Look after the health of your soil. Choose the right tyres, conserve the sward and increase your profit.
With the right tyres, there is no contradiction in using high output technology and conserving the soil.
In order to protect soil as a natural resource, to ensure sustainable soil fertility and to maintain soil performance, you need to make sure that loads are distributed uniformly.
Using the largest possible dimension of wheels increases the footprint of the tyres so that the soil structure is maintained in the best possible way.
1 cm deep wheel marks cost up to 10 % more diesel*). (Source: Lecture by Southwest Falia Agricultural College in Soest, 2008.
Damage to the sward can cause yield losses amounting to 100 €/ha*). (Source: Lecture by Southwest Falia Agricultural College in Soest, 2008.
Heavy compaction can result in fertiliser costs up to 20 % higher.
Using high performance technology in conjunction with modern tyres that conserve the soil will continue to drive competitive agriculture in the future.
Tyre size | Payload per wheel | Tyre pressure | Footprint | Pressure on ground |
500/50-17 | 3,250 kg | 2.8 kPa | 1,128 cm2 | 2.83 kg/cm²2 |
500/50R17 | 3,250 kg | 2.9 kPa | 1,225 cm2 | 2.60 kg/cm²2 |
560/45R22.5 | 3,250 kg | 2.4 kPa | 1,434 cm2 | 2.22 kg/cm²2 |
620/40R22.5 | 3,250 kg | 2.2 kPa | 1,377 cm2 | 2.31 kg/cm²2 |
710/35R22.5 | 3,250 kg | 2.0 kPa | 1,744 cm2 | 1.86 kg/cm²2 |
Tyre size | Payload per wheel | Tyre pressure | Footprint | Pressure on ground |
620/40R22.5 | 4,000 kg | 2.9 kPa | 1,369 cm2 | 2.87 kg/cm²2 |
710/35R22.5 | 4,000 kg | 2.6 kPa | 1,675 cm2 | 2.39 kg/cm²2 |
The compensator arm distributes the axle load between the two axles. When driving over rough ground, the weight is distributed evenly. As a result the pressure on the ground is reduced and an equal braking effect is produced on all 4 wheels.
Solid leaf or parabolic springs provide the necessary suspension. These give you a really smooth ride in the field, on the road and in the clamp.
The wide spring support of 1,100 mm is a great advantage when driving along contours and in the clamp.
The stronger chassis has longitudinal linkage axle guidance and larger axles with compensator arm.
The compensator arm ensures an even distribution of the axle load on all 4 wheels in all operating conditions. The wide spring spacing of 1,100 mm provides the best suspension characteristics.
Axle spacing 14 t: 1450 mm for optimised driving performance with long vehicles
Axle spacing 16 t: 1250 mm for smoother ride on roads and steep terrain. Excellent track following properties.
Tandem axle Leaf springs 10.5 t, 17" | Tandem axle Parabolic springs compensator arm 13 t, 17" | Tandem axle Parabolic springs compensator arm 13 t, 22.5" | Tandem axle Parabolic springs, longitudinal linkage 14 t, 22.5" | Tandem axle Parabolic springs, longitudinal linkage 16 t, 22.5" | |
FARO 3510 | + | o | - | - | - |
FARO 4010 | + | o | o | - | o |
FARO 4010 COMBILINE | - | - | + | - | o |
FARO 4510 | - | + | o | - | o |
FARO 5010 | - | + | o | - | o |
FARO 8010 | - | + | o | o | - |
FARO 10010 | - | - | - | + | - |
+ = Standard
o = Option
No damage to sward, even with really heavy loads. The ISOBUS terminal automatically locks the trailed steering axle at high driving speeds and when reversing.
Optional equipment.
This enables you to lock the axle automatically in all operating conditions even without ISOBUS.
A direction-of-rotation sensor axle detects the direction of rotation along with the speed and locks the axle within the defined speed range.
The inclination sensor also locks the axle when the defined inclination is reached. If the defined inclination value is exceeded, you can also have a warning displayed on the control terminal screen.
The four wheel air brake system with automatic load-dependent braking system (ALB) ensures safe and smooth braking at high speed.
Hydraulic brakes can be supplied dependent on local legislation.