Home / Braked axle SWING 1350kg axle type SCB 1355, 46.25.379.927, 4013354
BC: dimension AM 1420mm, OHF: dimension FL 2070mm, wheel connection 112x5, wheel brake type S 2005-7 RASK, offset (ET) 30mm, swing arm position 25°, axle profile 95mm, ball-head wheel bolts M12x1.5. Read more...
Part no. OLD 46.25.379.927
Part no. NEW 4013354
Dimension FL |
2070mm |
Dimension SP |
2010mm |
Dimension AM |
1420mm |
Dimension L |
1802mm |
Dimension G | 2120mm |
Model | SWING |
Axle type | SCB1355 |
Axle load single axle | 1350kg |
Axle load: Tandem axel | 2700kg |
Wheel brake | S 2005-7 RASK |
Suspension | Square rubber suspension |
Swing arm | 200mm |
Wheel connection | 112x5 |
Wheel bearing | Compact bearings |
Centre hole rim | min. 56.5mm |
Original operating instructions
Replacement part identification number (ETI) OLD XX.XX.379.XXX
Replacement part identification number (ETI) NEW 827030
SCOPE OF DELIVERY
Axle incl. bowden cables loose
Welded-on shock absorber brackets
Ball-head wheel bolts M12x1.5 loose
DETAILS
BPW Vtec axle
The kink makes the difference!
The secret of the "V"
Small kink, great effect
More stability
Instability is significantly reduced in critical driving situations involving side winds, lane ruts or overtaking. The greater safety margins really come into play if sudden evasive manoeuvres are required.
Improved safety
The Vtec axle specially developed by BPW Fahrzeugtechnik increases the driving and roll stability of your caravan. Toe-in and camber dynamically adapt to the particular driving situation.
Greater driving sensation for everyone
Very good directional stability and smooth driving behaviour. The Vtec axle is available both as a SWING rubber suspension axle and a RONDO torsion bar axle.
1. Dangerous rolling motion ...
When deflected, every axle responds with a spring deflection leading to rolling movements of the caravan.
2. ... are reduced!
The BPW Vtec axle shifts the pivot point upwards, closer to the centre of gravity. This reduces the roll travel and shortens the lever arm. This means rolling motions are significantly reduced.
3. Directional stability is supported.
Better cushioning is provided for oscillating movements caused by lateral forces (side wind, overtaking and avoidance manoeuvres). The wheels set themselves against the lateral forces. This supports tracking stability and improves cornering properties.