With the combination of highest torque even at low revs and the extremely sophisticated KOMATSU power train allows the WA430-6 excellent performance. The KOMATSU CLSS hydraulic system (closed load sensing system) allows extremely fast and powerful loading in combination with the high traction. The operators cab provides the corresponding, perfect driver comfort and an excellent view of the bucket and wheels. The WA430-6 sets new standards with regard to reliability, serviceability, economy and security.
KOMATSU WA430-6 Powerful Engine
The KOMATSU SAA6D114E-3 emission low, engine provides a high torque, best performance at low speeds as well as excellent fuel efficiency. The new engine with the ecot3 range is equipped with newly developed combustion chambers: the ignition and burnout behaviour have been further optimized. The increased pressure of the common-rail system leads to improved fuel injection and fuel efficiency. The turbocharger with inter cooler provides for a further reduction of fuel consumption.
Length With Bucket On Ground
27.8 ft in (8460 mm)
Width Over Tires
9.3 ft in (2820 mm)
Height To Top Of Cab
11.1 ft in (3390 mm)
1.5 ft in (455 mm)
10.8 ft in (3300 mm)
Hinge Pin - Max Height
13.7 ft in (4165 mm)
The optional converter bridging provides unbeatable productivity and fuel efficiency in the load & carry usage and downloading V. The driver can activate converter bypass in the 3rd and 4th the speed. The higher traction increases the speed, particularly when driving uphill, noticeably. At the same time, transformer losses eliminated and reduced fuel consumption.
The frame less discs of the WA4306 ensure optimal visibility on shovel and tires and by the low and sloped hood, the view is free back. To keep the manual cleaning as low as possible, the reversing fan blows the dust on a regular basis from the cooler. The reverse function can be activated automatically or manually. Automatic activation of the inverse function, the working cycle as well as the distances of the cleaning phases can be adapted to the respective operating conditions.