Synopsis

Title:- Fabrication of Drone.

Introduction:-

A Drone, also called a quadcopter, is a multirotor helicopter that is lifted and propelled

by four rotors. Most helicopters, quadcopters use two sets of identical fixed pitched propellers;

two clockwise (CW) and two counter-clockwise (CCW). These use variation of RPM to control

lift and torque. Control of vehicle motion is achieved by altering the rotation rate of one or more

rotor discs, thereby changing its torque load and thrust/lift characteristics by using a micro-

Controller. A number of manned designs of quadcopter appeared in the 1920s and 1930s.

Principle:-

Quadcopter is a device with a intense mixture of Electronics, Mechanical & mainly on

the principle of aviation. The Quadcopter has 4 motors whose speed of rotation & the direction

of rotation changes according to the users desire to move the device in a particular direction ( i.e.

Takeoff motion, Landing motion, Forward motion, Backward motion, Left motion, Right

motion.) The rotation of motion changes as per the transmitted signal send from the 6-Channel

transmitter. Each rotor produces both a thrust and torque about its center of rotation, as well as

a drag force opposite to the vehicle's direction of flight.

Basic Specifications:-

Metal :- Forex Or Aluminum ( Which is available )

Machine used for cutting frames :- CNC Or VMC Machines. ( which is suitable )

Battery :- 6 volts.

Flying Height :- 20 feets ( Approx.)

Weight :- 1 Kg. (Approx.)

Range Of Remote Controller :- 50 feets ( Approx.)

Controlling :- Microcontoller Chip

Advantages :-

(1) First, quadcopters do not require mechanical linkages to vary the rotor blade pitch angle

as they spin. This simplifies the design and maintenance of the vehicle.

(2) Second, the use of four rotors allows each individual rotor to have a smaller diameter

than the equivalent helicopter rotor, allowing them to possess less kinetic energy during

flight. This reduces the damage caused should the rotors hit anything.

Disadvantages :-

1) It is costly & the most significant problem to date have been an ambitious development

schedule coupled with very limited funds.

2) The ambition is followed by complexity in calculation & designing.

Conclusion:-

While the initial goal of creating an autonomous quadcopter, We used an information

for quadcopter frame selection and control. We learned important soldering & mechanical

Balancing, Motors Frame, Design and electric system fabrication skills including making a

power harness and digital to analog motor control. Our group all became proficient Arduino

programmers by necessity as it was the most complex part and required a group efforts.

Thank You!!!

Submitted to :- Submitted By :-

Mechanical Department Ashwani Dixit

Ayush Awasthi

Dated :- /03/2015 Manoj Kelkar

Deependra Ranawat

Subhash Parmar