BA E16 en* 1.0 * E16_10_500.fm
5-9
Operation 5
WARNING
Crushing hazard due to tipping over of vehicle!
A tipping vehicle can cause serious injury or death.
► Raise the boom 20 – 30 cm (8 – 12 in) off the ground and position it
straight ahead at the center of the vehicle.
► In an emergency, lower the boom immediately to increase stability.
► Travel on slopes only on firm and level ground.
► Adapt the travel speed to the prevailing conditions.
► Pay attention to persons and obstacles.
► Pay attention to the stability limits of the vehicle (maximum gradient
angle 15°, maximum lateral angle of inclination 10°).
► Perform uphill and downhill vehicle travel only in speed 1.
► Never reverse downhill.
► Ensure that no parts of the body protrude outside the vehicle.
► Do not exceed the permissible payloads.
► Do not turn or swivel the upper carriage and the boom during downhill
or uphill vehicle operation with a full attachment.
► Diagonal machine travel is prohibited.
Stones and the humidity in the upper layer of the ground can affect vehicle
traction and stability.
The vehicle can slip sideways on gravel or loose, rocky soil. The stability
of the vehicle can be reduced on rough terrain.
On soft ground, the vehicle sinks into it or the tracks dig into it. This
increases the vehicle angle (maximum gradient angle and maximum
lateral angle of inclination), and the vehicle can tip over.
If the engine dies as you perform uphill or downhill vehicle travel,
immediately put the control levers to neutral position and restart the
engine.
Observe under all circumstances during uphill or downhill travel:
• Keep the drive levers near the neutral position.
• Perform slow and smooth travel movements.
• Avoid sudden travel movements.
• Reduce the engine speed.
The vehicle can slip even on gentle slopes if it travels across grass,
leaves, humid metal surfaces, frozen ground or ice.
Summary of Contents for ET35
Page 14: ...1 8 BA E16 en 1 0 E16_10_100 fm 1 Foreword Notes...
Page 46: ...3 8 BA E16 en 1 0 E16_10_300 fm 3 Introduction Warning labels Fig 9 symbolic representation...
Page 64: ...3 26 BA E16 en 1 0 E16_10_300 fm 3 Introduction Notes...
Page 194: ...6 8 BA E16 en 1 0 E16_10_600 fm 6 Transportation Notes...
Page 252: ...8 8 BA E16 en 1 0 E16_10_800 fm 8 Malfunctions Notes...
Page 292: ...9 40 BA E16 en 1 0 E16_10_900 fm 9 Technical data 9 15 Dimensions ET35 symbolic representation...
Page 294: ...9 42 BA E16 en 1 0 E16_10_900 fm 9 Technical data EZ36 symbolic representation...
Page 296: ...9 44 BA E16 en 1 0 E16_10_900 fm 9 Technical data Notes...
Page 300: ...S 4 BA E16 en 1 0 E16_10_3SIX fm...