Technical characteristics of SKY TOWN

Motorization

Engine: 125cc 4-stroke single-cylinder, injection, air-cooled

Power: 11 hp at 8500 rpm

Couple: 10.6 Nm at 6500 rpm

Consumption: 2.1 l/100km

CO2 emission: 56 g/km

Transmission: Continuously variable automatic

Fuel tank: 7 liters

Chassis

Dimensions (L x W x H): 1940 x 750 x 1340 mm

Wheelbase: 1320 mm

Saddle height: 770 mm

Front suspension: Telescopic fork

Rear suspension: Two hydraulic shock absorbers with adjustable preload

Front braking: Disc

Rear brake: Disc

Front tire: 110/70-14

Rear tire: 130/70-13

Running weight: 126 kg

Reliability and robustness

Equipped with a 125cc engine dubbed " Green Power ", it outperforms conventional engines by delivering exceptional performance. The high-angle camshaft ensures excellent acceleration and reduced fuel consumption , for smooth and efficient driving. In addition, the high-efficiency finned cooling channels improve engine power and extend its service life.

Economical to use

Remarkably low consumption of just 2.1 litres per 100 kilometres travelled. With a 7-litre fuel tank, the SKYTOWN offers extended freedom of movement thanks to a range of up to 300 kilometres per tank.

Minimalist and elegant

Available in 3 colours, the SKYTOWN 125 has modern and dynamic lines, notably thanks to its perfectly identifiable LED light signature.

Equipment

Equipped with a large windshield for optimal protection against wind and debris, a top case support and a top case , for secure storage of your personal effects, offering a total capacity of 33 liters , the SKYTOWN is one of the most equipped scooters on the market for a very affordable price.

Front and rear discs with CBS

The SKY TOWN of course meets safety standards by offering 220 mm disc brakes at the front and 200 mm at the rear.  This configuration offers balanced braking power , ensuring better safety and a reduced stopping distance. The CBS system optimally distributes the braking force between the front and rear of the scooter, ensuring increased stability when braking. This technology improves user safety, especially on slippery surfaces or in the event of emergency braking.