Project No. 19: Creating a Smart Sliding Door With PIR Sensor
1. Introduction:
Welcome to our Smart Sliding Door project! In this project, we aim to
create an intelligent and automated sliding door system using a PIR (Passive
Infrared) sensor. The purpose of this project is to enhance convenience and
provide a seamless entry experience by detecting the presence of a person and
automatically opening the door.
Traditional doors require manual operation, which can be inconvenient,
especially in situations where hands-free access is desired. Our Smart Sliding
Door offers a solution to this by incorporating a PIR sensor that can detect
the presence of a person within a particular range. When a person enters the
designated range, the door will open automatically, eliminating the need for
manual interaction.
The key component of our system Is the PIR sensor, which is capable of
detecting changes in infrared radiation emitted by living beings. This sensor
is mounted in a strategic position, typically near the entrance or walkway
leading to the sliding door. When a person enters the detection range of the
PIR sensor, it sends a signal to the control system to initiate the door
opening mechanism.
To facilitate the automatic opening of the sliding door, we employ a
motorized mechanism that is synchronized with the PIR sensor. When the PIR
sensor detects a person, it triggers the control system to activate the motor,
causing the sliding door to open smoothly and safely. This automated process
ensures a hands-free and convenient entry experience for individuals
approaching the door.
Safety is a top priority in our project. We incorporate safety features
such as obstacle detection sensors to prevent the door from closing on someone
or something in its path. These sensors can detect any obstructions in the
door’s trajectory, immediately halting the door’s movement to avoid accidents
or damage.
Traditional doors require manual operation, which can be inconvenient, especially in situations where hands-free access is desired. Our Smart Sliding Door offers a solution to this by incorporating a PIR sensor that can detect the presence of a person within a particular range. When a person enters the designated range, the door will open automatically, eliminating the need for manual interaction.
The key component of our system Is the PIR sensor, which is capable of detecting changes in infrared radiation emitted by living beings. This sensor is mounted in a strategic position, typically near the entrance or walkway leading to the sliding door. When a person enters the detection range of the PIR sensor, it sends a signal to the control system to initiate the door opening mechanism.
To facilitate the automatic opening of the sliding door, we employ a motorized mechanism that is synchronized with the PIR sensor. When the PIR sensor detects a person, it triggers the control system to activate the motor, causing the sliding door to open smoothly and safely. This automated process ensures a hands-free and convenient entry experience for individuals approaching the door.
Safety is a top priority in our project. We incorporate safety features such as obstacle detection sensors to prevent the door from closing on someone or something in its path. These sensors can detect any obstructions in the door’s trajectory, immediately halting the door’s movement to avoid accidents or damage.
2. Working:
Step1: PIR sensor Detection:The PIR (Passive Infrared) sensor continuously
monitors its surroundings for any changes in infrared radiation, which are
emitted by living beings. When a person enters the designated range of the PIR
sensor, it detects the movement and sends a signal to the control system.
Step2: Control System Activation:Upon receiving the signal from the PIR sensor,
the control system is activated. The control system can be implemented using an
Arduino or any microcontroller board. It processes the input from the PIR
sensor and initiates the necessary actions to open the sliding door
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Step3: Alarm Activation: Upon receiving the signal from the sensors, the control unit triggers the alarm system. A powerful buzzer is activated, generating a loud and attention-grabbing sound to alert occupants of the fire hazard. Simultaneously, a red LED light illuminates, providing a visual indication of the emergency.
Step4: Motorized Door Opening: The control system controls a motor or actuator
that is connected to the sliding door mechanism. When triggered by the PIR
sensor, the control system activates the motor, causing the sliding door to
open smoothly and safely. The motor can be a DC motor or a stepper motor depending on the
specific design and requirements of the sliding door system.
Step5: Safety Measure: The Smart Sliding Door project incorporates safety
measures to ensure the well-being of individuals using the door. This includes
obstacle detection sensors that are placed in the door’s path. These sensors
can detect any obstructions, such as a person or an object, and immediately
halt the door’s movement to prevent accidents or damage.
Step5: Delay and Auto-Close: To provide a comfortable entry experience, the control
system can introduce a delay feature after the PIR sensor detects a person.
This delay allows the person to pass through the door before it automatically
closes. The duration of the delay can be adjusted based on the specific
requirements of the project.
Step1: PIR sensor Detection:
The PIR (Passive Infrared) sensor continuously
monitors its surroundings for any changes in infrared radiation, which are
emitted by living beings. When a person enters the designated range of the PIR
sensor, it detects the movement and sends a signal to the control system.
Step2: Control System Activation:
Upon receiving the signal from the PIR sensor,
the control system is activated. The control system can be implemented using an
Arduino or any microcontroller board. It processes the input from the PIR
sensor and initiates the necessary actions to open the sliding door
.png)
Step3: Alarm Activation:
Upon receiving the signal from the sensors, the control unit triggers the alarm system. A powerful buzzer is activated, generating a loud and attention-grabbing sound to alert occupants of the fire hazard. Simultaneously, a red LED light illuminates, providing a visual indication of the emergency.
Step4: Motorized Door Opening:
The control system controls a motor or actuator
that is connected to the sliding door mechanism. When triggered by the PIR
sensor, the control system activates the motor, causing the sliding door to
open smoothly and safely. The motor can be a DC motor or a stepper motor depending on the
specific design and requirements of the sliding door system.
Step5: Safety Measure:
The Smart Sliding Door project incorporates safety
measures to ensure the well-being of individuals using the door. This includes
obstacle detection sensors that are placed in the door’s path. These sensors
can detect any obstructions, such as a person or an object, and immediately
halt the door’s movement to prevent accidents or damage.
Step5: Delay and Auto-Close:
To provide a comfortable entry experience, the control
system can introduce a delay feature after the PIR sensor detects a person.
This delay allows the person to pass through the door before it automatically
closes. The duration of the delay can be adjusted based on the specific
requirements of the project.
3. What is PIR Sensor?
A Passive Infrared (PIR) sensor is a type of electronic device used to detect motion or presence of humans, animals, or other objects within its range. It works based on the principle of detecting changes in infrared radiation emitted by objects in its field of view.
The PIR sensor contains a pyroelectric sensor that can detect infrared radiation. When a person or object moves within the sensor's range, the temperature difference between the object and the background causes a change in the infrared radiation emitted. The PIR sensor detects this change and triggers an electrical signal.
A Passive Infrared (PIR) sensor is a type of electronic device used to detect motion or presence of humans, animals, or other objects within its range. It works based on the principle of detecting changes in infrared radiation emitted by objects in its field of view.
The PIR sensor contains a pyroelectric sensor that can detect infrared radiation. When a person or object moves within the sensor's range, the temperature difference between the object and the background causes a change in the infrared radiation emitted. The PIR sensor detects this change and triggers an electrical signal.
4. Things that you will get with models:
1. Detailed Model
2. Well soldered circuits
3. PPT
1. Detailed Model
2. Well soldered circuits
3. PPT
5. Project price:
You can buy this project at price 1700 Rs.
You can also customize your project according to your requirement as below:
The price of this projects depend on the component used in the model, for example in the above model the component used is:
1. Arduino UNO 3. Red and Green LED4. Resistor5. Buzzer6. PIR Sensor7. IR Sensor8. connecting wire9. Other small components
There are some other optional component available that you can remove or add it to the model according to your need, so the price of the project will decrease or increase according to price of component according to price of component and coding.
In summery, you can tell us what functionalities and components that you want to add or remove from the model, so the price will change accordingly. If you have any question related to this project then contact me: click here Basically you will get all this things that required to present this project in front of your external, teacher, for practical use at your home or to show off in front of your friends 😉😉,so if you want to buy this project then fill this google form: https://docs.google.com/forms/d/e/1FAIpQLSfDQvyFqN1iDLOFhGNB0KK_nEW1rZujUEdmvNNQNazXK4tAZA/viewform?usp=sf_link
You can buy this project at price 1700 Rs.
You can also customize your project according to your requirement as below:
The price of this projects depend on the component used in the model, for example in the above model the component used is:
3. Red and Green LED
4. Resistor
5. Buzzer
6. PIR Sensor
7. IR Sensor
8. connecting wire
9. Other small components
There are some other optional component available that you can remove or add it to the model according to your need, so the price of the project will decrease or increase according to price of component according to price of component and coding.
In summery, you can tell us what functionalities and components that you want to add or remove from the model, so the price will change accordingly. If you have any question related to this project then contact me: click here
Basically you will get all this things that required to present this project in front of your external, teacher, for practical use at your home or to show off in front of your friends 😉😉,so if you want to buy this project then fill this google form: https://docs.google.com/forms/d/e/1FAIpQLSfDQvyFqN1iDLOFhGNB0KK_nEW1rZujUEdmvNNQNazXK4tAZA/viewform?usp=sf_link
Note: The image shown is a conceptual representation and may not accurately reflect the final design or features of the actual model. The actual model will be developed based on extensive research, engineering, and design processes to ensure optimal performance and user experience.
Feel free to contact me I am always here for you
About Us: click hereContact Detail: click hereFor delivery detail: click here Telegram: https://t.me/arduinoproject1
Note: The image shown is a conceptual representation and may not accurately reflect the final design or features of the actual model. The actual model will be developed based on extensive research, engineering, and design processes to ensure optimal performance and user experience.
Feel free to contact me I am always here for you
About Us: click here
Contact Detail: click here
For delivery detail: click here
Telegram: https://t.me/arduinoproject1
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