KW V3 coilover suspension
with HLS 4 hydraulic lift system
Performance coilover suspension with dual adjustable damper technology and integrated hydraulic lift system – maximum driving dynamics without limitations in everyday use.
Description
The KW V3 coilover suspension with HLS 4 hydraulic lift system combines proven V3 damper technology with hydraulic lifting of all four wheels . This allows for sporty lowering without compromising everyday usability. Independently adjustable rebound and compression damping enables precise tuning of comfort, stability, and driving dynamics – both on the road and during sporty driving.
Damper technology & adjustment options
- Stepless height adjustment
- Independently adjustable rebound damping
- Separately adjustable compression level
- Low-speed damping for controlled body movements
- Fine-tuning for road and sporty driving style
HLS 4 hydraulic lift system
- Hydraulic lifting on front and rear axles
- Quick lifting at the touch of a button
- Ideal for driveways, curbs and ramps
- Automatic return to driving height possible
- Full integration into the KW suspension concept
Driving dynamics & performance
- Very precise steering response
- High driving stability during rapid load changes
- Reduced pitching and rolling movements
- Improved traction during sporty driving
- Everyday usability despite sporty lowering
Construction & Materials
- Stainless steel damper housing (KW inox-line)
- High-precision manufactured hydraulic components
- Vehicle-specific spring rates
- Fine thread adjustment for precise vehicle height
- High corrosion resistance and durability
Area of application
Ideal for high-performance and sporty vehicles where uncompromising looks are combined with maximum everyday usability. Especially suitable for lowered vehicles used daily.
Notes
The installation of the suspension and the hydraulic lift system must be carried out by a qualified specialist workshop . Subsequent wheel alignment and individual suspension tuning are mandatory.
© Kraftfahrzeug Technik Hannover (KTH)
