VOLTO Tedders

A wider spread.

With the VOLTO tedder range, CLAAS delivers modern technology in working widths of 17 - 42.6 ft (4.5 to 13.0 m) with trailed or three-point linkage attachment.

VOLTO tedders

VOLTO Tedders

A wider spread.

With the VOLTO tedder range, CLAAS delivers modern technology in working widths of 17 - 42.6 ft (4.5 to 13.0 m) with trailed or three-point linkage attachment.

VOLTO 1100 T

VOLTO tedders

Performance of the highest order.

For maximum tedding output over large areas in record time, we have the perfect solution: the VOLTO 1100 T. This king-sized CLAAS tedder is designed for 35.1 ft (10.7 m) working widths with just one pass.

  • Unrivalled tedding performance
  • Extra-wide balloon tires for reliable ground-contour following.
  • Compact design for outstanding maneuverability.
VOLTO tedders

The VOLTO 1100 T shows its class.

  • 35.1 ft (10.7 m) working width with ten rotors and six tine holders per rotor.
  • Robust carrier frame.
  • Double wide-angle drive shaft with overload protection, with optional integrated flywheel.
  • Robust rotor transmission for a long service life.
  • Working height adjustment via castor guide wheel fitted as standard.
  • The patented folding technology: a dual-acting spool valve for folding the outriggers in and out, and a single-acting valve for lifting and lowering the running gear, as well as for lifting on headlands.
  • A mechanical crop guard is available as an option.

VOLTO tedders

Mobility.

  • As neat and compact as a three-point machine.
  • Very low transport height of just 9.8 ft (3 m).
  • Road travel is carried out quickly and safely.
  • Wide, robust transport chassis with large transport tires for secure on-road transport and to cover long distances in short time frames.
VOLTO tedders

New spreading arms.

  • Open position of the tine arm for releasing the material behind the tedder and more even spreading.
  • Better tine durability.
  • Gentle handling of the forage, no picking into pieces of the forage while moving the material between the rotors = reduction of loss, more yield, less power consumption.