Front Axle Suspension of tractor
BRIEF
HISTORY:-
•The
old valve block consists of a ride control valve and a levelling control valve
mounted together as one unit.
•Valve
is positioned on the right hand side of the rear axle (heavy bracket)•
PROBLEMS
WITH THIS DESIGN:-
•The
valve block and lift cylinder are mounted too far apart therefore have to be
connected by two long hoses / tubes.
•Reduced
performance (sponginess of hoses under load)
•Long
run (front to back of tractor)
In this new design and new tractors
•use a new semi-active control suspension
control system
•As with the current (passive) suspension,
the new system relies on accumulator pressure to control damping
•The primary difference to the passive
system is the controller
(RC module) varies the damping via the lockout valves according to vehicle and/or axle movement adjusting to compensate for various tractor system inputs
(RC module) varies the damping via the lockout valves according to vehicle and/or axle movement adjusting to compensate for various tractor system inputs
•Always active at key on, regardless of
state at key off
•Lockout possible <12km/h (above this
speed the suspension unlocks)
•Momentary switch for lockout, cluster
lamp displays status
•Self levelling at all times
New
Semi Active
Suspension System
Suspension System
•CONSISTS
OF TWO VALVES MOUNTED SEPARATELY:-
•
•LEVELLING
CONTROL VALVE:-
•Controls
height level of front axle
•Mounted
on the top of the pump
•Single
height control line for top up and exhaust
•
•RIDE
CONTROL VALVE:-
•Controls
damping / absorbs shock loads
•Positioned
on the top of the cylinder
•One
hose to the accumulator only
Semi-Active
Suspension Processor
•Inputs:
–Lockout switch
–Axle position (potentiometer) Levelling
and Max suspension travel (anti-bang)
–Front body vertical accelerometer
–Vehicle forward speed
–Low side pressure switch
–Vehicle braking
–Changes in throttle position
–Gear changes
–Speed changes
–Rear hitch position changes
•Outputs:
–Load levelling raise solenoid (on/off)
–Load levelling lower solenoid (on/off)
–Upper damping solenoid (pwm)
–Lower damping solenoid (pwm)
–Cluster & switch lockout lamps
Components:
A1. Accumulator line
A2. Accumulator
A3. Height control solenoids
A4. Processor
A5. Cab switch
A6. Lockout / damping solenoids
A7. Tie rod
A8. Suspension ram
A9. Fill line
B 1. Lock out valves
B2. Axle support
B3. Fulcrum Point
B4. Axle
B5. Potentiometer
B6. Axle Pivot Point
B7. Pivot Arm (Panhard Rod)
B8. Hydraulic Cylinder
1.Lock
out valves
2.Potentiometer
3.
Levelling Valve Block
4.
Microprocessor
5. In
Cab Switch
6.
Accelerometer
Suspension
Status
Suspension
can be off between 0-12 kph.
1.
Operator command using switch on the right hand console
For speeds between 1 and 12 km/h
This function needed for precise control of front mounted
implements.
No damping - lock out valves are shut
If height deviates from ‘home’ position raise
or lower valves will
modify the position.
2.
When the speed is less than 1 km/h for more than
1.5 seconds
For safety
On
Suspension
can be on at any speed above 1 km/h
The
default is ‘suspension on’ at engine start-up.
Suspension
is always on at speeds in excess of 12 km/h.
A.Levelling
Valve
1.Raise
solenoid valve
2.Lower
solenoid valve
B.
Ride control valve
3. Supply line
4. Damping solenoid valve (damping
chassis up movements)
5. Damping solenoid valve (damping
chassis down movements)
6. Accumulator
7. Pressure switch
8. Ram cylinder
9. Ram rod
10. System safety valve
Operation
Lockout
& Levelling –
During lockout, OFF mode all the solenoids are
de-energised (shut). If the suspension deviates from the mid (calibrated)
value, detected by the potentiometer, either of the levelling solenoids 1 or 2
will be commanded to reset the suspension position.
Raise
– solenoid 1 is energised and
allows oil to pass to the pump via the load sense line and to the ram via the
lowering check and solenoid valves. In the raise phase both solenoids 4 & 5
also energised to allow flow to the cylinder side and the accumulator.
Lower
– solenoid 2 is energised and
allows oil to pass out of the cylinder side the ram to 1. replenish the
shortage of oil in the rod side of the shortening ram and 2. to pass through
the drop restrictor and lower half of the raise solenoid to tank. In the same
process the accumulator oil also flows to tank.
Manual
lowering – is
much same as the manual lowering screw is only a second input on the solenoid
valve.
Suspension
& Damping – In
the suspension ON mode solenoids 4 &5 are open
and all the suspension movements are expected to be absorbed by the accumulator
and damping is achieved by restricting oil into the accumulator with solenoid 5
and from 9 to 8 with solenoid 4 all controlled be the controller with its
various inputs.
Additional
control – In
the event of trying to absorb an oversized bump the 210 bar relief valve 10
will open and exhaust an amount of oil, this will immediately be refilled as
required as the potentiometer detect a levelling deviation. If the axle drops
away from the frame and there is a shortage of oil in the ram head (the
accumulator is empty of oil) a depression will be sensed by the ram pressure
switch (less than 22 bar) and the processor will command the raise solenoid to
operate.
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