Claims:WE CLAIM:
1) A flower garden system based on IoT comprising of;
a. Sensors like temperature, humidity, moisture, light intensity, LDR, to control parameters;
b. Interfacing the sensors with the microcontroller;
c. automatically triggering the alarm system;
d. monitoring the information about the garden and controlled by the owner of the garden through his or her mobile phone using IoT.
2)The flower garden system based on IoT as claimed in claim 1, wherein the said system tracks humidity, soil and air temperature, pH, light intensity. It then uploads this information to cloud through the database
3) The flower garden system based on IoT as claimed in claim 1, wherein the said system automatically controls water system with the data collected from the garden sensors.
4) The flower garden system based on IoT as claimed in claim 1, wherein the said system calculates the actual humidity and compares actual humidity of soil and the expection humidity of soil, when the actual humidity of soil is less than the expection humidity of soil, water is started.
, Description:FIELD OF THE INVENTION:
The present invention relates to a vegetable garden system. The present invention more particularly relates to a flower garden system based on IOT.
BACKGROUND OF THE INVENTION:
Floriculture at home not only can be beautified the environment, and also helps healthy. For the people who is unfamiliar with flowers and plants cultivation, spraying water on flowers is a rather time-consuming job, has both needed to meet the growth cycle of flowers and plants itself, needs again constantly to water, and has larger workload and, many times, because treatment is not good at, especially in house person, to go out for a long time, plant can not get, in the situation of moisture, easily causing withered death for a long time.
Existing automatic flower watering equipment generally can detect the humidity of soil, and part can also automatically be opened water pump according to monitoring result and be watered. But in prior art, for the control of watering the water yield, all in automatic flower watering equipment, set in advance, when watering, do not adjust at every turn. Therefore, the existing equipment of watering flowers generally lacks the flexibility of adjusting watering the water yield according to flowers and plants kind and growth cycle.
The flower-watering device can select water supply pattern corresponding to flowers and plants kind to water flowers when watering flowers, yet it is for concrete flowers and plants, still can not be according to its growth cycle to watering water yield adjustment and in the different growth periods of flowers and plants, except needs regularly water, the water yield number the upgrowth situation of flowers and plants is also played to conclusive effect, at different growth cycles, its soil moisture needing is not identical. Therefore, if the humidity of soil is not adjusted according to growth cycle, it will affect the growth rate of flowers and plants, even affect its health status.
Therefore, a system is needed which can automatically watered the flowers and can regularly spend enough moisture according to the time of setting, guarantee growing up healthy and sound growth of flower.
OBJECTS OF THE INVENTION:
The main object of the present invention is to provide a flower garden system based on IOT.
Another object of the present invention is to provide a system which can automatically water the flowers and can regularly spend enough moisture according to the time of setting, guarantee growing up healthy and sound growth of flower.
SUMMARY OF THE INVENTION:
Accordingly, a flower garden system based on IoT is disclosed. A flower garden system based on IoT comprising of; Sensors like temperature, humidity, moisture, light intensity, LDR, to control parameters; Interfacing the sensors with the microcontroller; automatically triggering the alarm system; and monitoring the information about the garden and controlled by the owner of the garden through his or her mobile phone using IoT.
DESCRIPTION OF THE DRAWINGS:
Fig 1 is the flowchart for the flower garden system based on IoT.
DESCRIPTION OF THE INVENTION WITH RESPECT TO DRAWINGS:
The present invention provides a flower garden system based on IoT. The system of the present invention can automatically water the flowers and can regularly spend enough moisture according to the time of setting, guarantee growing up healthy and sound growth of flower.
In one embodiment, the present invention is an indoor flowers and plants automatic watering function system. Automatic watering function system include microcontroller, sensor, alarm, keyboard, Relay.
The output of described sensor is connected to the input of microcontroller which is further connected to display unit. The output of described display unit is connected to alarm and to the output of relay. The output of described relay is connected to magnetic valve. The sensors used are Temperature, Humidity Sensor. The alarm system automatically triggered to display the graph of the plant watering and flower growth.
According to the growth cycle data of plant, determine to water opportunity. According to humidity threshold value corresponding to plant growth cycle, environmental variance, calculate the expection humidity of soil. The actual humidity of soil is compared and the expection humidity of soil, when the actual humidity of soil is less than the expection humidity of soil, water is started .Otherwise, there is no need of water to the plants. when the actual humidity of soil is greater than the expection humidity of soil, watering is watered.
The growth cycle of plant is divided into several stages capable of circulation, wherein, corresponding one group of parameter of each stage, every group of parameter at least comprises watering time, irrigation times and suitable humidity threshold value.
The temperature sensor is connected with centralized control unit and humidity sensor, and all the data regarding the same is sent to the database of the website.
Memory unit is present in the database of the website and is for storing the parameter with plant growth.
While making its actual humidity value of working as soil be less than the expection humidity value of soil, water.
Microcontroller in base control panel is programmed to on the relay at a specific time, with the help of real time clock module. So at the specified time, microcontroller will on/off the relay according to the moisture data received from the sensor unit. This base unit also sends notification to users once the plant is watered.
All the parameters of the garden like temperature, humidity, moisture, light intensity are controlled with the help of sensors like humidity sensor, moisture sensor, LDR, temperature sensor is interfaced with the microcontroller. And this information about the garden can be directly monitored and controlled by the owner of the garden through his or her mobile phone using Iot. The present system is generally for the people who love gardening but are busy in their jobs or day- to- day lives. It is not possible for the people to maintain garden regularly. It cause improper growth of the plants. This system helps to solve those worries. By using system of the present invention on the owner‘s smart phone, the user can forget about watering the plants on a regular basis. Moreover, this system also tracks humidity, soil and air temperature, pH, light intensity. It then uploads this information to cloud through the database. Humidity is the presence of water in the air. The presence of water vapor also influences various physical, chemical and biological processes. Humidity measurement determines the amount of water vapor present in the gas. It is the mixture of pure gas such as nitrogen and argon. Soil moisture sensor measures the volumetric water current in the soil. Soil moisture sensor measures the volumetric water content indirectly by using some other property of the soil, such as electrical resistance, dielectric constant, or interaction with neutrons, for the moisture content as a proxy. The relation between the soil moisture and measured property must be checked and it may also vary depending on environmental factors such as soil type, temperature and electrical conductivity. This sensor is used to detect the moisture of the soil and inform the user through this mobile application. The present system continuously monitors the moisture content and will alert the user to take required action. It also automatically controls this existing water system with the data collected from the garden sensors.
The system helps to save water, the utility bills, also the thirst of the plant is also fulfilled. The application is used by the user to control the water valve manually. Thus the user can water the plants from anywhere and pour his/her love on the plants. This system water valve is simply attached to a hose, making a simplest watering system ever. Based on the sensor reading it will allow turn on or off and gives the plant a precise amount of water they need. This system is also made to display different charts based on the sensor reading and graph is plotted to check the plant growth. All the data are gathered by the sensor and the value is refreshed. All the sensor data are stored and sent to the mobile application and also to windows application. Also the watering of the plants is also checked regularly which can be done manually or automatically.
It gives an enjoyable experience to the user. A very low implementation cost is enough for this system and to reduce the implementation cost compared to another system. The application builds on this system receive the data from humidity, moisture, LDR, temperature sensor. All these data can be viewed in the database using numerical values, charts and graphs. It displays the real time data.
This system monitors various garden parameters and inform the user about the details of garden through their smart phone. It also helps to solve many issues occurring in the existing plant watering and gardening system. It helps to save water and utility bills. Plant monitoring and smart gardening using IoT with the help of the controller will bring more convenience and comfort to people‘s lives for taking care of their garden. Any Android supported device can be used to install the smart gardening system. The user can control and monitor the environment of the garden using the android application. The controller in this system provides an economic and efficient platform to implement the plant monitoring and smart gardening system using IOT. The main advantage of the smart gardening system is that the user can monitor the garden using the internet from far distances during leisure time or whenever necessary.
In another embodiment, A flower garden system based on IOT comprising of;
a. Sensors like temperature, humidity, moisture, light intensity, LDR, to control parameters;
b. Interfacing the sensors with the microcontroller;
c. automatically triggering the alarm system;
d. monitoring the information about the garden and controlled by the owner of the garden through his or her mobile phone using Iot.