JP2000044008A - Waste fluorescent tube collection-disposal control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily distribute waste fluorescent tubes to a discharger through freight service by sticking a bar code label displaying specific data for a container to the lightweight rigid container of standard shape and dimension repeatedly usable for the waste fluorescent tubes, and individually controlling from collection of the waste fluorescent tubes to cost of receipt and transport at every container. SOLUTION: A waste fluorescent tube collection information input device 1 stores information of a code label 3 stuck to a receiving container 2 fully loaded with the waste fluorescent tubes corresponding to an empty waste fluorescent tube receiving vessel 2 by a discharger in a first central processing part 43 before carrying out, and simultaneously stores information of a transport dealer and date of carrying out in the first central processing part 43. The stored information is once stored in a memory medium 51 through a first output part 44, the memory medium 51 is sent to a waste fluorescent tube disposal information confirming device 6 and a calculation making device for waste fluorescent tube disposal/controlling cost 8, and based on the information of the discharger and the transport dealer, a bill to the discharger, a notice of disposal completion to the transport dealer, and the like are made.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste fluorescent tube collection / management system, and more particularly to a waste fluorescent tube which is generated in a larger amount than the same office or group of residences using the standard shape and size of the waste fluorescent tube. Stored in a light and rigid standard shape and size container that can be used repeatedly, attach a barcode label that displays the container-specific data to the container, and take steps from collection of waste fluorescent tubes to collection and transportation costs for each container. The present invention relates to a waste fluorescent tube collection and processing management system capable of managing individual tubes.

[0002]

2. Description of the Related Art Heretofore, most of waste fluorescent tubes have been landfilled at final disposal sites as non-flammable materials. The waste fluorescent tube is a glass tube and contains mercury inside. Some of the used fluorescent tubes are damaged during the shipment and transportation, and are completely crushed at the final disposal site at the time of landfill. This causes air pollution during transportation and soil and groundwater pollution at landfill sites. In Europe, the United States, and some parts of Japan, waste fluorescent tubes are collected and recycled to collect the glass and metal fittings of the tubes and mercury inside. However, damage and collection costs when collecting the used fluorescent tubes are being implemented. And recycling is not progressing, partly due to the difficulty in managing freight costs.

[0003]

By the way, a technique for recovering glass, metal fittings, and mercury contained therein from waste fluorescent tubes has already been established. However, the biggest issue for practical use and diffusion is that any method can be used to secure the waste fluorescent tube,
And whether it can be transported and managed from the discharge location to the processing (recycling) plant at low cost.

SUMMARY OF THE INVENTION In view of the above problems, the present invention has been made to solve the problems, and an object of the present invention is to provide a waste fluorescent tube which is generated in a larger amount than the same office or house. Is stored in a lightweight and rigid container of standard shape and dimensions that can be used repeatedly using the standard shape and dimensions of the waste fluorescent tube, and a bar code label indicating the data specific to the container is attached to the container. It is an object of the present invention to provide a waste fluorescent tube collection and processing management system capable of managing individual tubes for each container from collection to collection and transportation costs.

[0005]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention is directed to a waste fluorescent tube storage container for storing a plurality of waste fluorescent tubes and an outer surface of the waste fluorescent tube storage container. Bar code label to be read, a first bar code reading unit for reading information on the bar code label, a first input unit for inputting information on a waste fluorescent tube discharger, a transporter, and a carry-out date, and a first bar code reading unit. And a first central processing unit for storing and processing information from the input unit, a first output unit for outputting information of the first central processing unit, a waste fluorescent tube collection information input device, and a waste fluorescent tube collection information input device. A collection information transmitting means for transmitting the information stored in the first central processing unit of the apparatus to a waste fluorescent tube processing information confirming device and a waste fluorescent tube processing management cost calculating / creating device to be described later; and a second means for reading bar code label information. Barcode reading unit, waste fluorescence A second input unit for inputting information from the processing information confirmation device, storing information stored in the first central processing unit of the waste fluorescent tube collection information input device transmitted by the collected information transmitting means, and A second central processing unit that compares the information read by the bar code reading unit with the information of the stored bar code label to determine whether they are the same, a second output unit that outputs a determination result of the second central processing unit, A waste fluorescent tube processing information confirming device having: a processing information transmitting means for transmitting information of a second central processing unit of the waste fluorescent tube processing information confirming device to a waste fluorescent tube processing management cost calculating / creating device described below; A third input unit for inputting information from the fluorescent tube processing information confirmation device and the waste fluorescent tube collection information input device, the same information from the waste fluorescent tube processing information confirmation device, and the first of the waste fluorescent tube collection information input device Information from the central processing unit The third central processing unit that controls the creation and processing of the bill to the discharger, the processed notice to the transporter, and the processing notification to the processing plant, based on the instructions to the discharger based on the instructions from the third central processing unit And a third output unit for generating a processed notice to the carrier and a processed notice to the processing plant.

According to a second aspect of the present invention, there is provided a waste fluorescent tube storage container for storing a plurality of waste fluorescent tubes, a bar code label attached to an outer surface of the waste fluorescent tube storage container, and information on the bar code label. A first barcode reading unit for reading the information, a first input unit for inputting information on a waste fluorescent tube discharger, a transporter, and a carry-out date, a first barcode reading unit, and a first unit for storing and processing information from the input unit. A waste fluorescent tube collection information input device having a central processing unit and a first output unit for outputting information of the first central processing unit; and information stored in the first central processing unit of the waste fluorescent tube collection information input device. A collection information transmitting unit that transmits the information to a waste fluorescent tube processing information confirmation device and a waste fluorescent tube processing management cost calculation and creation device described below, and a second device that reads information on a barcode label.
A barcode reading unit, a second input unit for inputting information from the waste fluorescent tube processing information confirmation device, and a first input unit of the waste fluorescent tube collected information input device transmitted by the collected information transmitting unit.
A second central processing unit that stores the information stored in the central processing unit and compares the information read by the second barcode reading unit with the information of the stored barcode label to determine whether or not they are the same; (2) A waste fluorescent tube processing information checking device having a second output unit for outputting the result of determination by the central processing unit, and a waste fluorescent tube processing management described below, which stores information of the second central processing unit of the waste fluorescent tube processing information checking device. A processing information transmitting means for transmitting the processing information to the cost calculation creating apparatus; a third input unit for inputting information from the waste fluorescent tube processing information checking device and the waste fluorescent tube collection information input device; Based on the same information and the information from the first central processing unit of the waste fluorescent tube collection information input device, control of creation of a bill to the discharger, a notice of processing completed to the carrier and a notice of processing to the processing plant Third central processing unit for processing, third central processing unit A waste fluorescent tube processing management cost calculating and preparing device having a third output unit for generating a bill to the discharger, a processed notification to the transporter, and a processing notification to the processing plant based on a command from the management department. Wherein the waste fluorescent tube storage container has a size and a shape corresponding to a standard type of the fluorescent tube, and comprises a container that can be folded in an empty state, The code label displays a unique symbol for each of the waste fluorescent tube storage containers to which the label is attached, and information on the standard shape, dimensions, and maximum storage number of the waste fluorescent tubes stored in the storage container, In the waste fluorescent tube collection information input device, an empty waste fluorescent tube storage container is transported by a carrier to a waste fluorescent tube discharger, and the waste fluorescent tube corresponding to the empty waste fluorescent tube storage container is fully loaded by the discharger. Bar attached to the storage container Before loading, the first bar code reading unit reads the information of the label and stores it in the first central processing unit. At the same time, the information of the discharger, the transporter and the export date is input in the input unit and the first central processing unit. The waste fluorescent tube processing information confirmation device reads the bar code label attached to the waste fluorescent tube storage container that has been transported to the waste fluorescent tube processing plant by the transporter with the second bar code reading unit, This is compared with the information on the barcode label attached to the waste fluorescent tube storage container before transport stored in the second central processing unit to determine whether they are the same, and the result of the determination is output from the second output unit. In addition, the waste fluorescent tube processing management cost calculation and creation device includes information on the barcode label attached to the waste fluorescent tube storage container before transport and the waste fluorescent tube storage container transported to the waste fluorescent tube processing plant. The bar code label information When the waste fluorescent tube processing information confirmation device determines that the waste fluorescent tube is the same and the waste fluorescent tube is processed in the processing plant, the same information from the waste fluorescent tube processing information confirmation device and the first of the waste fluorescent tube collection information input device are used. Based on the information of the discharger and the carrier from the central processing unit, it consists of a means for creating a bill to the discharger, a notice of processing completed to the carrier and a notice of processing to the processing plant from the third output unit. It is.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described more specifically based on embodiments of the invention shown in the drawings. Here, FIG. 1 is a block diagram of the entire system of the waste fluorescent tube collection processing management system, and FIG. 2A is a development view of a straight tubular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system.
FIG. 2 (B) is a folded view of a straight tube waste fluorescent tube storage container used in the waste fluorescent tube collection / management system, and FIG. 2 (C) is a straight tube waste fluorescent tube storage container used in the waste fluorescent tube collection / management system. FIG. 2 (D) is a side view of a straight tube fluorescent tube, and FIG. 3 (A) is a straight tube waste fluorescent tube storage container used in the waste tube collection management system. 3 (B) is a partial view taken along the line AA of FIG. 3 (A), FIG. 3 (C) is a partial view taken along the line BB of FIG. 3 (A), FIG.
FIG. 4D is a partially enlarged side view of a straight tube-type waste fluorescent tube storage container used in the waste fluorescent tube collection and management system, and FIG. 4A is an annular waste fluorescent tube used in the waste fluorescent tube collection and management system. FIG. 4 (B) is a side sectional view of an annular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system, and FIG. 4 (C) is a side sectional view of the waste fluorescent tube collection processing management system. Assembly drawing of annular waste fluorescent tube storage container, FIG. 5
4 is a flowchart of waste fluorescent tube collection and management by the waste fluorescent tube collection processing management system.

In FIG. 1, a waste fluorescent tube collecting and managing system 1 includes a waste fluorescent tube storage container 2 for storing a plurality of waste fluorescent tubes a, and a bar code label attached to an outer surface of the waste fluorescent tube storage container 2. 3, a waste fluorescent tube collection information input device 4, a collection information transmitting unit 5, a waste fluorescent tube processing information confirming device 6, a processing information transmitting unit 7, and a waste fluorescent tube processing management cost calculating and preparing device 8. It is mainly composed.

The waste fluorescent tube storage container 2 for storing a plurality of waste fluorescent tubes a has a size and a shape corresponding to a standard type of fluorescent tube, and is a lightweight container that can be folded in an empty state. When the fluorescent tube is a straight tube, the waste fluorescent tube storage container 2 has a shape as shown in FIG. 2 in order to prevent breakage during transportation and during packing and unpacking and to protect safety. In the case of an annular shape, it is constituted by an annular waste fluorescent tube storage container 22 having a shape as shown in FIG. 4, and when it is empty, it is compact as shown in FIGS. 2 (B) and 4 (A). It will be in a folded state. As shown in FIGS. 2A and 4B, the waste fluorescent tube storage containers 21 and 22 are assembled while storing the waste fluorescent tubes a. FIGS. 2 (C) and 4 (C) show assembly drawings of the waste fluorescent tube storage containers 21 and 22 in which the waste fluorescent tubes a are fully loaded.

[Rectangular Waste Fluorescent Tube Storage Container 21] The linear tubular waste fluorescent tube storage container 21 is a container for storing a straight tubular waste fluorescent tube a and has a rectangular parallelepiped shape as shown in FIG. 2A, the bottom plate 211, the top plate 212, the long side plate 213, and the end side plate 214 are made of a hard paperboard or a resin plate, and are light and resistant to various impacts during transportation. Have the strength to gain.

In FIG. 2C, when storing the waste fluorescent tube a, a barcode label 3 described later is attached to the longitudinal side plate 213 or the upper plate 212.

As shown in FIG. 3 (A), one end 211a of the bottom plate 211 of the straight tubular waste fluorescent tube storage container 21 is located on the one side of the waste fluorescent tube a at a position closer to the inside by a dimension L from the end. A plate-shaped divided interval support piece 215 that supports the base is attached. The divided interval support pieces 215 are sequentially connected and stacked in the height direction.

Each divided spacing support piece 2 connected in the height direction
Reference numeral 15 denotes semicircular grooves formed at regular intervals on the upper and lower connected horizontal sides for supporting a base on one end of a waste tubular fluorescent tube a. Among them, the lowermost divided interval support piece 2
Reference numeral 15 denotes semi-circular grooves formed at equal intervals on the horizontal upper side, and semi-circular grooves are formed at equal intervals on the lower and upper horizontal sides of the intermediate-stage division spacing support piece 215. The support piece 215 has semicircular grooves formed at equal intervals on its lower horizontal side. Each of the semicircular grooves formed on the lower side and the upper side of the division interval support piece 215 is
Are formed into a circular hole when they are connected vertically, and can be supported in a state where the base at one end of the straight tubular waste fluorescent tube a is inserted into this hole.

Further, at the other end 211b of the bottom plate 211 of the straight tubular waste fluorescent tube storage container 21, a base at the end of the straight tubular waste fluorescent tube a is inserted at a position closer to the inside by a dimension L from the end. A spacing support plate 216 in which holes to be formed are provided at regular intervals in a grid pattern or a staggered pattern is attached.

Furthermore, both ends 211a, 211a of the bottom plate 211 to which the divided spacing support piece 215 and the spacing support plate 216 are attached.
The fixed groove 216 for fixing the lower end side of the lowermost divided interval support piece 215 and the interval support plate 216 is provided in the 211b. The fixing grooves 217 are provided so as to protrude slightly from the upper surfaces of both ends 211 a and 211 b of the bottom plate 211. The lowermost divided spacing support piece 215 and the lower end side of the spacing support plate 216 are inserted and fixed in the fixing grooves 217.

When storing the straight tubular waste fluorescent tube a in the straight tubular waste fluorescent tube storage container 21 having the above-described structure, first, the lowermost divided spacing support piece 215 and the spacing support plate 216 are provided. Of the bottom plate 211 at both ends 211
a, and is inserted and fixed in a fixing groove 217 provided in the 211b.

Next, the base at the other end of the straight tube-like waste fluorescent tube a is inserted into and attached to the lowermost hole of the spacing support plate 216, and the base at one end of the waste fluorescent tube a is attached to the lowermost stage. And is mounted on a semicircular groove on the upper side of the support 215 of the divided interval.
When the bases at both ends of the straight tubular waste fluorescent tube a have been attached to all of the lowermost hole of the interval support plate 216 and the upper side groove of the lowermost divided interval support piece 215, the divided interval support piece 215 side Then, the intermediate divided interval support piece 215 is placed on the lowermost divided interval support piece 215, and the base on one end side of the lowermost waste fluorescent tube a is fixed.

Subsequently, the base at the other end of the straight tubular waste fluorescent tube a is inserted and mounted in an intermediate hole of the spacing support plate 216,
The base on one end side of the waste fluorescent tube a is connected to the intermediate divided support piece 21.
5 and put it on the semicircular groove on the upper side. This operation is repeated to insert and mount the base on the other end of the straight waste fluorescent tube a into all the holes of the spacing support plate 216, and the uppermost divided spacing support piece 215 of the middle stage group After the base on one end side of the waste fluorescent tube a is fixed to the divided interval support piece 215 side, the longitudinal side plate 2 is installed above the divided interval support piece 215.
13 and the upper plate 212 are attached and fixed to the respective longitudinal side surfaces and the upper surface. By attaching both end side plates 214, 214 to both end surfaces and fixing them to the ends of the long side plate 213 and the upper plate 212 with stoppers 218, 219, a straight tubular waste fluorescent tube a full of straight tubular waste fluorescent tubes a is stored. The container 21 is completed.

FIG. 2 (D) shows a straight tubular waste fluorescent tube a. The dimension from the bases at both ends of the waste fluorescent tube a (the fluorescent tube glass part and the joining line) to the tip of the socket is L.

[Circular Waste Fluorescent Tube Storage Container 22] The annular waste fluorescent tube storage container 22 is a container for storing the annular waste fluorescent tube a and has a cylindrical shape as shown in FIG. I have.
The annular waste fluorescent tube storage container 22 includes a cylindrical body 221 having both ends opened, a shaft core 222 inserted therein, and a cylindrical body 221.
The upper end cover 223 and the lower end cover 224 attached to both ends of the fluorescent lamp a, and a spacing piece 225 inserted inside and inserted between the waste fluorescent tubes a.

The inside diameter of the cylindrical body 221 is slightly larger than the outside diameter of the annular waste fluorescent tube a, and a cylindrical shaft core 222 is inserted therein. Cylindrical shaft core 222
Has an outer diameter slightly smaller than the inner diameter of the annular waste fluorescent tube a.

The upper end cover 223 and the lower end cover 224 are lids attached to the open upper and lower ends of the cylindrical body 221 of the annular waste fluorescent tube storage container 22 and have a circular shape. The upper end cover 222 and the lower end cover 223 are disposed in the annular waste fluorescent tube storage container 22.
Can be attached to and detached from the cylindrical body 221.

The spacing piece 225 is a buffer material that is inserted in order to prevent the waste fluorescent tubes a inserted into the cylindrical body 221 of the annular waste fluorescent tube storage container 22 from directly contacting each other and becoming easily damaged. . The interval piece 225 has a circular hole slightly larger than the outer diameter of the shaft core 222 in the center of the inside of the circle, and has a thin annular plate shape.

The cylindrical body 22 of the annular waste fluorescent tube storage container 22
1 and the spacing piece 225 are made of soft resin or paper, and the shaft 221, the upper cover 222 and the lower cover 223 are made of hard resin or paper, and the annular waste fluorescent tube storage container 22 is light, In addition, it has a buffer function and strength that can withstand various impacts during transportation.

In FIG. 4B, an annular waste fluorescent tube a
When storing the shaft, the shaft core 222 is assembled to the lower end cover 224, and the annular waste fluorescent tube a and the interval piece 225 are alternately arranged.
The shaft core 222 penetrates through the inner diameter of the waste fluorescent tube a and the spacing piece 225, and is inserted above the lower part, stacked and installed, and when it reaches the upper end, it is made of a soft resin or paper constituting the cylindrical body 221. After the outer circumference of the waste fluorescent tube a group is wound a plurality of times with the outer skin and sealed with the stopper 226, the upper end cover 223 and the lower end cover 224 are fixed to both ends of the cylindrical body 221 with the stopper 227, and an annular waste fluorescent tube is formed. Thus, a waste fluorescent tube storage container 22 full of a is completed. In addition, although the case where the cylindrical body 221 is configured by winding the outer skin made of a soft resin or paper a plurality of times has been described, a cylindrical body having a hollow cylindrical shape may be used in advance.

In FIG. 4C, an annular waste fluorescent tube a
Lid 22 of annular waste fluorescent tube storage container 22 in which is stored
The barcode label 3 described below is attached to either the third member 3 or the cylindrical body 221.

The bar code label 3 attached to the outer surface of the waste fluorescent tube storage container 2 has a unique symbol for each waste fluorescent tube storage container 2 to which the label is attached and the waste code stored in the storage container 2. Information on the standard shape, dimensions, and maximum storage number of the fluorescent tubes a is displayed.

Since the maximum number of waste fluorescent tube storage containers 2 is fixed in each standard type, if an arbitrary waste fluorescent tube storage container 2 is taken, the number of waste fluorescent tubes a to be stored in the storage container 2 is assumed. The number of types (dimensions, shapes) is specified.

That is, the bar code label 3 affixed to the waste fluorescent tube storage container 2 indicates the type (size, shape) of the waste fluorescent tube a specific to the container in a standard manner. Is prepared by preparing a bar code label 3 standard corresponding to the above standard and adding a unique code of the waste fluorescent tube storage container 2 to the bar code label 3 when attaching the bar code label 3 to any waste fluorescent tube storage container 2. The bar code label 3 is in a state where the waste fluorescent tube storage container 2 is in an empty folded state.
In the information necessary for the collection management / cost calculation system, all the information other than the unique codes of the emitter and the courier are displayed.

That is, the waste fluorescent tube storage container 2 having the bar code label 3 has both the storage function of the waste fluorescent tube a and the delivery slip function. It is a feature of the present invention that the waste fluorescent tube storage container 2 has the storage function and the delivery slip function.

As shown in FIG. 1, the waste fluorescent tube collection information input device 4 includes a first bar code reading section 41 for reading the information of the bar code label 3, a discharger of the waste fluorescent tube a, a transporter, and unloading. First central processing unit (CPU) 43 for storing and processing information from first input unit 42, first barcode reading unit 41, and first input unit 42 for inputting date information, information of first central processing unit And a first output unit 44 that outputs For example, a personal computer is used for the waste fluorescent tube collection information input device 4, and a keyboard is used for the first input unit 42.

In this waste fluorescent tube collection information input device 4, the empty waste fluorescent tube storage container 2 is transported by the carrier to the discharger of the waste fluorescent tube a, and the waste fluorescent tube storage container corresponding to the empty waste fluorescent tube storage container 2 is disposed. The information of the barcode label 3 attached to the storage container 2 in which the fluorescent tubes a are fully loaded by the discharger is read by the first barcode reading unit 41 before being carried out and sent to the first central processing unit (CPU) 43. At the same time, the information of the discharger, the carrier, and the carry-out date is input through the first input unit 42 of the keyboard and stored in the first central processing unit (CPU) 43.

As shown in FIG. 1, the collection information transmitting means 5 converts the information stored in the first central processing unit (CPU) 43 of the waste fluorescent tube collection information input device 4 into the waste fluorescent tube processing information described later. This is transmitted to the confirmation device 6 and the waste fluorescent tube treatment management cost calculation and creation device 8. As the collected information transmitting means 5, for example, a recording medium 51 such as a magnetic disk or an optical disk, or a communication line 52 such as a telephone line is used. The communication line 52 includes a wired system and a wireless system.

When the collected information transmitting means 5 is a recording medium 51, the information stored in the first central processing unit (CPU) 43 of the waste fluorescent tube collected information input device 4 is recorded via the first output unit 44. The information is temporarily recorded on the medium 51, and the recording medium 51 on which this information is recorded is sent to a place where the waste fluorescent tube processing information confirmation device 6 and the waste fluorescent tube processing management cost calculation creating device 8 are installed.

When the collection information transmitting means 5 comprises a communication line 52, one side of the communication line 52 is connected to the waste fluorescent tube collection information input device 4, and the other side is a waste fluorescent tube processing information confirmation device 6 described later. And waste fluorescent tube treatment management cost calculator 8
Connected to. The information stored in the first central processing unit (CPU) 43 of the waste fluorescent tube collection information input device 4 is transmitted to the waste fluorescent tube processing information confirmation device 6 and the waste fluorescent tube processing management via the first output unit 44 and the communication line 52. It is sent to the cost calculation creating device 8.

As shown in FIG. 1, the waste fluorescent tube processing information confirmation device 6 includes a second bar code reading section 61 for reading information on the bar code label 3 and the waste fluorescent information transmitted through the collected information transmitting means 5. A second input unit 62 for inputting information from the fluorescent tube processing information confirmation device 4 and a first central processing unit (CPU) 43 of the waste fluorescent tube collected information input device 4 transmitted by the collected information transmitting unit 5 store the information. A second central processing unit (CPU) 63 that stores the read information and compares the information read by the second barcode reading unit 61 with the stored information of the barcode label 3 to determine whether they are the same. The second central processing unit (CPU) 63 includes a second output unit 63 that outputs a determination result. For example, a personal computer is used as the waste fluorescent tube processing information confirmation device 6, and a display, a printer, and processing information transmitting means 7 are used as the second output unit 64, for example.
And a device for converting the output to a communication medium 72 or a communication line 72.

In the waste fluorescent tube processing information checking device 6, the bar code label 3 attached to the waste fluorescent tube storage container 2 transported to the waste fluorescent tube processing plant by the carrier is read by the second bar code reading unit 61. The second information is read through the second input unit 62 for inputting the information and the information transmitted from the waste fluorescent tube processing information confirmation device 4 through the collected information transmitting means 5.
The central processing unit (CPU) 63 compares the information of the barcode label 3 attached to the waste fluorescent tube storage container 2 before transportation stored in the central processing unit (CPU) 63 to determine whether or not they are the same. Output the judgment result. That is, when the second output unit 64 is a display, the content of the determination result is displayed on the screen, and when the second output unit 64 is a printer, the content of the determination result is printed on a sheet.

As shown in FIG. 1, the processing information transmitting means 7 uses the information of the second central processing unit (CPU) 63 of the waste fluorescent tube processing information confirming device 6 to calculate the waste fluorescent tube processing management cost calculating and preparing apparatus described later. 8. As the processing information transmitting means 7, for example, a recording medium 71 such as a magnetic disk or an optical disk, or a communication line 72 such as a telephone line is used. The communication line 72 includes a wired system and a wireless system.

When the processing information transmitting means 7 is a recording medium 71, the central processing unit (CP
U) The information of 63 is temporarily recorded on the recording medium 71 via the second output unit 64, and the recording medium 71 on which this information is recorded is sent to the place where the waste fluorescent tube processing management cost calculation creating device 8 is installed.

When the processing information transmitting means 7 comprises a communication line 72, one side of the communication line 72 is connected to the waste fluorescent tube processing information confirming device 6, and the other side is a waste fluorescent tube processing management cost calculation creating device 8 Connected to. The information of the second central processing unit (CPU) 63 of the waste fluorescent tube processing information confirmation device 6 is sent to the waste fluorescent tube processing management cost calculation creation device 8 through the communication line 72.

As shown in FIG. 1, the waste fluorescent tube processing management cost calculating / creating device 8 has a third input for inputting information from the waste fluorescent tube processing information confirming device 6 and the waste fluorescent tube collection information input device 4. Based on the same information from the waste fluorescent tube processing information confirmation device 6 and the information from the first central processing unit (CPU) 43 of the waste fluorescent tube collection information input device 4, A third central processing unit (C) that controls creation and processing of a processed notice to a carrier and a processed notice to a processing plant
PU) 82, and a third output unit 8 that creates a bill to the discharger, a processed notice to the transporter, and a processed notice to the processing plant based on instructions from the third central processing unit (CPU) 82.
3. For example, a personal computer is used for the waste fluorescent tube processing management cost calculation and creation device 8.
For 3, a printer is used.

This waste fluorescent tube treatment management cost calculation and preparation device 8
Then, the information of the barcode label 3 attached to the waste fluorescent tube storage container 2 before the transportation and the information of the barcode label 3 attached to the waste fluorescent tube storage container 2 transported to the waste fluorescent tube treatment plant are displayed. When the waste fluorescent tube processing information confirming device 6 determines that the waste fluorescent tube a is the same and the waste fluorescent tube a is processed in the processing plant, the same information and waste fluorescent tube collection information input from the waste fluorescent tube processing information confirming device 6 are input. First central processing unit (CPU) 43 of device 4
The third output unit 83 creates a bill to the discharger, a processed notice to the carrier, and a processing notice to the processing plant based on the information of the discharger and the carrier from the company. That is, the third
Invoice to the discharger,
The processed notice to the carrier and the processed notice to the processing plant are printed.

Next, the collection management by the configuration of the above-mentioned embodiment of the present invention will be described with reference to the flow chart of collection and management of waste fluorescent tubes by the waste fluorescent tube collection processing management system of FIG.

(1) As shown in the steps (1) to (3), the standard waste fluorescent tube storage container 2 conforming to the standard size and shape of the fluorescent lamps of various standard types is provided with a unique symbol of the storage container 2. The bar code label 3 indicating the shape and size of the waste fluorescent tube a to be stored and the maximum number of the storage containers 2 that can be stored in advance is affixed to the empty storage container 2 and folded in a compact state. It is delivered from a fluorescent tube processing (recycling) company to a discharger of the waste fluorescent tube a via a carrier, for example, a home delivery company.

(2) As shown in the step (4), the discharger (or agent) inserts the waste fluorescent tube a of a type suitable for the storage container 2 while assembling the waste fluorescent tube storage container 2. After storing the number of waste fluorescent tubes a that can be stored in the storage container 2, the waste fluorescent tube storage container 2 is sealed. The assembly of the straight tubular waste fluorescent tube storage container 21 and the annular waste fluorescent tube storage container 22 and the storage in the straight tubular waste fluorescent tube storage container 21 and the annular waste fluorescent tube storage container 22 are performed as described above.

(3) As shown in the step (5), for example, when the transporter composed of a home delivery company picks up the waste fluorescent tube storage container 2 full of waste fluorescent tubes a from the discharger, the storage container 2
Is read and stored, and the unique symbols of the discharger and the carrier are also stored together with the date. At this point, the waste fluorescent tube storage container 2 also has the function of a delivery slip. The reading of the barcode label 3 is performed by the first barcode reading unit 41 of the waste fluorescent tube collection information input device 4. The information of the barcode label 3 read by the first barcode reading unit 41 is stored in the first central processing unit (CPU) 43. In addition, information such as a unique symbol and a date of the discharger and the carrier is input by the keyboard of the first input unit 42, and the first central processing unit (CPU)
43.

(4) As shown in the step (6), the transporter, for example, a home delivery company, disposes the stored information together with the waste fluorescent tube storage container 2 loaded with the waste fluorescent tubes a with the waste fluorescent tube processing (recycling). Deliver to the dealer. The information stored in the first central processing unit (CPU) 43 of the waste fluorescent tube collection information input device 4 is passed to a waste fluorescent tube processing (recycling) company by the collection information transmitting means 5, but the collected information transmitting means 5 For example, in the case of a recording medium 51 such as a magnetic disk or an optical disk, the recording medium 51 is directly delivered to a waste fluorescent tube processing company together with the waste fluorescent tube storage container 2 as described above. Information recorded on a recording medium 51 such as a magnetic disk or an optical disk is
The second of the waste fluorescent tube processing information confirmation device 6 of the waste fluorescent tube processing contractor
The information is stored in the central processing unit (CPU) 63. When the collected information transmitting means 5 is constituted by the communication line 52, the collected information transmission means 5 is transmitted to the waste fluorescent tube processing information confirmation device 6 of the waste fluorescent tube processing company through the communication line 52, and 2 Stored in the central processing unit (CPU) 63.

(5) Steps (7) As shown in (8) and (9), the waste fluorescent tube treatment trader reads the information on the barcode label 3 attached to the waste fluorescent tube storage container 2 and, for example, transports the goods by a home delivery company. The waste fluorescent tube a stored in the waste fluorescent tube storage container 2 is taken out and sent to the processing step when the trader checks the information read and stored when the trader picks up the waste fluorescent lamp from the discharger, and if both match, the waste fluorescent tube a stored in the waste fluorescent tube storage container 2 is taken out. The waste fluorescent tube processing contractor uses the second barcode reading unit 61 of the waste fluorescent tube processing information confirmation device 6 to store the waste fluorescent tube storage container 2.
The information on the attached bar code label 3 is read. Further, the information of the barcode label 3 read by the second barcode reading section 61 and the information of the discharger and the transporter stored in the second central processing section (CPU) 63 of the waste fluorescent tube processing information checking device 6 are stored. Information such as the symbol and date of the second central processing unit (C
PU) 63 to determine whether they are the same.
The determination result of the second central processing unit (CPU) 63 is printed and output and displayed by, for example, a display screen or a printer of the second output unit 64, and the waste fluorescent tube processing company views the output and displayed contents.

(6) As shown in step (10), the information read by the carrier such as a courier and stored together with the discharger and the carrier's unique symbol is transmitted to the collection management / cost calculation system, Invoices to waste generators, processed notices to transporters and processing notices to processing plants are automatically created and sent to dischargers, transporters and processing plants. The first central processing unit (CPU) of the waste fluorescent tube collection information input device 4 is provided by the collection information transmitting means 5 to the waste fluorescent tube processing management cost calculation creation device 8 of the collection management / cost calculation system.
43, the information stored in the processing information transmitting means 7 is transmitted.
Accordingly, the determination information of the second central processing unit (CPU) 63 of the waste fluorescent tube processing information confirmation device 6 is sent. Then, the third information of the waste fluorescent tube processing management cost calculation and creation device 8 is obtained from the information.
In the central processing unit (CPU) 82, the printer of the third output unit 83 automatically creates a bill to the discharger, a processed notice to the transporter, and a processed notice to the processing plant.

(7) The discharger pays the collection fee to the processing plant based on the bill. For example, a transporter composed of a courier company charges a transportation fee to a processing plant based on the processed notice.

(8) As shown in the step (11), the empty fluorescent tube storage container 2 with the barcode label 3 that has been emptied is passed from the processing plant to the discharger via a transporter, and the waste fluorescent tube storage The waste fluorescent tubes a suitable for the straight tubular waste fluorescent tube storage container 21 or the annular waste fluorescent tube storage container 22 of the container 2 are fully loaded, and the same operation as described above is repeated.

Thus, the waste fluorescent tube collection and management system according to the present invention divides Japan into, for example, Hokkaido, Tohoku / Hokuriku, Kanto / Tokai, Kinki / Kansai, Chugoku / San-in, Shikoku, Kyushu, etc. By using the existing transport organization such as courier service for each area and collecting the collection fee in the area at the same unit price, the collection management / cost clearing system is simplified and the transportation cost is reduced. In order to achieve this, standardization of fluorescent lamps (shape, dimensions, etc.)
Focusing on (1), the waste fluorescent tube storage container 2 is standardized for each type of fluorescent tube so that it can be repeatedly used in a foldable manner.
(2) The lightest and cheapest paper or resin is used as the material of the waste fluorescent tube storage container 2.

(3) The shape and size of a fluorescent tube suitable for the standard waste fluorescent tube storage container 2 and the waste fluorescent tube a to be stored in one storage container A bar code label 3 indicating the number and a unique symbol of the waste fluorescent tube storage container 2 is pasted on the empty waste fluorescent tube storage container 2 in advance, and (4) When the waste fluorescent tube storage container 2 is full at the collection place. And read and store the information on the barcode label 3 before carrying it out. (5) After inputting the respective unique symbols of the discharger and the transporter, storing them together and transporting them to the processing plant. (6) At the processing plant, the information of the barcode label 3 attached to the waste fluorescent tube storage container 2 is read again, and it is determined whether or not the information is the same as the information stored before the unloading. Only the waste fluorescent tube a is taken out of the waste fluorescent tube storage container 2 and processed. That. (8) Barcode label 3
Information and the unique symbols of the emitter and the carrier, respectively.
It is sent to the collection / management / cost calculation system, and an invoice to the discharger and a processed notice and a processing notice are automatically generated for the transporter and the processing plant, respectively, and sent to the discharger, the transporter and the processing plant. Is done.

As described above, the inexpensive waste fluorescent tube storage container 2 is repeatedly used, and at present, for example, the home delivery system having the highest transport efficiency in the world is used, and the same area, the same unit price, and the barcode unique to the storage container are used. By using the system, collection management can be simplified, and safe collection can be performed at low cost.

It should be noted that the present invention is not limited to the above embodiment of the present invention, and it is needless to say that various modifications can be made without departing from the spirit of the present invention.

[0056]

As is apparent from the above description, the waste fluorescent tube collecting and managing system according to the first and second aspects of the present invention has the following effects. (1) Fluorescent lamps in offices, factories, apartment houses or houses are generally grouped into several types of standards, and waste fluorescent tube storage containers conforming to the several types of standards are transported via transport, for example, home delivery. Very easy to deliver to the discharger. (2) The discharger always fills up the waste fluorescent tube storage container and hands it over to the carrier so that it is in his or her own interest, so there is no need to check the type and quantity of waste fluorescent tubes stored. Is extremely simple. (3) The waste fluorescent tube storage container has a lightweight and rigid structure adapted to the shape of the waste fluorescent tube, and is extremely easy to handle and store in a rectangular parallelepiped or cylindrical shape. It is possible to deliver by. (4) As described above, collection and transportation are simplified, so that collection and transportation in a wide area can be simplified and the storage management cost calculation and billing system can be simplified.

[Brief description of the drawings]

FIG. 1 is an overall system block diagram of a waste fluorescent tube collection processing management system showing an embodiment of the present invention.

FIG. 2A is a development view of a straight tubular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system according to the embodiment of the present invention. (B) is a fold-up view of a straight tubular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system according to the embodiment of the present invention. (C) is an assembly drawing of a straight tubular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system showing the embodiment of the present invention.
(D) is a side view of the straight fluorescent tube.

FIG. 3A is a side view of a straight fluorescent tube collection container used in the waste fluorescent tube collection processing management system according to the embodiment of the present invention when a straight fluorescent tube is stored. (B)
FIG. 3 is a partial view taken along the line AA in FIG. (C) is FIG.
It is a BB arrow partial view of (A). (D) is a partially enlarged side view of a straight tubular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system according to the embodiment of the present invention.

FIG. 4A is a folded view of an annular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system according to the embodiment of the present invention. (B) is a side sectional view of an annular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system according to the embodiment of the present invention. (C) is an assembly diagram of an annular waste fluorescent tube storage container used in the waste fluorescent tube collection processing management system according to the embodiment of the present invention.

FIG. 5 is a flowchart of waste fluorescent tube collection management by the waste fluorescent tube collection processing management system according to the embodiment of the present invention.

[Explanation of symbols]

 1 Waste Fluorescent Tube Collection Processing Management System 2 Fluorescent Tube Storage Container 21 Straight Tubular Fluorescent Tube Storage Container 211 Bottom Plate 211a One End 211b Other End 212 Top Plate 213 Longitudinal Plate 214 End Side Plate 215 Divided Interval Supporting Piece 216 Interval Supporting Piece 217 Fixing groove 218 Stopper 219 Stopper 22 Annular waste fluorescent tube storage container 221 Cylindrical body 222 Shaft 223 Upper cover 224 Lower cover 225 Spacer 226 Stopper 227 Stopper 3 Barcode label 4 Waste fluorescent tube collection information input device 41 First barcode reading section 42 First input section 43 First central processing section (CPU) 44 First output section 5 Collected information transmitting means 51 Recording medium 52 Communication line 6 Waste fluorescent tube processing information confirmation device 61 Second barcode reading Unit 62 second input unit 63 second central processing unit (CPU) 64 second output unit 7 processing information transmitting means 71 recording medium 72 communication line 8 waste fluorescent tube processing management cost calculation and creation device 81 third input unit 82 third central processing unit (CPU) 83 third output unit a waste fluorescent tube

Claims (2)

[Claims] 1. A waste fluorescent tube storage container for storing a plurality of waste fluorescent tubes, a bar code label attached to an outer surface of the waste fluorescent tube storage container, and a first bar code reader for reading information on the bar code label. Unit, a first input unit for inputting information of a waste fluorescent tube discharger, a transporter, and an unloading date, a first barcode reading unit, and a first central processing unit for storing and processing information from the input unit.
A waste fluorescent tube collection information input device having a first output unit for outputting information of a central processing unit; and a waste fluorescent tube processing device described later which stores information stored in the first central processing unit of the waste fluorescent tube collection information input device. A collection information transmitting unit that transmits the information to the information confirmation device and the waste fluorescent tube processing management cost calculation and creation device; a second barcode reading unit that reads barcode label information; and inputs information from the waste fluorescent tube processing information confirmation device. A second input unit for storing the information transmitted by the collected information transmitting unit and stored in the first central processing unit of the waste fluorescent tube collection information input device, and storing the information read by the second bar code reading unit; A waste-fluorescent-tube-processing-information confirming device having a second central processing unit that compares the information with the barcode label to determine whether or not they are the same, and a second output unit that outputs the determination result of the second central processing unit; The waste fluorescence Processing information transmitting means for transmitting the information of the second central processing unit of the processing information confirmation device to the waste fluorescent tube processing management cost calculation creating device described below; and the waste fluorescent tube processing information confirmation device and the waste fluorescent tube collection information input device. A third input unit for inputting the same information from the waste fluorescent tube processing information confirmation device, and a bill to the discharger based on the information from the first central processing unit of the waste fluorescent tube collection information input device. , A third central processing unit that controls the preparation and processing of a processed notice to the carrier and a processed notice to the processing plant, an invoice to the discharger based on instructions from the third central processing unit, and processing to the carrier A waste fluorescent tube processing management cost calculating and preparing device having a third output unit for generating a completed notification and a processing notification to a processing plant. 2. A waste fluorescent tube storage container for storing a plurality of waste fluorescent tubes, a bar code label attached to an outer surface of the waste fluorescent tube storage container, and a first bar code reader for reading information on the bar code label. Unit, a first input unit for inputting information of a waste fluorescent tube discharger, a transporter, and an unloading date, a first barcode reading unit, and a first central processing unit for storing and processing information from the input unit.
A waste fluorescent tube collection information input device having a first output unit for outputting information of a central processing unit; and a waste fluorescent tube processing device described later which stores information stored in the first central processing unit of the waste fluorescent tube collection information input device. A collection information transmitting unit that transmits the information to the information confirmation device and the waste fluorescent tube processing management cost calculation and creation device; a second barcode reading unit that reads barcode label information; and inputs information from the waste fluorescent tube processing information confirmation device. A second input unit for storing the information transmitted by the collected information transmitting unit and stored in the first central processing unit of the waste fluorescent tube collection information input device, and storing the information read by the second bar code reading unit; A waste-fluorescent-tube-processing-information confirming device having a second central processing unit that compares the information with the barcode label to determine whether or not they are the same, and a second output unit that outputs the determination result of the second central processing unit; The waste fluorescence Processing information transmitting means for transmitting the information of the second central processing unit of the processing information confirmation device to the waste fluorescent tube processing management cost calculation creating device described below; and the waste fluorescent tube processing information confirmation device and the waste fluorescent tube collection information input device. A third input unit for inputting the same information from the waste fluorescent tube processing information confirmation device, and a bill to the discharger based on the information from the first central processing unit of the waste fluorescent tube collection information input device. A third central processing unit that controls creation and processing of a processed notice to a carrier and a processed notice to a processing plant;
A bill to the discharger based on a command from the third central processing unit,
A waste fluorescent tube collection / management processing management system, comprising: a waste fluorescent tube processing management cost calculation creation device having a third output unit for creating a processed notification to a carrier and a processing notification to a processing plant; The waste fluorescent tube storage container has a size and a shape corresponding to a standard type of a fluorescent tube, and is formed of a container that can be folded in an empty state, and the bar code label includes the waste fluorescent light labeled with the label. A unique symbol for each tube storage container and information on the standard shape, dimensions, and maximum storage number of waste fluorescent tubes stored in the storage container are displayed. The waste fluorescent tube collection information input device includes an empty waste fluorescent tube. The storage container is transported by the carrier to the waste fluorescent tube discharger, and the waste fluorescent tube corresponding to the empty waste fluorescent tube storage container is filled with the barcode label information attached to the storage container by the discharger. Before taking out The code reading unit reads the information and stores it in the first central processing unit. At the same time, the information of the discharger, the carrier and the carry-out date is input in the input unit and stored in the first central processing unit. Reads a barcode label attached to a waste fluorescent tube storage container transported to a waste fluorescent tube processing plant by a transporter with a second barcode reading unit, and reads the barcode label stored in the second central processing unit. Comparing the information with the barcode label attached to the previous waste fluorescent tube storage container to determine whether they are the same, and outputting the determination result from the second output unit; Is the information on the barcode label attached to the waste fluorescent tube storage container before transport,
When the information on the barcode label attached to the waste fluorescent tube storage container that has been transported to the waste fluorescent tube processing plant is determined to be the same by the waste fluorescent tube processing information confirmation device and the waste fluorescent tube is processed at the processing plant, A request from the third output unit to the discharger based on the same information from the waste fluorescent tube processing information confirmation device and the information of the discharger and the carrier from the first storage unit of the waste fluorescent tube collection information input device. A waste fluorescent tube collection and management system, which creates a notification letter, a processed notice to a carrier and a processed notice to a processing plant.