JP2010075172A - Plant raising guide system, plant environment measuring device, and plant raising controlling device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a plant raising guide system usable for gardening at ordinary homes, and enabling anybody to easily raise plants while keeping pleasure of plant cultivation. <P>SOLUTION: A raising environment measuring device 101 includes measuring an environment where a plant 105 is placed, coordinating and memorizing measured data, measured dates, identification codes from an ID tag 103, as environmental data, and wireless sending the memorized environmental data to a plant raising controlling device 102. The plant raising controlling device 102 includes a memory memorizing raising environmental data suitable for raising the plant 105, and includes raising guiding so as to make the environment where the plant 105 is placed close to the raising environment suitable for raising, by comparing the environmental data with the raising environmental data. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a plant growth guide system for guiding a method suitable for plant growth, a plant environment measuring device and a plant growth management device used in the plant growth guide system.

Conventionally, various plants have been cultivated at home using potted plants. When growing and cultivating plants using potted plants at home, the amount of water, how to apply sunlight, how to apply fertilizer, temperature conditions, etc., vary depending on the type of plant and the state of the environment. When the above-mentioned conditions are not well understood, or when a plant is cultivated / cultivated for the first time, an appropriate judgment cannot be made and the plant may die.
In order to solve this problem, in the method for providing plant growth information described in Patent Document 1, when information on a plant to be grown is provided through a network, a management work schedule is transmitted from the management server to the user. It is configured as follows.

  However, the conventional method for providing training information is merely configured to transmit and provide a training work schedule to the user, and the guidance of the training work schedule is not interesting and interesting. In addition, there is a problem that information on plant growth is unclear and difficult to understand. Furthermore, since the apparatus is large, there is a problem that it is difficult to use in an individual home.

JP 2006-254775 A

The present invention has been made in view of the above problems, and can be used for gardening in general households. Anyone can easily grow plants easily while maintaining the fun of plant cultivation. The challenge is to provide a training guide system.
Another object of the present invention is to provide a plant environment measuring device and a plant growth management device suitable for constructing the plant growth guide system.

According to the present invention, the measurement means for measuring the environment in which the plant is placed and acquiring it as the environmental data together with the measurement date and time, the storage means for storing the growth environment data suitable for growing the plant, the environment data, and the A plant growth guide system comprising: a management means for comparing the growth environment data with a growth guide for bringing the environment where the plant is placed closer to the growth environment suitable for the growth. Is done.
The management means compares the environmental data with the growing environment data, and provides a growing guide for bringing the environment where the plant is placed closer to the growing environment suitable for growing.

Further, according to the present invention, sensor means for measuring data including at least temperature, humidity, and illuminance as plant surrounding data, and the data measured by the sensor means are stored as environment data in association with the measurement date data. There is provided a plant environment measuring apparatus comprising: a storage unit configured to transmit; and a transmission unit configured to wirelessly transmit environment data stored in the storage unit.
The sensor means measures data including at least temperature, humidity, and illuminance as data around the plant. The storage means stores the data measured by the sensor means as environmental data in association with the measurement date / time data. The transmission means wirelessly transmits the environmental data stored in the storage means.

Further, according to the present invention, the measurement means for measuring the environment in which the plant is placed and acquiring the measurement date and time as environmental data, the environment data in which the plant is placed, and the environment in which the measurement date and time of the data are associated with each other Receiving means for receiving data, storage means for storing growing environment data suitable for plant growth, comparing the environmental data received by the receiving means with the growing environment data stored in the storage means, There is provided a plant growth management apparatus characterized by comprising guide means for performing a growth guide for bringing the placed environment close to the growth environment.
The guide means compares the environment data received by the receiving means with the growth environment data stored in the storage means, and performs a growth guide that brings the environment where the plant is placed closer to the growth environment suitable for the growth.

The plant cultivation guide system according to the present invention can be used for gardening in general households, and anyone can easily grow plants easily while maintaining the fun of plant cultivation.
Moreover, according to this invention, it becomes possible to provide the plant environment measuring apparatus and plant growth management apparatus suitable for constructing the said plant growth guide system.

1 is an overall view showing an outline of a plant growth guide system according to an embodiment of the present invention. It is a perspective view which shows the external appearance of the plant environment measuring apparatus which concerns on embodiment of this invention. It is a block diagram showing the whole plant growth guide system composition concerning an embodiment of the invention. It is a flowchart which shows operation | movement of the plant cultivation guide system which concerns on embodiment of this invention. It is a flowchart which shows operation | movement of the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the reference | standard data used with the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the guide data used with the plant cultivation guide system which concerns on embodiment of this invention. It is a table | surface of the environmental data used with the plant cultivation guide system which concerns on embodiment of this invention. It is explanatory drawing of the plant cultivation guide system which concerns on embodiment of this invention. It is explanatory drawing of the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the display of the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the display of the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the display of the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the display of the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the display of the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the display of the plant cultivation guide system which concerns on embodiment of this invention. It is a figure which shows the display of the plant cultivation guide system which concerns on embodiment of this invention.

Hereinafter, a plant growth guide system, a plant environment measurement device, and a plant growth management device according to embodiments of the present invention will be described. In the drawings, the same parts are denoted by the same reference numerals.
FIG. 1 is an overall view showing an outline of a plant growth guide system according to an embodiment of the present invention.
In FIG. 1, the plant growth guide system includes a plant environment measurement device 101, a plant growth management device 102 configured by a personal computer, and an ID tag 103.
In the pot 104, soil 106 for growing the plant 105 is placed. The front side of the plant environment measuring apparatus 101 is embedded in the soil 106, and the rear side protrudes above the soil 106. The ID tag 103 is a tag that wirelessly transmits a unique identification (ID) code. The ID tag 103 is used by being attached to the bowl 104, and wirelessly transmits a unique identification code representing the bowl 104.
For example, the pot 104 is placed on a veranda in the home, and a personal computer placed indoors is used as the plant growth management device 102.

FIG. 2 is a perspective view showing the external appearance of the plant environment measuring apparatus 101.
In FIG. 2, the plant environment measuring apparatus 101 has a main body part 213 configured in a substantially rod shape, and the main body part 213 includes a front part side 211 and a rear part side 212 formed thicker than the front part side 211. Has been. When the front side 211 of the plant environment measuring device 101 is buried in the soil, the rear side 212 is configured not to be buried in the soil by the regulating portion 203 on the rear side 212 formed at the boundary with the front side 211. Has been.

A temperature sensor 201 is provided at the front end of the front side 211, and a plurality (three in the present embodiment) of humidity sensors 202 are arranged near the rear side 212 at predetermined intervals in the length direction. ing. When the front side 211 of the plant environment measuring apparatus 101 is buried in the soil, each humidity sensor 202 is configured to measure the humidity in the soil according to the depth. As described above, the humidity sensors 202 for measuring the humidity in the soil are provided at a plurality of locations, the humidity in the soil is measured at different depths, and the amount of moisture to be given can be guided in detail.
On the rear side 212, a shooting switch 204, a communication switch 205, a measurement switch 206, a power switch 207, a detection lamp 208 indicating whether measurement is in progress or the end of measurement, a camera 209, and how the sun hits the place where it is placed Illuminance sensor 210 is provided.

FIG. 3 is a block diagram showing the overall configuration of the plant growth guide system according to the embodiment of the present invention.
In FIG. 3, the plant growth guide system includes a plant environment measurement device 101, a plant growth management device 102 configured by a host device including a personal computer, and an ID tag 103.

  The plant environment measuring device 101 includes an ID receiving unit 301 that wirelessly receives an identification code from the ID tag 103, a control unit 302 that is configured by a central processing unit (CPU) and controls each component of the plant environment measuring device 101, A sensor group 303 for measuring the environment of the plant, a time counting unit 304 for measuring time, a data storage unit 305 for storing various data such as a program executed by the CPU and environmental data measured by the sensor group 303, an operation lamp 306, An operation switch 307 and a first communication unit 308 that performs transmission of measured data and the like with the plant growth management device 102 are provided.

  The sensor group 303 includes a temperature sensor 201, a humidity sensor 202, and an illuminance sensor 210. The operation lamp 306 includes an operation lamp indicating whether or not the operation is being performed after the power is turned on, in addition to the detection lamp 208 indicating whether or not the operation is being detected. The operation lamp can also be used as the detection lamp 208. The operation switch 307 includes a photographing switch 204, a communication switch 205, a measurement switch 206, and a power switch 207.

The plant environment measuring device 101 associates the identification code from the ID tag 103, time data, and environmental data periodically (for example, every hour) or when the user operates the measurement switch 206, the data storage unit 305. Save to.
In addition, when the user operates the communication switch 205, the data stored in the data storage unit 305 is transmitted to the plant growth management device 102.

  The plant growth management apparatus 102 includes a second communication unit 311 that communicates with the first communication unit 308 of the plant environment measurement apparatus 101 and a central processing unit (CPU). A control unit 312 that performs control, a storage unit 313 that stores programs executed by the CPU, environmental data received from the plant environment measurement apparatus 101, a guide database 314 that stores guide data for growing plants, a liquid crystal display unit, and the like The display unit 315 configured by the above and the operation unit 316 configured by a keyboard and a mouse are provided. The plant growth management apparatus 102 can be configured by a game machine in addition to a personal computer.

The plant environment measuring apparatus 101 constitutes a measuring means. The temperature sensor 201, the humidity sensor 202, and the illuminance sensor 210 constitute sensor means. The data storage unit 305 constitutes a first storage unit, and the communication unit 308 constitutes a transmission unit.
The storage unit 313 and the guide database 314 constitute second storage means. The communication unit 311, the control unit 312, the display unit 315, and the operation unit 316 constitute management means. The control unit 312, the display unit 315, and the operation unit 316 constitute guide means. The display unit 315 constitutes display means, the camera 209 constitutes imaging means, the operation unit 316 constitutes input means, and the communication part 311 constitutes reception means.
The ID tag 103 constitutes an identification code transmission unit.

FIG. 6 is a diagram showing reference data stored in the guide database 314. In FIG. 6, the reference data is associated with “plant name” and “temperature range”, “humidity range”, and “illuminance range” as environmental data suitable for growing the plant for each plant for a plurality of plants. It is the composition which was made.
In the example of FIG. 6, tomato, eggplant, radish, bean sprouts and the like are included as plants. As an example of environmental data suitable for tomato growth, data having a temperature range of “20 to 25 ° C.”, a humidity range of “30 to 50%”, and an illuminance of “5 to 8” is stored.

FIG. 7 is a diagram showing guide data stored in the guide database 314. In FIG. 7, the guide data includes guide data for guide contents according to the temperature and guide data according to the temperature, guide data for guide contents according to the humidity, and illuminance according to the illuminance. The guide data of the guide contents included.
When displaying the guide, the environmental data obtained from each of the sensors 201, 202, and 210 is compared with the reference data of each plant, and the “temperature range”, “humidity range”, and “illuminance range” are appropriately used for the guide data. It is configured to obtain a nurturing guide with various contents.

  For example, as the temperature-related guide content, if the ambient temperature T in the soil 106 measured by the temperature sensor 201 exceeds the reference temperature range of FIG. 6, the guide content “Please move to a cool place” is provided. It is attached. When the ambient temperature T is within the reference temperature range, it is associated so as to guide the content of “it can be said to be good”. Further, when the ambient temperature T is lower than the reference temperature range, it is associated so as to perform a guide of “Please move to a warm place”.

The ID tag 103 transmits an ID storage unit 323 storing an identification code unique to the ID tag 103, a control unit 322 that controls the components of the ID tag 103, and transmits the identification code to the ID reception unit 301 of the plant environment measurement apparatus 101. An ID transmission unit 321 is included. When the ID tag 103 is attached to a bowl and used, the identification code becomes an identification code unique to the bowl representing the bowl. The identification code may be configured to be periodically transmitted from the ID transmission unit 321 to the ID reception unit 301 using the built-in battery as a power source, and when the power is supplied from the plant environment measurement device 101 as in RF-ID. Various changes can be made, such as a configuration in which the ID transmission unit 321 transmits to the ID reception unit 301.
4 and 5 are flowcharts showing the operation of the plant growth guide system according to the present embodiment. FIG. 4 is a flowchart of the plant environment measuring device 101. FIG. 5 is a flowchart of the plant growth management device 102. The processing of the sections 302 and 312 is shown.

The operation of the embodiment configured as described above will be described.
First, the example of the cultivation guide in the present embodiment will be outlined. When environmental data including an identification code is transmitted from the plant environment measuring apparatus 101, the identification code is read on the plant breeding management apparatus 102 side, and the environmental data is measured together with the measurement time. save. It is determined from the data whether the current situation is suitable.

For example, the plant name is input as “tomato” in the plant breeding management apparatus 102, and the seeded date and time is set and grown. The latest environmental data of the potted plant is acquired using the plant environment measuring device 101 and transmitted to the plant growth management device 102.
The plant growth management device 102 searches the guide database 314 for a guide optimal for growth based on the obtained data, and displays a guide for environmental data (for example, temperature, humidity, and illuminance).

  The plant breeding management apparatus 102 determines that the temperature is 20 ° C. to 25 ° C. and guides the plant when the soil temperature data is 22 ° C. when the temperature is 22 ° C. If it is low, guide it to a warm place, and if it is high, move it to a cool place. From humidity and measurement time, if the humidity is 30% and the time is morning, give plenty of water, if it is noon, raise the water to the extent that the surface gets wet, and after the evening no water is needed. Judge and guide. Illuminance is configured to guide plants that are better exposed to sunlight to a sunny place, otherwise to a cool place.

Hereinafter, the operation of the present embodiment will be described in detail with reference to the drawings.
As shown in FIG. 1, the tip portion side 211 is embedded and used in the soil 106 until the regulating portion 203 of the plant environment measuring apparatus 101 contacts the surface of the soil 106 in the pot 104. The bowl 104 is used with an ID tag 103 attached thereto. When operating the plant environment measuring apparatus 101, the user operates the power switch 207 to turn on the power and operate it.
The control unit 322 of the ID tag 103 transmits the identification code stored in the ID storage unit 323 from the ID transmission unit 321 to the ID reception unit 301 as a unique identification code representing the bowl 104 to which the ID tag is attached. Control.

  The control unit 302 of the plant environment measuring apparatus 101 determines whether or not the communication switch 205 has been operated (step S401). If it is determined that the communication switch 205 has been operated, the environment stored in the data storage unit 305 is determined. Data (details of the data format will be described later) is read out and the communication unit 308 is controlled so as to be transmitted to the plant growth management apparatus 102 (step S407).

When the control unit 302 determines that the communication switch 205 is not operated in the processing step S401, when the measurement switch 206 is not operated (step S402), the periodic measurement time that is a time for performing the automatic measurement periodically arrives. It is determined whether or not (step S403).
If the control unit 302 determines in step S403 that the regular measurement time has arrived, the ID code received by the ID reception unit 301 from the ID tag 103, the current time (corresponding to the measurement time), and each sensor 201, The data measured by 202 and 210 are associated with each other and stored as environmental data in the data storage unit 305 (steps S404, S405, and S406).

  When measuring the environmental data of the surrounding environment where the plant 105 is placed, the control unit 302 indicates that the temperature sensor 201 indicates the temperature in the soil 106, and the plurality of humidity sensors 202 indicates the humidity at each predetermined depth in the soil 106. Further, the illuminance sensor 210 is controlled to measure the illuminance of the light (for example, sunlight) that irradiates the plant 105, and the measurement data of each sensor 201, 202, 210 is associated with the measurement time and the identification code, and the environmental data. Is stored in the data storage unit 305. While measuring data, the control unit 302 turns on the detection lamp 208 to indicate that data is being measured.

When the control unit 302 determines that the communication switch 205 is operated in the processing step S402, the control unit 302 proceeds to the processing step S404. Thereby, the measurement data storage process by manual operation is performed in the same manner as described above.
If the control unit 302 determines in step S403 that the regular measurement time has not arrived, the control unit 302 returns to step S401.
As described above, the data of the surrounding environment is periodically measured manually or automatically and stored in the data storage unit 305. In response to the transmission instruction, the environmental data stored in the data storage unit 305 is managed as plant growth management. To device 102.

Here, the environmental data is stored in the data storage unit 305 in the format of FIG. FIG. 8 is a table of environmental data stored in the data storage unit 305, and shows an example in which environmental data for four bowls is stored in the table.
In FIG. 8, the environmental data of each bowl stores the identification code of the bowl, the measurement time of the data, the temperature measured by the temperature sensor 201, the humidity measured by the humidity sensor 202 (the humidity measured by the plurality of humidity sensors 202). However, FIG. 8 shows one humidity.) And the illuminance measured by the illuminance sensor 210 are associated with each other.

  In this embodiment, the environment data with the same identification code is configured so that every time the environment data is measured, the old environment data is overwritten and erased by the latest environment data, and only the latest environment data is stored. However, the past environmental data may also be stored in a time-series manner, and the environmental data that has been transmitted after being transmitted to the plant growth management apparatus 102 may be deleted.

  The plant growth management device 102 receives the environment data shown in FIG. 8 from the plant environment measurement device 101 and stores it in the storage unit 313 (step S501). If the identification code included in the environmental data is the first code received and is not known (step S502), the display unit 315 is controlled, and the plant type (plant name) and species are selected from the operation unit 316 to the user. Display a prompt to enter the date and time.

Here, every time environmental data is received from the plant environment measuring apparatus 101, the control unit 312 controls the storage unit 313 to sequentially store the environmental data, and the past environmental data is stored in the storage unit 313 as a history. ing.
When a plant name (for example, “tomato”) is input from the operation unit 316, the control unit 312 refers to the latest environmental data in the environmental data stored in the storage unit 313, and the training is performed from the guide database 314. The guide is searched (step S504), and the display unit 315 is controlled to display the guide contents shown in FIG. 7 (step S505).

Thereby, as shown in FIG. 9, the display unit 315 displays a training guide suitable for the current training status. That is, in FIG. 9, the display unit 315 includes (1) identification code, growing plant name and growing data 901 including the date of planting the seed, and (2) soil temperature, soil humidity, illuminance and data. The latest measurement data 902 including the update date and time (date and time when the environmental data was measured latest) is displayed, and (3) guide data 903 including instructions for handling the latest temperature, humidity, and illuminance is displayed.
When the identification code is known in the processing step S502, the control unit 312 refers to the plant type and environmental data already input in association with the identification code, and performs the guide data 903 in the same manner as described above. It is displayed on the display unit 315.

FIG. 10 is an explanatory diagram when the plant growth management apparatus 102 displays the cultivation record. When there is a change in the growing plant 105, the camera 209 is used to record it as a record.
2 and 3, when the user operates the photographing switch 204 to photograph the plant 105 that is being grown by the camera 209, the photographed image data, photographing date / time data, and identification code are stored in the data storage unit 305 in association with each other. The

Next, when the user operates the communication switch 205, the control unit 302 responds to the operation of the communication switch 205 with the image data and shooting date / time data stored in the data storage unit 305 from the communication unit 308 together with the identification code. It transmits to the plant growth management apparatus 102. At this time, if environmental data is stored in the data storage unit 305, it is also transmitted.
In the plant growth management apparatus 102, when the communication unit 311 receives the image data, the shooting date / time data, and the identification code, the control unit 312 stores the plant cultivation record corresponding to the identification code in the storage unit 313. Here, the user can input a comment such as a cultivation record from the operation unit 316 as a cultivation diary, and can store it in the storage unit 313 in association with the identification code.

  When the identification code or the plant name is designated by the operation unit 316 and the cultivation record is browsed, the control unit 312 shows the cultivation record of the plant designated from the cultivation records stored in the storage unit 313 as shown in FIG. Are displayed on the display unit 315. That is, as shown in FIG. 10, the display unit 315 has (1) cultivation data 901 including an identification code, a plant name, and a date when a seed is planted, and (2) a photographing date and a photographed image. And (3) record input data 1002 including a cultivation diary is displayed. As a result, it is possible to easily record the growth status and to easily check the growth status.

  As described above, in the plant growth guide system according to the embodiment of the present invention, the growth environment measurement device 101 measures the environment where the plant 105 is placed, and the measurement data, the measurement date and time, and the ID tag 103 The identification code is associated and stored as environment data, and the stored environment data is wirelessly transmitted to the plant growth management apparatus 102. The plant growth management apparatus 102 has a guide database 314 that stores growth environment data suitable for the growth of the plant 105, and compares the environment data with the growth environment data to determine the environment in which the plant 105 is placed. It is comprised so that the cultivation guide which approaches the cultivation environment suitable for the said cultivation may be performed.

Therefore, it can be used for gardening in general households, and anyone can easily and easily grow plants while maintaining the fun of plant cultivation.
In addition, a single plant environment measuring device 101 can be used for any plant. In addition, since the cultivation guide is appropriate and easy to understand based on the data, various plants can be easily cultivated without knowledge of cultivation.

Furthermore, there is an effect that it is possible to determine an appropriate location for a plant that is vulnerable to a sudden change in humidity and temperature.
Moreover, according to this Embodiment, it becomes possible to provide the plant environment measuring apparatus 101 and the plant growth management apparatus 102 suitable for constructing the plant growth guide system.
In the above embodiment, examples of temperature, humidity, and illuminance are given as environmental data. However, various changes such as providing a pH sensor in the plant environment measuring device 101 and including the pH value of the soil 106 as environmental data. Is possible. Moreover, as described later, symptoms such as plant diseases can be used as environmental data.

FIGS. 11-13 is an example which shows the growth guide of the plant under growing using symptoms, such as a plant disease, as environmental data in embodiment of this invention.
When an identification code or a plant name is designated as a search condition by the operation unit 316 and a cultivating guide for each symptom of a currently cultivated plant is searched, the control unit 312 is designated from the cultivation records stored in the guide database 314. The cultivation record satisfying the search conditions is searched, and the symptom input screen of FIG. 11 is displayed on the display unit 315. In the symptom input screen of FIG. 11, (1) cultivation data 901 including an identification code, a plant name and a date when a seed is planted, (2) a cultivation record 1001 including a photographing date and time of the plant and image data of the photographed plant, 3) A symptom input field 1101 and a diagnosis instruction input field 1102 are displayed.

After the user inputs a symptom of a plant disease as environmental data in the symptom input field 1101 using the operation unit 316 (input in the example of FIG. 11 that “the leaf is white”), the user clicks the diagnosis instruction input field 1102 When the diagnosis is instructed, the control unit 312 searches for a plurality of diagnosis data stored in advance in the guide database 314, and as shown in the diagnosis result display screen of FIG. 1 is displayed in the diagnosis result display column 1201.
When the user clicks the countermeasure instruction input field 1202 in the diagnosis result display field 1201 and gives a countermeasure method display instruction by the operation unit 316, the control unit 312 searches for data of a plurality of countermeasure methods stored in the guide database 314. Then, as shown in FIG. 13, a countermeasure method for improving symptoms corresponding to the diagnosis result displayed in the diagnosis result display field 1201 is displayed in the countermeasure display field 1301 as a training guide.

Instead of inputting characters from the operation unit 316 by characters, a plurality of images for each symptom are displayed on the display unit 315, and an image that matches the symptoms of the plant being grown is selected by the operation unit 316. You may comprise so that a symptom may be input.
In this way, when symptoms such as illness occur while growing a plant, search for a countermeasure method to improve the symptom by using the symptom of the disease as environmental data, and a training guide suitable for the symptom In addition, it is possible to provide a guide on characteristics of diseases, post-action measures, or pre-measures that are easily afflicted by growing plants. Further, the method of inputting symptoms by selecting image data may be configured to guide the disease name, characteristics, countermeasures, and the like.

  FIGS. 14 to 17 are examples showing a growth guide before starting the growth of plants in the embodiment of the present invention, and use the plant name, the cultivation place, the time (year / month / day) of cultivation start, or the like as environmental data. It is an example. Based on the environmental data, the general guide data stored in advance in the guide database 314 and the growth data (for example, a guide diary) of plants grown in the past stored in the storage unit 31 are searched. It is configured to display a unique training guide referring to the training data. Note that only one of the growth guides may be displayed.

FIG. 14 is a diagram showing an environment data input screen in the case where the name of the plant to be cultivated and the cultivated land are used as environment data. Is entered as environmental data. A guide instruction input field 1402 is displayed in the environmental data input field 1401. The environmental data may be at least a plant name.
FIG. 15 is a diagram showing an environment data input screen in the case where the name of the plant to be cultivated, the growing environment, the cultivation place, the cultivation start time, the installation location, etc. are used as the environmental data. A column 1501 shows a state where an identification code, a plant name, a growing environment, a cultivation place, a cultivation start time, and a plant installation location are input as environmental data. A guide instruction input field 1502 is displayed in the environment data input field 1501. As in the example of FIG. 14, at least the plant name may be used as the environmental data.

  When environment data is input as shown in FIG. 14 or FIG. 15 and the guide instruction input field 1402 or 1502 is clicked by the operation unit 316, the control unit 312 searches the general guide data stored in the guide database 314 to search for general data. The previous training data that satisfies the conditions of the environmental data is extracted with reference to the past training data (cultivation diary) stored in the storage unit 31 and the previous training data is extracted with reference to the training data. A user-specific training guide that can be trained better is generated, and the general training guide and the user-specific training guide are displayed on the display unit 315.

The example of FIG. 16 is a display of a growth guide that is displayed when the guide instruction input field 1502 is clicked in a state where environmental data is input as shown in FIG.
In FIG. 16, the display unit 315 includes a general training guide field 1601 and a user-specific training guide field for allowing the user to grow better than the previous time with reference to the training data when the user was trained last time. 1602 is displayed. In addition, a previous training data display instruction input field 1603 for displaying the previous training data is displayed.

In this way, at least the plant name is used as environmental data, the environmental data is compared with the growing environment data stored in the guide database 314, and a general growing environment suitable for the plant is guided.
Further, the previous cultivation diary satisfying the environmental data is searched from the past cultivation diaries stored in the storage unit 31, and a user-specific cultivation environment suitable for the plant is guided based on the extracted cultivation diaries.
When the previous cultivation data display instruction input field 1603 is clicked by the operation unit 316, the control unit 316 searches past cultivation data (cultivation diary) stored in the storage unit 31, and the environmental data is stored as shown in FIG. Previously satisfied growth data 1701 is displayed.

In this way, user-specific training that can be used to search for countermeasures using plant names etc. as environmental data before plant growth, and to perform better growth with reference to the previous growth data that uses the same environmental data By showing the guide, the user can perform better training.
Moreover, it becomes possible to show an easy-to-understand training guide by showing a general training guide together with a user-specific training guide.
Also, by showing the previous training data, it can be used as a reference for training.

  It can be used for a plant growth guide system, a plant environment measuring device, and a plant growth management device for growing various plants including vegetables, fruits and flowers.

DESCRIPTION OF SYMBOLS 101 ... Plant environment measuring device 102 ... Plant growth management device 103 ... ID tag 104 ... Pot 105 ... Plant 106 ... Soil 201 ... Temperature sensor 202 ... Humidity sensor 203 ... Regulator 204 ... Shooting switch 205 ... Communication switch 206 ... Measurement switch 207 ... Power switch 208 ... Detection lamp 209 ... Camera 210 ... Illuminance sensor 211 ... Front side 212... Rear side 213... Main body 301. ID receiving unit 302... Control unit 303 .. sensor group 304 .. time counting unit 305. Operation lamp 307 Operation switch 308 First communication unit 311 Second communication unit 312 Control unit 313 Storage unit 314 Guide database 315 Display unit 316 ... operation unit 901 ... growth data 902 ... measurement data 903 ... guide data 1001 ... image data 1002 ... record input data 1101 ... symptom input field 1102 ... Diagnosis instruction input field 1201 ... Diagnosis result display field 1202 ... Countermeasure instruction input field 1301 ... Countermeasure display field 1401 ... Environmental data input field 1402 ... Guide instruction input field 1501 ... Environmental data input Field 1502 ... Guide instruction input field 1601 ... General training guide field 1602 ... User-specific training guide field 1603 ... Previous training data display instruction input field 1701 ... Previous training data

Claims (21)

Measuring means for measuring the environment in which the plant is placed and obtaining environmental data together with the measurement date and time;
Storage means for storing growing environment data suitable for growing the plant;
A plant comprising: management means for comparing the environmental data with the growing environment data and performing a growing guide for bringing the environment where the plant is placed close to the growing environment suitable for the growing Training guide system. The measuring unit measures at least the temperature, humidity, and illuminance around the plant as the environmental data, and the storage unit stores at least values suitable for growing the environmental data as the growing environmental data. ,
2. The plant growth guide system according to claim 1, wherein the management means performs a growth guide that brings the environment data closer to the growth environment data.   The plant management guide system according to claim 1 or 2, wherein the management unit includes a display unit that displays the plant name, environmental data, and a growth guide in association with each other. The measurement means has an image pickup means for acquiring an image of the plant and a shooting date and time of the image,
The management unit has an input unit that inputs a cultivation diary in association with the image and the shooting date and time, stores the image, the shooting date and the cultivation diary in the storage unit in association with each other,
The plant growth guide system according to claim 3, wherein the image, the shooting date and time, and the cultivation diary are displayed in association with each other on the display means. It is used by being attached to a pot in which the plant is planted, and has an identification code transmitting means for transmitting an identification code that uniquely represents the pot,
The plant data according to any one of claims 1 to 4, wherein the environmental data stored in the storage means includes a corresponding identification code, and the environmental data is classified for each identification code. Guide system.   2. The measuring device according to claim 1, wherein the measuring means is formed in a rod shape, and a part of the measuring means is used by being embedded in the soil, and a restricting portion is provided for restricting the entire device from being embedded in the soil. The plant cultivation guide system according to any one of 5.   The said environmental data is symptom data showing the symptom of a plant, The said management means guides the countermeasure for improving the said inputted symptom, The Claim 1 characterized by the above-mentioned. Plant cultivation guide system.   The management means includes a display means for displaying a plurality of images representing plant symptoms, and an input means for selecting an image displayed on the display means, and the symptom data is selected by selecting the image by the input means. The plant cultivation guide system according to claim 7, wherein:   The environmental data is at least a plant name, and the management means searches the previous cultivation diary satisfying the environmental data from the cultivation diaries stored in the storage means, and is suitable for the plant based on the extracted cultivation diaries. The plant cultivation guide system according to any one of claims 4 to 8, wherein the cultivation environment unique to the user is guided.   The plant management according to claim 9, wherein the management unit further compares the environmental data with the growth environment data stored in the storage unit, and guides a general growth environment suitable for the plant. Guide system. Sensor means for measuring data including at least temperature, humidity, and illuminance as data around the plant;
Storage means for storing the data measured by the sensor means as environmental data in association with the measurement date and time data;
A plant environment measuring apparatus comprising: a transmission unit that wirelessly transmits the environmental data stored in the storage unit. An image capturing unit that obtains the image of the plant and the shooting date and time of the image, stores them in the storage unit in association with these,
12. The plant environment measuring apparatus according to claim 11, wherein the transmitting unit further wirelessly transmits an image stored in the storage unit and a photographing date and time associated with the image.   Each means is disposed in a rod-shaped main body, and a part for restricting the entire main body from being embedded in the soil is provided. The plant environment measuring device according to claim 11 or 12, wherein the device is a plant environment measuring device. Measuring means for measuring the environment in which the plant is placed and obtaining environmental data together with the measurement date and time;
Receiving means for receiving environment data in which plants are placed and environment data in which the measurement date of the data is associated;
Storage means for storing growth environment data suitable for plant growth;
A guide means for comparing the environment data received by the receiving means with the growth environment data stored in the storage means, and for carrying out a growth guide so as to bring the environment where the plant is placed closer to a growth environment suitable for growth; A plant growth management device comprising: The environmental data includes at least the temperature, humidity, and illuminance around the plant, and the storage means stores at least values suitable for growing these environmental data as the growing environmental data,
15. The plant growth management apparatus according to claim 14, wherein the guide means performs a growth guide that brings the received environment data closer to the growth environment data.   16. The plant growth management apparatus according to claim 14, wherein the guide means includes display means for displaying the plant name, environmental data, and a growth guide in association with each other. The receiving means further receives an image of the plant and the shooting date and time of the image,
The guide unit has an input unit that inputs a cultivation diary in association with the image and the shooting date and time, stores the image, the shooting date and the cultivation diary in the storage unit in association with each other,
The plant growth management device according to claim 16, wherein the image, the shooting date and time, and the cultivation diary are displayed in association with each other on the display unit.   18. The environmental data is symptom data representing a symptom of a plant, and the guide means guides measures for improving the inputted symptom. Plant growth management device.   A display unit that displays a plurality of images representing a symptom of a plant; and an input unit that selects an image displayed on the display unit; and the symptom data is selected by selecting the image by the input unit. The plant growth management device according to claim 18.   The environmental data is at least a plant name, and the guide means searches the previous cultivation diary satisfying the environmental data from the cultivation diary stored in the storage means, and is suitable for the plant based on the extracted cultivation diary. The plant growth management apparatus according to any one of claims 14 to 19, wherein a user-specific growth environment is guided.   21. The plant growth according to claim 20, wherein the guide means further compares the environmental data with the growth environment data stored in the storage means to guide a general growth environment suitable for the plant. Guide system.

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