The Walton TAKYON 1.0 is an electric bike designed for urban mobility and long-range commuting. It features a 26x4.8-inch fat tire for enhanced stability and traction on various surfaces. The bike is equipped with a RockShox four-bar suspension system for a smooth ride, and a soft-tail structure for added comfort. The minimalist design includes a round headlamp cluster, a flat wide footboard, and handle-bar mounted round rearview mirrors, making it both functional and stylish.
In terms of specifications, the Walton TAKYON 1.0 is powered by a 1.2 kW hub motor and a 72V, 26Ah Graphene Lead-acid battery, providing a range of 120-130 km on a single charge. The bike can reach a top speed of 50 km/h and supports 600-800 charging cycles. The TAKYON 1.0 is priced at BDT 137,500 (approximately $1,600) and is available for purchase in Bangladesh. Walton aims to cater to both personal commuting and last-mile delivery needs with this versatile electric bike.
Long-Range Electric Mopeds
Walton Debuted a New Moped-Style Bike with 120Km Range
Trend Themes
1. Long-range Electric Mobility - The Walton TAKYON 1.0 offers an impressive 120-130 km range on a single charge, making it suitable for extended urban commutes.
2. Enhanced Ride Comfort - With its RockShox four-bar suspension system and soft-tail structure, the bike ensures a smooth and comfortable ride over varied terrains.
3. Functional Minimalist Design - The minimalist design of the electric moped, featuring a round headlamp cluster and handle-bar mounted round rearview mirrors, combines functionality with aesthetic appeal.
Industry Implications
1. Electric Vehicles - The introduction of the Walton TAKYON 1.0 highlights growing advancements in long-range electric transportation solutions.
2. Urban Mobility Solutions - Walton's new electric moped addresses the increasing demand for efficient, environmentally-friendly urban commuting options.
3. Last-mile Delivery - The Walton TAKYON 1.0 serves the dual purpose of personal commuting and last-mile delivery, showcasing versatility in electric vehicle applications.