TWM645627U - Greenhouse planting adaptability assessment system - Google Patents

Abstract

A greenhouse plant adaptability assessment system includes: a plurality of scanning barcodes, respectively arranged on several plants; a scanning device used to scan the scanning barcode located on the plant to obtain and send an identification code; and a scanning device The server is used to store the respective identification codes and a growth condition of several plantings, as well as a growth restriction condition of each greenhouse. When one of the greenhouses is selected from several greenhouses to plant a plant, the scanning device Obtain the identification code relative to the plant, and obtain the corresponding growth conditions based on the identification code and compare them with the growth restriction conditions of the several greenhouses. If the growth conditions meet the growth restriction conditions of one of the greenhouses, then The planting is allocated to one of the greenhouses.

Description

Greenhouse planting adaptability assessment system

This creation is mainly an adaptability assessment system, especially a greenhouse plant adaptability assessment system used to evaluate which greenhouse the plants are suitable for planting in.

A greenhouse, also known as a glass greenhouse or greenhouse, is a building specially used for growing plants. The sealed environment in the greenhouse allows complete control of growing conditions such as pests, diseases, heat and humidity compared to outdoor cultivation.

In conventional greenhouses, the environmental parameters most suitable for plant growth are input into computer equipment, and then the environmental changes of the conventional greenhouse are controlled through the computer equipment, so that the greenhouse is maintained under the conditions most suitable for plant growth. However, this conventional greenhouse can only plant plants of the same type or similar growing environment. It is not possible to plant different types of plants or plants with extremely different growing environments in the same greenhouse at the same time. Otherwise, it will be impossible to adapt to the situation. Plants in the greenhouse environment wither and wither. Therefore, how to judge which plants can be planted in the same greenhouse will be a problem that relevant personnel must find ways to solve and improve.

In view of this, it is necessary to provide a greenhouse plant adaptability assessment system to solve the above problems.

The purpose of this creation is to provide a greenhouse plant adaptability evaluation system that can be used to evaluate which greenhouse the plants are suitable for planting.

In order to achieve the above purpose, this invention provides a greenhouse plant adaptability assessment system, which is used to manage several greenhouses and allocate several plants to suitable greenhouses. The greenhouse plant adaptability assessment system includes : Several scanning barcodes are respectively provided on the plurality of plants; a scanning device is electrically connected to the scanning barcodes and is located closer to the several greenhouses, and the scanning device is used to scan the scanning barcodes located on the plants, to obtain and send an identification code; and a server connected to the scanning device through a wireless network. The server includes a database unit and a processor unit, and the database unit is used to store the identification codes of several plants. and a growth condition, as well as a number and a growth restriction condition of each greenhouse. The processor unit is electrically connected to the database unit and is used to set the growth conditions of the greenhouse according to the growth conditions of the plants planted in the greenhouse. Restriction conditions, the processor unit sets the maximum value of the lower limit values of the growth conditions of all plants planted in the greenhouse as the lower limit value of the growth restriction conditions of the greenhouse, and sets the maximum value of the lower limit values of the growth conditions of all plants planted in the greenhouse. The minimum value among the upper limits of the growth conditions of the plant is set as the upper limit of the growth restriction conditions of the greenhouse. When one of the greenhouses is selected to grow a plant, it is obtained by the scanning device Relative to the identification code of the plant, the processor unit obtains the corresponding growth conditions from the database unit based on the identification code, and then compares the growth conditions with the respective growth restriction conditions of the several greenhouses. , if the growth conditions meet the growth restriction conditions of one of the greenhouses, the processor unit allocates the planting to one of the greenhouses and sends the number of one of the greenhouses to a mobile device.

In some embodiments, when one of the plants is removed from the greenhouse, the processor unit obtains the identification code of one of the plants and obtains the corresponding growth conditions from the database unit. The processor unit Then, the growth restriction conditions of the greenhouse are reset according to the growth conditions of one of the plants.

In some embodiments, the scanned barcode is a rapid response matrix code.

In some embodiments, the growth conditions include light, temperature, humidity, air pressure, and moisture.

In some embodiments, the greenhouse plant adaptability assessment system of the present invention also has an image recognition module connected to the server through a wireless network. The image recognition module is used to photograph and identify the plants, so as to Obtain and send the identification code of the plant to the server, so that the processor unit determines whether the identification codes obtained by the scanning device and the image recognition module are different. If the determination result is yes, the processor unit Send an error message to the mobile device.

The greenhouse plant adaptability assessment system of this invention has the following characteristics: by setting a corresponding scanning barcode on the plant and scanning it with the scanning unit, the processor unit can compare the growth conditions of the plant with the The growth restrictions of each greenhouse are compared with each other to allocate the plants to greenhouses suitable for their growth. In this way, the greenhouse planting adaptability evaluation system of the present invention has the effect of automatically allocating plants to suitable greenhouses.

The embodiments of this invention are described in detail below with reference to the drawings. The attached drawings are mainly simplified schematic diagrams, which only illustrate the basic structure of the invention in a schematic manner. Therefore, only the elements related to the invention are marked in these drawings. , and the components shown are not drawn based on the number, shape, size ratio, etc. of the actual implementation. The actual implementation specifications and sizes are actually a selective design, and the component layout may be more complex.

The following descriptions of the embodiments refer to the accompanying drawings to illustrate specific embodiments in which the present invention can be implemented. The directional terms mentioned in this creation, such as "up", "down", "front", "back", etc., are only for reference to the directions of the attached drawings. Therefore, the directional terms used are used to explain and understand the present application, rather than to limit the present application. Additionally, in the specification, unless expressly described to the contrary, the word "comprising" will be understood to mean the inclusion of stated elements but not the exclusion of any other elements.

Please refer to Figures 1 and 2, which are respectively a system block diagram and a system architecture diagram of a preferred embodiment of the greenhouse planting adaptability evaluation system of this invention. The greenhouse planting adaptability evaluation system is used to manage several greenhouses H and to Several plants P are each allocated to a suitable greenhouse H, including: several scanning barcodes 1, a scanning device 2 and a server 3. The scanning device 2 is electrically connected to the scanning barcode 1, and the server 3 wirelessly The scanning device 2 is connected to the network.

The plurality of scanned barcodes 1 are respectively arranged on the plurality of plants P. In this embodiment, the scanned barcode 1 may be a quick response matrix code (QR Code) or other two-dimensional barcodes with the same function.

The scanning device 2 is placed relatively close to the several greenhouses H, and is used to scan the scanning barcode located on the plants P to obtain and send an identification code to the server 3. In this embodiment, the scanning device 2 is QR Code scanner that matches that scanned barcode 1.

In this embodiment, the server 3 is a cloud server or a local server. The server 3 includes a database unit 31 and a processor unit 32. The database unit 31 is used to store several types of plants. Each P has an identification code and a growth condition, and each greenhouse H has a number and a growth restriction condition. Among them, the growth conditions include light, temperature, humidity, air pressure, water and other environmental factors that will affect the growth of plants. Therefore, the greenhouse H has a corresponding light supply module (such as a light), a temperature adjustment module A group (such as a fan, air conditioning device), a humidity adjustment module (such as a sprinkler device), an air pressure adjustment module and an irrigation water module to maintain the environmental factors of the greenhouse H under the growth restriction conditions .

In this invention, the growth restriction condition is generated based on the respective growth conditions of all plants P planted in the same greenhouse H, so that all plants P can survive in the greenhouse H under the growth restriction condition. It is worth noting that when no plants P have been planted in a greenhouse H, the upper and lower limits of the growth restriction conditions of the greenhouse H can be positive infinity and negative infinity respectively, but are not limited to this.

In this embodiment, the processor unit 32 is a microcontroller (MCU) or other device with the same function. The processor unit 32 is electrically connected to the database unit 31 and is used to control the conditions of planting in each greenhouse H. The growth conditions of the internal plants P are used to set the growth restriction conditions of each greenhouse H. Specifically, the processor unit 32 sets the maximum value among the lower limits of the growth conditions of all the plants P planted in the greenhouse H as the lower limit of the growth restriction conditions of the greenhouse H, and sets the maximum value of the lower limits of the growth conditions of the plants P planted in the greenhouse H. The minimum value among the upper limits of the growth conditions of all plants P in the greenhouse H is set as the upper limit of the growth restriction conditions of the greenhouse H.

When one of the greenhouses H is to be selected to plant a plant P, the processor unit 32 obtains the identification code relative to the plant P from the scanning device 2 and causes the processor unit 32 to The corresponding growth conditions are obtained from the database unit 31 according to the identification code, and then the growth conditions are compared with the growth restriction conditions of the several greenhouses H. If the growth conditions meet the growth restrictions of one of the greenhouses H, condition, the processor unit 32 allocates the plant P to one of the greenhouses H, and sends the number of one of the greenhouses H to a mobile device M, so that the user of the mobile device M assigns the plant P Planted in greenhouse H of this number.

It is worth noting that when one of the plants P is removed from the greenhouse H, the processor unit 32 obtains the identification code of one of the plants P, and the database unit 31 obtains the corresponding growth conditions. Subsequently, the processor unit 32 resets the growth restriction conditions of the greenhouse H according to the growth conditions of one of the plants P.

The greenhouse plant adaptability evaluation system of this invention can also have an image recognition module 4 connected to the server 3 through a wireless network. In this embodiment, the image recognition module 4 uses a camera to capture the plants. Plant P, and learn to identify the type of plant P through the recognition module using deep learning technology, and obtain the corresponding identification code, which belongs to common knowledge in the field related to this creation and will not be elaborated here. The image recognition module 4 is used to photograph and identify the plant P, to obtain and send the identification code of the plant P to the server 3, so that the processor unit 32 determines whether the scanning device 2 and the Whether the identification codes obtained by the image recognition module 4 are different, if the judgment result is yes, it means that the scanned barcode 1 set on the plant P is wrongly pasted, and the processor unit 32 sends an error message to the mobile device M to remind the user to change the scanned barcode 1 on the plant P; if the judgment result is no, no additional action is required.

Following the above, the greenhouse plant adaptability assessment system of this invention can set the corresponding scanning barcode on the plant and scan it with the scanning unit, so that the processor unit can determine the growth of the plant. The conditions are compared with the growth restrictions of each greenhouse to allocate the plant to a greenhouse suitable for its growth. In this way, the greenhouse planting adaptability evaluation system of the present invention has the effect of automatically allocating plants to suitable greenhouses.

The implementation forms disclosed above are only illustrative to illustrate the principles, characteristics and functions of this invention, and are not used to limit the scope of implementation of this invention. Anyone familiar with this technology can do it without violating the spirit and scope of this invention. Modifications and changes are made to the above embodiments. Any equivalent changes and modifications accomplished by applying the contents disclosed in this creation shall still be covered by the following patent application scope.

﹝This creation﹞ 1: Scan the barcode 2: Scanning device 3:Servo end 31: Database unit 32: Processor unit 4:Image recognition module H:Greenhouse M: mobile device P: Planting

[Figure 1] is a system block diagram of the greenhouse planting adaptability assessment system of this creation; [Figure 2] is the system architecture diagram of the greenhouse planting adaptability assessment system of this creation.

1: Scan the barcode

2: Scanning device

3:Servo end

31: Database unit

32: Processor unit

4:Image recognition module

M: mobile device

Claims (5)

A greenhouse plant adaptability assessment system is used to manage several greenhouses and allocate several plants to suitable greenhouses. The greenhouse plant adaptability assessment system includes: Scan several barcodes and set them on the plants respectively; A scanning device is electrically connected to the scanning barcode and is located closer to the greenhouses. The scanning device is used to scan the scanning barcode located on the plant to obtain and send an identification code; and A server is connected to the scanning device through a wireless network. The server includes a database unit and a processor unit. The database unit is used to store identification codes and a growth condition of each of several plantings, as well as each greenhouse. A number and a growth restriction condition, the processor unit is electrically connected to the database unit, and is used to set the growth restriction conditions of the greenhouse according to the growth conditions of the plants planted in the greenhouse, and the processor unit will plant The maximum value among the lower limit values of the growth conditions of all plants in the greenhouse is set as the lower limit value of the growth restriction conditions of the greenhouse, and the upper limit value of the growth conditions of all plants to be planted in the greenhouse The minimum value is set as the upper limit of the growth restriction condition of the greenhouse. When one of the greenhouses is selected to plant a plant, the identification code corresponding to the plant is obtained by the scanning device. And the processor unit obtains the corresponding growth conditions from the database unit according to the identification code, and then compares the growth conditions with the growth restriction conditions of the several greenhouses. If the growth conditions meet the requirements of one of the greenhouses, If the growth restriction condition exists, the processor unit allocates the plant to one of the greenhouses and sends the number of one of the greenhouses to a mobile device. The greenhouse plant adaptability assessment system as described in claim 1, wherein when one of the plants is removed from the greenhouse, the processor unit obtains the identification code of one of the plants and uses the database unit to After obtaining the corresponding growth conditions, the processor unit resets the growth restriction conditions of the greenhouse according to the growth conditions of one of the plants. The greenhouse plant adaptability assessment system as described in claim 1, wherein the scanned barcode is a quick response matrix code. The greenhouse planting adaptability evaluation system as described in claim 1, wherein the growth conditions include light, temperature, humidity, air pressure and moisture. The greenhouse plant adaptability evaluation system as described in any one of claims 1 to 4, further has an image recognition module connected to the server through a wireless network, and the image recognition module is used to photograph the plant. and identification, to obtain and send the identification code of the plant to the server, so that the processor unit determines whether the identification codes obtained by the scanning device and the image recognition module are different. If the determination result is yes, The processor unit sends an error message to the mobile device.