Automatically collect hydroponic system parameters such as temperature, humidity, light, 02, CO2, water pH, water EC, . and nutrient solutions. Display current values of the hydroponic system's ambient conditions, nutrient solution level, and control statuses on dashboards. Visualize and export historical graphs and analysis reports of hydroponic system environmental parameters during the selected period. Control the water pump, water supply valve, nutrient solution supplies, and CO2 volume based on collected sensors' data and plant growth stage.In the grow room, there are many different variables and lots of equipment needed to maintain and care for plants. As a result, there are many types of grow room controllers to control every aspect of the environment inside the growing space. Here are a few common single purpose controllers:
Cannabis Vertical Grow Container
The system usually consists of multiple components, including sensors, controllers, actuators, and user interfaces.
The sensor part is mainly used to monitor the environmental parameters in the greenhouse, such as temperature, humidity, light intensity, carbon dioxide concentration and so on. These sensors can collect data in real time and transmit the data to the controller for processing.
The controller is the core part of the greenhouse internal system, which analyzes and processes the data collected by the sensor through the algorithm, and then sends instructions to the actuator to control the environment in the greenhouse. The controller can automatically adjust the temperature, humidity, light, etc. in the greenhouse according to the preset parameters to maintain the most suitable growth environment.
The actuator part mainly includes ventilation equipment, heating equipment, irrigation equipment and so on in the greenhouse. According to the instructions sent by the controller, the actuator can automatically adjust the opening and closing degree of the vent, the working state of the heater, the water amount of the irrigation equipment, etc., to achieve accurate control of the environment in the greenhouse.
The user interface is the interface through which the system inside the greenhouse interacts with the user, usually through software on a computer or mobile device. Users can monitor the environmental data in the greenhouse through the interface, set control parameters, and even remotely control the equipment in the greenhouse.
The advantage of the greenhouse internal system is that it can improve the production efficiency and crop quality of the greenhouse, and reduce the waste of energy and resources. Through automatic control, the system can adjust the environmental parameters according to the needs of the crop and provide the most suitable growth conditions, thereby improving the yield and quality of the crop. In addition, the system can also realize remote monitoring and control, which is convenient for users to manage the greenhouse anytime and anywhere.
Aerial multi-layer planting system
Aerial multi-layer planting system is an advanced agricultural planting technology, which realizes multi-level crop planting in a limited space through vertical overlapping planting architecture. Such systems typically make use of indoor or outdoor vertical Spaces, such as the walls, roofs or vertical planters of buildings, as well as purpose-built growing containers and irrigation systems.
Improve land use efficiency:
Since planting is carried out in vertical space, more crops can be grown on limited land area, thus improving land use efficiency.
Water conservation:
Aerial multi-layer planting systems usually use circular irrigation systems to minimize water waste. Water and nutrients can be recycled, reducing the amount of water used.
Reduce the use of chemical pesticides and fertilizers:
due to the control and management of the planting environment, the aerial multi-layer planting system can reduce the dependence on chemical pesticides and fertilizers, thereby reducing the pollution of the environment.
Provide year-round supply of crops:
The aerial multi-layer planting system can simulate different seasons and climate conditions in an indoor environment to achieve year-round supply of crops.
Reduce energy consumption:
multi-layer aerial planting systems usually use LED lights to provide the light required by plants, and LED lamps have the characteristics of high efficiency, which can reduce energy consumption.
The aerial multi-layer planting system has a wide range of applications, which can be used in urban agriculture, indoor agriculture, vertical agriculture and other fields. It can provide urban residents with fresh produce, reducing the distance and time for food transportation, while also providing a stable supply of produce in areas where food supplies are unstable.
Vertical planting system
A vertical planting system is a method of growing plants in a vertical stack in a limited space. It can be used in buildings, indoor or outdoor Spaces in cities to maximize the use of limited land resources.