Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System

ABSTRACT

The project is designed for automatic door opening and closing system using PIR sensor. Opening and closing of doors is always a tedious job, especially in places like shopping malls, hotels and theatres where a person is always required to open the door for visitors.

This project proposes a system of automatic opening and closing of door by sensing any body movement near the door. This is achieved with help of a PIR (Passive Infrared) sensor. A live body generally emits infrared energy which is sensed by the PIR sensor from a considerable distance. This sensing signal is fed to a microcontroller to operate a door motor through motor driver IC.

When a body approaches within the operating range of the sensor, it sends a logical command to open the door. The door automatically closes with a fixed time delay. If there is no further movement within the PIR operating range. Interrupt signals are used through limit switches to avoid locked rotor condition of the motor.

 CHAPTER ONE

1.1                                                        INTRODUCTION

An automatic opening and closing of door sensor is a motion detector: The most common single-technology motion detecting sensor uses passive infrared (PIR) energy to recognize the movement of heat in a protected space, such as a person walking near the door. It is most effective in detecting when the heat mass moves across its field of vision.

This project proposes a system of automatic opening and closing of door by sensing any body movement near the door. This is achieved with help of a PIR (Passive Infrared) sensor. A live body generally emits infrared energy which is sensed by the PIR sensor from a considerable distance. This sensing signal is fed to a microcontroller to operate a door motor through motor driver IC.

When a body approaches within the operating range of the sensor, it sends a logical command to open the door. The door automatically closes with a fixed time delay. If there is no further movement within the PIR operating range. Interrupt signals are used through limit switches to avoid locked rotor condition of the motor.

1.2                                               OBJECTIVE OF THE STUDY

The main objective of an automatic opening and closing sensor is to open door by sensing any body movement near the door and later close the door

1.3                          SIGNIFICANCE OF THE PROJECT

Automatic doors operate with the help of sensors. Sensors do exactly what they sound like they’d do: they sense things. There are many different types of sensors that can sense different types of things, such as sound, light, weight, and motion.

For example, some automatic doors operate when they’re triggered by sensors that sense weight. These weight sensors might be disguised in a rubber mat in front of the door. When you step on the mat, the sensors send a signal to the automatic doors that tells them to open.

Other automatic doors operate on optic or motion sensors. These sensors might be mounted above a set of automatic doors or built on the top or the sides of the frame of the automatic doors.

When these optic or motion sensors sense motion nearby, they trigger the automatic doors to open and then close. This is why, when you approach a set of automatic doors, they will open as soon as you get close enough to activate the sensors.

Automatic doors have many useful purposes, which is why you can find them in many different types of locations. From supermarkets to airports and many types of large buildings, automatic doors make it easier for people to get into and out of buildings. They are especially helpful for people who are handicapped.

Similar to revolving doors, automatic doors also help to save energy, since they limit the amount of time that doors are open to only those times people are entering or exiting a building. And if you’ve ever shopped until your hands are full of bags, you know how handy automatic doors can be when it’s time to head to the car!

1.4                               PURPOSE OF THE PROJECT

Automatic gates are used to control access into a secured area. Most commonly, automatic gates are used at the entrance to the facility, and are used to control vehicular access on and off of the site. For example, a manufacturing plant may use an automatic gate at its main entrance. All vehicles entering and exiting the plant must do so through the automatic gate. Automatic gates are also used at interior areas within a facility. For example, automatic gates are commonly used within the inside of a parking garage to separate employee parking areas from public areas of the garage.

1.5                   COMPONENTS OF AN AUTOMATIC GATE

Automatic gates consist of two basic components:

Gate: The gate is the physical object that is moved to block the gate opening. Most gates used in commercial applications are made of either ornamental iron or chain-link material and are usually designed to match the fencing adjacent to where the gate is installed.

Gate Operator: The gate operator is the machinery that moves the gate in and out of the gate opening. Gate operators are electrically-powered and may be chain-driven, gear-driven, or hydraulic depending on the type of operator.

Types of Automatic Gates

There are six types of commonly used automatic gates. These include the slide gate, cantilever gate, swing gate, vertical lift gate, vertical pivot lift gate, bi-folding gate, and barrier arm gate. The following is a brief description of each type of gate:

Slide Gate

The slide gate is probably the most commonly used type of automatic gate in light-duty commercial applications.

The slide gate is mounted parallel to the inside of the fence and slides horizontally back and forth across the gate opening. The slide gate uses rollers on the bottom of the gate to support it. These rollers typically ride along a metal track that has been installed along the ground across the gate opening. Slide gates are sometime also called “rolling gates” or “V-track gates”.

Because this type of gate uses rollers that must run along the ground, there can be problems with the rollers getting blocked by snow, ice, or debris. The rollers can also be a source of friction, making the gate operator have to work harder to open and close the gate. Due to these issues, some gate operator manufacturers discourage the use of slide gates.

Cantilever Gate

The cantilever gate is similar to the slide gate, but does not use rollers that slide along the ground to support it. Instead, the cantilever gate is supported from rails that run along the inside of the fence structure. This gate gets its name from the fact that the gate “cantilevers” (hangs over) the gate opening. Cantilever gates need to be much wider than slide gates in order to provide a section along the fence structure where the gate is supported. This section is called a “counterbalance” and is usually at least 1/2 the width of the gate opening itself

Cantilever gates are suspended across the gate opening from the counterbalance, with no rollers running along the ground to provide friction or to become obstructed. Because of this, cantilever gates are considered to be much more reliable than slide gates, and are commonly used for heavy-duty and industrial gate applications.

One downside to using cantilever gates is the additional width required to accommodate the counterbalance. This can be a problem at sites that have limited space available beside the gate.

Swing Gate

Swing gates are hinged on one side and swing open and closed like a door. Swing gates typically travel a 90 degree arc between their open and closed positions. Swing gates can consist of a single leaf or double leafs and can be in-swinging or out-swinging.

Swing gates are most commonly used in residential applications because of their low cost and ease of installation. Because swing gates travel over a large arc, space must be available to allow vehicles approaching the gate to remain clear while the gate opens or closes. The swinging arc of the gate also requires additional safety considerations to prevent people or vehicles from being hit or trapped by the moving gate.

Vertical Lift Gate

 

Vertical lift gates move up and down vertically over the gate opening. The gate must be lifted high enough to allow vehicles to pass underneath of it. This type of gate requires that tall vertical support towers be installed on each side of the gate opening.

Vertical lift gates are ideal when there is limited space available next to the gate opening. Vertical lift gates are also very fast and very reliable. The appearance of the vertical support towers gives these gates a very “industrial” appearance, which may make them unsuitable for use in locations where appearance is important.

 

Vertical Pivot Lift Gate

Vertical pivot lift gates rotate in and out of the gate opening. Vertical pivot lift gates are supported entirely from the gate operator itself and do not require any additional support structures.

Vertical pivot lift gates provide some of the benefits of vertical lift gates, but appear less obtrusive as they do not require vertical support towers. However, the footprint of a vertical pivot lift gate operator is larger and requires additional space beside the gate. Vertical pivot lift operators typically use springs to serve as a counterweight, and in our opinion, this makes them less reliable than a standard vertical lift gate.

Bi-Folding Gate

Bi-folding gates consist of two gate panels that are hinged together. When activated, these gate panels fold back onto themselves to allow access. Most commonly, bi-folding gates are used in pairs, with one pair being used on each side of the gate opening. Some models require a track along either the top or bottom of the gate.

Bi-folding gates require only a small footprint and are often a good choice when space is limited. Many bi-folding gates have relatively fast opening and closing speeds. Because of the many potential entrapment points possible with this type of gate, additional safety considerations are often required.

Barrier Arm Gate

Barrier arm gates consist of a vertical barrier arm that is rotated in and out of the gate opening. Barrier arm gates are used to control vehicles, not pedestrians. As it is very easy for a person to walk beside or climb over or under the gate arm, barrier arm gates provide almost no security.

Barrier arm gates are used primarily to control access in and out of parking facilities, or to control vehicular traffic at manned security entrances.

APA

Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System. (n.d.). UniTopics. https://www.unitopics.com/project/material/design-and-construction-of-a-passive-infrared-pir-based-automatic-door-system/

MLA

“Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System.” UniTopics, https://www.unitopics.com/project/material/design-and-construction-of-a-passive-infrared-pir-based-automatic-door-system/. Accessed 22 November 2024.

Chicago

“Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System.” UniTopics, Accessed November 22, 2024. https://www.unitopics.com/project/material/design-and-construction-of-a-passive-infrared-pir-based-automatic-door-system/

WORK DETAILS

Here’s a typical structure for Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System research projects:

  • The title page of Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System should include the project title, your name, institution, and date.
  • The abstract of Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System should be a summary of around 150-250 words and should highlight the main objectives, methods, results, and conclusions.
  • The introduction of Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System should provide the background information, outline the research problem, and state the objectives and significance of the study.
  • Review existing research related to Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System, identifying gaps the study aims to fill.
  • The methodology section of Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System should describe the research design, data collection methods, and analytical techniques used.
  • Present the findings of the Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System research study using tables, charts, and graphs to illustrate key points.
  • Interpret Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System results, discussing their implications, limitations, and potential areas for future research.
  • Summarize the main findings of the Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System study and restate its significance.
  • List all the sources you cited in Design And Construction Of A Passive Infrared (PIR) Based Automatic Door System project, following a specific citation style (e.g., APA, MLA, Chicago).