Friday, April 4, 2014

IMPROVED BRAKING SYSTEM IN KARTING VEHICLES

INTRODUCTION
  Its an idea to improve the braking system of the karting vehicles popularly known as GO KARTS. These are commercial non differential low ground clearance vehicles used for racing purpose. The main disadvantage of the vehicle is braking system. The reason is because of the low ground clearance disc brakes of larger size cannot be used and because of that braking torque decreases and the efficiency also decreases.   
  It is about increasing the efficiency of braking in  racing vehicles by changing the size and position of mounting of brake disc on another axle by reducing the rpm of the mounting axle and by without altering the rpm of the live axle of the vehicle. We are using bevel gears for this.

BRAKES
  —  Bakes are generally used to stop the moving vehicles.
  Here we made a change in the mounting and positioning of a disc brake system.
  Disc brakes are the most commonly used braking system in many racing vehicles.

DISADVANTAGE IN NORMAL MOUNTING
                   In normal mounting the brake disc should be less than the size of the hub.
  In case of racing cars the normal size of the tire is small and the size of the hub is smaller than that.
  Because of that the effective radius decreases and also the efficiency of the brake also decreases.

ADVANTAGE OF ALTERNATE MOUNTING:
  In case of alternate mounting we can change the mounting according to our requirement and the size of the disc can be kept as per our wish.
  So it overcomes the disadvantages faced by smaller discs.
  The effective radius of the disc also gets increased and there is a better change in braking efficiency.

NORMAL MOUNTING:
  Disc brakes are normally mounted on the live axle of the vehicles and the brake lining will be like shown.




ALTERNATE MOUNTING:
       In alternate mounting we are using bevel gears for transmission. Thus we are making a perpendicular transmission from the live axle. By this method we would be able to put a disc of larger size and the rpm can also be reduced as per our requirement. We have kept the gear ratio as 2.



BRAKE LINING:


SPECIFICATION OF NORMAL AND ALTERNATE MOUNTING:
NORMAL:
Brakes                             =     Rear disc brake
Caliper used                    =     Fixed caliper
Rotor disc  diameter       =     158.75 mm
Weight of the vehicle      =     200 kg
C.O.G . height                  =      76.2 mm
Wheel base                        =      1670  mm
Weight transfer  to front =      90N
ALTERNATE:
Brakes                             =     Rear disc brake
Caliper used                    =     Fixed caliper
Rotor disc  diameter       =     304.8mm
Weight of the vehicle      =     200 kg
C.O.G . height                  =      76.2 mm
Wheel base                        =      1670  mm
Weight transfer  to front =      110N
     

TABULAR COLUMN

S.NO
VELOCITY
STOPPING DISTANCE
MASTER CYLINDER PRESSURE
BRAKING TORQUE
BRAKING FORCE
DECELERATION
PEDAL FORCE
STOPPING DISTANCE
UNIT
m/s
m
N/mm²
N-m
N
m/s²
N
m




NORMAL




1
80
6.347
4.325
110.79
793.098
3.965
25
5.603
2
80
4.533
6.056
155.114
1110.23
5.551
35
4.002




ALTERNATE




1
80
6.347
4.325
575.284
4138.751
20.693
0.27
0.8304
2
80
4.533
6.056
805.401
5794.25
28.97
0.30
0.69304




GRAPHS FOR NORMAL BRAKING:



GRAPHS FOR ALTERNATE MOUNTING:









ANALYSIS REPORT




Factor of safety – 3
Torque- 8.1kNm
Rpm-7000 to 3000
Stress applied-500N

CONCLUSION:
                   These reports prove that the design is safe and hence we can get a good braking efficiency by this method. Thus we improved the braking in less ground clearance vehicle by this method.