input of the component weight as the weight of each component are respectively performed.

Such user input information is input to the input unit 4
Is input to the main control unit 1 via the input / output control unit 3. Next, the main control unit 1 accesses the disposal information table 22 of the storage unit 2 and selects a disposal method with the lowest environmental load index indicating the effect on the environment from the logical expression of the environmental load index in the material type of each component. (Step S1 in FIG. 14)
1) The environmental load index for the component weight of each component is calculated from the logical formula of the environmental load index in the disposal method (step S in FIG. 14).
12) is calculated, and a total environmental load index (step S13 in FIG. 14) relating to disposal of all parts is calculated.

Next, the result is displayed on the display unit 5 via the input / output control unit 3 as processing information. An actual display example in this case is, as shown in FIG. 8, a display of a disposal method of each part, an environmental load index of each part, and a total environmental load index.
The total environmental load index is -2.657. In this way, the worker can know in advance the total environmental load index relating to disposal and the disposal method of each component.

As a next example, the case where the operator wants to know the total disposal cost, the total recycle amount, and the total recycle rate in the above processing specifications will be described. First, the main control unit 1 accesses the disposal information table 22 of the storage unit 2 again, and determines the disposal cost and the recycling amount of each component by the weight of each component from the disposal cost logical expression and the recycling amount logical expression in the disposal method of each component. Each is calculated (steps S14 and S15 in FIG. 14), and further, a total disposal cost, a total recycle amount, and a total recycle rate for disassembly of all parts are calculated (steps S16, S17, and S18 in FIG. 14). .

Next, the result is displayed on the display unit 5 via the input / output control unit 3 as processing information. An actual display example in this case is, as shown in FIG. 9, a display of the disposal cost of each part and the total disposal cost, and the total disposal cost is +1.
It will be 0.44 yen. In addition, this is a display of the recycled amount, the total recycled amount, and the total recycled rate of the parts to be disposed of by recycling.
02 kg, the total recycling rate is 71%. In this way, the worker can know in advance the total disposal cost, the total recycle amount, and the total recycle rate when the total environmental load index relating to the processing becomes the minimum.

As a next example, a case where the operator wants to know the disassembly depth of which part in the above processing specification needs to be disassembled in the above processing specification will be described. First, an operator inputs the disassembly order information as user input information. For example, A,
Decomposition order information for decomposing in the order of B, C, D, E, F, G, and H is input (step S1 in FIG. 14).
9). Such user input information is input from the input unit 4 to the main control unit 1 via the input / output control unit 3.

Next, the main control unit 1 determines that it is necessary to disassemble the parts to be recycled for disposal in the method of disposal of each part (step S20 in FIG. 13).
In this case, the disassembly depth is determined to be up to the component code G. In this case, since the component codes G and H are connected, it is necessary to disassemble all the components until the last component code GH is disassembled. Is determined. Next, the results described above are displayed as processing information on the display unit 5 via the input / output control unit 3.

As a next example, a case where the operator wants to know the total cost, that is, the sum of the disassembly cost and the disposal cost in the above processing specifications will be described. First, the main control unit 1 needs to disassemble all the parts, and thus sums up the total disassembly cost obtained in step S9 in FIG. 6 and the total disposal cost obtained in step S16 in FIG. Then, the total cost is calculated (step S21 in FIG. 14). Next, the result is displayed on the display unit 5 via the input / output control unit 3 as disposal information. In the actual display example in this case, as shown in FIG. 9, the total cost is displayed as −51.78 yen. In this way, the operator can know the total cost required for processing in advance.

As a next example, a case in which the operator sets the processing specification to "minimize the total cost" may be considered. In the case of this processing specification, if the parts in the recovered product contain considerable valuable substances, some processing information can be considered, but most of the parts without such valuable substances are available. In this case, as shown in FIG. 6, a disassembly cost is required.

As an example of the next example, the worker has a processing specification such as "dispose of the collected product so that the recycling rate is 60% or more" according to the law and the like. Is at a minimum "
A description will be given of a case where it is desired to know processing information for. First, as in the above case, the operator inputs the user input information shown in FIGS. 5 and 7 and the disassembly order information as the user input information.

Then, the main controller 1 accesses the storage means 2 and starts from the first component code A in the disassembly order (FIG. 1).
In step S22 of FIG. 5, the total recycle amount is calculated (step S23 in FIG. 15), and the total recycle rate is calculated (step S24 in FIG. 15). Then, it is analyzed whether the recycling rate exceeds 60% (step S25 in FIG. 15). For example, as shown in FIG. 10, the disposal of each component is determined for each disassembly order, the amount of recycling is determined, and the stage where the recycling rate exceeds 60% is analyzed.

In this case, when the part code F is disassembled and recycled, the part code C and the part code E
It is determined that the part code F is to be recycled, and the total recycle amount is 13.72 kg, which is analyzed when the recycle rate exceeds 60%. At this time, the overall recycling rate is 69.64%. Then, it is determined that the decomposition depth is up to the component code F (step S26 in FIG. 15).

Next, when the disassembly depth is up to the part code F and the total cost is minimized, the part code G
Decomposition of -H is not required (to reduce decomposition cost). Therefore, the total disassembly time at that time is 108 seconds, the total disassembly cost is -60.00 yen, the disposal method of each part, the total environmental load index is -3.587, and the total disposal cost is +1.
1.14 yen, and the total cost is -48.86 yen,
They are shown as shown in FIGS. 10 and 11, respectively. Next, the result is displayed as the disposal information on the display unit 5 via the input / output control unit 3, and the operator can know the processing information according to the processing specifications.

Next, as an example, a case will be described in which the worker sets the processing specification to "disassemble all parts of harmful materials (that is, recycle all harmful materials)". Judgment of harmful materials in this case is the setting of processing specifications of user input information, and when disposal other than recycling, for example, incineration or landfill, the environmental load index is considerably higher than other substances, Alternatively, it is determined based on factors that exceed the environmental impact index determined by company regulations or laws and regulations. For example, a harmful material having an environmental load index exceeding -1 is used as a reference here. The other user input information is the same as in the case shown above.

Then, the main controller 1 accesses the storage means 2 and selects a recyclable component (FIG. 16).
In step S27), an environmental load index is calculated for each disposal method other than the recycling disposal of the weight of the component (FIG. 16).
Step S28). Then, it is detected that the component codes F and G have environmental load indexes exceeding −1. Then, it is determined that these components need to be disposed of by recycling (step S29 in FIG. 16), and it is determined that these components need to be disassembled. Then, it is determined that the disassembly depth for disassembling these parts is the part code G (step S20 in FIG. 13). In this case, since the part codes G and H are connected, the last part code G
Until the decomposition of -H, that is, it is determined that the disassembly of all parts is necessary. Next, a result is displayed as processing information on the display unit 5 via the input / output control unit 3, and the operator can know the processing information according to the processing specifications.

As a next example, a description will be given of a case where the worker sets the processing specification to "disassemble all parts of valuable materials (recycle all valuable materials)". The judgment of the valuable material in this case is the setting of the processing specification of the user input information.
Judgment is made based on what becomes the cost, or what becomes the + cost determined by the company rules. For example, a material whose disposal cost exceeds +3 is regarded as a valuable material. The other user input information is the same as in the case shown above.

Then, the main controller 1 accesses the storage means 2 and selects a recyclable component (FIG. 16).
Step S27), the disposal cost of recycling disposal of the weight of the part is calculated (step S30 in FIG. 16).
Then, it is detected that the component codes whose disposal costs exceed +3 are the component codes C, E and F. Then, it is determined that these parts need to be recycled (step S31 in FIG. 16), and it is determined that these parts need to be disassembled. Then, it is determined that the disassembly depth for disassembling these components is the component code F (step S26 in FIG. 13). In this case, since the component codes F and H are connected, the component code FH Is determined to be necessary. Next, a result is displayed as processing information on the display unit 5 via the input / output control unit 3, and the operator can know the processing information according to the processing specifications.

As a next example, a description will be given of a case where the processing specification is “to disassemble all recyclable parts”. Then, it is assumed that the user input information is the same as the case shown above.

Then, the main control unit 1 accesses the storage means 2 to select a method for disposing of the component to be recycled, and detects that the component codes are C, E, F and G. Then, it is determined that the disassembly depth for disassembling these components is the component code G. In this case, since the component codes G and H are connected, the last component code G−
It is determined that the disassembly of H is necessary, that is, that all components need to be disassembled. Next, the display unit 5 is controlled via the input / output control unit 3.
The result is displayed as the disposal information, and the operator can know the processing information according to the processing specifications.

In each of the above processing specifications, an example has been described in which all the components are determined to be independent. However, the present invention is not limited to this. ) May be provided in the main control unit 1.

As an example of the idea of a subassembly, parts that adopt the same disposal method are regarded as one part,
Judge that there is no need to disassemble. For example, judging from the information on the disposal method of each part in FIG.
B, D and H are considered subassemblies. Next, when the subassembly is determined as described above, the part codes AH, B
Since -H and DH are subassemblies, they can be considered as an integral part, and it is determined that there is no need to disassemble. Taking this idea into consideration, it is also possible to determine the above various processing information.

Further, since the disposal methods of the subassemblies are the same, they are not limited to the disassembly method of complete separation. Therefore, a method of partial disassembly of cutting and breaking can be adopted.

The collected product processing support apparatus using the collected product processing support method of the first embodiment formed as described above effectively uses the disposal information for the collected product and the user input information of the worker. As a result, it is possible to support the processing of the collected products with only a small amount of data.

[0063]

As described above, according to the first aspect of the present invention, a step of creating a disassembly information table storing disassembly information relating to the disassembly between parts connected to each other of a collected product; Setting the connection information relating to the connection between the respective components, setting the processing specification of the recovered product, and analyzing the processing information regarding the processing content in the processing specification of the recovered product from the disassembly information table and the connection information Therefore, it is possible to provide a method for supporting the processing of the recovered product, which can support the processing related to the decomposition of the recovered product.

According to a second aspect of the present invention, in the first aspect, there is provided a step of setting disassembly order information relating to an order of disassembly of each part of the collected product, and a process related to a processing content in a processing specification of the collected product. Since the disassembly order information is added to the step of analyzing the information, it is possible to provide a collection product processing support method capable of providing processing support for the decomposition of the collection product.

According to a third aspect of the present invention, in the first or second aspect, the disassembly information table includes a disassembly method type indicating the type of disassembly method for disassembly between components and a disassembly method for disassembly between components. Each disassembly time logical expression for calculating the time required for disassembly in each case where the disassembly difficulty type indicating the type of difficulty and the work method type indicating the type of work method in disassembly between components is a condition. With this configuration, it is possible to provide a method for supporting the processing of the recovered product, which can reliably perform the processing support for the decomposition of the recovered product.

According to a fourth aspect of the present invention, in any one of the first and third aspects, the disassembly information table includes a disassembly method type indicating the type of disassembly method for disassembly between components; A disassembly cost logical expression for calculating the disassembly cost required for disassembly in each case where the disassembly difficulty type indicating the type of difficulty in disassembly and the work method type indicating the work method for disassembly between parts are conditions Therefore, it is possible to provide a method for supporting the processing of the recovered product, which can reliably perform the processing support for the decomposition of the recovered product.

According to a fifth aspect of the present invention, there is provided a step of accumulating information relating to the disposal of each material type of a component used in a collected product and creating a disposal information table;
A step of setting material information relating to a material of each part of the collected product; a step of setting processing specifications of the collected product;
The method includes a step of analyzing the processing information on the processing contents in the processing specifications of the recovered product from the disposal information table and the material information, thereby providing a processing support method of the recovered product capable of performing processing support on the disposal of the recovered product. It is possible to do.

According to a sixth aspect of the present invention, in the fifth aspect, the disposal information table includes a condition that the material type indicating the material type of the component and the disposal method type indicating the disposal method in the material type are different from each other. Provided is a method for supporting the processing of collected products, which can provide reliable processing support for the disposal of collected products because it has an environmental load index logical formula that calculates the environmental load index indicating the impact on the environment in each case It is possible to do.

According to a seventh aspect of the present invention, in the fifth or sixth aspect, the disposal information table includes a material type indicating a type of a material of a part and a disposal method indicating a disposal method according to the material type. Provided is a disposal cost logical formula for calculating the disposal cost in each case where the type is a condition, so that there is provided a collected product processing support method that can reliably perform processing support for the disposal of collected products. It becomes possible.

According to an eighth aspect of the present invention, in any one of the fifth and seventh aspects, when the disposal method type is “recycling”, the recycling information is calculated based on the recycling rate in the case of recycling. Is provided, it is possible to provide a method for supporting the processing of collected products that can reliably perform processing support for disposal of collected products.

According to a ninth aspect of the present invention, there is provided a method for supporting the processing of a collected product according to any one of the first to fourth aspects, and a recovery method according to any one of the fifth to eighth aspects. And a step of analyzing the processing information on the processing content in the processing specifications of the recovered product from the disassembly information table and the disposal information table, and the connection information, the material information, and the disassembly order information. In addition, it is possible to provide a method for supporting the processing of recovered products, which can reliably perform processing support for decomposition and disposal of the recovered products.

According to a tenth aspect of the present invention, in the ninth aspect, in the step of analyzing the processing information, the parts determined to have the same disposal method are grouped as the same parts and analyzed. Therefore, it is possible to provide a method for supporting the processing of the recovered product, which can efficiently perform the processing support for the decomposition and disposal of the recovered product.

According to an eleventh aspect of the present invention, a storage means for storing a disassembly information table for accumulating information on disassembly between connected parts of a collected product, and a connection between the parts of the collected product An input unit for setting connection information relating to the collected product and a processing specification of the collected product, a disassembly information table, and a main control unit for analyzing the processing information regarding the processing content in the processing specification of the collected product based on the connection information, and displaying the processing information. Since the display device is provided with the display unit, it is possible to provide a processing support apparatus for collected products that can perform processing support for decomposition of the collected products.

According to a twelfth aspect of the present invention, in the eleventh aspect, disassembly order information relating to the order of disassembly of each part of the collected product is set in the input unit, and the main control unit analyzes the processing information. And decomposition order information,
It is possible to provide a processing support apparatus for collected products that can perform processing support for decomposition of the collected products.

According to a thirteenth aspect of the present invention, there is provided a storage means for storing a disposal information table for storing information relating to the disposal of each material type of each component used in a collected product, An input unit for setting material information relating to the material and processing specifications of the recovered product, a disposal information table, and a main control unit for analyzing processing information relating to processing content in the processing specification of the recovered product based on the material information; Since the display unit includes the display unit for displaying, it is possible to provide a processing support apparatus for collected products that can perform processing support for disposal of the collected products.

According to a fourteenth aspect of the present invention, there are provided both the functions of the collected product processing support device according to the eleventh aspect and the collected product processing support device according to the twelfth aspect,
The main control unit analyzes the processing information related to the processing content in the processing specifications of the collected product based on the disassembly information table and the disposal information table, the connection information, the material information, and the disassembly order information. It is possible to provide a processing support apparatus for collected products, which can provide processing support for processing.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of a television as a collected product used in Embodiment 1 of the present invention.

FIG. 2 is a diagram showing a configuration of a collected product processing support apparatus using a collected product processing support method according to Embodiment 1 of the present invention;

3 is a diagram illustrating an example of a disassembly information table of a storage unit of the collected product processing support device illustrated in FIG. 2;

FIG. 4 is a diagram showing an example of a disposal information table in a storage unit of the collected product processing support device shown in FIG. 2;

FIG. 5 is a diagram showing an example of user input information input to the collected product processing support device shown in FIG. 2;

FIG. 6 is a diagram illustrating an example of processing information output from the collected product processing support device illustrated in FIG. 2;

7 is a diagram illustrating an example of user input information input to the collected product processing support device illustrated in FIG. 2;

8 is a diagram showing an example of processing information output from the collected product processing support device shown in FIG.

9 is a diagram illustrating an example of processing information output from the collected product processing support device illustrated in FIG. 2;

10 is a diagram illustrating an example of processing information output from the collected product processing support device illustrated in FIG. 2;

11 is a diagram illustrating an example of processing information output from the collected product processing support device illustrated in FIG. 2;

FIG. 12 is a diagram showing a flowchart of a method for supporting processing of collected products according to the first embodiment of the present invention.

FIG. 13 is a diagram showing a flowchart of a method for supporting processing of collected products according to the first embodiment of the present invention.

FIG. 14 is a diagram showing a flowchart of a method for supporting processing of collected products according to the first embodiment of the present invention.

FIG. 15 is a diagram showing a flowchart of a method for supporting the processing of collected products according to the first embodiment of the present invention.

FIG. 16 is a diagram showing a flowchart of a method for supporting processing of collected products according to the first embodiment of the present invention.

[Explanation of symbols]

1 main control unit, 2 storage means, 3 input / output control unit, 4
Input unit, 5 display unit, 21 disassembly information table, 22
Disposition information table.

Claims (14)

[Claims] 1. A step of creating a disassembly information table storing disassembly information relating to disassembly between connected components of a recovered product, and a step of setting connection information regarding connections between components of the recovered product. Setting a processing specification of the recovered product, and analyzing processing information on processing contents in the processing specification of the recovered product from the disassembly information table and the connection information. Product processing support method. 2. The method according to claim 1, further comprising the step of setting disassembly order information relating to the order of disassembly of each part of the collected product, wherein the disassembly order information is added to the step of analyzing the processing information relating to the processing content in the processing specification of the collected product. The method for supporting the processing of a recovered product according to claim 1, wherein: 3. A disassembly information table includes a disassembly method type indicating a disassembly method type in disassembly between components, a disassembly difficulty type indicating a difficulty type in disassembly between components, and a work method in disassembly between components. The recovered product according to claim 1, further comprising: a disassembly time logical expression for calculating a time required for disassembly in each case where the work method type indicating the type of work is a condition. Processing support method. 4. A disassembly information table includes a disassembly method type indicating the type of disassembly method for disassembly between components, a disassembly difficulty type indicating a type of difficulty for disassembly between components, and a work method for disassembly between components. The recovery method according to any one of claims 1 to 3, further comprising a disassembly cost logical expression for calculating a disassembly cost required for disassembly in each case where a work method type indicating a condition is satisfied. Product processing support method. 5. A step of accumulating information relating to the disposal of each material type of a part used in the recovered product and creating a disposal information table; a step of setting material information relating to the material of each part of the recovered product; Setting a processing specification of the recovered product; and analyzing processing information on processing contents in the processing specification of the recovered product from the disposal information table and the material information. Processing support method. 6. The disposal information table includes an environmental load indicating an influence on an environment in each case where a material type indicating a type of a material of a part and a disposal method type indicating a disposal method in the material type are conditions. The method according to claim 5, further comprising an environmental load index logical formula for calculating an index. 7. The disposal information table calculates a disposal cost in each case where a material type indicating a type of a material of a part and a disposal method type indicating a disposal method in the material type are conditions. The method according to claim 5 or 6, further comprising a disposal cost formula. 8. The disposal information table according to claim 5, wherein when the disposal method type is recycling, a recycle amount logical formula for calculating a recycle amount from a recycle rate in the case of recycle is provided. A method for supporting the processing of a recovered product according to any of the above. 9. A method for supporting the processing of a collected product according to any one of claims 1 to 4, and a method for supporting the processing of a collected product according to any one of claims 5 to 8, Processing information about the processing content in the processing specifications of the product, the disassembly information table and the disposal information table,
Analyzing the connection information, the material information, and the disassembly order information. 10. The collected product according to claim 9, wherein in the step of analyzing the processing information, the parts determined to be the same in the disposal method are grouped as the same and analyzed. Processing support method. 11. A storage means for storing a disassembly information table for accumulating information relating to disassembly between connected parts of a collected product, connection information relating to connection between parts of the collected product, and processing of the collected product. An input unit for setting specifications, the disassembly information table, and the connection information, a main control unit for analyzing processing information on processing contents in the processing specifications of the recovered product, and a display unit for displaying the processing information. A collected product processing support device, comprising: 12. A collection method wherein disassembly order information relating to an order of disassembly of each part of a collected product is set in an input unit, and said disassembly order information is added to an analysis of processing information in a main control unit. Product processing support equipment. 13. A storage means for storing a disposal information table for accumulating information relating to the disposal of each component used for each product type in a collected product, material information relating to the material of each component of the collected product, and the collected product. An input unit for setting the processing specifications, a main control unit for analyzing the processing information relating to the processing contents in the processing specifications of the recovered product, based on the disposal information table and the material information, and a display unit for displaying the processing information A processing support apparatus for collected products, comprising: 14. A collection product processing support device according to claim 11, and a collected product processing support device according to claim 12, wherein the main control unit includes a disassembly information table and a disposal information table; A collection product processing support apparatus characterized by analyzing processing information on processing contents in a processing specification of a collection product based on connection information, material information, and disassembly order information.