JP5320103B2 - Waste management system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a waste management system capable of performing unitary management of when and what company collects what kind of waste from which property and brings the waste to which repository site. <P>SOLUTION: A person in charge of transportation measures weight of a waste collection bag 11 with an electronic balance 13, reads a tag number of an IC tag 12 with a portable terminal 15, and registers a vehicle number, the person in charge of transportation, a communication camera ID, and a collection date and time, etc. in the portable terminal 15. Then, an industrial waste treatment company measures the weight with the electronic balance 13, reads the tag number of the IC tag 12 with the portable terminal 15, registers the tag number in the portable terminal 15 with an unloading date and time, etc., and after that, transmits information transmitted to the portable terminal of the industrial waste treatment company to a base server 311 via the communication network 60. Meanwhile, the base server 311 sets aside information transmitted to a communication camera having a photography date immediate before a collection date of the information transmitted to the portable terminal of the industrial waste treatment company, and manages this photographed image by being associated with the information transmitted to the portable terminal of the industrial waste treatment company. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a waste management system, and in particular, industrial waste generated for each process in new construction, rebuilding, and renovation is collected by a collector, and then delivered to an industrial waste disposal contractor (also collectively referred to as an industrial waste contractor). The present invention relates to a waste management system that collectively manages the flow of waste up to and managing waste with images.

  In general, when a house is constructed or dismantled, a wide variety of industrial waste (hereinafter simply referred to as waste) is generated. For example, about 300 bags of waste per site (increase / decrease depending on construction area and site area) are generated at a new construction site.

  In order to dispose of the waste, the person in charge of the site contacts the collection and transportation company when the waste is full, and determines the date and time for collecting the waste. Then, in the presence of the person in charge at the site, the waste is collected.

  In other words, the date and time for collecting the waste is determined based on the date and time when it is convenient for the waste collector and the date and time when the person in charge of the site is present.

  For this reason, the person in charge of the site may have to give priority to the time of the site visit over the schedule for the construction or dismantling of the house.

  In addition, waste generated when constructing or dismantling houses must be treated appropriately based on the Waste Disposal Law (Act on Waste Disposal and Cleaning).

  For this reason, most construction waste treatment is currently operated and managed by the paper manifest (manifest system).

  In this manifest system, when the discharger entrusts the disposal of waste, the type, quantity, name of the carrier, etc. of the waste are entered in the paper manifest, and the paper manifest is delivered with the waste from the supplier to the supplier. This is to confirm the flow of processing.

  With this manifest system, after each treatment, the waste collector receives an industrial waste management table (hereinafter referred to as a paper manifest) that states the end of treatment from each supplier, and confirms that the waste has been treated as entrusted. it can. As a result, it is possible to prevent environmental pollution and illegal dumping, which has become a social problem, due to inappropriate processing.

  There are a plurality of paper manifests, each of which must be handwritten to describe the type of waste, the location of the waste, etc. Also, since it is handwritten, it is easy to tamper with, and there is still illegal dumping. For this reason, as shown in Japanese Patent Laid-Open No. 8-277020 (Patent Document 1), in recent years, there is a paper manifest that automatically creates a paper manifest (electronic manifest).

  However, Patent Document 1 carries an IC card storing manifest information together with a truck (a truck loaded with waste), and is not managed in units of waste.

  For example, Japanese Patent Laid-Open No. 2006-215857 (Patent Document 2) discloses that an IC tag can be attached to a waste container and managed in units of waste.

  This patent document 2 reads the tag information of an IC tag attached to a waste container with an IC tag with a handy terminal, transmits this read information to a mobile phone, and the mobile phone adds the current position to the data management center. Send.

  The data management center transmits the scheduled collection date and time of the collection company that can collect the received tag information (type, weight, etc.) to the handy terminal.

  Japanese Patent Application Laid-Open No. 2004-277060 (Patent Document 3) uses a JWNET (Japan waste Network: an electronic manifest system operated by the Japan Industrial Waste Disposal Promotion Center), so that a person concerned can easily use an electronic manifest. It is disclosed that reference can be made.

On the other hand, the disposal cost for the waste is paid in a quantity calculated by simply applying a certain calculation formula to the scale (m ³ ) of the waste.

JP-A-8-277020 JP 2006-215857 A JP 2004-277060 A

  In residential construction, dismantling, etc., there are a lot of wastes in each process, and the types vary. For example, wood chips are large in volume but light in weight. In addition, light weight, heavy and bulky items are mixed in waste collection bags (flexible bags), and even if they are separated, stuffing is sweet.

  However, conventionally, the disposal cost is simply a value based on a certain calculation formula for the scale of waste (capacity or number of waste collection bags).

  In other words, the waste disposal cost paid by the discharger to the collection carrier is not the disposal cost corresponding to the actual amount of waste discharged, but is determined by the visual bulk capacity, and the actual waste disposal cost determined by weight. There was a difference.

  In addition, the waste generated in each process is collected by the processing company at the determined date and carried to the disposal site (manifest is generated), but illegal dumping still does not disappear. In other words, even in the case of electronic manifest management using IC tags, it is not sufficient to confirm the package appearance by visual inspection only at the site.

  According to a report from the Ministry of the Environment for FY 2006, construction waste accounts for 72.6% of the number of illegally dumped waste and 68% of the amount dumped. This eradication is an important issue. Yes.

  Therefore, it is desirable to be able to manage whether or not the total amount has arrived at the treatment plant by checking with an image after confirming what kind of waste has been generated and how much in each house construction process.

  In addition, it is desirable to be able to centrally manage what kind of waste and which trader collected from which property when and from whom the site staff was not present in the collection of waste.

  The present invention relates to an on-site subsystem, an industrial waste supplier subsystem, and a house in which the building is constructed in order to manage the waste of the building discharged at the site while transporting it to the industrial waste supplier by a person in charge of transportation. A contractor's housing contractor subsystem and a server of the Japan Industrial Waste Treatment Promotion Center are connected by a communication network to register electronic manifest information in the server of the Japan Industrial Waste Treatment Promotion Center, and a photographed image of the waste Is a waste management system that manages the predetermined information together with the housing contractor subsystem.

The field subsystem is
An IC tag attached to a waste collection bag containing the waste discharged at the site, a portable terminal, an electronic scale for measuring the weight of the waste collection bag, and a communication terminal with a photographing function And consist of
The communication terminal with photographing function is
A means for transmitting photographed transmission information including the photographed image of the waste collection bag photographed, the photographing date and time, and the ID of a communication terminal with a photographing function to the housing contractor subsystem;
The portable terminal is
When receiving the tag number of the IC tag and the weight from the electronic scale after inputting the collection instruction, the ID of the communication terminal with the photographing function, the collection date and time, the entered vehicle number, the type of waste and the transport Means for storing mobile terminal capture information at the time of collection for each tag to which the person-in-charge information is added;
After receiving the unloading instruction, when receiving the tag number of the IC tag and the weight from the electronic balance, at least the ID of the communication terminal with the photographing function is added to the tag. And means for storing
The industrial waste company subsystem includes an industrial waste company terminal,
The industrial waste terminal is
The mobile terminal capture information at the time of collection for each tag and the mobile terminal capture information at the time of unloading for each tag stored in the mobile terminal are received and transmitted to the housing contractor subsystem as industrial waste operator mobile terminal transmission information. With means,
The homeowner subsystem is:
Comprising a backbone server, the backbone server comprising:
It means for receiving and storing the captured transmission information from the imaging function communication terminal of the current Basa blanking system,
Means for receiving and storing said industrial waste mobile terminal transmission information from said industrial waste terminal;
Reading of the collection date and the ID of the communication terminal with the photographing function of the transmission information transmitted from the industrial waste portable terminal, the photographing having the ID of the communication terminal with the photographing function, and having the photographing date and time immediately before the collection date and time Means for extracting the photographed image included in the transmission information;
The gist of the present invention is that the extracted photographed image is associated with the industrial waste / personal worker mobile terminal transmission information having the collection date and time and is stored as housing contractor waste confirmation information.

  As described above, according to the present invention, a waste collection bag with an IC tag in which waste is stored is photographed by a person in charge of the field by a communication terminal (communication camera) with a photographing function arranged on the site side. To the main server of a housing contractor. In addition, the weight of the waste collection bag is measured with an electronic balance carried by the person in charge of transportation, and this weight, the tag number of the IC tag, the ID of the communication terminal with the photographing function, the vehicle number, the person in charge of transportation Etc. are stored as portable terminal capture information at the time of collection for each tag.

  And when it is carried down to the industrial waste disposal side, the tag number is read again by the portable terminal, the weight is measured by the electronic scale, the waste is evaluated for separation, and these tags are taken into the portable terminal at the time of unloading. Register it in the mobile terminal as information.

  In addition, the industrial waste company measures the total weight of each type of waste in the mobile terminal capture information at the time of unloading of each tag, and sends it to the backbone server as industrial waste mobile terminal transmission information that combines this measurement value. The core server allocates the shooting transmission information from the communication terminal with the shooting function having the shooting date and time immediately before the collection date of the mobile terminal transmission information for the industrial waste operator, and associates the captured image with the transmission information for the mobile terminal of the industrial waste house. Managed as vendor waste confirmation information.

  For this reason, from this industrial waste mobile terminal transmission information and captured images, it is immediately known when and who carried in what car and dropped the waste collection bag, and depending on the captured image, the type of waste, capacity, etc. Can determine whether it is appropriate.

It is a schematic block diagram of the waste management system of this Embodiment. 2 is a schematic configuration diagram of a central center 310. FIG. 2 is a schematic configuration diagram of a backbone server 311. FIG. It is explanatory drawing explaining basic | foundation basic information. It is explanatory drawing explaining basic | foundation basic information. It is explanatory drawing explaining a waste classification code. It is a sequence diagram explaining operation | movement of the waste tracking management system of this Embodiment. It is a sequence diagram explaining operation | movement of the waste tracking management system of this Embodiment. It is a sequence diagram explaining operation | movement of the waste tracking management system of this Embodiment. It is explanatory drawing explaining the conveyance vehicle information A1 and the conveyance person information A2. It is explanatory drawing explaining the information for HT. It is explanatory drawing explaining communication camera initial setting information. It is explanatory drawing explaining the picked-up image of the waste collection bag with an IC tag. It is explanatory drawing explaining communication camera transmission information. It is explanatory drawing explaining the flow of a process at the time of collection | recovery of HT on a screen. It is explanatory drawing explaining the flow of a process at the time of collection | recovery of HT on a screen. It is explanatory drawing explaining the flow of a process at the time of collection | recovery of HT on a screen. It is explanatory drawing explaining HT taking-in information at the time of collection | recovery for every tag. It is explanatory drawing explaining the flow of a process at the time of unloading of HT on a screen. It is explanatory drawing explaining the flow of a process at the time of unloading of HT on a screen. It is explanatory drawing explaining HT taking-in information at the time of every tag unloading. It is explanatory drawing explaining industrial waste company HT transmission information. It is explanatory drawing explaining industrial waste header information and HT detailed information. It is explanatory drawing explaining the information with an industrial collection | recovery photograph. It is explanatory drawing explaining industrial waste collection item total information. It is explanatory drawing explaining JWNET registration information. It is explanatory drawing explaining JWNET conveyance completion report information. It is explanatory drawing explaining the housing contractor industrial waste confirmation information.

  This embodiment is a system that integrates and manages via a handy terminal a package picture of a waste photographed by a communication terminal with a photographing function, IC tag information for each waste, data by residence, and measured weight data by an electronic scale. It also contributes to the eradication of illegal dumping by realizing accurate traceability by maintaining and matching each date and time information and weight data at the waste collection and disposal stages.

  In the present embodiment, waste generated in a newly built house will be described as an example. Further, in this embodiment, a communication terminal with a photographing function (including a mobile phone, for example) will be described using a digital camera with a communication function as an example.

  FIG. 1 is a schematic configuration diagram of a waste management system according to the present embodiment. As shown in FIG. 1, a waste management system (also referred to as a waste trace system) includes an on-site subsystem 10, an industrial waste supplier subsystem 20 (intermediate disposal company or waste collection and transporter), a housing contractor subsystem 30, and Japan. An industrial waste processing promotion center server 40 (hereinafter referred to as JWNET server 40) and a disposal company subsystem 50 (including an intermediate disposal company and a final disposal company) are connected by a communication network 60, and discharged from the on-site subsystem 10. The captured image of the waste is transmitted to the housing contractor subsystem 30 via the communication network 60 and managed.

(Overview)
The on-site subsystem 10 includes an IC tag 12 attached to a waste collection bag 11 containing waste, an electronic scale 13, a digital camera 14 with communication function (hereinafter referred to as communication camera 14), a portable terminal ( Handy terminal) 15 (hereinafter referred to as HT15).

  The IC tag 12 is sent in advance from the housing contractor to the person in charge of the site or the person in charge of transportation. The communication camera 14 is sent in advance from the housing contractor to the person in charge of the site. Further, the HT 15 and the electronic scale 13 are sent in advance to the industrial waste disposal company from the housing contractor, and the person in charge of transportation of the industrial waste disposal company brings the HT 15 and the electronic scale 13 to the site at the time of collection. The HT 15 may have a Bluetooth function (low-power proximity wireless communication function), but in this embodiment, it has a function of outputting memory data when connected to a cradle, which will be described later, instead of Bluetooth. To do.

  Then, the person in charge at the site collects the waste collection bag 11 in one place and attaches the IC tag 12 to the waste collection bag 11. Next, the industrial waste disposal company takes a picture of these waste collection bags 11 using the communication camera 14 (appearance of the whole waste collection bag at the time of collection: packing form). At this time, the photographed image is transmitted to the housing contractor subsystem 30 together with at least the photographing date and time, the communication camera ID, the position information (GPS) of the communication camera 14, etc. (referred to as communication camera transmission information).

  After taking the picture, the person in charge of transportation at the industrial waste disposal company brings the HT 15 and the electronic balance 13 to the site, and the ID of the communication camera 14 placed on the site is registered by this HT 15 and each waste collection bag is stored. Then, the tag number (unique code) of the IC tag 12 is read by the HT 15, and the weight of the waste collection bag 11 is measured with the electronic balance 13 for each one and mounted on the vehicle. The weight measured by the electronic balance 13 is transmitted to the HT 15, and the HT 15 collects each tag together with the collection date / time, weight, transporter information (industrial waste trader, transporter, vehicle number), communication camera ID, etc. It is stored in the internal memory of the HT 15 as time HT capture information.

  On the other hand, the industrial waste sub-system 20 includes a connection terminal 22 (hereinafter referred to as a cradle 22) for connecting the industrial waste trader terminal 21 and the HT 15.

  The person in charge of transportation brings the collected waste collection bags 11 (many) to the industrial waste disposal company by the vehicle (HT 15 and electronic scale 13 are also brought in at the same time). Then, for each bag, the tag number of the IC tag 12 is read by the HT 15, the weight is measured by the electronic balance 13, and the waste separation evaluation information is registered. At this time, for each tag number, the HT 15 stores the weight, the unloading date / time, the carrier information, the waste classification evaluation information, etc. in the internal memory of the HT 15 as the HT loading information at the time of unloading for each tag.

  When the weights of all the IC tags 12 and the waste collection bags are stored in the HT 15, the person in charge of transportation connects the HT 15 to the cradle 22. The HT 15 transmits all the information in the internal memory of the HT 15 to the industrial waste terminal 21, and the industrial waste terminal 21 transmits the HT capture information at the time of collection for each tag and the unloading HT capture information for each tag to the industrial waste company HT. Information is transmitted to the housing contractor subsystem 30 via the communication network 60.

  In other words, from the industrial waste disposal subsystem 20, information on when and who collected what kind of waste in which vehicle, and where and what amount of waste and what kind of waste in which vehicle at what time and where. This information is transmitted to the central center 310 of the housing contractor subsystem 30.

  For this reason, the housing contractor can grasp whether or not the weight and type of the collected waste are all properly lowered and whether the waste is properly sorted.

  The disposal company subsystem 50 includes a disposal company terminal 51, but includes a cradle 22 for connecting the HT 15 in place of the industrial waste company subsystem 20, and uses the disposal company terminal 51 instead of the industrial waste company terminal 21. Thus, the operation of the industrial waste company subsystem 20 described above may be performed by the disposal company subsystem 50.

  Therefore, the present invention can be implemented in any combination of processing function sharing between the industrial waste disposal subsystem 20 and the disposal contractor subsystem 50.

  On the other hand, the housing contractor subsystem 30 is an information system company having a central center 310 having at least a backbone server 311, an electronic data exchange (EDI) server 312, an initial setting terminal 321 (hereinafter also referred to as a terminal 321), and the like. 320, a head office 330 having a terminal 331 and the like, a branch 340 having a branch terminal 341 and the like, and are connected by a dedicated line 70 (LAN).

  In the information system company 320 described above, the terminal 321 refers to the central server 311 of the central center in which the customer code (property code), branch number, vehicle number, industrial waste company, person in charge, etc. are stored, and the electronic scale 12, HT15 Initial information is set in the communication camera 14. And the communication camera 14 is sent to a housing contractor, and the electronic balance 13 and HT15 are sent to an industrial waste disposal contractor.

  As shown in a schematic configuration diagram of the core server 311 in FIG. 3 to be described later, the core server 311 stores basic basic information H including property information, industrial waste company information, disposal company information, and the like in advance.

  Then, after the backbone server 311 stores the communication camera transmission information from the on-site subsystem 10, when the industrial waste supplier HT transmission information D is received from the waste supplier subsystem 20, the communication camera ID of the industrial waste company HT transmission information D is received. Search all communication camera transmission information having

  Then, a photographic image (also referred to as a photographic image) of communication camera transmission information having a shooting date and time immediately before the collection date and time of all the tag-specific collection HT capture information included in the industrial waste disposal HT transmission information D It is extracted as a photographic image of all the waste collection bags (collected in large numbers) of the carrier information (industrial waste supplier, transporter, vehicle number) collected from (the property or customer) immediately before the collection date.

  Then, this is linked to predetermined information (communication camera ID, delivery date, apparent capacity...: Industrial waste header information D1) of the industrial waste trader HT transmission information D, and the property code associated with the communication camera ID is displayed. The added information E1 with industrial waste collection photo is stored.

  Furthermore, in predetermined information (detail number, tag number, communication camera ID, delivery date, collection date / time, unloading date / time, quantity, weight, waste type,...: HT detail information D2) of the industrial waste disposal company HT transmission information D The linked industrial waste collection item total information E2 is stored.

  Then, information F (JWNET emission registration information F) in which the property code, delivery date, waste type, and packing form included in the industrial waste header information D1 and the HT details information D2 are added with predetermined information defined by JWNET. Is generated and registered in JWNET and JWNET transport end report information G is generated and transmitted to the JWNET server 40 (manifest number is added on the JWNET side).

  FIG. 2 is a schematic configuration diagram of the central center 310. As shown in FIG. 2, the central center 310 includes a web server 313, a mail server 314, a backbone server 311, an EDI server 312, a terminal 315, and the like, which are connected by a LAN 70.

  As shown in FIG. 3, the core server 311 includes a first storage unit 311a, a second storage unit 311b, a third storage unit 311c, a fourth storage unit 311d, and a fifth storage unit 311e. And storage means such as sixth storage means 311f, seventh storage means 311g, eighth storage means 311h, and ninth storage means 311i.

  The core server 311 includes a communication camera information capturing unit 311j, a photographic image search unit 311k, a photographic image link attaching unit 311p, an HT transmission information capturing unit 311m, an industrial waste header / HT specification creating unit 311q, A totaling unit 311r, a JWNET registration information creating unit 311s, a JWNET transportation end report information creating unit 311t, and a sending unit 311v are provided.

(Description of each storage means)
As shown in FIG. 4-1 (a), the first storage means 311a includes basic property information H1 (property code, property name, construction jurisdiction) and property information H3 (property code, production window,... ), Management information H4, trader information H5 (business establishment code,...), Etc., as shown in FIG. 4-2 (b), waste item information H6, packing code information H7, branch Information H8, disposal method information H9, etc. are stored. Further, as shown in FIG. 4-2 (c), collection / delivery company-disposal company association information H10 and jurisdiction replacement information H11 are stored. In addition, information such as disposal contractor information and subcontractor information is stored.

  The above-described waste item information H6 includes industrial waste major classification code, middle classification code, etc. (waste item type) (see FIG. 5).

  The second storage unit 311b stores HT information, communication camera information, collection trader (also referred to as a transporter) -disposal trader association information, etc. generated by the information system company 320, which will be described later.

  The third storage means 311c stores communication camera transmission information C, which will be described later. The fourth storage means 311d stores industrial waste supplier-side HT transmission information D, which will be described later.

  The fifth storage means 311e stores industrial waste header information D1 and HT detailed information D2, which will be described later. The sixth storage means 311f stores information E1 with industrial waste collection photo, which will be described later. The seventh storage means 311g stores industrial waste collection item total information E2, which will be described later.

  The eighth storage unit 311h stores JWNET discharge registration information F described later. The ninth storage means 311i stores JWNET transportation end information G and the like.

(Description of each part)
The communication camera image information capturing unit 311j receives the communication camera transmission information C from the communication camera 14, and stores it in the third storage unit 311c.

  The HT transmission information capturing unit 311m stores the industrial waste supplier-side HT transmission information D transmitted from the industrial waste supplier 20 in the fourth storage unit 311d.

  The industrial waste header / HT specification creation unit 311q creates industrial waste header information D1 for each collection based on the industrial waste manufacturer HT transmission information D stored in the fourth storage means 311d, and HT specification information for each bag. D2 is generated and stored in the fifth storage unit 311e.

  The photographic image search unit 311k collects the collection date and time of the HT read information for each tag included in the HT transmission information D stored on the industrial waste company side stored in the fourth storage unit 311d, the communication camera ID, the transport vehicle number, and the transport manager. Person, tag number, etc. are extracted. Then, all the communication camera transmission information C having this communication camera ID is searched from the third storage means 311c, and the communication camera transmission information C having the previous collection date and time is assigned from these to the collection date and time.

  The photographic image link attaching unit 311p adds the industrial waste header information D1 (header number, header number, and the like) stored in the fifth storage unit 311e to the photographic image included in the communication camera transmission information C assigned from the third storage unit 311c. The information E1 with industrial waste collection photo to which the communication camera ID... Is added is generated and stored in the sixth storage means 311f.

  The counting unit 311r reads all the HT details information D2 having the delivery date (the date and time when the waste is collected) and the communication camera ID of the industrial waste header information D1 of the fifth storage unit 311e, and for each type of waste. The number and the like are totaled, and the total result is stored in the seventh storage unit 311g (industrial waste collection item total information E2).

  The JWNET registration information creation unit 311s reads the property code, delivery date,... Of the industrial waste collection item total information E2 stored in the seventh storage unit 311g, and reads the first storage unit 311a and the second storage unit. JWNET discharge registration information F obtained by reading and combining predetermined information for registering in JWNET from the means 311b is generated and stored in the eighth storage means 311h.

The JWNET transportation completion report information creation unit 311t provides the JWNET transportation completion report information G (property code, delivery date, waste type, vehicle number, transportation amount, transportation person, etc.) based on the JWNET emission registration information F. 9 storage means 311i.

  The sending unit 311v outputs the JWNET transportation end report information G in the ninth storage unit 311i in a predetermined format to the EDI server 312 and sends it to the JWNET server 40 (the JWNET side adds a manifest number).

(Overall explanation)
6, 7 and 8 are sequence diagrams for explaining the operation of the waste tracking management system of the present embodiment. In this embodiment, it is assumed that there is one industrial waste company, one HT 15, an electronic scale 13, and one IC tag 12.

  As shown in FIG. 6, the person in charge of the information system company 320 obtains a large number of HT 15 and electronic balance 13, operates HT 15, and electronic balance terminal ID and communication address described on the bottom surface of electronic balance 13. In addition, the portable terminal number is registered in the HT 15, while the portable terminal number, the communication address, and the electronic balance terminal ID of the HT 15 are registered in the electronic balance 13 and linked to each other (d 1). This registration data is registered and managed in the initial setting terminal 321 (information system company 320) by EXCEL.

  Then, the person in charge of the information system company 320 sends the HT 15 and the electronic balance 13 to the industrial waste disposal company in charge of transporting the waste of the customer's house (d2).

  In addition, the information system company 320 is notified by fax, telephone, or e-mail in advance of vehicle numbers and names of persons in charge of transportation of many industrial waste vehicles from branches or industrial waste disposal companies (in this embodiment, industrial waste disposal companies) nationwide. (D3).

  The person in charge of the information system company 320 operates the terminal 321 to open a table (not shown) for inputting information from the industrial waste company, and displays the organization code (industrial waste company code) and all the vehicle numbers informed. The person in charge of transportation is input (d4), and this is transmitted to the core server 311 of the central center 310 via the dedicated line 70 to be registered (d5). That is, transport vehicle information A1 and transporter information A2 as shown in FIG. 9 are registered in the second storage unit 311b of the backbone server 311.

  Next, a person in charge of the information system company 320 operates the initial setting terminal 321 to input a JWNET waste classification code (waste type classification code), a waste name, and a waste abbreviation (FIG. 5). Open (see) and input (d6).

  Also, open and enter a table (not shown) for entering the collection carrier JWNET subscriber number and collection carrier name (d7), and enter the JWNET package code and package name (rose, bag). Open and enter a table (not shown) for inputting (d8), and further open and enter a table (not shown) for entering the administrator password (d9). Then, it is referred to as HT information (see FIG. 10) and is registered in the second storage means 311b, and then transmitted to the industrial waste terminal 21 via the communication network 60 (d10). Of course, if there are other industrial wastes, information for HT is created for the industrial wastes and it is sent to the wastes.

  On the other hand, the person in charge of transportation of the industrial waste company connects the HT 15 delivered from the housing contractor to the cradle 22, and registers the information for HT received from the core server 311 by the industrial waste company terminal 21 in the HT 15 (d11a). .

  Accordingly, since the industrial waste disposal company only receives and registers the HT information from the housing contractor subsystem 30, it cannot enter the core server 311 and change the HT information. This is effective in preventing fraud.

  Furthermore, the person in charge of the information system 320 company sends the communication camera 14 (with communication camera terminal ID: communication camera ID) to the branch 340 (d12).

  On the other hand, the person in charge of the branch office 340 accesses the backbone server 311 by operating the branch terminal 341, displays various information shown in FIG. 4 on the screen, and associates the customer code and the branch code with the communication camera ID ( The communication camera initial setting information M11 (refer to FIG. 11) is registered via the communication network 60 (d14).

  The communication camera initial setting information M11 includes a communication camera ID (communication terminal unique number)... Customer code, a deletion flag F, and the like as shown in FIG. The deletion flag F is used to delete these data when the communication camera 14 is used for another property.

  The person in charge of the branch office 340 operates the branch terminal 341 to register the folder job name setting information M12 in the basic server 311 via the dedicated line 70 (see FIG. 11) (d15).

  This folder job name setting information M12 includes a communication camera ID (communication terminal unique number), a branch number, a folder ID, a job name, a customer code, a status F (flag), and the like.

  The folder ID is a unique number from “1” to “10”, “1” is a folder in charge of production / construction shop, “05” is a folder of an air conditioner, and “10” is a folder of an industrial waste company. It is said. In this embodiment, “10” is registered.

  The state F (flag) is a flag indicating that the communication camera 14 is in use, unused, or unavailable.

  Then, the branch terminal 341 transmits and registers the communication camera initial setting information M11 and the folder job name setting information M12 to the backbone server 311 via the dedicated line 70.

  That is, the communication server initial setting information M11 and the folder task name setting information M12 shown in FIG.

  Next, the communication camera 14 is sent from the branch 340 to the person in charge of the site, and the person in charge of the field stores the communication camera 14 in the equipment storage box (builder box) (d18).

  The person in charge at the branch 340 sends the IC tag 12 storing the tag number (unique code) to the person in charge at the site (d19).

  Next, the person in charge of the site puts the waste in the waste collection bag 11 every time the waste is discharged, and attaches the IC tag 12 to the waste collection bag 11 (d20).

  Then, as shown in FIG. 12, when the waste collection bag containing the waste is accumulated, the person in charge of transportation (or a person in charge of the site) takes a picture with the communication camera 14, as shown in FIG.

  When the photographing key is pressed, the communication camera 14 stores the photographed photograph image in the internal memory (d22). At this time, a photo number is added and stored.

  Next, when the transmission button is pressed, the communication camera 14 transmits the captured image stored in the internal memory as an attached file to the backbone server 311 of the central center 310 for registration (d23a). At this time, the communication camera transmission information C to which the mail ID, the transmission date / time,... The mail text (photographed image information C1) and the image attached information (camera maker name, recorded image size, etc.) are added is transmitted (see FIG. 13). .

  On the other hand, the communication camera information capturing unit 311j of the backbone server 311 receives the communication camera transmission information C and stores it in the third storage unit 311c (d23b).

  The person in charge of transportation operates the HT 15 and inputs the actual vehicle number, the person in charge of transportation, the apparent capacity of the collected waste collection bag 11, the presence / absence of transshipment storage, and the like (d24).

  Then, the IC tag 12 is read by the HT 15 for each bag (d25). Further, the electronic balance 13 measures the weight of the waste collection bag 11 for each bag, and the HT 15 receives this weight and registers it in the internal memory (d26). The HT 15 and the electronic balance 13 have a Blue Tooth (small power short-range wireless) function.

  Further, using HT15, the packing form, the type of waste (large classification code, medium classification code, small classification code), the collection date, etc. are input. That is, in the internal memory of the HT15, the HT capture information at the time of collection for each tag including the HT terminal ID, the communication camera ID, the input transport vehicle number and the transporter, the apparent capacity, the package appearance, and the collection date and time. Is registered.

  After carrying out these input processes, the person in charge of transportation loads the waste collection bag 11 that has come out in the field on the transport vehicle and carries it to the intermediate treatment plant (waste treatment plant) (d28).

  The aforementioned d24 to d26 will be described in detail below.

  In the present embodiment, in the information system company 320, the HT 15 determines whether the password, the trader's code of the industrial waste disposal company, the weight at the time of collection, the weight measurement at the time of unloading, or the weight measurement at the time of collection and unloading Is set. The address of the electronic balance 13 is set. Further, a description will be given assuming that a program for HT15 has been downloaded.

  The person in charge of transportation of the industrial waste company uses the HT 15 to perform the processes shown in FIGS. 14 and 15 below.

  First, the person in charge of transportation turns on the power supply of the HT 15 (S1), and displays a waste processing start-up screen (S2). Next, the start button F3 is selected to display a start-up screen and the vehicle number on which the person in charge of transportation actually rides is input (S3).

  When the vehicle number is input on the screen of step S3, the confirmation F3 is selected and the person in charge screen is displayed to select the actual person in charge of transportation (S4).

  When the person in charge of transportation is entered on the screen of step S4, the confirmation F3 is selected and the worker confirmation screen is displayed (S5).

  Next, when the confirmation F3 is selected on the screen of step S5, the HT 15 stores these pieces of information in the internal memory as transporter / vehicle information. Then, a menu screen is displayed and any menu is selected (S6). In the present embodiment, the collection work is selected, and an initial screen for the collection work is displayed (S7). On this collection work screen, a communication camera ID (camera code) is input. For the communication camera ID (camera code), a barcode label (not shown) attached to the communication camera 14 is input by scanning or a numeric keypad.

  Then, the HT 15 displays a selection screen for whether or not transshipment storage is performed by selecting the confirmation F3 on the screen of step S7 (S8). In this embodiment, “None” is selected.

  Next, when the confirmation F3 is selected on the screen of step S8, the apparent capacity screen is displayed and the apparent capacity is input (S9).

  In the screen of step S9, the HT 15 displays a packing form selection screen by selecting the confirmation F3 (S10). In this embodiment, a bag is selected. When the confirmation F3 is selected after selecting the packing form on this screen, the HT 15 displays an IC tag reading screen as shown in FIG. 15-1 (S11b). On this screen, the current number of IC tags read and the packing state are displayed.

  Then, according to the instruction on this screen, the person in charge of transportation causes the tag number of the IC tag 12 to be read using the HT 15. The IC tag read information is stored in the memory (S12).

Further, a waste type selection screen is displayed on the screen as the tag number is read (also referred to as scanning) (S13, S14, S15). If there is further a waste collection bag, return F1 is selected on this waste type selection screen, and the screen returns to the screen of step S11b to read the tag number of the IC tag again (S16).
Further, when the confirmation F3 is selected on the waste type selection screen, it is determined whether or not the input is the weight of the waste as shown in FIG. 15-2 (S17).

  The electronic balance 13 and the HT 15 have a Blue Tooth function (low power proximity radio). As shown in FIG. 6, when the waste collection bag 11 is placed on the electronic balance 13, the disposal measured through communication with the HT 15 is performed. The weight of the product collection bag 11 is transmitted.

  When the weight is input, the HT 15 displays a weight acquisition screen (S18). In the weight acquisition screen, when inputting manually, the switch F2 is selected and the weight is input (S19).

  When the confirmation F3 is selected on the screen of step S18, a collection work confirmation screen is displayed (S20).

  When confirmation F3 is selected on the collection work confirmation screen in step S20, as shown in FIG. 15-1, the process returns to step S10 in FIG. 14 (S21), and the tag number of the IC tag of the next waste collection bag 11 is returned. Is read and the processing of steps 11 to S20 is performed.

  Further, when the list F2 is selected in step S10 of FIG. 14, the registration information stored in the memory is read, and the collection list screen is displayed in which the number is collected for each waste type and the weight is added for each type. (S22, S23 in FIG. 15-1).

  That is, the weight is measured for each waste collection bag, and the HT capture information at the time of collection for each tag including the tag number, the packing form, the waste item type, the collection date and time, the communication camera ID, the vehicle number, etc. ) Is registered in HT15.

  The above is recovery. Next, unloading will be described with reference to FIG.

  For unloading, as shown in FIG. 7, when the vehicle arrives at an industrial waste disposal company (intermediate processing site), the tag number is read by the HT 15 for each bag (d30). Moreover, the weight of the waste collection bag 11 is measured with the electronic balance 13 for every bag. The electronic balance 13 communicates with the HT 15 using Blue Tooth, and the HT 15 receives this and stores it in the memory (d31). These are associated with each tag number and stored as HT loading information at the time of unloading for each tag (see FIG. 18).

  Then, the person in charge of the intermediate processing company (may be the person in charge of transportation) sets the HT 15 in the cradle 22 of the industrial waste company (d32), and collects the HT loading information and the tag loading at the time of collection stored in the memory. All the descending HT reading information is transmitted to the industrial waste terminal 21 (d33).

  The industrial waste operator terminal 21 temporarily stores all the HT loading information at the time of collection for each tag and the HT reading information at the time of unloading of each tag through the communication network 60 as industrial waste manufacturer HT transmission information to which the industrial waste supplier code is added after being temporarily stored in the memory. To the core server 311 of the central center 310 (d34).

  This unloading process will be described in detail with reference to FIG.

  As shown in FIG. 17, the person in charge of transportation operates the HT 15 to open a menu unloading screen (S30). The unloading screen in step S30 displays a screen when returning to the unloading screen after reading a plurality of waste collection bags at the time of unloading. The first time is only the message “Please read the IC tag”.

  The person in charge of transportation scans the IC tag 12 of the waste collection bag 11 using the HT 15 (S31). The HT 15 reads HT capture information at the time of collection for each tag having the scanned tag number from the memory, and displays the weight, packing form, waste type, etc. on the screen (S32).

  When the confirmation F3 is selected on the screen of step S32, the HT 15 determines whether or not the weight is input (S33).

  When there is an input of weight, the HT 15 opens a weight acquisition screen (S35). The person in charge places the waste collection bag 11 on the electronic balance 13 and measures the weight. That is, the actual weight is measured instead of the apparent weight. The electronic balance 13 transmits the weight measurement result to the HT 15 (Blue Tooth).

  When the weight is input from the electronic balance 13, the HT 15 displays this weight on the screen (S34). When the confirmation F3 is selected on the screen of step S34, the HT loading information at the time of unloading each tag having the read tag number is written in the memory, and the evaluation input screen is displayed as shown in FIG. 17-2 (S36). ).

  In this evaluation input screen, the classification accuracy can be selected as appropriate “◯” or inappropriate “×”. That is, it is input whether the accuracy of sorting for each waste collection bag 11 brought from the site to the industrial waste disposal company is appropriate. Thereby, effective use of resources, such as recycling and reuse, can be promoted.

  Next, when the confirmation F3 is pressed on the screen of step S36, the HT 15 writes the evaluation result in the HT loading information for each tag having the read tag number and displays the unloading information confirmation screen (S37).

  When the confirmation F3 is selected on the unloading information confirmation screen in step S37, the HT 15 calculates from the total number of tag number collection information (stored in a table structure) for each tag stored in the memory. “1” is subtracted, and it is determined whether or not there is an unloading remaining number based on whether or not the subtraction value has become “0” (S38). If it is determined that there is a remaining unloading number, the tag number is read again by returning to the unloading screen in step S30, and the weight of the next waste collection bag is measured (S39).

  When it is determined that there is no remaining in step S38, an unloading confirmation screen is displayed (S40), and when confirmation F3 is selected, the HT loading information at the time of unloading for each tag is stored in the memory (see FIG. 18). Return to the menu screen (S41).

  Furthermore, it has an unloading end screen shown in FIG. 17A (S45). This is a screen for informing whether or not the work is to be ended depending on the reading rate.

  When END is pressed on the screen in step S45, the HT 15 determines the reading rate (S46). When the reading rate is lower than the preset reading rate, a reading rate unachieved screen indicating [IC tag reading rate is not achieved] is displayed (S47).

  If it is determined that the reading rate has been reached, it is determined whether there is a remaining number. If there is a remaining number, a screen is displayed as to whether to continue or end the work (S48).

  After such processing is performed, the industrial waste trader HT transmission information described in d34 is transmitted to the central center 310. This industrial waste company HT transmission information is shown in FIG.

  On the other hand, the core server 311 of the central center 310 receives the industrial waste trader HT transmission information as shown in FIG. 7, and stores it in the fourth storage means 311d (d35a).

  Then, the industrial waste header / HT specification creation unit 311q of the core server 311 creates industrial waste header information D1 for each collection shown in FIG. 20A based on the industrial waste supplier HT transmission information, and also shown in FIG. 20B. Such HT detailed information D2 for each bag is generated and stored in the fifth storage unit 311e (d35b).

  As shown in FIG. 20A, the industrial waste header information D1 includes a header number (including an HT terminal ID), a delivery date, a communication camera ID, an actual transport vehicle number, and an actual number. Consists of the person in charge of transportation, the apparent capacity, the date of completion of transportation, and the collection subscriber number.

  That is, the industrial waste header / HT specification creation unit 311q receives all the industrial waste HT transmission information stored in the fourth storage means 311d after a predetermined date (for example, 11:00 pm after 1 day) from the collection date or the unloading date. Is extracted, and the HT transmission information that has at least the same communication camera ID and the same HT terminal ID (HT number) and has the same collection date (not including time here) is extracted.

  Then, the industrial waste header information D1 in which the collection date with the earliest date and time among the industrial waste manufacturer HT transmission information is set as the delivery date and the apparent capacity is combined is generated and stored.

For example, in House A, three wastes (waste collection bags 11 with three IC tags)
Waste 1: Collected at 9:00 on December 15 9:00 Waste 2: Collected at 9:00 on 05 December 15 Waste 3: December 15 if collected at 9:10 on December 15 9: 00 is the delivery date. The apparent capacity is an apparent capacity for three pieces.

  Further, the industrial waste header / HT specification creation unit 311q reads all the industrial waste supplier HT transmission information stored in the fourth storage means 311d after a predetermined date from the collection date (for example, 11:00 pm after 1 day), and at least Industrial waste trader HT transmission information having the same communication camera ID and the same HT terminal ID (HT number) and having the same collection date (not including time here) is extracted.

  Of these pieces of information, the unloading date and time with the latest date and time is incorporated into the industrial waste header information D1 as the transportation end date and time.

For example, three wastes in A's residence (three waste collection bags with IC tags 11)
Waste 1: Unloading at 17:00 on December 15 at industrial waste company Waste 2: Unloading at 17:00 on December 15 at industrial waste company Waste 3: Industrial waste at 17:00 on December 15 Unloading at a dealer In such a case, 15:00:10 on December 15 is the end date of transportation.

  That is, when there are a large number of waste collection bags, the date and time of the earliest reading at HT15 at the time of collection is taken as the date and time when these waste collection bags were last unloaded by the industrial waste disposal company. It is said. For this reason, it can be understood how much time it took the waste generated on this day to be transported to the disposal site.

  In addition, as shown in FIG. 20B, the HT detailed information D2 includes a header number (including an HT number), a detailed number, a delivery date, a communication camera terminal ID, and a waste type (major classification, Medium classification, small classification), packaging, waste quantity (waste weight), classification status, collection capacity, unloading date and time, tag status, transport amount (weight at unloading), etc. It is detailed information of one bag unit.

  This detail number is generated as a detail number associated with the header number every time the industrial waste trader HT transmission information is stored in the fourth storage means 311d.

For example, if the header number is 0000C00001, the specification number of the first bag is “1”, the next bag is the specification number “2” (header number is 0000C00001), and the next bag has the item number “3”. (Header number is 0000C00001).

  That is, the HT details information D2 is a combination of the delivery date, unloading date and time, HT number, tag number, waste type, and waste weight in units of one bag.

  On the other hand, as shown in FIG. 7, the core server 311 performs a photo linking process (d36). In this photo linking process, the photographic image search unit 311k sequentially reads the HT reading information at the time of collection for each tag of the industrial waste HT transmission information stored in the fourth storage means 311d, and at the time of collection for each tag HT The collection date and time of the read information, the communication camera ID, the transport vehicle number, the transporter, and the tag number are extracted. Then, all the communication camera transmission information C having this communication camera ID is searched from the third storage means 311c, and the communication camera transmission information C having the previous collection date and time is assigned from these to the collection date and time.

  For example, when the delivery date is December 1 and the collection date is December 1 at 17:00, the shooting date is December 1 at 9:00, December 1 at 12:00 am, and December 1 at 21:00 pm In this case, a photograph image of the shooting date and time at 12:00 is allocated.

  Next, the photographic image assigned by the photographic image link attaching unit 311p is used as the industrial waste header information D1 (fifth) having the unloading date and time, the communication camera ID, the transport vehicle number, and the transport person in charge of the communication camera transmission information C described above. To the storage means 311e), and the information E1 with industrial waste collection photo added with predetermined information is generated and stored in the sixth storage means 311f (d37).

  Next, the assigned photographic image of the communication camera transmission information is linked to the industrial waste header information D1 (which becomes the header of E1) and stored in the sixth storage means 311f (referred to as industrial waste collection photo-attached information E1) (FIG. 21). reference).

  Then, the totaling unit 311r reads all the HT details information D2 having the collection date and time of the industrial waste header information D1 and the communication camera ID in the fifth storage unit 311e, and totals the number and the like for each type of waste. Is stored in the seventh storage means 311g (industrial waste collection item total information E2) (d38).

  That is, industrial waste collection item information E2 as shown in FIG. 22 is stored in the seventh storage means 311g.

  For example, if the HT import information contains information on (1) waste plastic / bag / 1 kilogram, (2) waste plastic / bag / 3 kilogram, and (3) wood scrap / rose / 5 kilogram, it is discarded. Registered as plastic, bag, 4 kg, wood scrap, rose, 5 kg.

  Next, the JWNET registration information creation unit 311s reads the property code, delivery date,... Of the information E1 with industrial waste collection photo stored in the seventh storage unit 311g, and reads the first storage unit 311a and the first storage unit 311a. JWNET discharge registration information F (see FIG. 23) obtained by reading and combining predetermined information for registering in the JWNET from the second storage unit 311b is generated and stored in the eighth storage unit 311h (d39).

  This JWNET emission registration information F is generated and registered for each branch. The person in charge in FIG. 23 is the person in charge who performs the approval.

  The JWNET transportation completion report information creation unit 311t then creates a JWNET transportation termination report information G (property code, delivery date, waste type, manifest number, vehicle number, transportation amount, reporter based on the JWNET emission registration information F. ... (See FIG. 24) is created and stored in the ninth storage means 311i (d40). This transportation completion report information G is created and registered for each industrial waste supplier.

  On the other hand, as shown in FIG. 8, the person in charge at the branch 340 side accesses the basic server 311 from the terminal 341, and combines a part of the basic basic information H, the information E1 with industrial waste collection photo, and the industrial waste collection item total information E2. Information (customer code, photographic image, collection date, transportation end date (unloading), etc. (collectively referred to as housing contractor industrial waste confirmation information)) is displayed (d42).

  This housing contractor industrial waste confirmation information is shown in FIG. When photograph images are linked as shown in FIG. 25, the person in charge confirms and approves the images. When the approval is made, the approval code is added to the houser waste confirmation information and stored.

  On the other hand, the clerk of the branch office 340 accesses the basic server 311 and displays a table based on the information E1 with industrial waste collection photo, the industrial waste collection item total information E2 and the basic basic information H (d43). When predetermined information is available on this screen, it is registered (a manifest number is added) in JWNET (d44).

  At the time of registration, the sending unit 311v of the backbone server 311 passes the JWNET discharge registration information F and the JWNET transport end report information G to the EDI server 312 to convert them into JWNET format data and send them to the JWNET server 40 (d44). .

  Therefore, by referring to the data E1 and E2 on the branch 340 side, the photograph of the waste collection bag, the collection date and time, the unloading date and time at the industrial waste disposal company, the apparent capacity, the weight, etc. can be confirmed for each customer. Even if there is an increase / decrease in the waste volume at the contractor, it can be confirmed on the screen whether it is appropriate. In addition, when there is illegal dumping at a later date, it is possible to confirm where the waste comes from the screen. Furthermore, since the actual person in charge of transportation, the actual vehicle number, and the like are managed together with the image in units of one bag, it is possible to grasp who and when from where the waste is carried when there is illegal dumping.

  In the above embodiment, it is exemplified that the industrial waste is carried from the site side to the industrial waste disposal company (collector), and the weight and the tag number of the IC tag 12 are read for each bag. When the waste is carried from the trader) to the disposal trader, the disposal trader may read the weight and the number of the IC tag 12 and register them in the backbone server 311.

  At this time, when the waste is loaded on the vehicle in order to transport the waste from the collector to the disposal contractor, the person in charge and the vehicle number are input to the HT 15 as described above.

  In the above-described embodiment, the photographed image at the immediately preceding photographing date / time with respect to the collection date / time has been described as the photograph of the housing contractor's waste confirmation by the core server, but the unloading date / time may be used as follows. The photographic image search unit 311k sequentially reads the HT reading information at the time of unloading of each tag of the industrial waste HT transmission information stored in the fourth storage unit 311d, and unloads the HT reading information at the time of unloading of each tag every time the reading is performed. The date / time, communication camera ID, transport vehicle number, transporter, and tag number are extracted. And all the communication camera transmission information C which has this communication camera ID is searched from the 3rd memory | storage means 311c, and the communication camera transmission information C which has the last collection date with respect to the unloading date is allocated among these.

  For example, when the delivery date is December 1 and the unloading date is 17:00 on December 1, the shooting date is 9:00 on December 1, 12:00 on December 1, and 21:00 on December 1 In the case of, a photographic image at 12:00 is taken.

  Next, the photographic image assigned by the photographic image link attaching unit 311p is used as the industrial waste header information D1 (fifth) having the unloading date and time, the communication camera ID, the transport vehicle number, and the transport person in charge of the communication camera transmission information C described above. The storage means 311e) is linked, and the information E1 with the industrial waste collection photo added with predetermined information is generated and stored in the sixth storage means 311f.

  Next, the assigned photographic image of the communication camera transmission information is linked to the industrial waste header information D1 (becomes the header of E1) and stored in the sixth storage means 311f (referred to as industrial waste collection photo attached information E1) (FIG. 21 reference).

  Therefore, the head office can access the backbone server, read necessary data, analyze it, and use it as a means to reduce waste and to obtain materials for new product development.

10 Site 11 Waste collection bag 12 IC tag 13 Electronic scale 14 Communication terminal with communication function (communication camera)
15 Mobile terminal 20 Industrial waste company subsystem 21 Industrial waste company terminal 22 Connection terminal (cradle)
30 Housing Contractor Subsystem 40 JWNET Server 50 Disposal Subsystem 51 Disposal Contractor Terminal 60 Communication Network 70 Dedicated Line 310 Central Center 311 Core Server 311a First Storage Unit 311b Second Storage Unit 311c Third Storage Unit
311d Fourth storage unit 311e Fifth storage unit 311f Sixth storage unit
311g 7th storage means 311h 8th storage means 311i 9th storage means 311j Communication camera information acquisition part 311k Photo image search part 311p Photo image link attaching part 311m HT transmission information acquisition part 311q Industrial waste header / HT specification creation Unit 311r totaling unit 311s JWNET registration information creating unit 311t JWNET transport end report information creating unit 311v sending unit 312 electronic data exchange (EDI) server 313 web server 314 mail server 315 terminal 320 information system company 321 initial setting terminal 323 terminal 330 Head Office 340 Branch 341 Branch Terminal

Claims (9)

In order to manage the building waste discharged at the site while transporting it to the industrial waste contractor by the person in charge of transportation, the site subsystem, the industrial waste contractor subsystem, and the housing contractor of the housing contractor who constructs the building The subsystem and a server of the Japan Industrial Waste Treatment Promotion Center are connected by a communication network to register electronic manifest information in the server of the Japan Industrial Waste Treatment Promotion Center, and a photographed image of the waste is provided with predetermined information. And a waste management system managed by the housing contractor subsystem,
The field subsystem is
An IC tag attached to a waste collection bag containing the waste discharged at the site, a portable terminal, an electronic scale for measuring the weight of the waste collection bag, and a communication terminal with a photographing function And consist of
The communication terminal with photographing function is
A means for transmitting photographed transmission information including the photographed image of the waste collection bag photographed, the photographing date and time, and the ID of a communication terminal with a photographing function to the housing contractor subsystem;
The portable terminal is
When receiving the tag number of the IC tag and the weight from the electronic scale after inputting the collection instruction, the ID of the communication terminal with the photographing function, the collection date and time, the entered vehicle number, the type of waste and the transport Means for storing mobile terminal capture information at the time of collection for each tag to which the person-in-charge information is added;
After receiving the unloading instruction, when receiving the tag number of the IC tag and the weight from the electronic balance, at least the ID of the communication terminal with the photographing function is added to the tag. And means for storing
The industrial waste company subsystem includes an industrial waste company terminal,
The industrial waste terminal is
The mobile terminal capture information at the time of collection for each tag and the mobile terminal capture information at the time of unloading for each tag stored in the mobile terminal are received and transmitted to the housing contractor subsystem as industrial waste operator mobile terminal transmission information. With means,
The homeowner subsystem is:
Comprising a backbone server, the backbone server comprising:
It means for receiving and storing the captured transmission information from the imaging function communication terminal of the current Basa blanking system,
Means for receiving and storing said industrial waste mobile terminal transmission information from said industrial waste terminal;
Reading of the collection date and the ID of the communication terminal with the photographing function of the transmission information transmitted from the industrial waste portable terminal, the photographing having the ID of the communication terminal with the photographing function, and having the photographing date and time immediately before the collection date and time Means for extracting the photographed image included in the transmission information;
A waste management system comprising: a means for associating the extracted photographed image with the industrial waste operator mobile terminal transmission information having the collection date and time, and storing the information as housing contractor waste confirmation information. The portable terminal is
2. The waste management system according to claim 1, further comprising means for transmitting the unloading date and time by adding the unloading date and time to the mobile terminal loading information for each tag after the unloading instruction is input. The industrial waste company subsystem includes a connection terminal for connecting the mobile terminal, and the connection terminal is connected to the industrial waste company terminal,
The waste management system according to claim 1 or 2, wherein when the mobile terminal is connected, the mobile terminal capture information at the time of unloading of each tag is sent to an industrial waste disposal terminal. The portable terminal is
3. A short-distance low-power wireless communication function, wherein the mobile terminal capture information at the time of unloading of each tag is transmitted to the industrial waste terminal by the short-distance low-power wireless communication function. Waste management system. The housing contractor subsystem further comprises a branch terminal at a branch for jurisdiction over the initial setting terminal and the building,
The initial setting terminal is:
The electronic scale terminal ID of the electronic scale set in the portable terminal to be distributed in advance to the industrial waste company, the communication address and portable terminal number of the electronic scale, and the electronic scale to be distributed in advance to the industrial waste company Means for managing the mobile terminal number of the mobile terminal, the communication address, the electronic scale terminal ID, and the ID of the communication terminal with the photographing function set in the communication terminal with the photographing function distributed in advance to the branch;
The branch terminal is
The disposal according to any one of claims 1 to 4, further comprising means for preliminarily associating and registering the property number of the building with the communication terminal ID with the photographing function distributed to prepare for the site. Material management system. By the initial setting terminal,
Wherein the mobile terminal, the plurality of vehicle number that is notified from industrial waste artisan, transportation personnel and waste type code is set, according to claim 5, characterized in that it is distributed to the industrial waste skill Waste management system. The homeowner subsystem further comprises an electronic data exchange server,
The backbone server is
Of the information sent to the industrial waste disposal mobile terminal, an item based on the manifestation of the Japan Industrial Waste Treatment Promotion Center is generated as information to the Japan Industrial Waste Treatment Promotion Center, and the information is generated by the electronic data exchange server. The waste management system according to any one of claims 1 to 6, wherein the waste management system is transmitted to a server of a waste processing promotion center. The backbone server is
Collect the mobile terminal capture information at the time of unloading of each tag having the same ID, vehicle number, transporter, unloading date and time of the communication terminal with the same photographing function among the mobile terminal capture information at the time of unloading of each tag, The waste management system according to any one of claims 1 to 7, further comprising means for obtaining a total weight of the same kind of waste among these. The industrial waste
The industrial waste management system according to any one of claims 1 to 8, characterized in that it includes a collection and transportation company, an intermediate processing company, and a final disposal company.

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