TWM571121U - Intelligent crop planting system - Google Patents

Abstract

An intelligent crop planting system that senses the humidity and pH of the planting soil through a soil sensing device, so that the sprinkler can give the most appropriate amount of water and acidic or alkaline fertilizer to the planting soil, and pass through an atmospheric sensing. The device senses the temperature and humidity of the atmosphere for a humidity control unit and a temperature control unit to give the most suitable temperature and humidity of the air above the planting soil. In addition, the present invention records the humidity of the planting soil through a cloud computing system. The pH and the change of atmospheric temperature and humidity with time can deeply understand the growth environment suitable for crops and improve the growth rate and growth quality of crops.

Description

Intelligent crop planting system

This creation is related to an intelligent crop planting system, especially a planting system that increases the efficiency of crop growth and records the growth environment of crops.

Plant growth requires proper sunlight, air, water and soil. The natural mechanism ensures that plants in the natural environment do not need to take care of natural growth, and systematically planted crops must be carefully selected for seasons and locations, and the growth process needs to be coordinated. Environmental changes are properly addressed to ensure that plants receive proper sunlight, temperature, water, air and soil. The manpower and time required for traditional agricultural methods are proportional to the planting area to meet the growth conditions of each plant.

Therefore, some employers use automated devices, such as automated sprinklers, to regularly and quantitatively replenish water in a large area of agricultural land, which can save a lot of manpower and has been widely used in various planting. However, the conventional automation device provides a set supply amount at a specific time according to the setting, and cannot adjust to the most appropriate supply time point and supply amount in accordance with the environmental change. For example, the crop after the rain does not need to be automatically sprinkled. The water device absorbs moisture. Therefore, after observing the above shortcomings, the creators of this case thought that how to adjust the environmental change to the most appropriate supply time point and supply quantity to improve the growth rate and quality of crops is necessary, and there is no such creation. .

The purpose of this creation is to provide an intelligent crop planting system that can be adjusted to the most appropriate supply time point and supply amount in accordance with environmental changes to improve crop growth efficiency.

To achieve the above objective, the intelligent crop planting system provided by the present invention comprises: a soil sensing device, which is disposed in a planting soil, the soil sensing device comprises a soil moisture sensing unit and a a pH sensing unit, the soil moisture sensing unit is capable of sensing the humidity of the planting soil, and the soil moisture sensing unit is electrically connected to a sprinkler, and the pH sensing unit is capable of sensing the planting soil a pH, and the pH sensing unit is electrically connected to a fertilizer blanking machine, the fertilizer blanking machine is connected to a water storage unit, the water storage unit is connected to the sprinkler; an atmospheric sensing device is Provided above the planting soil, the atmospheric sensing device comprises an atmospheric humidity sensing unit and an atmospheric temperature sensing unit, wherein the atmospheric humidity sensing unit senses the humidity of the atmosphere, and the atmospheric humidity sensing unit Electrically connected to a humidity control unit, wherein the atmospheric temperature sensing unit senses the temperature of the atmosphere, and the atmospheric temperature sensing unit is electrically connected to a temperature control unit; The end computing system is electrically connected to the soil sensing device and the atmospheric sensing device respectively, wherein the cloud computing system can record changes in humidity and pH of the planting soil with time, and can record atmospheric temperature and humidity with time. Change.

The intelligent crop planting system provided by the present invention senses the humidity and pH of the planting soil through the soil sensing device, so that the sprinkler can give the most appropriate amount of water and fertilizer to the planting soil, and through the atmosphere sensing The device senses the temperature and humidity of the atmosphere, and the humidity control unit and the temperature control unit give the most suitable temperature and humidity of the air above the planting soil, and records the humidity, pH and the planting soil through the cloud computing system. The changes in atmospheric temperature and humidity over time can provide insight into the growing environment suitable for crops and increase the growth rate and growth quality of crops.

10‧‧‧ soil sensing device

11‧‧‧ Soil moisture sensing unit

12‧‧‧pH sensing unit

20‧‧‧Atmospheric sensing device

21‧‧‧Atmospheric humidity sensing unit

22‧‧‧Atmospheric temperature sensing unit

30‧‧‧Cloud Computing System

200‧‧ sprinkler

210‧‧‧ fertilizer blanking machine

211‧‧‧Alkaline fertilizer

212‧‧‧Acid fertilizer

220‧‧‧Water storage unit

300‧‧‧Humidity control unit

301‧‧‧Humidification unit

302‧‧‧Dehumidification unit

310‧‧‧Temperature Control Unit

311‧‧‧Hot air unit

312‧‧‧ Cold air unit

Figure 1 is a block diagram of a preferred embodiment of the present invention.

Referring to FIG. 1 , a block diagram of a preferred embodiment of the present invention discloses a smart crop planting system comprising: a soil sensing device 10 disposed in a planting soil. The soil sensing device 10 includes a soil moisture sensing unit 11 and a pH sensing unit 12, wherein the soil moisture sensing unit 11 senses the humidity of the planting soil, and the soil moisture sensing unit 11 is electrically The water sprinkler 200 is connected to the sprinkler 200, and the pH sensing unit 12 senses the pH of the planting soil, and the pH sensing unit 12 is electrically connected to a fertilizer blanking machine 210, and the fertilizer blanking machine 210 is An alkaline fertilizer 211 and an acidic fertilizer 212 are accommodated. The fertilizer blanking machine 210 is connected to a water storage unit 220, and the water storage unit 220 is connected to the water sprinkler 200.

An atmospheric sensing device 20 is disposed above the planting soil. The atmospheric sensing device 20 includes an atmospheric temperature sensing unit 2221 and an atmospheric temperature sensing unit. The atmospheric temperature sensing unit 2221 is sensible. Measuring the humidity of the atmosphere, and the atmospheric temperature sensing unit 2221 is electrically connected to a humidity control unit 300, the humidity control unit 300 has a humidifying unit 301 and a dehumidifying unit 302, and the atmospheric temperature sensing unit is Sensing the temperature of the atmosphere, and the The gas temperature sensing unit is electrically connected to a temperature control unit 310, which has a hot air unit 311 and a cold air unit 312.

A cloud computing system 30 is electrically connected to the soil sensing device 10 and the atmospheric sensing device 20, respectively, and the cloud computing system 30 can record changes in humidity and pH of the planting soil with time, and can record the atmosphere. Temperature and humidity change with time.

In order to further understand the characteristics of this creation, the use of technical means and the expected results, we will describe the use of this creation, and believe that we can have a deeper and more specific understanding of this creation, as follows: The intelligent crop planting system, when the soil moisture sensing unit 11 senses that the planting soil moisture is relatively dry, the soil moisture sensing unit 11 transmits a signal, so that the sprinkler 200 performs a watering action to increase the The humidity of the planted soil. When the pH sensory unit 12 senses that the pH of the planting soil is acid, the pH sensing unit 12 transmits a signal, so that the alkaline fertilizer 211 in the fertilizer blanking machine 210 falls into the water storage unit 220. The water in the water storage unit 220 is made alkaline, and the alkaline fertilizer 211 is spilled through the sprinkler 200 to balance the pH of the soil. Conversely, when the pH sensing unit 12 senses the planting When the pH of the soil is alkaline, the pH sensing unit 12 transmits a signal, so that the acidic fertilizer 212 in the fertilizer blanking machine 210 falls into the water storage unit 220, so that the water in the water storage unit 220 becomes acidic. The acidic fertilizer 212 is sprinkled through the sprinkler 200 to balance the pH of the soil. When the atmospheric temperature sensing unit 2221 senses that the atmospheric humidity is relatively dry, the atmospheric temperature sensing unit 2221 transmits a signal, so that the humidifying unit 301 increases the moisture in the atmosphere. In this embodiment, the The humidification unit 301 is a humidifier. Conversely, when the atmospheric temperature sensing unit 2221 senses that the atmospheric humidity is relatively humid, the atmospheric temperature sensing unit 2221 transmits a signal, so that the dehumidification unit The element 302 removes moisture in the atmosphere. In the present embodiment, the dehumidifying unit 302 is a dehumidifier. In addition, when the atmospheric temperature sensing unit senses that the atmospheric temperature is high, the atmospheric temperature sensing unit transmits a signal, so that the cold air unit 312 blows cold air to reduce the temperature in the air. In this embodiment, the The cold air unit 312 is a cold air blower. Conversely, when the atmospheric temperature sensing unit senses that the atmospheric temperature is low, the atmospheric temperature sensing unit transmits a signal, so that the hot air unit 311 blows hot air to raise the air. In the present embodiment, the hot air unit 311 is a hot air blower, whereby the creation can be adjusted to the most appropriate supply time and supply amount of water and fertilizer in accordance with environmental changes, thereby improving crop growth efficiency.

The cloud computing system 30 records the humidity, pH, and changes in atmospheric temperature and humidity with time, so that the growth environment suitable for the crop can be deeply understood, and the planting soil in other regions is required to pass through the cloud computing system 30. When the same crops are planted, the crops can be planted according to the records of the cloud computing system 30, so that the crops in different regions can be given the most appropriate care by referring to the cloud computing system 30, thereby improving the growth rate and growth quality of the crops.

The characteristics of the present invention and its achievable expected effects are as follows: The present invention senses the humidity and pH of the planting soil through the soil sensing device 10 for the sprinkler 200 and the fertilizer to be blanked. The machine 210 can give the most appropriate amount of water and fertilizer to the planting soil according to the signal of the soil sensing device 10, and sense the temperature and humidity of the atmosphere through the atmospheric sensing device 20 for the humidity control unit 300 and the temperature. The control unit 310 can give the most suitable temperature and humidity of the air above the planting soil according to the signal of the atmospheric sensing device 20. In addition, the present invention further records the humidity, pH and atmospheric temperature of the planting soil through the cloud computing system 30. The humidity changes with time, and can understand the growth environment suitable for crops, and through the cloud computing system 30, the planting soil in other regions should be planted the same. When the crops are cropped, the crops can be planted according to the records of the cloud computing system 30, so that the crops in different regions can be given the most appropriate care by referring to the cloud computing system 30, thereby improving the growth rate and growth quality of the crops.

In summary, this creation has its excellent progress and practicality in similar products. At the same time, it has investigated the technical information about such structures at home and abroad. The same structure has not been found in the literature. This creation has already possessed new types of patent requirements, and applied for it according to law.

However, the above-mentioned ones are only one of the preferred embodiments of the present invention, and the equivalent structural changes in the application of the present specification and the scope of the patent application are intended to be included in the scope of the present patent.

Claims (4)

An intelligent crop planting system comprises: a soil sensing device, which is disposed in a planting soil, the soil sensing device comprises a soil moisture sensing unit and a pH sensing unit, the soil moisture sense The measuring unit is capable of sensing the humidity of the planting soil, and the soil moisture sensing unit is electrically connected to a sprinkler, and the pH sensing unit is capable of sensing the pH of the planting soil, and the pH sensing unit Electrically connecting a fertilizer blanking machine, the fertilizer blanking machine is connected to a water storage unit, the water storage unit is connected to the sprinkler; an atmospheric sensing device is disposed above the planting soil, The atmospheric sensing device comprises an atmospheric humidity sensing unit and an atmospheric temperature sensing unit, wherein the atmospheric humidity sensing unit senses the humidity of the atmosphere, and the atmospheric humidity sensing unit is electrically connected to a humidity control unit. The atmospheric temperature sensing unit can sense the temperature of the atmosphere, and the atmospheric temperature sensing unit is electrically connected to a temperature control unit; a cloud computing system, which is separately powered Sensing means connected to the soil and the atmospheric pressure sensing means, the cloud-based computing system may record the planting soil moisture and variation of pH over time, and may record the ambient temperature and humidity changes over time of. The intelligent crop planting system according to claim 1, wherein the fertilizer blanking machine houses an alkaline fertilizer and an acid fertilizer. The intelligent crop planting system according to claim 1, wherein the humidity control unit has a humidifying unit and a dehumidifying unit. The intelligent crop planting system according to claim 1, wherein the temperature control unit has a hot air unit and a cold air unit.