Statt Avalanche S8000T, 5.2 kW, 71 cm, tracked, snowgun
Product images are illustrative. The original product may vary, so please refer to the product specifications in the product description.
Price
€ 963.90The e-shop price may differ with shops price.
Instalments
- from € 27.27 /per month
- from € 27.27 /per month
Delivery time and options
- 2-4 days
- 2-4 days
- 2-4 days
- 2-4 days
- 2-4 days
Product description
The Statt Avalanche S8000T is a self-propelled snowmobile with a powerful 5.2 kW motor to make snow work easier. With a wide working width of 71 cm, the snow thrower is suitable for larger yards. Thanks to its self-propulsion, crawler tracks and 6+2 gearbox, the snow blower is comfortable to use and makes snowmaking easy.
The snow blower has an electric start for effortless starting. The snow blower's tracks provide good traction even on icy surfaces, making it an excellent choice for sloping yards. The tracks make it easier to work in deep snow. With Lumilingo's 6+2 gearbox, the speed can be adapted to the situation. The two-stage function allows you to throw the snow further and the versatile adjustment of the throwing tube allows you to choose the direction and angle you want to throw the snow. Even the darkness of the morning is no obstacle, as the snow blower has a working light to illuminate your work. For cold weather, the snow blower is equipped with heated handles.
Please note, the snow blower is supplied without oil. Add SAE 5W-30 engineoil to the oil tank before starting the snowblower. Running the linkage without oil will result in engine failure. This damage is not covered by the warranty.
Specifications:
- Gasoline-powered
- Engine: 4-stroke Loncin 252 cm³
- Power: 5,2 kW
- Start: electric start
- Width: 71 cm
- Width of working: 53 cm
- Width of working: approx. 12 m
- Launch mode: two-stage
- Launch rotor: 180°
- Launch rotor baffle: 70°
- Number of gears: 6 forward + 2 reverse
- Adjustable speed
- Led lights
- Low noise level (LWA): 102 dB (A)
- Rattling: 5.75 m/s²
- Rattling uncertainty (K) = 1.5 m/s²