JP7078150B2 - Management system - Google Patents

Description

The present invention relates to a management system for managing waste generated at a construction site of a building.

In order to recycle the waste generated at the construction site of the building, each process of waste collection, transportation, and reuse is carried out according to the waste management method. Generally, for proper management of waste, waste generated at the construction site is stored in a container for each predetermined classification, and an IC tag displaying information on the waste in the container is attached to the container. The container containing the waste is collected by a resource recovery company and transported to a recycling facility. Patent Document 1 discloses an example of a conventional waste management method.

Japanese Patent No. 3743983

In the conventional waste management method, in order to reuse the IC tag, it is necessary to collect the IC tag at the recycling facility and to initialize the information of the IC tag. If such work can be reduced, the burden on the worker will be reduced.

(1) The management system that solves the problem is a management system that manages waste at the construction site of a building, and the management system is installed in a server computer having a database and a recycling facility that recycles waste. The server computer is provided with a measuring device to be obtained, and the server computer reads out the information required for the property label and the waste label from the database based on the operation of the operator computer, and manufactures the property label and the waste label. The property label is configured to output to the operator computer, the property label has a code containing the property information, the waste label has a code containing the waste information, and the measuring device has the waste. Reading the code on the property label attached to the container, reading the code on the waste label, measuring the classification of the waste from the code on the waste label, and reading the measurement results. It has at least four functions of transmitting to the server computer.

(2) In the management system of (1) above, the server computer can communicate with the mobile information terminal, and the server computer receives information regarding the number of wastes for each classification from the mobile information terminal. And store the information.

(3) In the management system of (1) or (2), the operator computer is installed at a place different from the server computer.

(4) In the management system of (3) above, the server computer is printed by a printing device connected to the operator computer based on the operation of the operator computer, and the property label and the waste label are printed. Information about the manufacture of the above is output to the operator computer.

(5) In any one of the above management systems (1) to (4), the property label has a first display unit in which a code including property information is displayed and a first display unit in which the property information is displayed as characters. The waste label has two display units, a portion in which a code including waste information is displayed, and a portion in which classification item information indicating the classification of the waste is displayed.

(6) In the management system of (5) above, the property label includes the first display unit, the second display unit, a label attachment unit to which the waste label is attached, and the waste and the property label. Has a hole through which the connecting member to connect with.

(11) The waste management method for buildings includes a first step of manufacturing a property label displaying property information related to a building and a plurality of types of waste labels displaying waste information related to waste, and the building. This includes a second step of manufacturing a waste management label by combining the waste label corresponding to the waste contained in individual containers for each classification and the property label at the construction site of the above.

According to the above waste management method, unnecessary labels can be disposed of when the waste management is completed. Therefore, less work is required of the worker than in the case of reusing the IC tag, and the burden on the worker is reduced. In addition, since the property label and the waste label are individually configured, the waste label can be used for waste management at a plurality of construction sites. Therefore, cost reduction can be expected.

(12) In a preferred example, in the building waste management method according to (11), in the first step, information acquired from a database including information used for implementing the waste management method is used. Manufacture the property label and the waste label.
Therefore, it is not necessary to individually register the property information and the waste information at the time of manufacturing each label, and the burden on manufacturing each label is reduced.

(13) In a preferred example, in the building waste management method according to (11) or (12), the waste is classified according to a more detailed classification in the recycling facility where the container is transported, and the waste is classified. Further comprises a third step of disposing of the empty container and the waste management label from which it has been removed.
Therefore, the waste can be widely reused. Further, since unnecessary waste management labels are disposed of, the burden on the operator is reduced as compared with the case where the IC tag is reused.

(14) In a preferred example, in the building waste management method according to any one of (11) to (13), in the first step, the property label displaying the property information by a two-dimensional code and the property label. , Manufacture the waste label in which the waste information is displayed by a two-dimensional code.
According to the above waste management method, a large amount of information can be registered in the two-dimensional code, so that the size of each label can be reduced.

(15) The waste management label of a building includes a property label displaying property information related to the building and a plurality of types of waste labels displaying waste information related to waste, and the property label individually configured. And the waste label are combined.
According to the waste management label, the same or similar effect as that obtained by the waste management method described in (1) above can be obtained.

(16) In a preferred example, in the waste management label of the building according to (15), the property label includes a label attachment portion for attaching the waste label.
Therefore, the waste label can be easily combined with the property label.

(17) In a preferred example, in the waste management label of the building according to (15) or (16), the property label displays a two-dimensional code including the property information.
According to the waste management label, the same or similar effect as that obtained by the waste management method described in (4) above can be obtained.

(18) In a preferred example, in the waste management label of the building according to any one of (15) to (17), the waste label displays a two-dimensional code including the waste information.
According to the waste management label, the same or similar effect as that obtained by the waste management method described in (4) above can be obtained.

According to the building waste management method and the waste management label according to the present invention, the burden on the worker for waste management is reduced.

The figure which shows the whole picture of the waste management system of a building of an embodiment. A flowchart showing the procedure of the waste management method. Front view of an example of a property label. Front view of an example of a label sheet. Front view of an example of a property label attached to a container. A rear view of an example of a property label attached to a container. Front view of an example of a waste management label attached to a container. The rear view of an example of a property label in a state where the lower part is broken from the middle of the memo column.

(Embodiment)
The waste management system 100 shown in FIG. 1 manages waste in a building in order to comprehensively manage a series of processes of collection, transportation, and reuse of waste P2 generated at the construction site 200 of the building. It is configured with the intention of managing waste P2 according to the method. Examples of buildings are single-family homes and apartments. In this waste management method, in order to reduce the load on the operator involved in the management of the waste P2, the waste P2 is managed by using the waste management label 10 shown in FIG. 7. The waste management label 10 is manufactured by combining the property label 20 shown in FIG. 3 and the waste label 30 shown in FIG. The property label 20 is a label that displays property information that is information about a building. The waste label 30 is a label that displays waste information, which is information about waste P2. In one example, the waste management label 10 is manufactured by combining the property label 20 and the waste label 30 prepared in advance at the construction site 200. The procedure for manufacturing the waste management label 10 can be arbitrarily selected. In the first example, the property label 20 is first attached to the container P1, and then the waste label 30 is combined with the property label 20 to manufacture the waste management label 10. In the second example, the waste management label 10 is manufactured by first attaching the waste label 30 to the property label 20 that is not attached to the container P1, and then the waste management label 10 is attached to the container P1. ..

The main elements constituting the waste management system 100 are a management center 110, a computer 120 for a server, a resource recovery vehicle 130, and a recycling facility 140. The management center 110 is, for example, an office opened in an office building, and one or more operators 111 are engaged in work related to the management of waste P2. The management center 110 is equipped with one or more computers 112 and a printing device 113 used by the operator 111. The computer 120 for the server is a server mainly for providing services related to the management of waste P2. The installation location of the computer 120 for the server is arbitrarily selected. One example is the management center 110 and the business establishment of a business operator that provides a rental server.

The computer 120 for the server stores a database used to implement the waste management method. Examples of information contained in the database include the name of the construction site of the building, information relating the process at the construction site to the waste expected to be generated in the process, and information indicating the classification of the waste. The computer 112 installed in the management center 110 and the computer 120 for the server are configured to be able to access the Internet 150. The resource recovery vehicle 130 is a vehicle owned by a business operator that collects the waste P2, and is mainly used for transporting the waste P2 from the construction site 200 to the recycling facility 140. The recycling facility 140 is a facility for carrying out recycling and reuse of waste P2.

An example of a waste management method implemented by the waste management system 100 will be described with reference to FIG. In this control method, each step is carried out in the order of step A to step F. Step A is an example of the first step. In step A, the operator 111 of the management center 110 manufactures the property label 20 and the waste label 30 by using the computer 112 and the printing device 113. Specifically, the labels 20 and 30 are manufactured as follows. The operator 111 first accesses the computer 120 for the server by using the computer 112, and reads various information necessary for manufacturing the property label 20 and the waste label 30 from the database of the computer 120 for the server. Therefore, it is not necessary to individually register the property information and the waste information at the time of manufacturing the labels 20 and 30, and the burden on the manufacturing of the labels 20 and 30 is reduced. The operator 111 then causes the printing apparatus 113 to print the property label 20 and the waste label 30 by using the software installed in the computer 112. In one example, the two-dimensional code including the property information and other information are printed on the property label 20, and the two-dimensional code including the waste information and other information are printed on the waste label 30.

The type of two-dimensional code can be selected arbitrarily. One example is a matrix-type two-dimensional code and a stack-type two-dimensional code. Examples of matrix-type two-dimensional codes are QR code (registered trademark), micro QR code, SP code, veric code, maxi code, CP code, DataMatrix, Codel, Aztec Code, interactor code, card e, and chameleon code. .. Examples of stack-type two-dimensional codes are PDF417, Code49, Code16K, Codeblock, SuperCode, UltraCode, RSSComposite, and AztecMasa. FIGS. 3 to 8 illustrate the case where each two-dimensional code is a QR code.

The printing method of each of the labels 20 and 30 can be arbitrarily selected. In one example, the property label 20 is printed one by one as shown in FIG. As shown in FIG. 4, the waste label 30 is printed in the state of one sheet 40 (hereinafter referred to as “label sheet 40”) composed of a plurality of waste labels 30. The label sheet 40 is configured so that a plurality of waste labels 30 can be individually peeled off from a mount (not shown). The waste label 30 is a sticker that can be attached to the property label 20. In step A, a predetermined number of property labels 20 and a predetermined number of label sheets 40 are printed for each construction site 200. The predetermined number of property labels 20 and the predetermined number of label sheets 40 are included in the information acquired from the database. In one example, each predetermined number can be set based on statistical information summarizing the relationship between the type of building constructed in the past and the amount of waste generated by the construction of the building for each classification. In a preferred example, a predetermined number of sheets is set with a certain margin for the number of sheets matching the amount of waste obtained from the statistical information for each classification.

In step B, the waste P2 generated at the construction site 200 is stored in the storage location 210 installed at the construction site 200. Specifically, the waste P2 is stored as follows. The worker 201 first stores the waste P2 in a separate container P1 for each classification, and closes the container P1 so that the waste P2 does not leak. An example of container P1 is a bag and a case. FIG. 1 and the like illustrate the case where the container P1 is a bag. At a normal construction site 200, this work produces a plurality of containers P1 containing waste P2 for each classification. In one example, the classification of waste P2 is specified in the classification item list. In the classification item table, waste P2 is classified into a predetermined number of items, and each item is given a classification number starting from 1 in order. The predetermined number is, for example, 27.

Next, the worker 201 winds the connecting member 50 around the container P1 and fixes it, and hangs the property label 20 (see FIG. 3) on the connecting member 50 so as not to fall off the connecting member 50. An example of the connecting member 50 is a string, a rope, a wire, a wire, and a binding band. This work is carried out for each of the plurality of containers P1. The worker 201 then removes the waste label 30 from the label sheet 40 (see FIG. 4) corresponding to the classification of the waste P2 contained in the container P1 and attaches the waste label 30 to the property label 20 attached to the container P1. The waste management label 10 is manufactured by combining the waste labels 30. This work is also carried out for each of the plurality of containers P1. The step of manufacturing the waste management label 10 in step B is an example of the second step. The worker 201 then transports the container P1 to the storage location 210 of the construction site 200. By completing each of the above operations related to the step B, a state in which the container P1 is stored in the storage location 210 of the construction site 200 is formed. Next, the worker 201 requests the worker 131 belonging to the resource recovery company to collect the container P1 by using a mobile information terminal (not shown). Examples of mobile information terminals are smartphones and tablet terminals.

In step C, the requested worker 131 moves to the construction site 200 by the resource recovery vehicle 130, and performs various operations related to the container P1 at the construction site 200. Specifically, various operations are carried out as follows. The worker 131 first confirms the number of containers P1 stored in the storage location 210 of the construction site 200 for each classification of waste P2, and registers them in the portable information terminal 132. An example of a mobile information terminal 132 is a smartphone and a tablet terminal. Next, the worker 131 uses the mobile information terminal 132 to transmit the information registered in the previous work to the computer 112 of the management center 110 and the computer 120 for the server. The worker 131 then places the container P1 stored in the storage location 210 on the loading platform of the resource recovery vehicle 130.

In step D, the worker 131 transports the container P1 from the construction site 200 to the recycling facility 140 using the resource recovery vehicle 130. The movement route of the resource recovery vehicle 130 can be arbitrarily selected. In the first example, the resource recovery vehicle 130 transports the container P1 collected at one construction site 200 to the recycling facility 140. In the second example, the resource recovery vehicle 130 moves a plurality of construction sites 200 designated in advance in order, and collectively transports the containers P1 collected at each construction site 200 to the recycling facility 140.

In step E, the waste P2 in the transported container P1 is processed at the recycling facility 140. Specifically, the waste P2 is treated as follows. The worker 131 of the resource recovery company hands over the container P1 to the worker 141 of the recycling facility 140. The worker 141 of the recycling facility 140 measures the weight of the waste P2 including the container P1 and the classification of the waste P2 for each container P1 by using the measuring device 142. The measuring device 142 has a function of measuring the weight and a function of reading a two-dimensional code. When the measuring device 142 reads the two-dimensional code of the waste label 30 of the waste management label 10 attached to the container P1, the classification of the waste P2 in the container P1 is measured. The worker 141 then uses the measuring device 142 to transmit the measurement result to the computer 112 of the management center 110 and the computer 120 for the server.

Step F is an example of the third step. In the step F, the waste P2 in the container P1 after the measurement is reused. Specifically, the process for reuse is carried out as follows. The worker 141 first classifies the container P1 according to a more detailed classification, and puts the container P1 in the basket 143 prepared for each classification. The worker 141 then transports the car 143 to a recycling facility (not shown), takes out the waste P2 from the container P1, and puts the waste P2 in the recycling facility. The worker 141 then disposes of the empty container P1 from which the waste P2 has been taken out, and the waste management label 10 attached to the empty container P1. Therefore, the waste P2 can be widely reused. Further, since the unnecessary waste management label 10 is disposed of, the burden on the operator is reduced as compared with the case where the IC tag is reused.

An example of a specific configuration of the property label 20, the waste label 30, and the waste management label 10 will be described with reference to FIGS. 3 to 7. The materials constituting the property label 20 and the waste label 30 can be arbitrarily and individually selected. In a preferred example, the labels 20 and 30 are made of a material having excellent weather resistance.

As shown in FIG. 3, in one example, the property label 20 is rectangular. The property label 20 is formed with a display unit 20A for displaying various information, a bending line 20B along the width direction of the property label 20, and a hole 20D (see FIG. 5) for passing the connecting member 50 through the property label 20. A tab 20C is provided by cutting a part of the property label 20 so that the property label 20 can be cut. The property label 20 is divided into a front portion 20F and a back portion 20R with the bending line 20B as a boundary. The tab 20C is formed on each of the front portion 20F and the back portion 20R. The shape of the tab 20C can be arbitrarily selected. In one example, the tab 20C has a U-shape.

When the property label 20 is attached to the container P1, the property label 20 is bent along the bending line 20B. When the property label 20 is folded, the front portion 20F shown in FIG. 5 and the back portion 20R shown in FIG. 6 are in a back-to-back state. The front portion 20F is arranged so that when the property label 20 is attached to the container P1, it can be visually recognized from a place facing the container P1. The back surface portion 20R is arranged so as to face the container P1 when the property label 20 is attached to the container P1.

As shown in FIG. 3, the display unit 20A of the front unit 20F is formed with a first display unit 21, a second display unit 22, a label mounting unit 23, and a memo field 24. The tab 20C is formed in a portion of the front portion 20F between the bending line 20B and the memo field 24. A plurality of boundary lines L1 to L4 are further displayed on the display unit 20A of the front unit 20F. The first boundary line L1 indicates the boundary between the memo field 24 and the portion where the tab 20C is provided. The second boundary line L2 indicates the boundary between the memo field 24 and the first display unit 21. The third boundary line L3 indicates the boundary between the first display unit 21 and the label mounting unit 23. The fourth boundary line L4 indicates the boundary between the label mounting portion 23 and the second display portion 22.

The first QR code 21A including the property information is displayed on the first display unit 21. Character property information 22A is displayed on the second display unit 22. The label attaching portion 23 displays the second QR code 23A including the property information and the character guidance information 23B. The first QR code 21A and the second QR code 23A constitute the binding code 27. By simultaneously reading the first QR code 21A and the second QR code 23A with the mobile information terminal, the property information included in the combination code 27 can be acquired. The content of the character property information 22A is substantially the same as the content of the property information included in the combination code 27. By visually recognizing the property information in characters, the worker 201 and the like can immediately confirm the property information as needed. The memo field 24 is a blank space for the worker 201 and the like to enter arbitrary information. Since a large amount of information can be registered in the two-dimensional code, the size of the property label 20 can be reduced.

A fifth display unit 25 and a sixth display unit 26 are formed on the display unit 20A of the back surface portion 20R. The tab 20C is formed in a portion of the back surface portion 20R between the bending line 20B and the fifth display portion 25. Character property information 25A is displayed on the fifth display unit 25. The content of the character property information 25A is the same as the content of the character property information 22A of the second display unit 22. The third QR code 26A including the property information is displayed on the sixth display unit 26. The content of the property information included in the third QR code 26A is the same as the content of the property information and the like included in the first QR code 21A of the first display unit 21.

When a strong force is applied to the property label 20 attached to the container P1 for some reason, for example, as shown in FIG. 8, the front portion 20F breaks in the middle of the memo field 24 of the front portion 20F, and a memo. The part below the middle of column 24 may disappear from the property label 20. In this case, the front portion 20F does not have a portion for displaying the property information, but the back portion 20R displays the character property information 25A and the third QR code 26A. Therefore, even if the above-mentioned unexpected situation occurs, the worker 201 or the like can confirm the property information.

As shown in FIG. 4, the label sheet 40 includes a plurality of aligned waste labels 30. In one example, the shape of the label sheet 40 and each waste label 30 is rectangular. In a preferred example, the area of the waste label 30 is approximately the same as the area of the label mounting portion 23 of the property label 20. The fourth QR code 31, the classification number information 32, the classification item information 33, and the process information 34 are displayed on the waste label 30. The fourth QR code 31 includes waste information. The classification number information 32 displays any one of the classification numbers in the classification item table. The classified item information 33 displays the item corresponding to the number. The process information 34 indicates the process to be performed at the construction site 200.

The waste management label 10 is manufactured, for example, by the following procedure. First, as shown in FIGS. 5 and 6, the tabs 20C of the front portion 20F and the back portion 20R of the property label 20 are raised on the back surface side of the property label 20 so that the front portion 20F and the back portion 20R are raised. Holes 20D are formed in each. Next, the property label 20 is folded along the bending line 20B so that the back surface of the front surface portion 20F and the back surface of the back surface portion 20R face each other. When the property label 20 is folded in this way, the holes 20D of the front portion 20F and the back portion 20R overlap each other. Next, the connecting member 50 wound around the container P1 is passed through the hole 20D, and the property label 20 is hung on the connecting member 50. Next, of the plurality of types of label sheets 40 prepared for each classification of the waste P2, one waste label 30 is peeled off from the label sheet 40 corresponding to the waste P2 contained in the container P1. , The waste label 30 is affixed to the label attachment portion 23 of the property label 20. By carrying out this work, the waste management label 10 is manufactured.

According to the waste management method of the building and the waste management label 10, the following actions and effects can be obtained. Unnecessary labels can be disposed of when waste management is complete. Therefore, less work is required of the worker than in the case of reusing the IC tag, and the burden on the worker is reduced. In addition, since the property label and the waste label are individually configured, the waste label can be used for waste management at a plurality of construction sites. Therefore, cost reduction can be expected.

(Modification example)
The above-described embodiment is an example of a possible form of a waste management method and a waste management label for a building according to the present invention, and is not intended to limit the form. The building waste management method and the waste management label according to the present invention may take a form different from the form exemplified in the embodiment. One example thereof is a form in which a part of the configuration of the embodiment is replaced, changed, or omitted, or a new configuration is added to the embodiment. An example of a modification of the embodiment is shown below.

-The configuration of the waste management label 10 can be arbitrarily selected. In the first example, the waste label 30 is configured to be attached to the container P1 instead of the property label 20, and the property label 20 is configured to be attached to the waste label 30. An example of the procedure for manufacturing the waste management label 10 is as follows. In the first procedure, the waste label 30 is first attached to the container P1, and then the property label 20 is attached to the waste label 30, so that the waste management label 10 is manufactured. In the second example, the waste management label 10 is manufactured by first attaching the property label 20 to the waste label 30 that is not attached to the container P1, and then the waste management label 10 is attached to the container P1. ..

In the second example, the waste management label 10 is composed of a property label 20, a waste label 30, and a mount label. The mount label is a label attached to the container P1 instead of the property label 20, and the property label 20 and the waste label 30 are attached. An example of the procedure for manufacturing the waste management label 10 is as follows. In the first procedure, the waste management label 10 is manufactured by first attaching the mount label to the container P1 and then attaching the property label 20 and the waste label 30 to the mount label. In the second procedure, one of the property label 20 and the waste label 30 is first attached to the mount label that is not attached to the container P1, then the mount label is attached to the container P1, and then the property is attached to the mount label. By attaching the other of the label 20 and the waste label 30, the waste management label 10 is manufactured. In the third procedure, the waste management label 10 is manufactured by attaching both the property label 20 and the waste label 30 to the mount label that is not first attached to the container P1, and then the waste management label 10 is produced. It is attached to the container P1.

10 ... Waste management label 20 ... Property label 23 ... Label mounting part 30 ... Waste label

Claims (6)

A management system that manages waste at the construction site of a building.
The management system includes a server computer having a database and a measuring device placed in a recycling facility for recycling waste.
The server computer reads the information required for the property label and the waste label from the database based on the operation of the operator computer, and outputs the information to the operator computer that manufactures the property label and the waste label. Consists of
The property label has a code containing property information and has a code.
The waste label has a code containing waste information and
The measuring device reads the code of the property label attached to the waste container, reads the code of the waste label, and measures the classification of the waste from the code of the waste label. A management system having at least four functions of performing and sending measurement results to the server computer. The server computer can communicate with a mobile information terminal and can communicate with the mobile information terminal.
The management system according to claim 1, wherein the server computer receives information on the number of wastes for each classification from the mobile information terminal and stores the information. The management system according to claim 1 or 2, wherein the operator computer is installed at a place different from the server computer. The server computer outputs information regarding the manufacture of the property label and the waste label printed by the printing device connected to the operator computer to the operator computer based on the operation of the operator computer. The management system according to claim 3. The property label has a first display unit in which a code including property information is displayed, and a second display unit in which the property information is displayed as characters.
The waste label according to any one of claims 1 to 4, which has a portion in which a code including waste information is displayed and a portion in which classified item information indicating the classification of the waste is displayed. Management system. The property label has a first display unit, a second display unit, a label attachment unit to which the waste label is attached, and a hole through which a connecting member connecting the waste and the property label passes. Item 5. The management system according to Item 5.

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