e-kit final
TRANSCRIPT
THE E-KIT
Synopsis
Submitted in partial fulfillment of the requirements for the degree of
Bachelor of Technology in Mechanical Engineering
Session: 2012-13
Submitted by: Supervised By:
1. Kundan Giri,0906840042 Tushar jain
2. Ratnesh Chandra Srivastava,0906840087 (Mechanical dept.)
3. Rajiv Ranjan Kumar, 0906840086 Pranshu agarwal,
4. Ruchika Singh ,0906840090 (Mechanical dept.)
DEPARTMENT OF MECHANICAL ENGINEERING
MEERUT INSTITUTE OF ENGINEERING AND TECHNOLOGY
GBTU, LUCKNOW
OBJECTIVE AND SCOPE OF THE PROJECT
Objective:-
Our objective is to design an E-Kit which when attached to any ordinary cycle (our
test specimen is “hero jet” cycle) will transform it into a self-charging electrically
driven vehicle.
Our consideration is only the design aspect of the E-kit. Making it easily attachable
and detachable to the cycle sprocket in very little time. It should also comfortably
support the other mandatory accessories like electrical motor and battery necessary
for providing an automatic drive.
Scope:-
It will transform a cycle from manually driven into electrically, semi-electrically
(partially manual and partially automatic drive) and manually driven vehicle at very
low cost as compared to existing expensive e-bikes.
It is a form of green vehicle which when adopted as a medium of mass transport can
reduce carbon emission substantially. It also encourage peoples to use green vehicles
as we are transforming their current bicycle into a electrical power driven vehicle
which reduces the human effort of paddling by just installing a kit rather than
expending lot of bucks in purchasing a e-bikes.
INTRODUCTION
It can no longer be disputed across the globe that electric bicycle numbers are on the
rise. Nowhere has the rise of e-bikes been more prevalent than in China where units-sold
have risen from the tens of thousands in the late 1990’s to over ten million in 2005. In the US
also, electric bikes are becoming popular for short trips to the grocery store or leisurely rides.
Meanwhile, in India, the young and moneyed call centre workers lean heavily toward
scooter-like e-bikes as their vehicle of choice. The reasons for this increase are many, and
vary from nation to nation
The necessity of improvement and the vision to add something more valuables to this
segment of bikes keeping in mind the environmental benefits which would be a sidekick of
the forthcoming cycling economy are one of the baits that lured the young minds of the
current generation to constantly improve the design and modify the various basic designs
available in the market..
Why these e-bikes are not so popular in India?
The answer to which is obvious:
High cost
Design complexity
Average durability
If we put an eye on the market statistics and the use of cycles in Indian market, we
can easily see that it prefers cheap, simple and rugged bicycle which can go through any
terrain, could carry many times more load than its recommended capacity and still be reliable.
Gandhi Ji once said “If you want to develop India, start from the villages” and truly so. Most
of the cycling population of India constitutes of farmers, labours, students and the forces. In
fact every single person in India would have once tasted the ride of a bicycle in his life
whether it’s a king size figure like siddharth mallya who rides the lavish Firefox Colarado or
a common layman who prefers the “Hero jet”. Since hero jet is the most popular bike of India
we have decided to make it our test specimen for the design consideration.
LITERATURE REVIEW
The Copenhagen wheel :-
The project is basically inspired by The Copenhagen Wheel – the wheel that turns
ordinary bikes, quickly and easily into electric hybrids with regeneration and real-time
environmental sensing capabilities. An innovative electric bicycle system that harnesses the
power of real-time information and crowd sourcing. The system was developed by MIT’s
SENSEable City Lab for the City of Copenhagen, with support from the Italian Ministry for
the Environment and Ducati Energia s.p.a. The Copenhagen Wheel not only represented a
leap-frog technical solution for the electric bike market – that includes the development of a
regenerative braking system and innovative motor control – but also uses real-time sensing
and the powers of crowd sourcing to improve the cycling experience; get more people riding
bikes; and to aid in the design and development of cities.
The initial prototype of The Copenhagen Wheel was presented at the Mayor’s Summit
at the COP15 United Nations Climate Change Conference in Copenhagen, December 2009. It
went commercial in 2010.
PROBLEM FORMULATION
To make the cycle more usable:-
The motor could be engaged and disengaged at any time by user’s will in no
time.
The bike must harvest energy through braking and pedaling by choosing one
of three modes:-
i. off
ii. Motor Assist
iii. Pedal Assist (Regeneration/exercise mode)
All components, including the motor, gears, locking mechanism, should be
integrated into a hub in the back wheel or at the pedals.
The mechanism must be easily retrofittable into any standard bicycle.
The weight should be no more than a ‘heavy bike’ when fitted into a regular
bike.
The cost of the kit should be viable for the general public.
The kit should not require any technical assistance at the time of installation.
METHODOLOGY
1. CAD design
2. Prototype analysis
The essence of whole elaborated discussion is that we will try to give the local
population an alternative to the mainstream cycles. This is to be done by designing from
scratch a kit on CAD software. Then a prototype will be built which will basically transform
the ‘hero’ into a electrified vehicle while keeping it cheap, simple and most importantly-“the
motor would be easily attachable and detachable to the standard sprocket”. The
mechanism is basically a clutching /declutching system to affix the electric motor steadily
and quickly. We are actually dealing with design parameters of making this installation
faster, sturdy and efficient.
Main components hypothesized to be designed:-
1. Annular gear type arrangement for connecting to sprocket
2. Clutch plate arrangement
3. Motor housing
4. Control wires
Requirements:-
CAD software
Bicycle Gears, clutch plates, chains and sprockets
Control wires
Batteries and motor (230 KVA) on loan
Cost estimate: - 6000/- INR.
LIMITATIONS
The design is complex.
We heavily rely on the clutch for attachment and detachment, so it should be very
sturdy and rugged.
In spite of substantial cost cutting the project is expensive due to accessories like
battery and motor which could be curbed with advancement in technology and
mass production techniques.
REFERENCES/BIBLIOGRAPY
i. A.Muetze and Y. C. Tan, “Electric Bicycles”, IEEE Industry Applications Magazine, July/August, pp. 12-21, 2007.
ii. J. Weinert, C. Ma and C. Cherry, “The transition to electric bikes in China: history and key reasons for rapid growth”,Transportation, Vol. 34, pp. 301-318, 2007.
iii. S. Bhanoo, “For cyclists needing a boost, this wheel may help”, New York Times, December 14, 2009
iv. Parker, A.A. (2006 ) Electric Power-Assisted Bicycles Reduce Oil Dependence and Enhance the Mobility of the Elderly 29th Australasian Transport Research Forum, 27 – 29 September 2006 , Crowne Plaza, Surfers Paradise, GoldCoast.http://www.patrec.org/atrf/papers/2006/1564_Parker%20(2006).pdf