leaving certificate 2011 portfolio sample
TRANSCRIPT
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LEAVING CERTIFICATE EXAMINATION
2011
Engineering project
Higher level
Examination number:
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Introduction........................................................ 3
Analysis of Design Brief....................................... 4
Investigation of Solutions.....................................7
Criteria for Selection of Solutions..........................
Production Drawings........................................
Electronics........................................................
Testing and Evaluation......................................
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Introduction:
Historically, the harsh winter climate of the northern hemisphere created
challenges in the cross country transportation of people and their
possessions. In the late 19thCentury this resulted in the invention of
snowmobiles. Although originally developed as utility vehicles, advances
in design and technology since then, have provided manufactures with
the scope to produce a full range of recreational, special purpose and
competition versions of the snow mobile.
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Key words and their dictionary
definitions:
Model: A miniature representation of a thing, with the several
parts in due proportion; sometimes, a facsimile of the same
size.
Snowmobile: Is a land vehicle for winter travel on snow.
Rear propulsion:Propulsion-means to push forward or drive
an object forward.
Controlled: to exercise restraint or direction over; dominate;
command.
ON/OFF Switch: a device for turning on or off
Incorporate: unite or merge with something already in
existence, have as a component.
Skis:A ski is a long, flat device worn on the foot designed tohelp the wearer slide smoothly over snow, plural.
Steering Mechanism: A mechanism by which something is
steered.
Seating/the driver only: You have to have a seat for one
person.
Handle bars:Metal tube used to steer the snowmobile.
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What is a Snowmobile?
A snowmobile, also known in some places as a snowmachine, sled, or skimobile, is a land vehicle for winter
travel on snow.
Designed to be operated on snow and ice, they require no
road or trail.
Design variations enable some machines to operate in deep
snow or forests; most are used on open terrain, including
lakes or driven on paths or trails.
Usually built to accommodate a driver and perhaps one adult
passenger, their use is much like motorcycles and All-terrain
vehicles (ATVs) intended for winter use on snow-covered
ground and frozen ponds and waterways.
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They have no enclosure other than a windshield and its
engine normally drives a continuous track or tracks at the
rear; skis at the front provide directional control.
Investigation of solutions:
Here are some images of Snow mobile designs that I found,
which heavily affected my design process.
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There are various designs for Snowmobiles. They are all based around the
same design principles as given in the design brief.
Here, I will talk about detailed analyses of the basic existing designs:
Basic Design of Snow Mobiles:
Tracks and Steering:
Snow mobile tracks are made of a light material for mobility
and speed, while a handlebar/ski mechanism steers
snowmobiles.
Tracks succeed where wheels often fail; they spread the vehicleweight over a greater surface area, allowing it to move on soft,slippery or unstable terrain where wheeled vehicles are unableto gain traction. Tracks keep a heavy snowmobile from sinkingin soft snow, just as long, flat skis and wide, flat snowshoesspread a person's weight over a larger area.
Snowmobile tracks also provide traction on slippery surfaceslike snow and ice, where regular wheels would slip and slide.
The large surface area and the roughness of the treads create
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Skis:
Snowmobile skis come in varying widths and sizes for different
terrain, as well as single or double-ski models. Wider skis
displace the snowmobile's weight over a larger area, enabling it
to "float" higher over the snow, while narrower skis allow for
sharper turns.
Shock absorbers play a large part in providing a comfortable
and stable ride. Springs and dampers are used in a manner
similar tomountain bikes, enabling the rider to pilot their
http://www.howstuffworks.com/mountain-bike.htmhttp://www.howstuffworks.com/mountain-bike.htm -
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vehicle with the mobility of skis, but the stability of a tracked
vehicle.
Engine:
Heavier touring models tend to use the four-stroke engine,
while the lighter, sportier models use the two-stroke.
A snowmobile engine links to a track drive, which rotates the
tracks. The wheels on a snowmobile are essentially large gearswith teeth spaced evenly with holes in the tracks. Everyrotation of the gears powers the tracks and drives thesnowmobile forward. The faster the engine, the faster thegears rotate, and the faster the tracks move.
Snowmobiles also have a clutch system that is a type ofpulley-
based CVT (Continuously Variable Transmission). This systemconsists of two pulleys, or clutches, connected by a drive belt.The primary clutch sits on the engine crankshaft. A pressurespring holds the primary's two halves apart when the enginerpm is low. As the engine begins to accelerate, the clutchweights generate enough centrifugal force to close the clutch,allowing the belt to move freely and transmit power.
http://auto.howstuffworks.com/engine.htmhttp://adventure.howstuffworks.com/outdoor-activities/snow-sports/two-stroke.htmhttp://adventure.howstuffworks.com/outdoor-activities/snow-sports/cvt3.htmhttp://adventure.howstuffworks.com/outdoor-activities/snow-sports/cvt3.htmhttp://adventure.howstuffworks.com/outdoor-activities/snow-sports/cvt3.htmhttp://adventure.howstuffworks.com/outdoor-activities/snow-sports/cvt3.htmhttp://adventure.howstuffworks.com/outdoor-activities/snow-sports/two-stroke.htmhttp://auto.howstuffworks.com/engine.htm -
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The secondary clutch connects to the track drive, which turnsthe wheels and powers the tracks. A spring in the secondaryclutch operates the cams, which are sensitive to torque. As theengine's RPM increases and the primary transmits power, thesecams squeeze together and tighten the belt. The process
continues as the snowmobile accelerates. Once it reaches itstop speed, the primary clutch closes, moving the belt into ahigher "gear." Because the snowmobile needs less power toaccelerate than it did to get going, the secondary clutch opens.
Criteria for selection of solution
Possible Designs:
I chose two possible designs, A and B. I chose idea B because
over all its was a simplier, cost effective and a more sufficient
design. I only have a certain amount of time to complete this
project, so the simpliest design would be a logical choice. It
only involved the use of 8 sprockets and 4 chains, rather than
Design A that involved the use of 12 sprockets and 6 chains,
which just caused unecassary complication of the rear
propulsion system, making it awkward and cumbersome!
The chains and gears are also very expensive, costing E9.99
for a set of 670mm chain and E4.99 for the sprockets varing on
sizes, so this was also an important factor to take into account.
After my research on the designs of Snow mobiles I found one
similarity which was a basic frame, I began my project by
http://adventure.howstuffworks.com/outdoor-activities/snow-sports/fpte4.htmhttp://adventure.howstuffworks.com/outdoor-activities/snow-sports/fpte4.htm -
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producing a frame made of aluminium, this was to hold
everything into place, so it was vital! Aluminium is a light
weight but yet strong material, perfect for my design. As I talk
about in the Manufactoring Processes pg. 16, I drilled holes
into the side of the frame at varies sizes, this was an
imporovement form design A, as they are both aluminum
frames, this is a small improvement on its design, but has a
great effect on the performance of the vehicle.
I could have used aluminium as the body of my frame, but i
wanted to make the vehicle as light as possible, so it can travel
fast. I decided to use a polymer frame instead. Not only does it
look better, but its a lighter material.
Finally, I will talk about the steering system I incorporated into
my design, the Pantograph system, this involved the use of 5
small rectangular pieces of aluminium, of size {..}. If they are
placed into the right position and the centre leg pivited as you
can see in my drawings, they demonstrate the basic
pantograph system.
These small improvements can change the performanceof the
drastically.
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Manufacturing process
Frame:
I chose to use aluminium as the material for my frame, it is a
light but strong material, which will be a great feature, as it will
have to hold the seating compartment and the electronics, but
also I need my snowmobile to be lightweight, as it may have to
travel fast on the snowy terrain. I began with a rectangular
piece of aluminium of [] in size. I marked out my bending
lines. I drilled holes into the side of the frame, this is a positive
aesthetic point but also helps in the design of the snowmobile,
and these holes allow the snow to pass through as it travels on
the snow. The use of light weight material and drilling of theside panel holes increases the power to weight ratio which will
beneficial to the performance of the machine. I drilled four
holes, two on each side for the axels. As I was using bevelled
gears, I had to cut out a small rectangular piece from my
frame to allow the bevelled gears to spin. I rounded the
corners off with a file for aesthetic appeal and safety. I then
bent the frame at 90 degrees on each side.
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(PHOTO)
Axels:The axels were very simple to design; I got two lengths of
4mm [] steel bar and threaded them with a die tool. I
threaded them with a 4mm die.
(PHOTO)
Body:
The body of my snowmobile was made from black acrylic.
Originally, I had made a polymer body, from a thin sheet of red
polymer. I formed a mould out of clay; I designed it
aerodynamically so when it travelled there would be less drag.After, I placed a sheet of red polymer on to the vacuum
former. It formed a great piece, with a lovely finish but
unfortunately, it would not fit on to my frame correctly, so due
to time constraints I made a simple acrylic piece. I got a
rectangular piece of black acrylic of size [X] and marked out
bending lines. I also centre punched the markings for where I
would be drilling the hole for the steering columns, for the bulb
and L.E.D fittings. After completing this, I bent the acrylic
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pieces into a stylish angle; I found doing this it more appealing
than a box shape.
(PHOTO)
Track:In my design, I decided to use a similar design as a track but
using chains instead. I bought the chain and then assembled
them in the workshop, these work equally as well as the track
system, but not as expensive. The chains move by the rotation
of the gears on the rear axle spun by the motor, for this to
work, I attached bevel gears on to the end of the motor and on
to the axis. This allowed the chains to run smoothly.
(PHOTO)
Steering:
For my steering, I had thought of a couple of designs, but
eventually used the simplest and most effective design, the
Pantograph system. The Pantograph is made up of
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Skis:
My skis were also made from black acrylic. I designed, marked
and measured out the style and size of skis I wanted on to two
rectangular pieces of acrylic using a scriber and ruler. I centre
punched the middle of each ski; this is where I would slot the
steering column connected to my Pantograph steering system.
I created a small bend at the top of my ski on the heated
bender for style and functionality.
(PHOTO)
Secondary Frame:
Initially I was not going to have a secondary frame, but I
needed to make one, as I had not taken into count where the
skis would be fitted. This Secondary frame allows the skis to fit
perfectly into my design without hitting off the moving chains
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and sprockets. I cut a rectangular piece of aluminium of size
[.] I marked, centre punched and drilled 2 holes, these would
allow me to attach the secondary frame on to my initial frame.
I then drilled another two holes; these would allow me to fit on
the acrylic body and steering system for my snowmobile. I
marked where it was to be bent with the scriber and right
angle tool. I bent the sheet on the box pan bender.
(PHOTO)
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Electronics
My project required:
One Key Switch.
4 chains and 8 sprockets.
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One double poll double throw switch.
One mm28 motors (one with gearbox)
2 fixed L.E.Ds
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A battery snap
2 Bevelled Gears
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2 Bulbs
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Investigation of Control
Circuits:
Circuit 1 -
Circuit 2 Motor Contro l: DPDT
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Circu it No. 3 On / Off and Reversin g
Evaluation
Things that I would change
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Overall opinion
DrawingsPlease see enclosed drawings from design stage.