JP2008265890A - Traceability system and its program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a traceability system and its program not increasing working burden on a worker. <P>SOLUTION: The traceability system 10 is a system for managing an article conveyed from an entity in an upstream of a conveying process to an entity in a downstream, and is provided with an upstream side terminal 20 provided on the entity in the upstream; a downstream side terminal provided on the entity in the downstream and connected to the upstream side terminal 20 by a communication means; a scheduled information input part 31 provided on the downstream side terminal 30 and inputted with the scheduled information of the traceability; and control parts 25, 45 for displaying or outputting the scheduled information inputted to the scheduled information input part 31 on the upstream side terminal 20. Further, part or the whole of the scheduled information of the traceability is utilized as the history information of the traceability. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a traceability system suitable for managing articles transported from an upstream base to a downstream base in a transport process and a program thereof.

Traceability refers to the clarification of the processes from cultivation / breeding to processing, production, distribution, etc., or the mechanism to ensure product safety.
As this type of traceability system, a system is known in which a consumer can easily know individual information of agricultural products (for example, see Patent Document 1).

However, in order to realize a traceability system, it is necessary for workers located at each base to input information on the traceability of goods at their respective positions. Specifically, if it is an agricultural product, it will be registered as “January 1, 2000, harvested in village A” at the first stage, and “5 tons harvested, 3 tons shipped today” etc. at the next stage. In the next stage, registration is made such as “depart from factory B, ship in ship C, ship in container D”. In this way, there are many items to be input at each place, and there is a possibility that the work burden on the worker will increase.
Japanese Patent No. 3355366

  An object of the present invention is to provide a traceability system and a program therefor that do not increase the work burden on workers.

The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to the Example of this invention is attached | subjected and demonstrated, it is not limited to this.
The invention of claim 1 is a traceability system (10) for managing articles transported from an upstream base to a downstream base in the transport process, the upstream terminal (20) provided at the upstream base, The downstream terminal (30) provided at the downstream base and connected to the upstream terminal (20) by communication means, and the downstream terminal (30) are provided with the traceability schedule information input. A traceability system (10) comprising: an information input unit (31); and a control unit (25, 45) that causes the upstream terminal (20) to display or output the schedule information input to the schedule information input unit (31). ).
The invention according to claim 2 is a traceability system for managing articles transported from an upstream base to a downstream base in the transport process, provided at the downstream base, and provided at the upstream base by communication means. A downstream terminal (30) connected to the upstream terminal (20), a schedule information input unit (31) provided in the downstream terminal (30) for inputting traceability schedule information, and the schedule information input And a control unit (25, 45) that causes the upstream terminal (20) to display or output the schedule information input to the unit (31).
The invention according to claim 3 is a traceability system for managing articles conveyed from an upstream base to a downstream base in the transport process, provided at the upstream base, and provided at the downstream base by communication means. An upstream terminal (20) connected to the downstream terminal (30), and a control unit (25) that displays or outputs the traceability schedule information input to the downstream terminal (30) on the upstream terminal (20). , 45).
The invention of claim 4 is the traceability system (10) according to any one of claims 1 to 3, wherein a part or all of the schedule information is used as traceability performance information. A traceability system (10) characterized by
According to a fifth aspect of the present invention, in the traceability system (10) according to any one of the first to fourth aspects, the language displayed by the control unit (25, 35, 45) is changed to another language. A traceability system (10) characterized by comprising a language translation unit for translating into
The invention of claim 6 provides a computer system for managing articles transported from an upstream base to a downstream base in a transport process, to an upstream terminal (20) provided at the upstream base, and to the downstream base. A downstream terminal (30) that is provided and connected to the upstream terminal (20) by communication means, and a schedule information input unit (31) that is provided in the downstream terminal (30) and receives traceability schedule information. ) And a control unit (25, 45) for causing the upstream terminal (20) to display or output the schedule information input to the schedule information input unit (31). .

The present invention has the following effects.
(1) Since the traceability schedule information input at the downstream terminal is displayed or output on the upstream terminal, the worker who works at the upstream terminal can perform the work while looking at the traceability schedule information. It is possible to reduce the work burden on the worker.
(2) Since part or all of the schedule information is used as traceability performance information, the worker who performs work at the upstream terminal can reduce the items to be input by himself / herself and can further reduce the work load.
(3) Since a language translation unit that translates the language displayed by the control unit into another language is provided, it is possible to deal with various languages and improve the usability of workers.

  Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings.

FIG. 1 is a diagram showing an embodiment of a traceability system according to the present invention.
The traceability system 10 according to the present embodiment is a system for managing articles that are transported from an upstream base to a downstream base in the transport process, and is installed at the upstream terminal 20 installed at the upstream base and the downstream base. And a server 40 installed at an arbitrary base.
The upstream terminal 20 and the downstream terminal 30 are connected via the server 40 by communication means having a network environment capable of mutual communication via the Internet or a communication network.

  The upstream side terminal 20, the downstream side terminal 30, and the server 40 are respectively input units 21, 31, 41, display units 22, 32, 42, communication units 23, 33, 43, and storage units 24, 34, 44. And control units 25, 35, 45.

First, common functions will be described.
The input units 21, 31, and 41 are portions for inputting information desired by the worker, and include a keyboard and a mouse for inputting numbers, characters, operation instructions, and the like.
The display units 22, 32, and 42 are portions that display information such as characters and images, and are display devices such as a display, for example.
The communication units 23, 33, and 43 are parts that transmit and receive information such as data and files.
The storage units 24, 34, and 44 are parts that are used as work areas for storing various types of information and executing processes.
The control units 25, 35, and 45 are units that collectively control the above-described units, and are realized by the control units 25, 35, and 45 executing a program (traceability system program) stored in a ROM or the like. .
The control units 25, 35, and 45 include a language translation unit that translates the language displayed by the control units 25, 35, and 45 into another language. The language translation unit can translate languages such as Japanese, English, and Chinese.

Next, characteristic functions will be described.
The input unit 21 of the upstream terminal 20 functions as an upstream inspection information input unit to which upstream inspection information obtained by inspecting an article to be transported at an upstream base is input. Here, the term “inspection” refers to an inspection relating to an article. For example, the inspection is performed in a minimum unit of transportation (container unit, pallet unit, cardboard unit, etc.).

The input unit 31 of the downstream terminal 30 functions as a schedule information input unit into which traceability schedule information is input. Here, the traceability schedule information is information related to schedules of various information related to traceability, for example, information such as “10 delivery hopes”. On the other hand, traceability record information, which will be described later, is information related to the track record of various kinds of information related to traceability, for example, information such as “10 piece delivery completed”.
Further, the input unit 31 of the downstream terminal 30 serves as a downstream inspection information input unit to which the downstream inspection information obtained by inspecting the article at the downstream base is the same as the inspection at the upstream base. Function.

  The control unit 45 of the server 40 has a function of causing the schedule information input to the input unit 31 of the downstream terminal 30 to be displayed on the display unit 22 of the upstream terminal 20. Specifically, when the schedule information is transmitted from the downstream terminal 30, the schedule information is stored in the storage unit 44 of the server 40, and the schedule information display request command is received from the upstream terminal 20. The schedule information is transmitted to the upstream terminal 20 and the schedule information is displayed on the display unit 22 of the upstream terminal 20.

  In addition, the control unit 45 of the server 40 receives the upstream inspection information input to the input unit 21 of the upstream terminal 20 and the downstream inspection information input to the input unit 31 of the downstream terminal 30. 30 display units 32 are arranged and displayed. Specifically, when the upstream inspection information is transmitted from the upstream terminal 20, the upstream inspection information is stored in the storage unit 44 of the server 40, and the downstream inspection information is transmitted from the downstream terminal 30. The downstream inspection information is stored in the storage unit 44 of the server 40, and when the inspection information display request command is received from the downstream terminal 30, the upstream inspection information and the downstream side are transmitted to the downstream terminal 30. The inspection information is transmitted, and the upstream inspection information and the downstream inspection information are displayed on the display unit 32 of the downstream terminal 30.

In the drawing, one upstream terminal 20 and one downstream terminal 30 are illustrated, but another upstream terminal may exist upstream of the upstream terminal 20. In this case, a terminal upstream of the upstream terminal 20 functions as the upstream terminal 20, and the upstream terminal 20 in the figure functions as the downstream terminal 30.
On the other hand, another downstream terminal may exist downstream of the downstream terminal 30. In this case, a terminal downstream of the downstream terminal 30 functions as the downstream terminal 30, and the downstream terminal 30 in the figure functions as the upstream terminal 20.
Therefore, actually, the upstream terminal 20 also has the function of the downstream terminal 30, and the downstream terminal 30 also has the function of the upstream terminal 20. Each terminal determines which one functions based on an instruction from the server 40.

FIG. 2 is a diagram illustrating the operation flow of the traceability system 10 according to the present embodiment.
First, as shown in FIG. 2 (# 1), farm products are harvested on the farm 100. At the terminal of the farm 100, information such as agricultural chemicals and fertilizers is input, and the information is transmitted to the server 40.
Next, as shown in FIG. 2 (# 2), in the processing factory 200, shipping related information, various inspection information, etc. are input from the terminals 20, 30, and the management certificate is received from the scanner 50 connected to the terminals 20, 30. An image of the document is input and the information is transmitted to the server 40. Note that the processing factory 200 is a factory that processes crops, and the sorting operation is a kind of processing operation.
Then, as shown in FIG. 2 (# 3), agricultural products are transported by ship or the like.
Further, as shown in FIG. 2 (# 4), in the external warehouse company 300 (or import company), first, information such as the container number, quantity, entry date, customs clearance date, shipping destination, delivery date, etc. from the terminals 20 and 30. Is input, an image of the document is input from the scanner 50, and the information is transmitted to the server 40.
Next, as shown in FIG. 2 (# 5), D / O (Delivery Order) number, container number, departure port, quantity, inspection information (various inspection results), management from terminals 20 and 30 Information such as certificates is input, and the information is transmitted to the server 40.
In addition, as shown in FIG. 2 (# 6), in the food factory / manufacturing consignment factory 400, the manufacturing factory (this manufacturing factory is a general term for food factories, consignment manufacturing factories, etc.), departure port, shipping date, Information such as the container number and D / O number is input, and the information is transmitted to the server 40.
Then, as shown in FIG. 2 (# 7), the processed food is conveyed to the distributor 500, and finally, the food is delivered to the consumer 600 as shown in FIG. 2 (# 8). The consumer 600 may access the server 40 using a terminal such as a mobile phone and check various information as necessary.

FIG. 3 is a diagram for explaining a display screen at each site of the traceability system 10 according to the present embodiment.
The articles managed by the traceability system 10 are in the order of a supplier (a person who supplies raw materials and goods) 1, a processing factory 2 (200), a trading company 3, an external warehouse company 4 (300), a manufacturing contractor 5, and a processing company 6. It will be transported.
When an operator accesses the server 40 using the terminals 20 and 30, a login screen appears. When a worker logs in with a predetermined ID and password, a crop selection screen appears.
When a predetermined crop is selected on the crop selection screen, an input screen corresponding to the scene is displayed, such as “production area screen” for supplier 1 and “shipping record screen” for processing factory 2; Input is performed as follows. Thereby, the work burden of the worker of the processing factory 2 is reduced.

(# 1; on the production area screen and the harvest screen) For the production area registered in advance, the harvest / shipment information and various certificates are registered.
(# 2; on the shipping schedule screen and the shipping performance screen) The processing factory 2 registers the shipping history and inspection information for the shipping schedule (total weight, number of containers, etc.) registered by the trading company 3 for each shipping month. Thereby, the work burden of the worker of the processing factory 2 is reduced.
(# 3; on the shipping record screen and the warehousing screen) With reference to the shipping record registered by the processing factory 2, the external warehouse company 4 registers the warehousing information.
(# 4; on the warehousing screen and the D / O issue screen) With reference to the warehousing information registered by the external warehouse company 4, the D / O information issued by the trading company 3 is registered. Thereby, the work burden of the worker of trading company 3 is reduced.

(# 5; on the delivery instruction screen and the delivery screen) The processor 6 registers the delivery instruction with the external warehouse company 4 for the food material issued D / O. Thereby, the work burden of the worker of the external warehouse company 4 is reduced.
(# 6; on the delivery screen and the delivery instruction screen) With reference to the delivery instruction from the external warehouse company 4 to the manufacturing consignee 5, the manufacturing consignee 5 registers the delivery results to the processor 6.
With reference to the shipping information from the external warehouse company 4 or the delivery information from the manufacturing consignee 5 (# 7; on the delivery screen, delivery screen and arrival screen), the processor 6 registers the receipt information to the food factory warehouse.
(# 8; From the arrival screen to the inspection screen) Based on the received information, the inspection department of the processor 6 registers various inspection information.

FIG. 4 is a diagram illustrating details of the input screen of the traceability system 10 according to the present embodiment.
Here, the input of the shipping record in a processing factory is demonstrated.
The items displayed on the input screen are “production area name a1,” “harvest start date / harvest end date a2,” “planned shipping date / departure date a3”, “departure area / destination port a4”, “production number / ship Items such as “name / container number a5” and “certificate a6”.
The information (production area name a1, harvest start date / harvest end date a2) input at the base before the processing factory is displayed as it is.
On the other hand, the information (scheduled loading date a3, departure port a4) which is not changed among the information input in advance at the base after the processing factory is also displayed as it is.
Moreover, information that may be changed (port departure date a3, destination port a4) among information input in advance at the base after the processing factory is displayed so that it can be changed as appropriate using a pull-down menu. If it is as scheduled, there is no need to input information again, but if the schedule is changed, the value is changed by the function of the pull-down menu. That is, if there is no change in the schedule, the traceability schedule information is used as it is as traceability performance information.
Furthermore, information (production number / ship name / container number a5) that can be input only at the processing factory is input by the processing factory worker himself / herself.
In addition, when the certificate a6 is registered in the process before the processing factory, “O” is displayed in the item of “Certificate a6”, and by clicking the “O”, You can check the certificate image. If you want to newly register a certificate at the processing factory, you can click “O” and then register the certificate on the additional registration screen.

FIG. 5 is a diagram for explaining the details of the inspection screen of the traceability system 10 according to the present embodiment.
When the operator selects an inspection item from the main menu, an inspection screen as shown in FIG. 5 appears.
Items displayed on the inspection screen are items such as “production lot b1”, “shipping date b2”, “container number b3”, “production area name b4”, “processing factory b5”, and “inspection information b6”. The inspection information may include not only the inspection result but also information such as the type of inspection, the device used in the inspection, and the inspector.

Here, the information displayed in “production lot b1”, “shipping date b2”, “container number b3”, “production area name b4”, and “processing factory b5” is the traceability record information already registered. is there.
The items of “inspection information b6” include items of “sucrose value”, “discoloration rate (%)”, “stain rate (%)”, and inspection between the upstream A base and the downstream B base Information is displayed side by side.
Both “sucrose value” are 75 and both “discoloration rate (%)” are 1, but “stain rate (%)” is 1 at A site and 3 at B site. .
In addition, each screen described above has a translation button (not shown). Clicking the translation button translates the Japanese displayed on the screen into Chinese by the function of the language translation unit. Or translate Chinese into English.
In addition, the inspection items such as “sucrose value” described above vary depending on the raw material, and are not limited thereto. The above three items are inspection items often used for beans.

Thus, according to the present embodiment, the following effects are obtained.
(1) Since the traceability schedule information input at the downstream terminal 30 is displayed on the upstream terminal 20, the worker who performs the work at the upstream terminal 20 performs the work while looking at the traceability schedule information. Can reduce the work burden on the worker.
(2) Since a part of the schedule information is used as traceability performance information, the worker who performs work on the upstream terminal 20 can reduce the items to be input by himself / herself and can further reduce the work load.
(3) Since the language displayed by the control units 25, 35, and 45 is provided with a language translation unit that translates the language into another language, it is possible to deal with various languages and improve the usability of workers.

(4) The same inspection is performed at the upstream base (processing plant 200) and the downstream base (external warehouse company 300), and the upstream inspection information input at the upstream terminal 20 and the downstream terminal 30 are input. Since the downstream inspection information is displayed, the upstream inspection information and the downstream inspection information can be compared and confirmed, and the quality of the article can be ensured at a high level. Even if the same inspection is performed, the value of the inspection may differ depending on the location of the inspection because the inspection method itself is wrong or the value changes during transportation. In the example, it is possible to grasp the difference in the test result caused by such a factor.
(5) Since the upstream inspection information and the downstream inspection information are displayed side by side, the display can be made easier to see. Further, the upstream side terminal 20 can also confirm the downstream side inspection information. Further, since the inspection results can be compared and confirmed, when there are a plurality of bases and the inspection results change in the middle, it is possible to specify which base and which base the inspection result has changed.
(6) If the article to be conveyed is imported food, it is more effective because it passes through more steps.

(Modification)
The present invention is not limited to the embodiments described above, and various modifications and changes are possible, and these are also included in the technical scope of the present invention.
(1) Although the schedule information and the inspection information have been described in the example of display, they may be output on paper using a printer or the like.
(2) Schedule information, performance information, and inspection information may be displayed on any display unit.
(3) The example in which the inspection information is displayed for the upstream A base and the downstream B base has been described as an example, but when there are more bases, the inspection information for all bases is summarized. May be displayed.

(4) Although the traceability system 10 has been described as an example including the upstream terminal 20, the downstream terminal 30, and the server 40, the traceability system 10 includes the upstream terminal 20 and the server 40 or the downstream terminal 30 and the server 40. May be.
(5) The function of the server 40 may be provided in the upstream terminal 20 or the downstream terminal 30.

(6) A program for performing the control as described above may be distributed and collectively managed by a computer system such as a server. The computer system referred to in the present invention refers to a system composed of one or a plurality of computers. The computer refers to an information processing apparatus including a storage device, a control unit, and the like, and a personal computer and a mobile phone are included in the concept of the computer of the present invention.

It is a figure which shows the Example of the traceability system by this invention. It is a figure explaining the flow of operation of the traceability system 10 by a present Example. It is a figure explaining the display screen in each base of the traceability system 10 by a present Example. It is a figure explaining the detail of the input screen of the traceability system 10 by a present Example. It is a figure explaining the detail of the test | inspection screen of the traceability system 10 by a present Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Traceability system 20 Upstream terminal 30 Downstream terminal 40 Server 21,31,41 Input part 22,32,42 Display part 23,33,43 Communication part 24,34,44 Storage part 25,35,45 Control part 100 Farm 200 Processing factory 300 External warehouse company 400 Food factory / Manufacturing contract factory 500 Distributor 600 Consumer

Claims (6)

A traceability system for managing articles transported from an upstream base to a downstream base in the transport process,
An upstream terminal provided at the upstream base;
A downstream terminal provided at the downstream base and connected to the upstream terminal by communication means; and
A schedule information input unit that is provided in the downstream side terminal and that inputs trace information schedule information;
A control unit that causes the upstream terminal to display or output the schedule information input to the schedule information input unit;
Traceability system with A traceability system for managing articles transported from an upstream base to a downstream base in the transport process,
A downstream terminal provided at the downstream base and connected to an upstream terminal provided at the upstream base by communication means; and
A schedule information input unit that is provided in the downstream side terminal and that inputs trace information schedule information;
A control unit that causes the upstream terminal to display or output the schedule information input to the schedule information input unit;
Traceability system with A traceability system for managing articles transported from an upstream base to a downstream base in the transport process,
An upstream terminal provided at the upstream base and connected to a downstream terminal provided at the downstream base by communication means; and
A control unit that causes the upstream terminal to display or output the traceability schedule information input to the downstream terminal;
Traceability system with In the traceability system according to any one of claims 1 to 3,
Part or all of the schedule information is used as traceability performance information,
Traceability system characterized by In the traceability system according to any one of claims 1 to 4,
A language translation unit that translates the language displayed by the control unit into another language;
Traceability system characterized by A computer system that manages the items transported from the upstream base to the downstream base in the transport process,
An upstream terminal provided at the upstream base;
A downstream terminal provided at the downstream base and connected to the upstream terminal by communication means; and
A schedule information input unit that is provided in the downstream side terminal and that inputs trace information schedule information;
A control unit that causes the upstream terminal to display or output the schedule information input to the schedule information input unit;
Program for traceability system to function as