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SMART SPRINKLER

The Smart Sprinkler project integrates advanced technology with sustainable practices like rainwater harvesting. A key component is a custom 3D-printed sprinkler head featuring strategically designed holes for efficient water distribution. Additionally, the project explores rainwater collection systems using innovative shapes like circular and geometric models, promoting water conservation and smart irrigation practices.

The Smart Sprinkler project pioneers modern technology by integrating components like microcontrollers, relays, a water pump, and customized 3D-printed sprinkler heads. These elements collaborate to create an intelligent sprinkler system that conserves water and optimizes plant growth. Customized 3D-printed sprinkler heads with strategically placed holes ensure efficient water distribution, while circular and geometrical models enhance water conservation practices. This initiative educates students about sustainable practices and emphasizes the role of technology in promoting environmental stewardship.

Components/Circuit:

  • Microcontrollers: Control system operations and manage watering schedules.
  • Relays: Control the activation of the water pump and sprinkler system.
  • Water Pump: Provides water supply to the sprinkler system.
  • 3D-Printed Sprinkler Heads: Customized designs for efficient water distribution.
  • Circular and Geometrical Models: Enhance water conservation by optimizing sprinkler patterns.

CODE

void setup() {
  Serial.begin(9600); // Initialize serial communication
  pinMode(7, OUTPUT); // Set pin 7 to output mode
}

void loop() {
  digitalWrite(7, HIGH); // Turn on the water pump (activate relay)
  Serial.println("Should be on"); // Print message to Serial Monitor
  delay(10000); // Wait for 10 seconds

  digitalWrite(7, LOW); // Turn off the water pump (deactivate relay)
  Serial.println("Should be off"); // Print message to Serial Monitor
  delay(10000); // Wait for another 10 seconds before repeating
}

How it Works:

  • Microcontroller Control: Programs the watering schedule based on environmental sensor data.
  • Relay Control: Activates the water pump and adjusts sprinkler patterns using 3D-printed models.
  • Water Conservation: Optimizes water usage by delivering precise amounts to plants as needed.

Benefits:

  • Water Conservation: Reduces water waste through targeted watering and optimized sprinkler patterns.
  • Plant Health: Promotes healthy plant growth by avoiding over-watering.
  • Environmental Sustainability: Demonstrates eco-friendly irrigation practices.

Application:

The Smart Sprinkler system is ideal for residential gardens, agricultural fields, and landscaping projects. It showcases innovative technology that promotes water conservation and sustainable gardening practices while enhancing plant health and growth. The integration of relays and 3D-printed models further enhances water conservation efforts, making it an excellent choice for eco-conscious users.

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