The document describes a research project to develop a low-cost robotic vacuum cleaner called WELL-R2 made from recycled materials and powered by solar energy. The researchers aimed to create an affordable alternative to traditional cleaning tools. WELL-R2 uses an empty ice cream container, solar panel, DC fan, hose, and other recycled materials. It was tested over a month and successfully cleaned dust, small papers, and other debris under 0.5 grams. The researchers concluded WELL-R2 is an effective low-cost cleaning option and recommend further enhancements like increased size and automatic controls.
2. ACKNOWLEDGEMENT
CONCLUSION
RESULTS
METHODOLOGY
TITLE INTRODUCTION
INTRODUCTION
STATEMENT OF
THE PROBLEM
HYPOTHESIS &
AIMS AND
OBJECTIVES
SIGNIFICANCE
OF THE STUDY
SCOPE AND
LIMITATIONS
INTRODUCTION
One of the most important responsibilities of everyone is to clean up
environment around us. Due to having protocol such as social
distancing, people are challenged to do the cleaning individually.
As Filipinos are fond of using traditional cleaning materials such as
broom and dustpan, they tend to disregard the option to use
vacuums because of its price.
3. CONCLUSION
INTRODUCTION
INTRODUCTION
STATEMENT OF
THE PROBLEM
HYPOTHESIS &
AIMS AND
OBJECTIVES
SIGNIFICANCE
OF THE STUDY
SCOPE AND
LIMITATIONS
INTRODUCTION
The materials used in this project are recycled materials which
has entirely impact on eliminating waste than can be found in
our environment.
In order to reduce the damage caused by dangerous gas
emissions during the energy production process, the
researchers use of solar panel give power to Well-R2.
METHODOLOGY RESULTS ACKNOWLEDGEMENT
TITLE
4. INTRODUCTION
RESEARCH QUESTIONS
INTRODUCTION
STATEMENT OF
THE PROBLEM
HYPOTHESIS &
AIMS AND
OBJECTIVES
SIGNIFICANCE
OF THE STUDY
SCOPE AND
LIMITATIONS
1. How does a dust affect the body especially during this
COVID-19 pandemic?
2. What are the advantages of using vacuum cleaner than
using a broom?
METHODOLOGY RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
5. INTRODUCTION
HYPOTHESIS & AIMS AND OBJECTIVES
INTRODUCTION
STATEMENT OF THE
PROBLEM
HYPOTHESIS & AIMS
AND OBJECTIVES
SIGNIFICANCE OF
THE STUDY
SCOPE AND
LIMITATIONS
Null Hypothesis: WELL - R2 have no significant ability to
identify and eliminate waste.
Alternative Hypothesis: WELL - R2 will be able to identify and
eliminate waste.
METHODOLOGY RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
6. INTRODUCTION
HYPOTHESIS & AIMS AND OBJECTIVES
INTRODUCTION
STATEMENT OF THE
PROBLEM
HYPOTHESIS & AIMS
AND OBJECTIVES
SIGNIFICANCE OF
THE STUDY
SCOPE AND
LIMITATIONS
• To be able to identify and eliminate waste.
• This study aims to provide a low-cost, alternative, and
efficient cleaning equipment to substitute traditional
cleaning tools.
• To encourage all members of the family engage in cleaning
due to its mechanism.
• To lessen the amount of time intended for cleaning with the
use of WELL – R2.
METHODOLOGY RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
7. INTRODUCTION
SIGNIFICANCE OF THE STUDY
INTRODUCTION
STATEMENT OF THE
PROBLEM
HYPOTHESIS & AIMS
AND OBJECTIVES
SIGNIFICANCE OF
THE STUDY
SCOPE AND
LIMITATIONS
The study will be important, first to the students for their
contribution in providing a low-cost, alternative, and efficient
cleaning equipment to substitute traditional cleaning tools
with the use of WELL – R2. Secondly, this study aims to give
an innovative product made with recycled materials and
powered by a solar panel with such efficacy and contribution
even with the pandemic situation. And lastly, to repurpose
what most people consider waste.
METHODOLOGY RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
8. INTRODUCTION
SCOPE AND LIMITATIONS
INTRODUCTION
STATEMENT OF THE
PROBLEM
HYPOTHESIS & AIMS
AND OBJECTIVES
SIGNIFICANCE OF
THE STUDY
SCOPE AND
LIMITATIONS
The purpose of this study is to see how successful WELL - R2
is in providing a low-cost, high-efficiency cleaning substance in
the home. This will be tested and proven by Researchers of
Group 8.
METHODOLOGY RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
11. INTRODUCTION METHODOLOGY
MATERIALS
PROCEDURES
ADVATANGES
DISADVANTAGES
1. Gather all the required materials.
2. Get the lid of the empty ice cream container and trace the structure of
the DC fan.
3. After tracing the structure, get your cutting materials to make a hole
that fits the DC Fan.
4. For the base of the filter, get the copper wire and make a rectangle that
has a dimension that fits inside the used ice cream container.
5. A gauze that has a dimension of 14cm x 7xm was cut for the filtering
material. After having the base of the filter, put the gauze to the base
which will be secured into place by the shoe glue.
PROCEDURES
RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
12. INTRODUCTION METHODOLOGY
MATERIALS
PROCEDURES
ADVATANGES
DISADVANTAGES
6. Put the said filter at the top of the ice cream container. Then, use a glue
gun and glue stick to secure it.
7. In inserting the hose of the said vacuum, get the ice cream container and
at the rear side of it trace the diameter of the hose.
8. Get your cutting materials once again and cut the traced diameter of the
hose. Insert the hose on the hole and secure it using a glue gun and glue
stick.
9. Place the solar panel at the lid of the ice cream container using a glue gun.
10. Placed the whole ice cream container with its complete parts on top of the
remote control car, using glue gun and glue stick.
PROCEDURES
RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
13. INTRODUCTION METHODOLOGY
MATERIALS
PROCEDURES
ADVATANGES
DISADVANTAGES
• It will provide a low-cost, alternative, and efficient cleaning
equipment to substitute traditional cleaning tools
• It is efficient because it will save you time and energy because
it has controller
• It will save you money because it will not consume electricity
because it will use solar energy
• It will help clean narrow areas in your household that a
normal broom can’t obtain
ADVANTAGES
RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
14. INTRODUCTION METHODOLOGY
MATERIALS
PROCEDURES
ADVATANGES
DISADVANTAGES
• It can only obtain limited sizes of dirt because of its size
• They require more care and maintenance because the
materials are recycled
• the durability of it is not the same than a normal vacuum
• It needs more effort because it takes a lot of time and patience
to do the gadget rather than buying a normal vacuum
DISADVANTAGES
RESULTS CONCLUSION ACKNOWLEDGEMENT
TITLE
15. INTRODUCTION RESULTS
RESULTS
DISCUSSION
The proposed WELL – R2: Waste Eliminating Recycled Robot was
developed within a month. The gadget was progressively built as a
result of the pandemic and online classes. Finally, on February 25,
2022, the gadget was completed and put through a month of testing.
The device was experimented in cleaning a lot of things such as, tiny
papers, dust, furs, crumbs, and mostly little things that the device can
accommodate. After the extensive gathering of materials, planning
and production, the Well-R2 was made. The production of Well-R2
only costed the researchers Php 175.00 (the dc fan costed Php 55.00
and the solar panel costed Php 120.00)
ADVANTAGES
METHODOLOGY CONCLUSION ACKNOWLEDGEMENT
TITLE
17. RESULTS
RESULTS
DISCUSSION
The device was tested to assimilate dust, tiny papers, cobwebs,
crumbs and furs, and all of these things were successfully cleaned.
While, coins, crumpled papers, batteries and other things that
weigh more than 0.5 grams were not cleaned. This means that the
device can accommodate things that weigh less than 0.5 grams and
practically things that can fit to the hose. Within hours of testing,
the room was successfully cleaned with the use of WELL – R2.
When all of the results are combined together, it will indicate that
this WELL – R2 is a viable option in cleaning materials for our
home.
DISCUSSION
METHODOLOGY
INTRODUCTION CONCLUSION ACKNOWLEDGEMENT
TITLE
18. CONCLUSION
CONCLUSION
RECOMMENDATION
METHODOLOGY
INTRODUCTION RESULTS ACKNOWLEDGEMENT
TITLE
With the use of remote control and RC toy car, ice cream
container, solar panel, different tools, hose, fans, and gauze as
the filter, people will be able to create a vacuum cleaner for your
home to make it more comfortable and clean. This gadget will
be able to consume things that weigh 0.5 grams, the
experimentation was performed to make sure that the WELL –
R2 device can be used as alternative cleaning material.
CONCLUSION
19. RECOMMENDATION
CONCLUSION
RECOMMENDATION
METHODOLOGY
INTRODUCTION RESULTS ACKNOWLEDGEMENT
TITLE
• Changing its size to a bigger one so that in the near future it can take
much bigger and more waste
• The future researchers can also try to put sensor that can detect the waste
level in the tank
• Enhancing its durability is also applicable by changing its recycled
materials into a new one to ensure the durability of the device
• using other more efficient materials for the project if available which may
lead to better results
• Experimentation with control schemes such as recycling manual or
automatic vacuum is also recommended by the researchers
• Experimentation is also recommended in order to develop innovatively
recycled cleaning procedures
RECOMMENDATION
20. ACKNOWLEDGEMENT
ACKNOWLEDGMENT
REFERENCES
METHODOLOGY
INTRODUCTION RESULTS CONCLUSION
TITLE
We would like to convey our gratitude and appreciation to everyone who
made it possible for us to conduct this study. To our research adviser Mrs.
Almie Pabia who encouraged us to do this study by providing us with
unwavering support. To our fellow researchers and classmates, Grade 10 –
STE, Mycaella Nicole Z. Camacho , Mary Vhenn C. Samonte Renz Joshua
DT. De Vera for motivating us and keeping track of our progress during the
development To our beloved school principal Mr. Erwin John F. for initiating
this subject and allowing us to conduct research, and providing us with
memories and experiences. Apart from this, We would like to express special
thanks to our parents who supported us and helped us out in our research
despite their busy schedules.
ACKNOWLEDGEMENT
21. REFERENCES
ACKNOWLEDGMENT
REFERENCES
METHODOLOGY
INTRODUCTION RESULTS CONCLUSION
TITLE
1. https://www.sciencedirect.com/science/article/abs/pii/S0043135
419302921
2. https://doi.org/10.1016/j.watres.2019.03.091
3. https://www.sciencedirect.com/science/article/abs/pii/S136403
2115012149
4. "Fascinating facts about the invention of vacuum cleaner by
Daniel Hess in 1860". The Great Idea Finder.
5. Wohleber, Curt (Spring 2006). "The Vacuum Cleaner".
Invention & Technology Magazine. American Heritage
Publishing. Retrieved 8 December 2010.
REFERENCES