JP6012324B2 - Crop growth management system and crop growth management method - Google Patents

Description

  The present invention relates to a crop growth management system that manages the growth of crops cultivated in a farm.

  2. Description of the Related Art Conventionally, there is known a crop growth management system for managing in which cultivation section a crop planted in a cultivation container is installed in a farm. For example, Patent Document 1 proposes a system in which a non-contact type ID tag is provided in a cultivation container and the ID tag is read by a portable terminal during work to centrally manage the installation location of each crop.

Patent No. 3338674

  By the way, in the system described in the above-mentioned Patent Document 1, when the crop planted in the cultivation container is installed in a required cultivation section or moved to another cultivation section, information on the cultivation section where the crop is installed is obtained. Due to manual input, there may be a discrepancy between the cultivation section where the crop is actually installed and the cultivation section managed by the system due to incorrect input of the cultivation section. There is a risk of confusion during crop harvesting and shipping.

  The present invention has been made in view of the present situation, and provides a crop growth management system and a crop growth management method capable of accurately managing the installation location of a crop planted in a cultivation container as compared with the conventional configuration. And

  The present invention is a crop growth management system for managing in which cultivation section a crop planted in a cultivation container is installed, which is attached to each cultivation container and planted in the cultivation container. A crop identification tag that records unique information of a crop, a zone identification tag that is attached to each cultivation section and that records unique information of the cultivation section, and a crop database that stores in which cultivation section each crop is installed A management device comprising: a portable terminal capable of reading information recorded in the crop identification tag and the zone identification tag, and capable of communicating with the management device; When installing, the mobile terminal reads the unique information of the crop read from the crop identification tag of the cultivation container and the cultivation section read by the mobile terminal from the section identification tag of the cultivation section On the basis of the specific information, a crop growth management system and performs a process of updating the information of the cultivation zone where the crops included in crop database is installed. Here, the “farm” according to the present invention is not limited to other forms as long as the crop is cultivated in the cultivation container. For example, the crop may be cultivated in an open field or cultivated under controlled conditions in a closed environment.

  In such a configuration, when updating the position information of the crop included in the crop database, the mobile terminal can use the unique information of the crop and the cultivation section read from the crop identification tag and the section identification tag. When installing or transferring a crop in a cultivation section, there is no risk of registering incorrect information in the crop database, and the location of the crop can be managed accurately.

  Moreover, in this invention, it is proposed that the said management apparatus is provided with the environment database which memorize | stores the measurement history of the growth environment of a crop, and the results database which memorize | stores the progress history of the cultivation work of a crop.

In such a configuration, the progress history of the cultivation work stored in the results database and the measurement of the growth environment (temperature, humidity, sunshine duration, precipitation, CO ₂ concentration, pH, etc.) stored in the environment database are performed. By comparing with the history, it becomes possible to grasp in what process the crop has grown, and it becomes possible to grasp the tendency of the growth rate (yield) due to the difference in the growth environment. By grasping this trend, it can be used to calculate the harvestable date and the expected harvest amount, the next work start date, the appropriateness standard value (growth period and growth environment) of the growth environment, and the next efficient move can be predicted. . For example, when the crop has withered, the cause can be found from the progress history of the crop growth and the measurement history of the growth environment.

  In the present invention, the crop identification tag is an RFID tag capable of reading and writing data, and stores the progress of cultivation work of the crop in addition to the unique information of the crop planted in the cultivation container. It is proposed that the mobile terminal includes a process of writing the progress of the cultivation work of the crop in the crop identification tag and a process of writing in the result database via the management device.

  In such a configuration, since the progress of the cultivation work of each crop can be stored in the results database and the crop identification tag, even when the mobile terminal cannot communicate with the management device, by reading the crop identification tag It becomes possible to confirm the progress of the cultivation work of the crop.

  Another aspect of the present invention is a crop growth management method for managing in which cultivation section a crop planted in a cultivation container is installed in a farm, the crop planted in the cultivation container When the plant is installed in the cultivation section, the step of reading the unique information of the crop recorded on the crop identification tag attached to the cultivation container with the portable terminal, and the cultivation recorded on the section identification tag attached to the cultivation section Reading the specific information of the section with the portable terminal, and updating the database storing the information of the cultivation section where each crop is installed based on the unique information of the crop and the cultivation section read by the portable terminal. It is the growth management method of the crop characterized by performing.

  According to this method, when updating the database storing the cultivation section where each crop is installed, the update operation can be performed without manually inputting the unique information of the crop and the cultivation section. Can be managed accurately.

  As described above, according to the present invention, it is possible to accurately manage the installation location of the crop in the farm compared to the conventional configuration, so the cultivation section where the crop is actually installed, and the cultivation section of the management information This discrepancy prevents the crop from being left in an inappropriate environment or the crop being worked on.

It is the schematic of the cultivation room 1 of a plantation. It is the schematic of the cultivation shelf 2. It is the schematic of the cultivation containers 3a-3c. It is a flowchart which shows the work process of the cultivation operation | work of a crop. It is a block diagram of a crop management management system. It is explanatory drawing which shows the data structure of a shelf database. It is explanatory drawing which shows the data structure of a crop database. It is explanatory drawing which shows the data structure of a performance database. It is explanatory drawing which shows the data structure of an environment database. It is explanatory drawing which shows the data layout of (a) division identification tag 5, and the data layout of (b) crop identification tag 6. FIG. It is a flowchart which shows the processing content of the process at the time of sowing. It is a flowchart which shows the processing content of follow-up observation processing. It is a flowchart which shows the processing content of a fixed planting process. It is a flowchart which shows the processing content of a shipping permission process. It is a flowchart which shows the processing content of a harvesting process. It is a flowchart which shows the processing content of a container installation process. It is a flowchart which shows the processing content of a container movement process. It is a flowchart which shows the processing content of an environment registration process.

  Embodiments of the present invention are described according to the following examples.

  First, a farm to which the crop growth management system of the embodiment is applied will be described. The farm of an Example is a plant factory provided indoors, and is provided with the cultivation room 1 which grows a crop as shown in FIG. In the cultivation room 1, a plurality of cultivation shelves 2 are arranged, and cultivation containers 3 a to 3 c in which crops are planted on the cultivation shelf 2 are installed. Moreover, although illustration is abbreviate | omitted, in the cultivation room 1, the air conditioner which controls growth conditions, such as temperature and humidity, an automatic water supply apparatus, and an illuminating device are arrange | positioned. Each cultivation shelf 2 is provided with a measuring device (not shown) for measuring temperature, humidity, water temperature, and water quality for each rack.

  As shown in FIG. 2, the cultivation shelf 2 is divided into three stages and four rows, and up to two cultivation containers 3 a to 3 c can be installed in each division 4. In this farm, each section 4 of this cultivation shelf 2 is managed as a unit section in which the cultivation containers 3a to 3c are installed. That is, each section 4 of the cultivation shelf 2 corresponds to the cultivation section of the present invention.

  FIG. 3 is a schematic view of the cultivation containers 3a to 3c. As shown in FIG. 3, in the farm, three types of cultivation containers 3 a to 3 c are used according to the growth stage of the crop. Specifically, the crop is sown in the first cultivation container 3a and replanted into the second cultivation container 3b and the third cultivation container 3c by harvest. Here, as shown in FIG. 3, normally, at the time of fixed planting, the crops in the cultivation containers 3a and 3b as the planting source are divided into a plurality of cultivation containers 3b and 3c. Moreover, the crop identification tag 6 mentioned later is attached to each cultivation container 3a-3c one by one.

  FIG. 4 is a flowchart showing a work process for growing a crop on a farm. To explain in chronological order, first, in the sowing operation, the required variety is seeded in the first cultivation container 3a. The sowed first cultivation container 3a is installed in a section 4 of the cultivation shelf 2 and grown under controlled conditions. In the follow-up work, the state of crop growth is regularly checked. When the crop grows to a predetermined size, the first planting operation is executed. In the first fixed planting operation, the crop is replanted from the first cultivation container 3a to the second cultivation container 3b. The crop replanted in the second cultivation container 3b is returned to the cultivation shelf 2 and grown while regularly monitoring the follow-up. Then, when the growth of the crop in the second cultivation container 3b progresses and reaches a predetermined size, the second planting operation is executed. In the second planting operation, the crop is replanted in the third cultivation container 3c and returned to the cultivation shelf 2. The crop that has been replanted in the third cultivation container 3c is grown with periodic follow-up, and when it is recognized that the crop has grown to a predetermined level, the crop is put in a “shipment permission” state. The crops that have been allowed to be shipped are harvested and shipped at the required timing. In addition, in the farm, in addition to the work process shown in FIG. 4, the transfer operation of the cultivation containers 3 a to 3 c is performed according to the availability of the cultivation shelf 2.

  FIG. 5 is a configuration diagram of the crop growth management system of the present embodiment. This crop growth management system is installed in the plantation and manages work processes from sowing to harvesting of crops. Specifically, the crop growth management system includes a management computer 10, an external storage device 11, a portable terminal 12 carried by the worker, a wired LAN 13 laid in the farm, and the portable terminal 12 to the wired LAN 13. A wireless LAN access point 14 for connection, a printer 15 connected to the wired LAN 13, the section identification tag 5 attached to each section 4 of the cultivation shelf 2, and the crop identification attached to the cultivation containers 3a to 3c. And a tag 6.

  The management computer 10 is constituted by a general-purpose personal computer, and is connected to the wired LAN 13 and comprehensively manages the crop growth state according to the installed program.

  The external storage device 11 is a hard disk connected to the wired LAN 13. The external storage device 11 includes a shelf database that stores the usage status of the cultivation shelf 2, a crop database that stores the status of the crop, a results database that stores the progress history of the cultivation work of the crop, and a measurement history of the growing environment of the crop. Are stored in an environment database, and information of each database can be referred to and updated by the management computer 10. That is, the management device according to the present invention is configured by the management computer 10 and the external storage device 11.

  Specifically, as shown in FIG. 6, the shelf database includes unique information (a shelf number + a shelf level + a shelf row) of each section 4 of the cultivation shelf 2 and a situation of the corresponding section 4 (in use and cannot be used). Etc.). In addition, as shown in FIG. 7, the crop database includes specific information (product number + lot number) of the crop planted in the cultivation containers 3a to 3c, the growth status of the crop, and the installation of the cultivation containers 3a to 3c for the crop. The information of the divided section 4 is stored. Then, as shown in FIG. 8, the performance database accumulates and stores work histories performed in the process of growing each crop together with the processing date and time. By referencing the data stored in the results database in time series, process management can be easily performed. The unique information of the target crop, the work progress classification, the processing date and time, etc. are stored. Further, as shown in FIG. 9, the environment database accumulates and stores the measurement results of the growth environment such as temperature and humidity together with the measurement date and time. In addition, the measurement result for every cultivation shelf 2 is memorize | stored in an environmental database.

  The portable terminal 12 is configured by an existing handy terminal, and communicates with the management computer 10 via the wireless LAN access point 14 and a read / write device that reads and writes data stored in the RFID tag. And a communication device. As will be described later, the portable terminal 12 refers to and updates the data stored in the section identification tag 5 and the crop identification tag 6 in each work process shown in FIG. It is used to refer to and update information in each database.

  The section identification tag 5 is a non-contact RFID tag (passive tag) in which an RFID inlet is embedded in a sheet-like base material, and is attached to each section 4 of the cultivation shelf 2 one by one as shown in FIG. Is done. On the surface of the section identification tag 5, unique information indicating the position of each section 4 of the cultivation shelf 2 is stored. For example, specific information “A-1-1” is printed on the section identification tag 5 of the upper left section of the cultivation shelf 2, and this is because the section 4 is the cultivation shelf 2 with the shelf number “A”. This indicates that the column is “1” from the top and “1” from the left. Moreover, as shown to Fig.10 (a), the area | region which memorize | stores the specific information of the division 4 of the cultivation shelf 2 is provided in the IC chip of the RFID inlet of the division identification tag 5, The said specific information is provided with a portable terminal. 12 can be read.

  The crop identification tag 6 is a non-contact RFID tag (passive tag) in which an RFID inlet is embedded in a rod-like base material, and is attached to each of the cultivation containers 3a to 3c as shown in FIG. As shown in FIG. 10 (b), the IC chip of the RFID inlet of the crop identification tag 6 stores unique information of the crops grown in the cultivation containers 3a to 3c, and information such as the quantity and progress of the crops. An area is provided, and the mobile terminal 12 can read and write these pieces of information. In addition, since the RFID tag embed | buried in the division identification tag 5 or the crop identification tag 6 can use a general purpose article suitably, description regarding those structures is abbreviate | omitted.

  In the crop growth management system of the present embodiment, every time work is performed on a crop, the information on the database is updated by the worker using the mobile terminal 12, so that the progress of the cultivation work and the installation location of the crop can be determined. It is to be managed comprehensively. Hereinafter, an operation method of the crop growth management system for each work process shown in FIG. 4 will be described.

  First, in the sowing work, after sowing the first cultivation container 3a, the operator attaches a new crop identification tag 6 to the cultivation container 3a and causes the mobile terminal 12 to perform the sowing process. As shown in FIG. 11, in the sowing process, first, the “product number” and “quantity” of the sown crop are input to the mobile terminal 12 (step S11), and then communicated with the management computer 10 to create a new A “lot number” is acquired (step S12). The combination of the product number and the lot number obtained here becomes unique information of the sown crop. And while writing these information in the crop identification tag 6 (step S13), a crop database and a performance database are updated via the management computer 10 (step S14). And if an operator performs the below-mentioned container installation process (step S15) according to installing the said cultivation container 3a in the cultivation shelf 2, a seeding process will be complete | finished.

  In the follow-up work, the worker causes the mobile terminal 12 to execute the follow-up process. As shown in FIG. 12, in the follow-up observation process, first, the crop identification tag 6 attached to the cultivation containers 3a to 3c to be followed up is read to identify the crop to be observed (step S21), and the management computer The information regarding the said crop is acquired from the crop database via 10 (step S22). Then, after visually confirming the crop, the growth state of the crop is selected. The growing state options are displayed on the display screen of the portable terminal 12 (step S23). Here, when the quantity of the crops in the cultivation containers 3a to 3c should be changed, the changed quantity is input together with the reason (step S24). Then, the data of the crop identification tag 6 is updated with respect to the result information of the follow-up observation (step S25), and further, the crop database and the result database are updated via the management computer 10 (step S26), and the follow-up observation process is completed. To do.

  In the first planting work and the second planting work, when the replanting of the crop is completed, the worker causes the portable terminal 12 to execute the planting process. As shown in FIG. 13, in the fixed planting process, first, the storage data of the crop identification tag 6 of the planting containers 3a and 3b as the planting source is read (step S31) and stored in the crop database via the management computer 10. Related information is acquired (step S32). Subsequently, the storage data of the crop identification tag 6 of the planting containers 3b and 3c to be replanted is read (step S33), and the quantity of the crops replanted in the cultivation containers 3a and 3b is input (step S34). In addition to writing the unique information of the planting source crop, the planted quantity, etc. in the identification tag 6 (step S35), the crop database and result database are updated (step S36). Here, when there are a plurality of cultivation containers 3b and 3c to be replanted, the presence or absence of untreated cultivation containers 3b and 3c is confirmed (step S37), and step S33 is performed until there is no untreated cultivation containers 3b and 3c. Repeat ~ S36. After all the planting containers 3b and 3c to be transplanted are processed, the crop identification tag 6 of the planting original containers 3a and 3b is written, and the crop database and the results database are updated. And if a worker performs the below-mentioned container installation process (step S15) according to installing the said cultivation containers 3a-3c in the cultivation shelf 2, a fixed planting process will be complete | finished.

  When putting the cultivated crop in the “shipment permission” state, the worker uses the portable terminal 12 to execute a shipping permission process. As shown in FIG. 14, in the shipping permission process, first, the crop identification tag 6 of the target cultivation container 3c is read (step S41), and related information is acquired from the shelf database and the crop database (step S42). Then, information related to the shipping permission is written in the crop identification tag 6 (step S43), and the crop database is updated (step S44).

  In the crop harvesting operation, the worker causes the portable terminal 12 to execute a harvesting process after the crop is harvested. As shown in FIG. 15, in the harvesting process, first, the crop identification tag 6 of the cultivation container 3c to be harvested is read (step S51), and the harvested quantity is input (step S52). Then, the storage information of the crop identification tag 6 is updated (step S53), and the crop database and the result database are updated (step S54). Here, it is confirmed whether or not all the crops in the cultivation container 3c have been harvested (step S55). Along with the installation of 3c on the cultivation shelf 2, a container installation process (step S15) described later is executed, and the harvesting process is terminated.

  In the container installation process described above, as shown in FIG. 16, first, the crop identification tag 6 of the cultivation containers 3a to 3c installed on the cultivation shelf 2 is read (step S61). Subsequently, the section identification tag 5 attached to the section 4 where the cultivation containers 3a to 3c are installed is read (step S62), and information on the section 4 is acquired from the shelf database (step S63). Then, the status classification of the section 4 is confirmed (step S64), and if it is “in use”, a message notifying that it is mixed loading is displayed. And if a crop database, a performance database, and a shelf database are updated via the management computer 10 (step S65), a container installation process will be complete | finished.

  In addition, when the location where the cultivation containers 3 a to 3 c are installed is moved, the worker performs the container movement process using the mobile terminal 12. In the container movement process described above, as shown in FIG. 17, first, the crop identification tags 6 of the cultivation containers 3a to 3c installed on the cultivation shelf 2 are read (step S71). Subsequently, the section identification tag 5 attached to the section 4 in which the cultivation containers 3a to 3c are installed is read (step S72), and information on the section 4 is acquired from the shelf database (step S73). Then, the status classification of the section 4 is confirmed (step S74), and if it is “in use”, a message notifying that it is mixed loading is displayed. And if a crop database, a performance database, and a shelf database are updated via the management computer 10 (step S75), a container movement process will be complete | finished.

In the crop growth management system of this embodiment, the management computer 10 periodically executes an environment registration process for updating the environment database. Specifically, in the environment registration process, as shown in FIG. 18, the management computer 10 registers the measurement results (temperature and humidity) of the growth environment inside the cultivation room 1 in the environment database (step S81). Subsequently, the measurement results (temperature, humidity, CO ₂ concentration, water temperature, water quality) of the growth environment for each cultivation shelf 2 are registered in the environment database (step S82).

  Thus, in this embodiment, since the database is updated using the mobile terminal 12 in each work process, the progress of the cultivation work and the installation location of the crop can be managed efficiently. In particular, in the present embodiment, identification tags 5 and 6 are provided in the cultivation containers 3a to 3c in which the crops are planted and the sections 4 of the cultivation shelf 2 in which the cultivation containers 3a to 3c are installed. Since the identification tags 5 and 6 are read by the portable terminal 12 to identify the crop or section 4 to be worked, there is an advantage that the crop and the section 4 are not easily mixed.

  For example, in a present Example, when installing the cultivation containers 3a-3c in the cultivation shelf 2, or changing the installation place of the cultivation containers 3a-3c, from the division identification tag 5 and the crop identification tag 6, Since the mobile terminal 12 reads the specific information of the section 4 and updates the crop database based on the specific information, the section 4 in which the cultivation containers 3a to 3c in which the crops are planted is installed in the crop database. There is an advantage that it can be managed accurately.

  Moreover, in a present Example, the information (quantity, progress, state, etc.) of the crops of the cultivation containers 3a to 3c is also stored in the crop identification tag 6, and the data stored in the crop identification tag 6 is stored in the portable terminal in each work process. 12, the mobile terminal 12 can check various information about each crop by reading the crop identification tag 6 even when a communication failure occurs between the mobile terminal 12 and the management computer 10. There are advantages.

  Further, in this embodiment, the performance database is updated every time work is performed on the crop, the progress history of the cultivation work of each crop is accumulated and stored in the performance database, and the environment database is periodically updated to Accumulated and stored measurement history of growth environment. In this embodiment, by comparing the performance database and the environmental database, the correlation between the growth rate (termination) of the crop and the growth environment can be grasped. There is an advantage that an expected yield can be accurately estimated and a more preferable growth environment can be estimated.

  The present invention is not limited to the embodiment described above, and various modifications can be made without departing from the scope of the present invention.

  For example, in the above-described embodiment, the section identification tag 5 has a sheet shape and the crop identification tag 6 has a rod shape. However, the shape of each identification tag is not limited to this, and various changes can be made. Specifically, the crop identification tag may be affixed to the surface of the cultivation container in the form of a sheet. Moreover, you may make it the shape which stabs and attaches a crop identification tag to the culture medium (soil or sponge) inside a cultivation container like the nameplate for gardening. Moreover, in the said Example, although the division identification tag 5 and the crop identification tag 6 were comprised by the RFID tag, the division identification tag and the crop identification tag which concern on this invention are barcode, QR code (trademark), etc. An optically readable tag can also be used.

  In the crop growth management system of the above embodiment, the management computer 10 and the portable terminal 12 are communicated with each other via the LANs 13 and 14, but the management device and the portable terminal according to the present invention have a public communication line. It can also be made to communicate via.

  In the above embodiment, the management device according to the present invention is realized by one management computer 10 and the external storage device 11. However, the management device according to the present invention includes a plurality of client PCs and servers. It is also possible to configure with a single computer.

  Moreover, although the example which applied this invention to the plant factory was demonstrated in the said Example, this invention is applicable not only to the plantation which grows a crop in a closed environment but also to the plantation which grows a crop in an open field. When the present invention is applied to an open field farm, it is proposed to store measurement histories such as sunshine hours, temperature, and precipitation in the environmental database according to the present invention. Moreover, in the said Example, although each division 4 of the cultivation shelf 2 is corresponded to the cultivation division which concerns on this invention, the cultivation division which concerns on this invention is not restricted to the division partitioned off by the shelf, but flat cultivated land It may be a partitioned section.

DESCRIPTION OF SYMBOLS 1 Cultivation room 2 Cultivation shelf 3a-3c Cultivation container 4 Section 5 Section identification tag 6 Crop identification tag 10 Management computer 11 External storage device 12 Portable terminal 13 Wired LAN
14 Wireless LAN access point 15 Printer

Claims (4)

A crop growth management system for managing in which cultivation section a crop planted in a cultivation container is installed in a farm,
A crop identification tag that is attached to each cultivation container and records unique information of the crop planted in the cultivation container;
A section identification tag that is attached to each cultivation section and records unique information of the cultivation section,
A management apparatus having a crop database for storing in which cultivation section each crop is installed;
A portable terminal capable of reading the information recorded in the crop identification tag and the section identification tag, and capable of communicating with the management device;
When installing the crop planted in the cultivation container in the cultivation section, the mobile terminal , the unique information of the crop stored in the crop identification tag of one or more cultivation containers installed in the cultivation section, and the cultivation section The unique information of the cultivation section stored in the section identification tag is continuously read, and based on the both unique information, processing for updating the information of the cultivation section where the crop is installed included in the crop database is performed. Crop growth management system.   2. The crop growth management system according to claim 1, wherein the management device includes an environment database storing a measurement history of a crop growth environment and a results database storing a progress history of a crop cultivation operation. The crop identification tag is an RFID tag that can read and write data, and stores the progress of the cultivation work of the crop in addition to the unique information of the crop planted in the cultivation container.
The said portable terminal is provided with the process which writes the progress of the cultivation work of a crop in a crop identification tag, and the process which writes in a performance database via the said management apparatus, The crop of Claim 2 characterized by the above-mentioned. Growth management system. A method for managing the growth of a crop in a farm, which manages in which cultivation section the crop planted in the cultivation container is installed,
A crop identification tag that is attached to each cultivation container and records the unique information of the crop planted in the cultivation container, a division identification tag that is attached to each cultivation section and that records the unique information of the cultivation section, and each crop is A management apparatus having a crop database for storing in which cultivation section is installed in advance,
When installing the crop planted in the cultivation container in the cultivation section,
Reading the unique information of the crop recorded on the crop identification tag attached to the cultivation container with a mobile terminal;
The step of reading the unique information of the cultivation section recorded on the section identification tag attached to the cultivation section with the portable terminal is continued,
Furthermore, the growth management method of the crop characterized by performing the step which updates the database which memorize | stores the information of the cultivation division where each crop is installed based on the specific information of the crop and cultivation division which the said portable terminal read.