KIVI-PEKKA
Kivi-Pekka » Multicultivator
The cultivator tines, which are sweep shares arranged in three rows and fitted with a stone-dislodging mechanism, provide a rougher and deeper (0–20 cm) tilling result. The disc harrow unit behind it levels and refines the surface left by the cultivator. The unit can also be used as a disc harrow alone (0–15 cm). Front wheels and transport wheels keep the multicultivator aligned with the field surface and at a constant working depth, thus making the tillage base very even and preparing a finished seedbed. The large transport wheels in the centre of the machine allow for tight turning radii and make the machine very agile. Bearings are fitted with exceptionally robust and reliable SKF races.
The discs are mounted to a separate subframe on an elastomer suspension. Their working depth is adjusted by changing the cylinder length.
Adjustable levelling discs prevent the cultivator tines from throwing soil beyond the working width. The end result is always even and clean.
The cultivator tines, arranged in three rows and fitted with a stone-dislodging mechanism and sweep shares, perform reliably, even in demanding, rocky conditions. The shares cut the entire furrow base open, and their working angle can be adjusted.
The wide sweep shares cut the entire furrow base open and mix the soil effectively.
The large transport wheels ensure a smooth ride, both on the road and in the field. The short distance between the tow point and the transport wheel axle in the centre of the machine improves handling.
The multicultivator is supported by large, hydraulically adjustable corner wheels at the front of the machine, which keep the multicultivator at a constant working depth. The sturdy construction of the multicultivator also allows the wheels to slip slightly to the side.
Other tine altervative for the multicultivator
The stone-dislodging mechanism protects the cultivator tines from being damaged by obstacles.
The working depth of the cultivator unit can be limited using stopper 'clips' fitted to the cylinder shaft.