JP2003196375A - System and method for presenting recycle information of industrial machine, and program for making computer execute the same method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a recycle information presentation system for efficiently presenting recycle information of reclaimed materials for disassembling a disposed industrial machine and for producing new reproduction member by using its constituting members as raw materials. <P>SOLUTION: The recycle information presentation system of the industrial machine for presenting the recycle information of the reclaimed materials for disassembling the disposed industrial machine and for producing the new reproduction member by using its constituting member as the raw materials is provided with a disassembling man-hour storage means 56 in which disassembling man-hour by every model and by every region of a device of the industrial machine is stored, an disposed object information collection means 32 for collecting information about the industrial machine to be disposed, and a disassembling time calculation means 35 for calculating disassembling processing time by every region of the device to be disposed based on the disassembling man-hour stored in the disassembling man-hour storage means 56 for the industrial machine regarding the collected disposed object 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 a material recycling information providing system for industrial machines, which provides recycling information for disassembling discarded industrial machines and producing new recycled materials using the constituent members as raw materials. In particular, it can be suitably used for a material recycling system for industrial machines, such as construction machines, which uses high-strength, high-quality steel materials.

[0002]

[Background Art] In large-scale industrial machines such as construction machines, the unit price per machine is high, and in consideration of durability, high-quality materials are used for the drive unit. From the viewpoint, it is highly effective to recycle the discarded industrial machines and use them as raw materials for new industrial machines. In particular, steel materials used for engine blocks of construction machinery, booms of cranes, gears and shafts of reduction gears, etc. are of high quality, and cast iron used for counterweights has a large amount, so it is remelted. It is extremely effective to use recycled steel as a recycled steel for the production of new construction machinery in order to conserve raw materials. Therefore, conventionally,
After disposing of the discarded industrial machinery by a dismantling company,
The disassembled / disassembled product was purchased by a remanufacturing material manufacturer as required, and the remanufactured material was used for manufacturing the remanufactured material, thereby recycling the constituent members of the industrial machine.

[0003]

However, in such a conventional recycling method, it is not possible to know what kind of scrap will be supplied from the owner of the industrial machine.
There is a problem that it is unclear when and what equipment parts will be brought into the dismantling company, and the recycled material manufacturer cannot efficiently manufacture recycled material using such scrap. Also, the dismantling company does not know what kind of scrap should be supplied to the recycled material manufacturer, so it is necessary to prepare a large stockyard for stocking discarded industrial machines, which is not always efficient. It is hard to say that they are recycled. In addition, recycled materials obtained from industrial machines with a high ratio of high-grade materials and general materials are mixed, which causes difficulty in management in the recycling industry due to uniform price reduction in a limited distribution range, parts for industrial machines. There is an inevitability of adding various trace metals in order to make it a high-grade material at the time of reuse.

An object of the present invention is to disassemble an industrial machine that has been disposed of and to efficiently reproduce a new recycled material using its constituent members as a raw material, thereby efficiently providing recycling information of the recycled raw material. An object is to provide a recycling information providing system for an industrial machine, a recycling information providing method, and a program that causes a computer to execute this method.

[0005]

In order to achieve the above object, the invention according to claim 1 of the present application disassembles an industrial machine that has been disposed of, and uses the constituent members as a raw material for a new recycled material. Is a recycling information providing system for industrial machines, which provides recycling information of recycled raw materials for the production of Disassembly processing for each disposal target device part based on the disassembly man-hours accumulated in the disassembly man-hour accumulating means for the disposal target information collecting means for collecting the information of the industrial machine and the industrial machine related to the collected disposal target information And a disassembly processing time calculating means for calculating time.

The industrial machine to be recycled according to the present invention is preferably a construction machine such as a crane or a power shovel, a movable generator, or the like.
These industrial machines are difficult to dispose of and
This is because the number of disassembling steps is large because it has a large number of constituent members. In addition, the disassembly man-hours for each industrial machine type and device part are:
The actual work process and time may be stored as data, but for example, data obtained by back-calculating from the assembly time of the corresponding device part in the assembly of the industrial machine may be stored. Preferably, the data calculated back from the assembly time may be initially stored in the disassembly man-hour storage means, and the time required for the actual disassembly process may be appropriately updated. Further, the collection of the information to be discarded may be outputted by the owner of the discarded industrial machine from the terminal connected to the network to the reproduction information collecting means, but the industrial machine may output its own position information, machine information, etc. When the information terminal device capable of wireless output is provided, a signal to that effect may be wirelessly output from this information terminal at the time of disposal and collected by the disposal target information collecting means.

According to the present invention as described above, since the information collection means for disposal and the disassembly processing time calculation means are provided, the information of the industrial machine which has been disposed of can be immediately grasped and the disassembly required for this can be performed. Since the processing time is calculated,
Recycled material manufacturers can get timely information about when and where the regenerated raw materials that they desire will be produced. Therefore, the discarded industrial machine can be efficiently used by the recycled material manufacturer, and the recycling rate of the industrial machine is significantly improved. Also, for the dismantling company, since the recycled material manufacturer efficiently recycles the waste material, it is not necessary to maintain an unnecessary stockyard, and no waste occurs.

According to a second aspect of the present invention, in the recycling information providing system for an industrial machine according to the first aspect, the volume reduction required coefficient accumulating is obtained by accumulating the volume reduction necessary coefficient for each device portion accumulated in the disassembly man-hour storage means. It is characterized in that the disassembling processing time calculating means calculates the disassembling processing time also using the volume reduction necessary coefficient accumulated in the volume reduction necessary coefficient accumulating means. Here, the volume reduction required coefficient takes into consideration, for example, the time required for downsizing and volume reduction by melting and the like after disassembling large-sized components such as engine blocks and crane booms that compose industrial machinery into component units. It is set as a coefficient.
According to the present invention as described above, since the disassembly processing time is calculated while also taking into account the volume reduction man-hours, the disassembly man-hours for each device part accumulated in the disassembly man-hour storage means are set by back-calculating the assembly man-hours. Even if it is a broken one, a more accurate decomposition processing time can be calculated.

The invention according to claim 3 is the invention according to claim 1 or 2.
In the industrial machine recycling information providing system described in, the disposal target information acquired by the disposal target information collecting means,
Based on the decomposition processing time calculated by the decomposition processing time calculating means, the production information generating means for calculating and producing the production information including the production time and the production amount of the recycled raw material, and the produced production information of the recycled raw material are reproduced. And a production information presenting means for presenting the material to the material manufacturer. here,
The production information is generated by disassembling each material based on the model, state, and delivery time of the discarded industrial machine in the disposal target information, the disassembly processing time of the industrial machine, and the like. It is done by predicting the quantity.

According to the present invention as described above, it is possible to grasp when and to what extent recyclable raw materials are produced based on the presented production information.
Since it is possible to assemble the manufacturing schedule of the recycled material according to the supply timing of the recycled material, the system can be made more efficient.

According to a fourth aspect of the present invention, in the recycling information providing system for an industrial machine according to the third aspect, each of the above-mentioned means is constructed on a network system in which a server and a plurality of terminals are connected by a network, and the reproduction manufacturing is performed. Raw material information accumulating means for accumulating the necessary raw material information of the user, the necessary raw material information for accumulating the necessary raw material information, and the matching means for matching the production information generated by the production information generating means, and the matching result, reproduction When there is a surplus of raw materials, the production information disclosing means for disclosing the surplus on the network is provided.

Here, as the network, TCP /
It is preferable to adopt the Internet or the like that conforms to the IP protocol, and the production information is stored on the WWW server in HTML.
It is preferable to publish it on the site of the format. According to the present invention as described above, when surplus recycled material is generated, the production information of the surplus is disclosed, so that the production information is provided to other recycled material manufacturers as well. By using the information, the surplus can be recycled without waste. Further, when a shortage occurs, information with other recycled material manufacturers can be used, so that the shortage does not have to be dealt with immediately by disassembly.

The invention according to claim 5 is used in the recycling information providing system for industrial machinery according to any one of claims 1 to 4 to recycle the steel material constituting the discarded industrial machinery. It is characterized by being done. That is, since large components such as engine blocks of industrial machines, booms of cranes, and counterweights can be reused as steel materials, it is highly useful to adopt the present invention.

The invention according to claim 6 is the invention according to claim 1 configured as a method invention, and the invention according to claim 7 is a program for causing a computer to execute the invention according to claim 6. It was done. Here, each step constituting the method invention does not have to be performed in the same computer, and a plurality of computers may be configured to cooperate to perform a series of steps, Further, one procedure may be performed by a plurality of computers in cooperation. And these inventions can also apply the same limitation as the said Claims 2-5, and can enjoy the same action and effect. Also, by configuring as a program,
Since the method of the present invention can be implemented by a general-purpose computer,
Can be widely spread.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings. [System Configuration] FIG. 1 shows a schematic configuration of a recycling information providing system according to an embodiment of the present invention.
This recycling information providing system includes a store A that receives the construction machine 1, a disassembly office B that disassembles the construction machine 1,
It is provided with terminals 2A, 2B, 2C installed in each of the recycled material manufacturing establishments C that manufacture recycled materials, and a recycling information providing server 10 connected via a network 3. Then, the scrap car information of the construction machine 1 to be discarded, which is accepted at the dealer A, is transmitted from the receiving side terminal 2A to the recycling information providing server 10, and the recycling information providing server 10 causes the disassembling office of the disassembling office B to disassemble. Side terminal 2B
The scrap car information is sent to and the schedule including the delivery date of the recycled material obtained by the scrap car is transmitted to the recycled material manufacturing business side terminal 2C of the recycled material manufacturing business C. The terminal 2D of the external recycled material manufacturer D can be connected to the recycling information providing system via the Internet or the like.

FIG. 2 is a schematic diagram showing the procedure of receiving a used car of the construction machine 1 at the store A. When the owner sells the construction machine 1 owned by the owner, the construction machine 1 to be scrapped is accepted at the store A (A1), and a state inspection is performed as to whether or not the construction machine 1 can be sold as a used construction machine if maintenance is performed. It is performed (A2). If it is determined that the product can be resold as a result of the inspection (A3), maintenance and maintenance of heavy equipment parts such as the engine, cab, and arm are performed (A4),
After maintenance and maintenance of light equipment such as repair painting and filter replacement (A5), shipping inspection is performed (A6) and the product is carried out (A7). On the other hand, as a result of the inspection, if a scrap car is determined (A8), as will be described later in detail, the receiving terminal 2A is operated to transmit the scrap car information to the recycling information providing server 10 (A9). And the recycling information providing server 10
Carry out the junk car based on the carry-out schedule from (A10),
Transport it to the disassembly business (A11).

At the dismantling establishment B, the construction machine 1 to be discarded is disassembled in the process shown in FIG. Specifically, when the construction machine 1 is a hydraulic excavator or the like, first, the working machine is separated from the construction machine body (B1). After separating the work machine, the operator cab (B2), the counterweight (B3), and the other parts (B4) are separated in this order, and then the upper and lower parts are separated (B5) engine (B6) and frame (B7). Disassemble. Reusable parts are stocked as reusable parts after performing a predetermined repair (B8).

On the other hand, in the working machine, the bucket and arm are disassembled (B9), the hose pipe is separated (B10), the boom,
After separating the arms (B11), cutting and reducing the volume of each part (B12), and sorting by the type of steel material (B1).
3) The product is shipped to the remanufacturing manufacturer (B14). It should be noted that even counterweights, frames, engines, etc. that were not reused as they were in the disassembly process of the construction machine body, after being cut and reduced in volume, were sorted by type of steel and shipped to recycled material manufacturer C. To be done.

As shown in FIG. 4, the recycling information providing server 10 is configured as a computer including an arithmetic processing unit 21 and a storage device 22 such as a hard disk. The arithmetic processing unit 21 operates as a program, such as a registration receiving unit 31, a scrap car information collecting unit 32, a necessary raw material information receiving unit 33, a production information generating unit 34, a disassembly processing time calculating unit 35, a tag issuing unit 36, a work instruction presenting unit. Three
7, a matching means 38, a production information presentation means 39, a production information disclosure means 40, a performance collection means 41, and a data analysis means 42. The storage device 22 is a registered trader database 5 as a storage means for recording and storing each information.
1, scrap car information database 52, required raw material information database 53, model-specific steel type / weight database 54, parts-specific steel type / weight database 55, disassembly man-hour database 5
6. A cutting volume reduction necessary coefficient database 57, a steel type price database 58, and a transaction record database 59 are provided.

When the new registration applicant operates the terminals 2A and 2D to access the server 10, the registration acceptance means 31 acquires various information of the registration applicant and stores the acquired information in the registration company database 51. Is the part that accumulates in. Specifically, an address is set according to the registration applicant, and a screen for inputting the registration applicant's company name, address, contact information, mail address, etc. is delivered to the terminal 2A. Then, when the registration applicant inputs and transmits predetermined information, the registration receiving means 31 registers the ID, company name, contact information, address, etc. of the registered trader as one record, as shown in FIG. The record is saved in the trader database 51.

The scrap car information collecting means 32 is a part for collecting scrap car information when a registered trader operates the terminal 2A and transmits scrap car information indicating that a scrap car has occurred. As scrap car information, The model ID and model of the scrapped car to be discarded,
The scrap car occurrence location, scrap car occurrence date, arrival date at the disassembly business B, etc. are collected, and the collected scrap car information is accumulated in the scrap car information database 52 as one record, as shown in FIG. It

The necessary raw material information receiving means 33 is a portion for receiving necessary raw material information on which steel type, when and how much scrap is used as a raw material when producing the recycled material at the recycled material manufacturing establishment C. The necessary raw material information accepted here is, as shown in FIG. 7, the necessary raw material information database 53 as a table recording the type and material of the required steel material, the required time, and the required amount at that time. Accumulated in. In addition, as shown in FIG.
In the required raw material information database 53, a plurality of tables 531, 532, 533, ... Can be set, and when there are a plurality of recycled material manufacturing establishments C, the required raw material information of each establishment is Tables 531, 532, 5
33 ... accumulates.

The production information generating means 34 is a part for generating production information including the steel type and the production amount of the recycled raw material produced at the disassembling establishment B, based on the scrap vehicle information accumulated in the scrap vehicle information database 52. Based on the model information of the construction machine 1 to be discarded that is included in the scrap car information,
The weight database 54 and the steel type / weight database 55 for each part are searched. Steel type / weight database by model 5
As shown in FIG. 8, when the model and model of the construction machine 1 are disassembled, 4 is configured as a table structure database that stores how much various steel materials such as mild steel and high tensile strength steel can be collected. To be done. As shown in FIG. 9, the steel type / weight database for each component 55 is configured as a database having a table structure in which the material of the steel material that can be sampled according to the component of the construction machine 1 and the collected weight are accumulated. Then, the production information generation means 34 stores the steel type and weight of the construction machine 1 related to the scrap car information in the database 54,
55, and production information relating to the type and weight of steel produced as a recycled material is generated.

The disassembly processing time calculating means 35 is a part for calculating the disassembly processing time of the construction machine 1 related to the scrap car information based on the production information. Specifically, the disassembly processing time calculation means 35 searches the information accumulated in the disassembly man-hour database 56 based on the production information generated by the production information generation means 34 to calculate the disassembly processing time. The disassembly man-hour database 56, as shown in FIG.
Is configured as a database in which the disassembly site corresponding to the model and model of the construction machine, the site number, the disassembly man-hour, and the site weight are recorded in one table 541, and a plurality of tables 542, 543, ... There is.

Further, the disassembly processing time calculation means 35 also searches the cutting volume reduction necessary coefficient database 57 to disassemble the construction machine 1 and consider the time required for cutting and reducing the volume of each part as well as the disassembly processing time. Is calculated. As shown in FIG. 9, the cut volume reduction required coefficient database 57 is configured as a database having a table structure in which volume reduction coefficients (minutes) set for each component are accumulated. In the disassembling procedure at the disassembling office B shown in FIG. 3 described above, the procedure B1
~ B7, the time required to carry out the steps from B9 to B11 is mainly acquired from the decomposition man-hour database 56, the time required for the cutting / volume reduction process is acquired from the cutting volume reduction required coefficient database 57, the decomposition process The time calculation means 35 adds these to obtain the decomposition processing time. The disassembly processing time calculated by the disassembly processing time calculation means 35 in this way is output to the production information generation means 34 again, and the production information generation means 34, based on the disassembly processing time, discards the construction machine 1 to be discarded. Recycled raw materials are produced from the arrival date of
Create a schedule for shipment.

The tag issuing means 36 is the production information generating means 3
4. Production information generated in 4 and disassembly processing time calculation means 35
This is a part for generating and transmitting tag information from which reclaimed material manufacturing establishment should the regenerated raw material produced at the decomposition establishment B be carried out based on the disassembly processing time calculated in step 1. The tag information generated by the tag issuing means 36 is transmitted to the disassembling office side terminal 2B of the disassembling office B through the network 3, and the disassembling office side terminal 2B displays the tag by an output device such as a printer. It is printed, attached to the sorted steel materials, and carried out.

The work instruction presenting means 37 gives an instruction for disassembling work at the disassembling office B based on the production information generated by the production information generating means 34 and the disassembly processing time calculated by the disassembly processing time calculating means 35. This is a part that is generated and presented to the disassembling office B as a work instruction. Then, the worker of the disassembling establishment B executes the disassembling work and the cutting / volume reducing work of the construction machine 1 to be discarded based on the work instruction transmitted from the work instruction presenting means 37.

The matching means 38 includes the necessary raw material information transmitted from the recycled material manufacturing establishment C and the production information generating means 3
This is a part for matching demand and supply based on the production information generated in 4 and the disassembly processing time calculated by the disassembly processing time calculation means 35. Specifically, the matching means 38 compares the steel type and the necessary date and time accumulated in the necessary raw material information database with the production information and the decomposition processing time, and reproduces the recycled raw material produced at the decomposition business B. The matching process is performed by determining whether or not the date and time requested by the material manufacturing establishment C can be met. The recycled raw material matched by the matching unit 38 is transmitted and output as production information from the production information presenting unit 39 to the recycled material manufacturing establishment side terminal 2C via the network 3.

The production information disclosure means 40 is a portion for publicly presenting it on the WEB site when the amount of recycled raw materials produced at the decomposition business B becomes unnecessarily large as a result of the matching processing by the matching means 38. is there. When the production information is disclosed, since the price must be displayed, the production information disclosure means 40 refers to the steel type price database 58 that compares the material classification and the price, as shown in FIG. 12, and discloses it. To generate information. The performance collecting means 41 is a part that collects the performance of manufacturing recycled materials using recycled raw materials at the recycled material manufacturing establishment C, and although not shown in the figure, other recycled materials are available via the published WEB site. The material purchaser also collects the purchase record of the recycled raw materials purchased by operating the terminal 2D. Usage record of collected recycled materials,
Although not shown, the purchase record is stored in the transaction record database 59 as a transaction record with the steel type, the amount used, the delivery date, etc. as one record.

[Operation of System] Next, the operation of the above-described recycling information providing system will be described with reference to the flowcharts shown in FIGS. 13 to 15. (1) At the dealer A, the construction machine 1 that was decided to be a scrap car was disassembled at the disassembly site B, and the disassembled steel material was recycled material manufacturer C.
When using it as a recycled raw material, first, the receiving side terminal 2A
To access the recycling information providing server 10 (process S1). (2) Registration acceptance means 3 of the server 10 that has accepted the access
1 determines whether or not the accessing person is a new registrant (process S2). Specifically, the registration receiving means 31
The determination is made based on the presence or absence of the input of the ID given to the registered trader, and when the ID is not input, the screen for inputting the registration information is transmitted to the receiving side terminal 2A (process S3) to prompt the input of the registration information.

(3) When the receiving side terminal 2A sends predetermined registration information (step S4), the registration receiving means 31 registers as a new member, assigns / transmits an ID number, and at the same time, the registered trader database. The registration information transmitted to 51 is accumulated (process S5). In the case of a registered company, the process proceeds to the next process without displaying the registration screen or the like. (4) The scrap car information collecting means 32 displays the screen G shown in FIG.
In 1, the condition is that the text part “Sell steel products” with hypertext link is selected, and the scrap car information input screen is transmitted to prompt input of predetermined scrap car information (process S6). Although not shown, the scrap car information input screen identifies the model and model of the construction machine 1 to be scrapped, and also inputs the scrap car occurrence location, scrap car occurrence date, scheduled arrival date at the disassembly business B, and the like. It is like this.

(5) When scrapped vehicle information is transmitted from the receiving side terminal 2A (process S7), the scrapped vehicle information collecting means 33 collects the transmitted scrapped vehicle information, assigns the ID to the scrapped vehicle information database 52, Scrap car information is accumulated (process S8: disposal target information collection procedure). (6) On the other hand, the necessary raw material information is periodically transmitted from the recycled material manufacturing business side terminal 2C (step S9), and the necessary raw material information is received by the necessary raw material information receiving means 33 and is required. It is accumulated in the raw material information database 53 (process S10). The necessary raw material information is as shown in FIG.
The information stored in the necessary raw material information database 53, which is composed of the type and material of the required steel material, the required time, etc., can be sequentially rewritten over time.

(7) The production information generating means 34 acquires the scrap car information accumulated in the scrap car information database 52 (process S).
11), the model and model of the construction machine 1 included in the scrap car information,
A steel type / weight database 54 for each model and a steel type / weight database 55 for each part are searched based on the equipment parts and the like, and the type and amount of the steel material obtained from the scrapped vehicle are acquired (Process S
12). (8) Next, the production information generation means 34 outputs the model and model information included in the scrap car information to the disassembly processing time calculation means 35, and the disassembly processing time calculation means 35 uses the disassembly man-hour database 56 based on this. Then, the total time required for the disassembling process and the total time required for cutting and volume reducing are calculated from the cutting volume reduction necessary coefficient database 57, and the total time required for the disassembling process is calculated (process S13: disassembling process). Time calculation procedure).

(9) The calculated disassembly processing time is returned to the production information generating means 34, and the production information generating means 34
Based on the estimated arrival date at the disassembly business B included in the scrap car information and the calculated disassembly processing time, a production plan of steel materials to be the production raw material at the disassembly business B is created (process S1.
4) Further, a steel-type production plan is created to determine how much weight can be achieved for each steel type and when (process S1).
5). (10) Next, the matching means 38 searches the necessary raw material information database 53 to match the necessary raw material information at the recycled material manufacturing establishment C with the production plan of the decomposition establishment B to obtain the recycled material manufacturing establishment. The amount of recycled raw material steel that can be supplied to C is calculated (process S16) and output to the production information generation means 34. The production information generation means 34 corrects the production information to be transmitted to the disassembling establishment B in consideration of the matching result.
Further, the production information presenting means 39 transmits and outputs the production information including the arrival schedule of the recycled material to the recycled material manufacturing establishment side terminal 2C.

(11) The work instruction presenting means 37 generates a work instruction at the disassembling establishment B on the basis of the corrected production information, and transmits and outputs it to the disassembling establishment terminal 2B (process S1).
7). The output work instruction is received by the disassembling establishment side terminal 2B (process S18), and the work is performed based on this. In addition, the tag issuing means 36 based on the production information,
Tag information is generated, and this is transmitted and output as data to the disassembling establishment side terminal 2B (process S19). Upon receiving this tag information, the disassembling establishment side terminal 2B prints out using an attached printer or the like (process S20).

(12) As a result of the matching process, the matching means 38 determines whether or not a surplus will be generated in the recycled raw material steel material produced at the decomposition plant B (process S21). The production information disclosure means 40 is notified of that fact. The production information disclosure means 40 includes the production plan generated by the production information generation means 34 and the necessary raw material information database 53.
The difference with the necessary raw material information accumulated in the above is calculated, and the surplus of the steel type and the price of the steel type acquired from the steel type price database 58 are generated as public information (process S2).
2).

(13) Then, the production information disclosing means 40 uploads the generated public information on a predetermined site (process S23). Specifically, as in the lower part of the screen example shown in FIG. 16, the steel grade material, unit price, salable amount, possible delivery date, etc. are displayed by region. In this example, pressing the “Add to My List” button on the right side of each area will temporarily hold the status, and pressing the “Map” button will display the map of the area. ing.

(14) If the external recycled material manufacturer D desires to purchase recycled raw material steel with the production information open to the public, first access the site where the publicized information is uploaded. (Processing S24), the purchase request is transmitted (Processing S25). Specifically, on the screen G1 of FIG. 16, a text portion "search / purchase of steel material" with a hypertext link is selected, and when a purchase button is pressed on a new screen, a screen for inputting an ID or the like Is displayed. (15) The registration acceptance unit 31 determines whether or not the user is a new registrant, as in the case of scrap car information registration (process S2).
6) If it is a new registration, send a registration screen (process S2
7), transmission of registration information (process S28), registration of a new member (process S29), and after the member registration, the registration acceptance means 31 receives the terminal 2D on the purchase applicant side and the terminal 2B on the disassembly company side. A confirmation e-mail is transmitted to (step S30).

(16) The terminal 2B of the disassembling establishment B, which has received the confirmation mail, transmits a mail to the effect that the purchase has been accepted (step S31), and thereafter, a direct transaction between them is carried out. After the transaction is completed, each of the decomposition business side terminal 2B that sold the production raw material steel and the purchased recycled material manufacturer side terminal 2D has the server 10 transmit information regarding the result of the transaction (process S32, S33). (18) The record collection means 41 of the server 10 receives these transaction results and stores them in the transaction record database 59 (process S34). The record information accumulated in the transaction record database 59 is analyzed by the data analysis unit 42 and used as correction information of the database, which may change such as the steel type price and the disassembly man-hour.

It should be noted that the present invention is not limited to the above-mentioned embodiment, but includes the following modifications. In the above-described embodiment, the recycling information providing system is used from the viewpoint of disposing of the construction machine 1, disassembly and reuse, but the present invention is not limited to this. That is, the present invention may be used when discarding or reusing another industrial machine. Further, in the above-described embodiment, the disassembling establishment B is configured as being incorporated in advance in the recycling system using the recycling information providing system, but the present invention is not limited to this. That is, other dismantling companies and the like may participate as the disassembly business in the form of external participation based on network access. Further, two or more used car dealers A, disassembling companies B, and recycled material manufacturers C may be combined into one office. By doing so, a system that can widely provide recycling information can be provided, and its usefulness is high.

Further, in the above embodiment, the recycling information providing system for recycling the steel material is used.
The present invention is not limited to this, and the present invention may be adopted for recycling synthetic resins and the like. And in the said embodiment, each means 31-41 and each database 51-on the single server 10.
Although 59 are integrated, the present invention is not limited to this, and the present invention may be implemented using a plurality of servers in which some functions are distributed. In short, it is sufficient if the configuration of the present invention can be embodied in the entire system.

Further, in the above-mentioned embodiment, the ordinary computer is adopted as the terminal on the side of each office, but the present invention is not limited to this. That is, a personal digital assistant (PDA) having a communication function may be used as the terminal. In addition, specific configurations and structures when implementing the present invention,
Other configurations may be adopted as long as the object of the present invention can be achieved.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a configuration of a recycling information providing system according to an embodiment of the present invention.

FIG. 2 is a schematic diagram showing a procedure for receiving a discard target in the embodiment.

FIG. 3 is a schematic diagram showing a procedure of disassembling a disposal target in the embodiment.

FIG. 4 is a schematic diagram showing a structure of a recycling information providing server in the embodiment.

FIG. 5 is a schematic diagram showing a structure of a registered trader database in the embodiment.

FIG. 6 is a schematic diagram showing a structure of a scrap car information database in the embodiment.

FIG. 7 is a schematic diagram showing a structure of a necessary raw material information database in the embodiment.

FIG. 8 is a schematic diagram showing a structure of a steel type / weight database for each model in the embodiment.

FIG. 9 is a schematic diagram showing a structure of a steel type / weight database for each component in the embodiment.

FIG. 10 is a schematic diagram showing a structure of a disassembly man-hour database in the embodiment.

FIG. 11 is a schematic diagram showing a structure of a cut volume reduction coefficient database in the embodiment.

FIG. 12 is a schematic diagram showing the structure of a steel type price database in the embodiment.

FIG. 13 is a flowchart for explaining the operation of the above embodiment.

FIG. 14 is a flow chart for explaining the operation of the embodiment.

FIG. 15 is a flow chart for explaining the operation of the embodiment.

FIG. 16 is a screen example showing the disclosure of production information in the embodiment.

[Explanation of symbols]

1 ... Construction machinery (industrial machinery), 2A, 2B, 2C, 2D ...
Terminal, 10 ... Server, 32 ... Disposal target information collecting means, 3
4 ... Production information generating means, 35 ... Disassembly processing time calculating means,
38 ... Matching means, 39 ... Production information presenting means, 40
... production information disclosure means, 53 ... required raw material information database (necessary raw material information storage means), 56 ... disassembly man-hour database (disassembly man-hour storage means), 57 ... cutting volume reduction required coefficient database (volume reduction required coefficient storage means), S8 … Disposal target information collection procedure, S13… Disassembly processing time calculation procedure

Claims (7)

[Claims] 1. Dismantling a discarded industrial machine (1),
A recycling information providing system for an industrial machine, which provides recycling information of a recycled material to produce a new recycled material using the constituent members as a raw material, wherein the industrial machine (1) is disassembled according to a model and a device part. Disassembling man-hour storage means (56) that has accumulated the information, disposal target information collecting means (32) that collects information on the industrial machine (1) to be discarded, and industrial machine (1) related to the collected disposal target information Regarding the above, there is provided disassembly processing time calculation means (35) for calculating the disassembly processing time for each device part to be discarded based on the disassembly man-hours accumulated in the disassembly man-hour storage means (56). Recycling information provision system for industrial machinery. 2. The recycling information providing system for an industrial machine according to claim 1, wherein a volume reduction required coefficient accumulating means (a volume reduction necessary coefficient accumulating means for accumulating the volume reduction necessary coefficient for each device part accumulated in the disassembly man-hour accumulating means (56)). 5
7), wherein the decomposition processing time calculating means (35) calculates the decomposition processing time also using the volume reduction necessary coefficient accumulated in the volume reduction necessary coefficient accumulating means (57). Recycling information provision system for industrial machinery. 3. The recycling information providing system for an industrial machine according to claim 1 or 2, wherein the discard target information acquired by the discard target information collecting means (32) and the disassembly processing time calculating means (35). ) Production information generating means (34) for calculating and producing production information including the production time and production amount of the regenerated raw material based on the decomposition processing time calculated in (4), and the produced production information of the regenerated raw material, And a production information presenting means (39) for presenting to a person. 4. The recycling information providing system for an industrial machine according to claim 3, wherein each means is a server (10) and a plurality of terminals (2).
A, 2B, 2C, 2D) are connected on a network system, and necessary raw material information storage means (53) for storing necessary raw material information of the recycled material manufacturer, and necessary raw material information storage means (53). Matching means (3) for matching the necessary raw material information accumulated in the production information with the production information generated by the production information generating means (34).
8) and, when the matching results in a surplus of recycled raw materials, the production information disclosing means (40) for disclosing the surplus on the network system. Offer system. 5. The recycling information providing system for an industrial machine according to any one of claims 1 to 4, wherein the system is used to recycle a steel material constituting an abandoned industrial machine (1). A system for providing recycling information for industrial machinery. 6. Dismantling the discarded industrial machine (1),
A method for providing recycling information of an industrial machine, which provides recycling information of a recycled material in order to produce a new recycled material using the constituent members as a raw material, wherein the computer provides information on the industrial machine (1) to be discarded. Regarding the disposal target information collection procedure (S8) to be collected and the collected disposal target information, the industrial machine (1)
Based on the disassembly man-hours obtained by the disassembly man-hour storage means (56) that accumulates the disassembly man-hours for each machine type and device parts, the disassembly process time calculation procedure for calculating the disassembly process time for each device part to be discarded ( S13) is provided, The recycling information provision method of the industrial machine characterized by the above-mentioned. 7. Dismantling the discarded industrial machine (1),
A program for causing a computer to execute a method for providing recycling information of an industrial machine that provides recycling information of a recycled material, in order to produce a new recycled material using the constituent members as a raw material, and the industrial machine to be discarded. Disposal target information collection procedure (S8) for collecting information of (1), and the collected disposal target, by type of the industrial machine,
Disassembly man-hour storage means that stores disassembly man-hours for each device part (5
A program for causing a computer to execute a disassembly processing time calculation procedure (S13) for calculating a disassembly processing time for each device part to be discarded based on the disassembly man-hour obtained from 6).