Team Enjinia Vehicle Design Presentation

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Team Enjinia presents their vehicle design project named "ELITE" with a focus on chassis, steering, braking system, power source, and transmission analysis. The team embraces innovative technologies like rack and pinion steering and disc brakes to enhance performance and safety. Detailed impact analysis and steering specifications are also highlighted in the presentation, showcasing a comprehensive approach to vehicle design and engineering.


Uploaded on Sep 11, 2024 | 0 Views


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  1. PRESENTATION BY TEAM ENJINIA Vehicle Name: ELITE Vehicle Name: ELITE

  2. S.NO 1. S.NO REG NO 111713114053 REG NO NAME DAMODHARAN.R NAME DEPT. MECHANICAL DEPT. 2. 111713114064 DHORU JIGNESH MECHANICAL 3. 111713114067 DINESH RAJ MECHANICAL 4. 111713114082 GOUTHAM.A.S MECHANICAL 5. 111713114086 BASAVESWAR RAO.G MECHANICAL 6. 111713114088 GURU RAGAVENDHAR MECHANICAL 7. 111713114136 GURUPRAHALADHA REDDY MECHANICAL 8. 111713114137 IRSHAD ISMAEEL I.S MECHANICAL 9. 111713114326 PAVANESH R MECHANICAL 10. 111713105079 MANISH EEE 11. 111713105166 VINU CHANDER EEE 12. 111713105158 VENKAT EEE 13. 111713105074 LOKESH EEE 14. 111713105012 ARAVINDAN EEE 15. 111713105163 VIJEY MUGUNDHAN EEE

  3. Team Name: ENJINIA Team UID:20164002 Team Mentor Name :Mr. P. CHIRANJEEVULU NAIDU College Name: R.M.K.E.C Team Members going to present: PAVANESH R DAMODHARAN R BASAVESWER RAO G JIGNESH PATEL D Mr. P. CHIRANJEEVULU NAIDU

  4. M A R K E T Selection of Materials Designing of Chassis Chassis Analysis CHASSIS Selection of Steering Steering Analysis Steering Specifications STEERING SYSTEM A N A L Y S I S Brake Analysis Brake Specifications Selection of Brakes BRAKING SYSTEM Selection Of power source Selection of drive Analysis of suitable chain TRANSMISSION

  5. REAR IMPACT ANALYSIS FRONT IMPACT ANALYSIS SIDE IMPACT ANALYSIS FRAME REPORT TORSIONAL LOADING SELF WEIGHT Translational Displacement Vector 0.139 mm Test Self weight 0.668 mm Front Impact 0.0566 mm Rear Impact 0.139 mm Side Impact 20 mm Torsional Impact

  6. The steering used here is based on the RACK AND PINION principle, for effective steering and to avoid high steering ratio and the need for tires to slip sideways while following the path around a curve. Wheel Base (l) = 1143 mm Track Width Front (w) = 1054 mm Steer angle of the inner wheel= 22.5 Steer angle of the outer wheel =16.57 Steering ratio = 6:1 Tangential force to be made in the steering wheel by the driver to turn the wheel, T = 11.77 N TIE ROD SPECIFICATION LINE DIAGRAM OF THE STEERING DESIGN All dimensions are in mm All dimensions are in mm

  7. Type of brake: DISC BRAKE DIMENSIONS OF THE BRAKE SYSTEM Apache RTR 40 mm dia Caliper Caliper diameter= 200 mm Caliper piston diameter= 40 mm Master cylinder diameter D= 19.05mm Rolling Radius of Tire= 0.1296 m Max force applied at the pedal= 20 kgf Pedal ratio= 4:1 Apache RTR 200 mm dia Disc Piston diameter - 19.05mm Master cylinder Dot 4 Fluid BRAKE FORCE ANALYSIS: Force required to make tires skid = Rrear * (Rtyre / Rrotor) =500.278 *(0.1296/0.1) =648.36 N Radius of brake pad rp= 20mm Area of the brake pad =2 * rp2 =2.51 * 10 Pressure applied =force/area =258.310 Maximum allowable pressure on steel rotor = 2680 Factor of safety = 2680/258.31 = 10.375 Therefore, the System is Safe. BRAKE FORCE ANALYSIS: 648.36 N STOPPING DISTANCE =3.528 M 20mm 2.51 * 10- -3 3 m m STOPPING TIME=0.94sec 258.310 kPa kPa 2680 kPa kPa 10.375 the System is Safe.

  8. ELECTRICALS ELECTRICALS . MOTOR PARMETERS CONTROLLER CIRCUIT WITH MOTOR Voltage 48 V DC Rated Power 2-3KW Peak Power 6KW Speed 3200-5000 rpm Rated Torque 10 Nm Peak Torque 25Nm Efficiency >90 % TOTAL KART CIRCUIT: TOTAL KART CIRCUIT: 18 12.5 cm Dimensions Weight 8 Kg Battery Specifications: 1 No Voltage - 48V Capacity 30Ah Dimension 10*20*27 cm Single Li Polymer battery to provide pack voltage of 48V

  9. TRANSMISSION TRANSMISSION CHARGER SPECIFICATIONS: Rated input voltage- 100 volts to 240 volts AC Input voltage range- 90 to 260 volts AC Output voltage- 57. 5 volts Rated input current- 1.6 A Output current range- 20-50A Maximum output power- 100 Watts CHAIN AND SPROCKET Transmission:. Helps in better racing experience for the driver. Vehicle Design Criteria: Gross vehicle weight (GVW): 1275.3 N Weight on each Drive wheel (WW): 318.825 N Rolling Radius of wheel/tire (Rw): 0.1296 m Maximum incline angle ( ) : 2 degree Worst working surface concrete (good) Calculations with gear ratios * Max. Speed of motor at 48V = 4500 rpm * Desired top speed = 75kmph Desired power shaft rpm = 1532.6 rpm Considering the starting torque and top speed, the following sprocket ratio is selected. Driven sprockets of teeth =32. Drive sprocket of teeth =11. Gear ratio =2.9 Speed of the driven sprocket =1532.6 Properties of the frame Calculations with gear ratios Aluminum 6063- T6 Material Tensile strength 214 MPa Ultimate strength 241 MPa % Elongation 12% Shear Strength 152 MPa

  10. TYRES AND WHEELS Tyres form one of the most integral parts of the go-kart as they are in contact with the road surface all the time. Hence a go-kart tire that provides enough traction, so as to transmit the torque available at the wheels without causing slipping need to be selected. Hence MRF ZW3 GOKART tires with following specifications are selected and as follows.

  11. REAR TIRES FRONT TIRES Specification -150/270-2 tires Specification - 80/257-2 tires Width 80 mm Width 150 mm Outer diameter of tire 257 mm Outer diameter of tire 270 mm Outer diameter of rim 5 inch Outer diameter of rim 5 inch

  12. Assistance in Vehicle turning LCD Display Assistance during Emergency: Smart Control System INNOVATIONS IN D&F: Tilting Spoilers Aluminium alloy (Grade 6063) chassis Aerodynamic design using FRP Adjustable steering Innovations in safety License-cardsystem Human alert system Accidental assistance system Vehicle Assistance during overtaking and turning.

  13. Ultrasonic proximity detection: Wind Speed Monitoring system Onboard wifi module: It has a whole set of modules for Interfacing, Power, Sensors and Actuators. The entire sensors can be operated with the help of this module. Tilting spoiler:

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