KR20230168532A - Self-sufficient plant cultivation system - Google Patents

Abstract

The present invention relates to a self-sufficient plant cultivation system that allows customized cultivation indoors to suit the characteristics of plants. The self-sufficient plant cultivation system according to the present invention is a function applicable to self-sufficient indoor plant production and includes a recognition unit 100 that automatically recognizes the growth conditions of the plant, connects the data recognized through the recognition unit to a mobile phone, and provides real-time plant monitoring. A transmitting unit 200 that allows the growth level to be checked at any time, an environmental condition setting unit 300 that supports temperature, humidity, light quantity, nutrients, and sterilization, a connecting unit 400 that blocks and connects crops according to environmental conditions, and the above. It includes a control unit 500 that controls the environmental conditions for each growth state of each crop connected through the connection unit, allowing customized cultivation to suit the characteristics of the plants indoors.

Description

Self-sufficient plant cultivation system

The present invention relates to a self-sufficient plant cultivation system, and more specifically, to an indoor self-sufficient plant cultivation system that allows customized cultivation to suit the characteristics of plants indoors.

With recent cutting-edge functions, the demand for customized plants that match the plant characteristics of crops produced and grown outdoors in a small space indoors is growing, and as the standard of living increases, the demand for safe and high-quality foods is steadily increasing. It's a trend. Additionally, rapid climate change due to global warming is having a significant impact on the outdoor plant growth environment.

Accordingly, the government is expanding smart farms and various cutting-edge facilities are spreading to rural areas, and various plants are being produced in greenhouses and indoors.

Advanced growth automation devices that enable cultivation at home and indoors are increasingly in demand. An optimal cultivation system is a system that provides plants with environmental factors that affect plant cultivation, such as temperature, humidity, nutrients, air environment, and lighting, to produce the best environment and clean and safe agricultural products. will be. In order to implement a self-sufficient plant production system, it is possible to grow clean plants in an optimal environment by providing a customized environment suited to the type of plant.

Korean Patent Publication 2015-0005370 (2015.01.14)

The present invention was designed to solve the above-mentioned problems, and its purpose is to provide an indoor self-sufficient plant cultivation system that allows customized cultivation to suit the characteristics of plants indoors.

The self-sufficient plant cultivation system according to the present invention is a function applicable to self-sufficient indoor plant production and includes a recognition unit 100 that automatically recognizes the growth conditions of crops, connects the data recognized through the recognition unit to a mobile phone, and provides real-time plant monitoring. A transmitting unit 200 that allows the growth level to be checked at any time, an environmental condition setting unit 300 that supports temperature, humidity, light quantity, nutrients, and sterilization, a connecting unit 400 that blocks and connects crops according to environmental conditions, and the above. It includes a control unit 500 that controls environmental conditions for each growth state of each crop connected through the connection unit, wherein the control unit transmits the growth level to the connected mobile phone for each crop case block for each environmental condition of the crop through a transmitter, The length of the horizontal and vertical sides constituting the box case set for each environmental condition of the block crop set on the mobile phone is adjusted by sliding on the horizontal and vertical sides constituting the box case by external input from the mobile phone.

The control unit connects to the mobile phone to measure and detect the growth level and environmental conditions of the plant in real time and controls the environmental conditions according to the characteristics of the plant. However, in the block connection section for each environmental condition, the control unit measures and detects the plant's growth level and environmental conditions in real time, depending on the same environmental conditions or the length or height of the crop. Reconfigure the connection arrangement.

The environmental condition setting unit 300 has an outlet on one side for discharging internal air to the outside, an inlet for introducing external air into the other side, and is a box in which crops can be placed. (310), a height adjustment means (320) including a light source installed on top of the crops to supply light to the crops, and capable of adjusting the height of the box as the plants grow, and supplying carbon dioxide. After creating mixed air by sucking in the air inside the box discharged from the carbon dioxide supply means 330 and the carbon dioxide supplied from the carbon dioxide supply means and external air, the temperature and humidity of the mixed air are Air conditioning means 340 for supplying the mixed air into the box through the inlet after maintaining the concentration of carbon dioxide, a distance sensor capable of measuring the distance between the light source and the plant, and the box It includes a sensor means 350 equipped with an air sensor that can measure the internal air condition, and an input means 360 that inputs nutrients set according to the growth conditions of the crop recognized through the recognition unit.

According to one embodiment of the present invention, there is an effect of enabling customized cultivation to suit the characteristics of plants indoors.

Figure 1 is a diagram showing the configuration of a self-sufficient plant cultivation system according to an embodiment of the present invention.
Figure 2 is a diagram showing the configuration of an environmental condition setting unit of a self-sufficient plant cultivation system according to an embodiment of the present invention.
Figure 3 is a diagram showing the block diagram of a self-sufficient plant cultivation system according to an embodiment of the present invention.

The specific structural or functional descriptions presented in the embodiments of the present invention are merely illustrative for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms. In addition, it should not be construed as being limited to the embodiments described in this specification, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Meanwhile, in the present invention, terms such as first and/or second may be used to describe various components, but the components are not limited to the above terms. The above terms are used only for the purpose of distinguishing one component from other components, for example, without departing from the scope of rights according to the concept of the present invention, a first component may be named a second component, Similarly, the second component may also be referred to as the first component.

Hereinafter, embodiments of the present invention will be described with reference to the attached drawings. In describing embodiments of the present invention, if a description of a related known function or configuration is judged to unnecessarily obscure the gist of the present invention, the description is omitted.

Figure 1 is a diagram showing the configuration of a self-sufficient plant cultivation system according to an embodiment of the present invention. As shown in FIG. 1, the self-sufficient plant cultivation system includes a recognition unit 100, a transmission unit 200, an environmental condition setting unit 300, a connection unit 400, and a control unit 500.

The recognition unit 100 is a function applicable to self-sufficient indoor plant production and automatically recognizes the growth conditions of crops.

The transmitter 200 connects the data recognized through the recognition unit with the mobile phone and allows the real-time plant growth level to be checked at any time.

The environmental condition setting unit 300 is configured to support temperature, humidity, light quantity, nutrients, and sterilization.

The connection unit 400 is configured to connect box cases by dividing them into blocks according to the environmental conditions of crops.

The control unit 500 controls environmental conditions for each growth state of each crop connected through the connection unit. The control unit transmits the growth degree to the connected mobile phone for each block crop case according to the environmental conditions of the crop through the transmitter, and the horizontal and vertical lengths or The length of the box case is adjusted by sliding on the horizontal and vertical sides using an external input from the mobile phone.

The control unit according to this embodiment connects to a mobile phone to measure and detect the growth level and environmental conditions of the plant in real time, and controls the environmental conditions according to the characteristics of the plant. However, in the connection section blocked for each environmental condition, the same environmental conditions or crop length or The connection arrangement can be reconfigured according to height.

Figure 2 is a diagram showing the configuration of the environmental condition setting unit of a self-sufficient plant cultivation system according to an embodiment of the present invention. As shown in Figure 2, the environmental condition setting unit includes a box 310 and a height adjustment means 320. , carbon dioxide supply means 330, air conditioning means 340, sensor means 350, and input means 360.

The box 310 has an outlet on one side for discharging internal air to the outside, and an inlet for introducing external air into the box on the other side, and crops can be placed inside.

The height adjustment means 320 includes a light source installed on top of the crops to supply light to the crops, and is configured to adjust the height of the box as the plants grow.

The carbon dioxide supply means 330 is configured to supply carbon dioxide.

The air conditioning means 340 creates mixed air by sucking in the air inside the box discharged from the outlet, carbon dioxide supplied from the carbon dioxide supply means, and external air, and then adjusts the temperature, humidity, and concentration of carbon dioxide of the mixed air. It is configured to supply the mixed air into the box through the inlet after making it constant.

The sensor means 350 is equipped with a distance sensor that can measure the distance between the light source and the plant, an air sensor that can measure the air condition inside the box, and a sensor that detects water and nutrients introduced into the soil. .

The input means 360 is configured to input nutrients set according to the growth conditions of the crop recognized through the recognition unit. This input means is equipped with a pump that supplies water stored in the water storage unit to the water supply channel, and matches the stored data table set as the growth conditions of the crop according to the water input to the soil of the sensor means and the amount of water stored in the water supply channel. to determine the input amount. Here, the data table is connected to the smartphone, which is a user terminal, and stored in a DB provided in the environmental condition setting unit for each crop input, and the growth conditions for each crop can be modified with information input for each user.

The environmental condition setting unit according to this embodiment is a height adjustment means that can be adjusted to rearrange the space in the self-sufficient plant cultivation system according to the crop. Here, the environmental condition setting unit connects to the mobile phone under the control of the control unit to measure and detect the growth level and environmental conditions of the plant in real time and controls the environmental conditions according to the characteristics of the plant. The connection arrangement can be reconfigured according to the length or height of the crop, and the volume of the box 310 in the environmental condition setting part can be adjusted in length by sliding on each horizontal and vertical side of the box case according to the growth stage. . Additionally, temperature, humidity, and sterilization function can be controlled by air conditioning means.

Figure 3 is a diagram showing the block diagram of a self-sufficient plant cultivation system according to an embodiment of the present invention. As shown in FIG. 3, the connection parts are connected in blocks according to the environmental conditions of the crops, and the control unit reorganizes the connection arrangement according to the same environmental conditions or the length or height of the crops in the connection parts blocked by environmental conditions.

The control unit according to this embodiment connects to a mobile phone to measure and detect the growth level and environmental conditions of the plant in real time, and controls the environmental conditions according to the characteristics of the plant. However, in the connection section blocked for each environmental condition, the same environmental conditions or crop length or The connection arrangement can be reconfigured according to the height, and the volume of the box 310 in the environmental condition setting part can be formed so that the length can be adjusted by sliding on each horizontal and vertical side of the box case according to the growth stage.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it will be clear to those skilled in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention.

Claims (3)

A recognition unit 100 that automatically recognizes the growth conditions of crops as a function applicable to self-sufficient indoor plant production,
A transmitter (200) that connects the data recognized through the recognition unit to a mobile phone and allows the real-time plant growth level to be checked at any time;
An environmental condition setting unit 300 that supports temperature, humidity, light amount, nutrients, and sterilization,
A connection unit 400 that connects box cases by dividing them into blocks according to the environmental conditions of crops, and
It includes a control unit 500 that controls environmental conditions for each growth state of each crop connected through the connection unit,
The control unit transmits the growth degree to the connected mobile phone for each block crop case according to the environmental conditions of the crop, and the horizontal and vertical lengths constituting the box case set for each environmental condition of the blocked crop set in the mobile phone. Alternatively, a self-sufficient plant cultivation system that allows customized cultivation to suit the characteristics of plants indoors, characterized in that the length of the horizontal and vertical sides constituting the box case is adjusted by sliding by external input from the mobile phone.
According to paragraph 1,
The control unit connects to the mobile phone to measure and detect the growth level and environmental conditions of the plant in real time and controls the environmental conditions according to the characteristics of the plant,
A self-sufficient plant cultivation system, characterized in that the connection arrangement is reconfigured according to the same environmental conditions or the length or height of the crop in the connection parts block for each environmental condition.
According to paragraph 1,
The environmental condition setting unit 300 is
An outlet for discharging internal air to the outside is formed on one side, and an inlet for introducing external air into the inside is formed on the other side, a box 310 on which crops can be placed,
Height adjustment means 320, which has a light source installed on top of the crops to supply light to the crops and can adjust the height of the box as the plants grow,
A carbon dioxide supply means 330 for supplying carbon dioxide,
After creating mixed air by inhaling the air inside the box discharged from the outlet, carbon dioxide supplied from the carbon dioxide supply means, and external air, the temperature, humidity, and concentration of carbon dioxide of the mixed air are maintained constant, and then the inlet Air conditioning means 340 for supplying the mixed air into the box through,
Sensor means 350 including a distance sensor capable of measuring the distance between the light source and the plant, and an air sensor capable of measuring the air condition inside the box,
A self-sufficient plant cultivation system comprising an input means (360) for inputting nutrients set according to the growth conditions of the crop recognized through the recognition unit.