Order Code: 32526
Category: Automotive Trainers
Automotive Hydraulic Double Circuit Brake System Simulator Order Code : 32526 is composed by authentic elements from the braking system of a medium powered vehicle. The simulator trainer runs by means of an electric three phase engine @ 380V, which t...
Automotive Hydraulic Double Circuit Brake System Simulator Order Code : 32526 is composed by authentic elements from the braking system of a medium powered vehicle. The simulator trainer runs by means of an electric three phase engine @ 380V, which transmits the motion to the front and to the rear wheels in the two directions by means of an hydraulic engine. The servo brake is connected to a vacuum pump in order to simulate its motion. A range of manometers and taps allow to measure and to change the pressure in the two systems (front and rear).
The brake pedal is connected to a lever in order to measure the foot effort during the breaking phase. Optionally, ABS & ESP functions offered in the same simulator system.
Main Technical Specifications
2 Disk brakes connected to a constant velocity joint
2 Drum brakes connected to axle shafts
Double circuit hydraulic brake pump with tank
De-pressure servo brake with pedal
Hand brake lever connected to rear drums
Hydraulic diverter to reverse the spin direction
Hydraulic ECU connected to an hydraulic engine in order to transmit the motion to the wheels
A range of manometers to measure the pressures
A range of taps to simulate circuit interruptions
Vacuum pump for servo brake
Experiments
Study how to maintain of the braking system
Calculate the efficiency of braking system
Simulate the front circuit failures
Simulate the rear circuit failures
Simulate the presence of water in the braking system
Recognition study of servo brake
Study the functioning of service brake
Study efficiency of braking system with different brake temperatures.
Options: ABS & ESP functions offered in the brake system simulator.
Power source require : 380V, 3Ph, 50Hz
Machine dimensions : 120 X 120 X 150H mm. Wt @ 100 kg gross