CONNECTING BODY RINGS TO THE BODY PLATE
FINAL ASSEMBLY
ASSEMBLING THE MOTOR HOUSING & CONNECTING LEGS TO THE BODY PLATE
CONNECTING WIRES
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BATTERY CASING & BODY RING ASSEMBLY
Gently pull the wires through the two holes until the
battery casing is drawn to the base of the body half ring and
the two protruding guide pins are inserted into the holes of the
battery case.
Use a screwdriver to insert a small screw into the battery
casing and attach it to the body half ring. Note: To avoid
“stripping” the grooving into which the screws are inserted, do not exert unnecessary force. Screws
simply need to be snug.
Connect a second body half ring to the first using 2 large screws and bolts. When the two half rings
are connected, they will form a complete circle.
Gently insert the wires into the groves located on the inside of the half rings. When done properly,
the red (positive) wire will line one side of the completed body ring and the black (negative) wire will
line the other side of the body ring.
Thread each of the two wires through the opening at the opposite end of the body ring. Do not cross
the wires. Set the completed battery casing & body ring side.
Thread the two wires extending from the battery casing
through the two holes on either side of the screw stem.
Repeat the same with the other side. The two
wings should protrude from the body in the same
direction.
Place a wire wing onto the other body half ring. Align the holes of both parts.
Insert a large screw through the aligned holes.
Connect the second half ring by placing it over the screw; use a nut to secure the two halves
together.
Attach the completed section body ring to the
battery casing using a small screw. You should now
have assembled both body rings and attached them to
the battery casing.
SECOND BODY RING ASSEMBLY WITH WINGS
1 motor casing, 1 toy motor with spinner (wires attached), 1 body plate, 4 body rims, 1 battery casing
(wires attached), 4 large screws with bolts, 10 small screws, 2 plastic terminal caps, 3 wire legs, 2 wire
wings and detailed assembly instructions with fun facts. Requires two "AAA", 1.5V batteries (not
included). Screw driver for cross head screws required from home; please ask an adult for assistance. You
need to recycle a used soda can to complete the project.
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You need to connect the wires from the battery casing to those
attached to the motor. To do this, place the motor in the housing
located on the underside of the body plate and ensure that it is fully
inserted.
Attach the motor casing cover using two screws.
Notice that each of the 3 legs has a short “L” shape
at one end: you will attach this end to the body plate.
Insert each leg into the body plate grooves and secure
them in place using the small screws.
Gently thread the two wires (from battery casing) through the
rectangular hole located on the body plate.
Afterwards, attach the body plate to both the body rings using the
small screws.
Then connect wires of same colour (e.g. red to red, black to black).
Place both the black colour wires into one of the holes with metal
eyelet. Press the plastic pin into the eyelet to hold the wires in place.
Repeat this process for the red colour wires pair. Note: Do not use
the same hole for both sets of wires as this will cause a short-circuit.
E. TROUBLE SHOOTING:
If your Robug does not vibrate when you activate the battery pack:
• Check if the batteries are installed in correct polarities.
• Replace the batteries (be sure they are inserted properly).
• Check that all connections are intact and are connected in correct polarities.
If your Robug does not move to the intended route:
• Try gently bending the metal legs in different directions. It will cause the Robug to move in different
routes.
F. FUN FACTS
How does it work?
The batteries provide power to the motor causing it to rotate. This rotation occurs at a
frequency of 10,000 revolutions per minute (rpm). The “off center spin plate” attached to the motor spin
shaft creates a vibration force when rotated by the motor. This causes the whole system to vibrate in high
frequency. If, on the other hand, the spin plate was symmetrical or designed as a full circular plate with a
hole at the center, the spin action would be balanced and would not produce a vibration. Without the
vibration, the Robug would not move across the floor as you see it now.
Why does it buzz louder with the soda can?
Do you notice how much louder the buzzing sound is when you
install a soda can? The hollow soda can resonates with the vibration, which serves to amplify the sound
produced. To achieve a different sound, replace the soda can with a plastic bottle or put a small amount of
water in the soda can. Can you hear the difference? What happens if you drop a couple of paperclips in the
can or a couple of small coins?
Think Green Science - Recycle! Tin can recycling is a great success story!
In several countries, more
aluminum beverage cans are recycled than any other consumer packaging materials. In the United States
alone, over 130 billion cans are produced each year and almost 50% of them are recycled! Several factors
contribute to the success of aluminum recycling. First, it is extremely cost-effective for companies to
recycle aluminum. Recycling takes only 5% of the energy required to dig up and process the ore - said
another way, that’s 95% less energy to recycle! This saves companies a lot of money and is much better
for the environment. Many countries also offer some type of ‘reward’ if you return the can to a recycle
center. Do you get money back for your soda cans? Aluminum is also a very soft metal making it malleable
or easy to use and it resists corrosion. All of this combined makes aluminum incredible stuff! Efforts are
underway across the globe to increase recycling, and you have just taken a step to do your part by recycling
a can and putting it toward another use!
Did you know….
A growing number of people have taken up a new hobby: collecting tin cans! Companies
that produce special designs or limited edition cans have sparked a lot of attention. Best of all, the cans
are being recycled and it is inexpensive and fun.
How many empty soda cans does it take to equal one kilogram?
Answer: Approximately 65.
What is that buzzing noise?
Bees, mosquitoes and many other insects emit a buzzing noise. But do you
know how they do it? With their wings! In the insect world, vibration is caused by the insect’s wingbeats.
Each time the insect moves its wings, it causes a vibration. The more wingbeats, the greater the vibration!
Moreover, it is that vibration that we hear.
However, increasing the vibration does not necessarily mean the bug is louder - even though a bug might
have more wingbeats it may not be as loud as another insect with less wingbeats. For example, compare a
mosquito to a bee. A mosquito beats its wings much faster than a bee, but a bee is louder because its
wings are larger.
Over 70% of insects that use sound to communicate do so through vibration and many insects have
vibration receptors that enable them to ‘hear’ the vibrations. These vibrations are used for different
purposes, among them:
• Attracting a mate
• Informing others of new food sources
• Alerting others to danger
We value you as a customer and your satisfaction with this product is important to us. If you have comments or questions,
or you find any part of this kit missing or defective, please do not hesitate to contact our distributor in your country. You
will find the address printed on the package. You are also welcome to contact our Marketing Support Team: Email:
infodesk@4m-ind.com, Fax (852) 25911566, Tel: (852) 28936241, Web site: WWW.4M-IND.COM
41-03266/1
Build a better tomorrow through education & awareness. You will like the other great Green Science kits:
00-03263 Dynamo Torch
Turn a simple toy motor into a generator that
converts hand motion into electrical energy and
powers a light bulb. No battery, no pollution, just
amazement. The generator could be used as an
awesome emergency torch. Caution: High Voltage
Inspiration & Fun!
00-03261 Enviro Battery
L
earn the Science behind the Power! ENVIRO-
BATTERY uses natural materials like mud,
lemons, and water to power a light bulb, a watch,
and activate a music chip. An amazing, environ-
mentally friendly science kit that includes
detailed instructions so you can create many
unusual batteries with fruit juices, vegetables,
coins, utensils, and more!
Questions & Comments
Questions & Comments
©2007 4M Industrial Development Limited. All rights reserved.
Insert a soda can to the body rings. You may need to loosen a bit the long screws at the wings when
inserting the soda can. Afterwards, tighten them again after the soda can is inserted.
Insert 2 AAA size, 1.5 V batteries into the battery casing. Attach the cover by using a screw. Congratula-
tions, your Robug assembly is now complete! Slide the switch to "ON" position and place your Robug onto a
smooth surface (wooden floor or table top etc). It will vibrate and move across.
C. CONTENTS
A. BEFORE YOU START
1. Please read through these instructions before you start.
2. Adult assistance and supervision recommended.
3. This kit is intended for children ages over 8.
4. This kit and its finished product contain small parts which may cause
choking if misused. Keep away from children under 3 years old.
5. Metal wire plate and wires may contain sharp points. Adult assistance required during connection.
6. Never touch the contacts inside the battery case to prevent possible short circuit.
B. USE OF BATTERY
1. Requires two"AAA", 1.5V batteries (not included).
2. For optimum operation, always use fresh batteries.
3. Insert batteries according to the correct polarities.
4. Make sure that the supply terminals are not short circuited.
5. Do not leave batteries in the kit if it is not in use.
6. Remove exhausted batteries from the kit.
7. Do not recharge non-rechargeable batteries.
8. Rechargeable batteries should be removed from the kit before being charged (if removable).
9. Rechargeable batteries should only be charged under adult supervision.
10. Do not mix old and new batteries.
11. Do not mix alkaline, standard (Carbon-Zinc) or rechargeable (Nickel-Cadmium) batteries.
1 motor casing
1 body plate
4 body rims
2 wire wings
3 wire legs
4 large screws
with bolts
2 plastic
terminal caps
10 small screws
toy motor with spinner
(wires attached)
battery casing (wires attached) + casing top