Design And Construction Of An Automatic Hand Dryer
The design and construction of an automatic hand dryer involves a meticulous integration of engineering principles, sensor technology, and efficient airflow dynamics. This innovation incorporates a sensor-based activation system, typically utilizing infrared sensors, to detect the presence of hands beneath the dryer, triggering the release of warm air. The construction encompasses the assembly of durable materials such as stainless steel or ABS plastic for the casing, ensuring longevity and ease of maintenance. Within the dryer, a powerful heating element rapidly warms the air, while an optimized airflow system efficiently directs the heated air towards the user’s hands, expediting the drying process. Additionally, considerations for energy efficiency and noise reduction are paramount, necessitating the incorporation of insulated components and low-power consumption mechanisms. This blend of engineering ingenuity and user-centric design results in an automated hand dryer that enhances hygiene practices in public restrooms while offering convenience and reliability, thus contributing to sustainable and modern restroom solutions.
The proposed system was built because of unhealthy pattern of drying of hands after washing in various restaurants and places of food selling and the rate of disease transmission such as corona virus and Ebola has prompted the need for this project. The hand dryer consists of Light Department Resistor (LDR) and 555 timer IC. The 555 timer IC is work as a monostable mode that it drives with the 5 V relay. Laser light falls on the LDR, the hand drying system remains OFF state and when the laser light is blocked by the hand from falling on the LDR, the hand drying system remains ON state. In the other words, the light from the laser module is cut off by the hand then the dryer is activated.
COVER PAGE
TITLE PAGE
APPROVAL PAGE
DEDICATION
ACKNOWELDGEMENT
ABSTRACT
CHAPTER ONE
INTRODUCTION
1.1 BACKGROUND OF THE PROJECT
1.2 PROBLEM STATEMENT
1.3 OBJECTIVE OF THE PROJECT
1.4 PURPOSE OF THE PROJECT
1.5 SCOPE OF THE PROJECT
1.6 LIMITATION OF THE PROJECT
1.7 APPLICATION OF THE PROJECT
1.8 BENEFITS OF THIS DESIGN
1.9 METHODOLOGY
1.10 PROJECT ORGANISATION
CHAPTER TWO
LITERATURE REVIEW
2.1 REVIEW OF THE STUDY
2.2 REVIEW OF RELATED STUDIES
2.3 REVIEW OF DIFFERENT HAND DRYING METHOD AND THEIR ADVANTAGES
CHAPTER THREE
METHODOLOGY
3.1 SYSTEM BLOCK DIAGRAM
3.2 DESCRIPTION OF SYSTEM BLOCK
3.3 CIRCUIT DIAGRAM
3.4 CIRCUIT DESCRIPTION
3.5 COMPONENT DESCRIPTION
3.6 DESIGN CALCULATION OF DELAY TIME OF AUTOMATIC HAND DRYER
3.7 DESIGN CALCULATION OF PIN 2 OF 555 TIMER IC
CHAPTER FOUR
TEST AND RESULT ANALYSIS
4.1 INSTALLATION OF THE COMPLET DESIGN
4.2 CONSTRUCTION PROCEDURE AND TESTING
4.3 ECONOMIC OF THE PROJECT
4.4 PROJECT VIABILITY
4.5 RELIABILITY
4.6 MAINTAINABILITY
4.7 PROJECT EVALUATION
4.8 RESULT ANALYSIS
CHAPTER FIVE
5.1 CONCLUSION
5.2 RECOMMENDATION
5.3 REFERENCES
1.0 INTRODUCTION
1.1 BACKGROUND OF THE STUDY
Importance of hand drying after washing cannot be over-emphasized, especially in developing nations where eating with hands is a common practice. This Project that can eliminate problems like time lapse, stream and energy spent, cost and environmental dangers/hazards. In the old days, there were no choices, if you wanted a hand dryer (or hand drier, depending on where you live), you got a push button, cast iron dryer, and it did the job. In 1980’s, hand dryers began appearing in automatic version, with infra-red sensors that detected the presence of hands under the dryer’s nozzle.
The advantages of automatic dryers are obvious. The first is hygienic hand dryer, reducing the possible spread of germs that could be left on the dryer. The second is energy savings. You only use the dryer for as long as you need it. Many timers are set for 30 seconds. But the user may choose to leave after only 10 seconds of drying, wasting energy used for the rest of the cycle. On the order hand, another user may dry his hands for 35 seconds, wasting almost an entire second’s push of the button.
Also, the transmission of bacteria is more likely to occur from wet skin than from dry skin, the proper drying of hand after washing should be essential component of hand hygiene producers. In the hand dryer system, air blower is used for air flow as a control element to operate sequentially that is control by the 555 timer IC. The 555 timer IC receives instruction from the LDR sensor and then activates the dryer. It supplies warm air current to dry up the completely washed hand. This machine is specially designed for used in various restaurants, office, testing area, public toilet and as for the general domestic drying of the hand at home. The usage of these products is to promote hygienic lifestyle. Besides that, it produces new technology which helps to prevent the wastage of water and easy to use for all user.
This machine is specially designed for use in the offices, public restroom and as well for the general domestic drying of the hands at home. It is handy and easy to use. More importantly, it can avoid the contagious diseases; for example, when it was a manual type hand drying machine, to turn on/off the tap, you must need the help of your hands. In this case, your hands or fingers would be infected with any virus left by any possible previous user if he or she is infected with a disease. With the automatic type, you will not only use the dryer at ease, but also avoid any possible contact with any contagious disease.
This project “automatic hand-dryer” was built to eliminate the dangers and problems associated with the manual process of hand-dryer
1.2 PROBLEM STATEMENT
In a third world country like Nigeria there is poor growth in industrialization as such bars and restaurant all over the places resort to hand towels in cleaning of hands. This has brought about a problem of contracting diseases through the use of same hand towels by many people.
The recent Ebola virus outbreak caused a very big wrath such that researches should be carried out in better techniques of hand drying in public places like bars, restaurants conveniences and sensor centre (Eateries).
A technique that should have a feature such that no two persons can use the some towel to clean hands is necessary and should be adopted.
This quest resulted to a research on the design and implementation of automatic hand-drier that dries a wet hand without having any contact with the system.
This proposed system will reduce/prevent contracting of deadly diseases through the use of contact-method of hand cleaning in public places.
1.3 AIM AND OBJECTIVES OF THE DESIGN
The main aim of this work is build a device that can be used to control the spread of the contagious diseases. At the end of this work the following objectives shall be achieved:
1. To enhance the level of hygiene wherever applicable.
2. To increase the level of awareness of people as regards to the proper drying of hands in accordance with the policy of the National Orientation Agency in Nigeria.
3. To solve a considerable fraction of the problems associated with drying of hands, so as to reduce the risk of disease transfer, between individuals.
4. To expose the fact that the proper drying of hands after holding objects, using the toilet and even transfer/exchanging money between individuals, will geometrically reduce the rate and/or presence of ill health in the area in question.
1.4 PURPOSE OF THE STUDY
The purpose of this work is to enhance regular hand drying among the people in a safe, cost-effective and hygienic manner which can lead to control the spread of the diseases within the institution and beyond.
1.5 SCOPE OF THE PROJECT
This project work focuses on the design and implementation of automatic hand-dryer. In the hand dryer system, air blower is used for air flow as a control element to operate sequentially that is control by the 555 timer IC. The 555 timer IC receives instruction from the LDR sensor and then activates the dryer. It supplies warm air current to dry up the completely washed hand.
1.6 APPLICATION OF THE STUDY
This device can be used in places like:
i. homes,
ii. government ministries and agencies,
iii. worship places (like mosque and churches),
iv. markets,
v. institutions, etc.
1.7 BENEFITS OF THIS DESIGN
Hygiene: drying of hands thoroughly is effective in preventing the spread of germs, yet drying hands is just as important. It might be tempting to simply dry your hands off on your pants while exiting the restroom, but that means your hands may remain damp for several minutes. What many people do not know is that bacteria is more likely to spread through damp hands rather than dry hands, so making sure your hands are completely dry before leaving the restroom helps prevent illness even further. In busy restrooms paper towel dispensers can run out quickly, leaving people with no other choice than to skip hand drying. Automatic hand drying machine require very little maintenance, and with the development of no-touch technology, there is no need to touch any bacteria-laden surfaces in the process.
Cost: Due to the constant maintenance and refills that come along with paper towel dispensers, automatic hand dryers are cost-effective solutions. Not only must paper towels be refilled, but there are also costs associated with the production and clean-up of paper towels. For example additional trash bags and cleaning products are needed to dispose of the paper towels and reduce the spread of germs through towels left on counter tops.
Waste: Automatic hand drying machine also have more environmental benefits than paper towels. While some paper towels may be made of recycled materials, used paper towels cannot be recycled leading to an increase in waste and a continued destruction of trees for paper production.
1.9 LIMITATION OF THE STUDY
Dealing with the limitation, the only limitation seen in automatic hand drying machine is that:
1. The machine can accommodate three people simultaneously.
1.10 METHODOLOGY
In the course of carrying this study, numerous sources were used which most of them are by visiting libraries, consulting journal and news papers and online research which Google was the major source that was used.
1.11 PROJECT ORGANISATION
The work is organized as follows: chapter one discuses the introductory part of the work, chapter two presents the literature review of the study, chapter three describes the methods applied, chapter four discusses the results of the work, chapter five summarizes the research outcomes and the recommendations.
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An automatic hand dryer is an electric device designed to dry hands quickly after washing by blowing warm air. These devices are commonly found in public restrooms as an alternative to paper towels. Here are some key features and aspects associated with automatic hand dryers:
- Motion Sensors: Most automatic hand dryers are equipped with motion sensors that detect when a user places their hands under the dryer. This feature promotes hygiene by minimizing contact with the device, reducing the spread of germs.
- Airflow and Temperature Control: These dryers typically have adjustable airflow and temperature settings to cater to individual preferences. The warm air helps evaporate moisture from the hands efficiently.
- Energy Efficiency: Many modern hand dryers are designed to be energy-efficient, using sensors to activate the drying process only when hands are detected. This helps conserve energy compared to traditional hand dryers that may run continuously.
- Drying Time: Automatic hand dryers are designed to dry hands quickly, often within 10 to 15 seconds. This quick drying time contributes to their popularity in high-traffic areas.
- Hygiene Considerations: Since users don’t need to touch the device, automatic hand dryers can be considered more hygienic than paper towel dispensers, as there is no contact with a potentially contaminated surface.
- Noise Levels: The noise level produced by hand dryers can vary. Manufacturers are continually working to improve designs to minimize noise, making the user experience more pleasant.
- Maintenance: Automatic hand dryers generally require less maintenance than paper towel dispensers. However, regular cleaning and occasional maintenance checks are necessary to ensure optimal performance.
- Environmental Impact: Compared to paper towels, hand dryers can be more environmentally friendly, as they reduce the need for paper production and disposal. However, the environmental impact also depends on the energy source used to power the hand dryer.
- ADA Compliance: In public places, hand dryers are often installed in compliance with the Americans with Disabilities Act (ADA) guidelines. This ensures that they are accessible to individuals with disabilities.
- Design and Material: Hand dryers come in various designs and materials to suit different restroom aesthetics. Some are made from stainless steel for durability and easy cleaning.
It’s important to note that preferences for hand drying methods can vary, and some individuals may still prefer paper towels or other alternatives. The choice between automatic hand dryers and other options often depends on factors such as cost, hygiene, and environmental considerations