Quingo Ultra Mobility Scooter
The ALL NEW Quingo Ultra Mobility Scooter features an all-aluminum chassis that offers lower weight, greater styling, and portability. It has a host of safety and performance features at an affordable price.
The Quingo Ultra mobility scooter benefits from the same innovative design, engineering to the highest specifications and assembly by highly trained technicians as all our five-wheel scooters. Like all Quingo mobility scooters the Ultra comes with the safety, comfort and maneuverability offered by our unique, worldwide patented, 5-wheel design.
The Quingo Ultra mobility scooter is extremely straightforward to transport and is very easy to dismantle, taking less than 60 seconds to be loaded in to the boot of even a small car and, due its lightweight aluminum chassis, it is easy to lift the individual components. Ideal indoors or out, it can be used in shopping centers and for trips to small local shops or keeping in touch with family and friends. The unique 5-wheel stability system enjoyed by Quingo scooters maintains the maneuverability, superior driving position and posture benefits of a 3-wheel mobility scooter while implementing the stability and safer cornering characteristics of a 4-wheel scooter. As well as the exceptional anatomical driving position all Quingos also offer an astonishing 80% more foot room than a 4-wheel mobility scooter of a similar length. Additionally, Quintell™ Adaptive foot-plates allow individual adjustment in multiple planes assuring the most natural and comfortable ride.
Features Overview
- Superb portability – The heaviest component weighs just 17.8kg or 39lbs. Dismantling and assembly are both efficient and swift and your customers will appreciate the blend of comfort, performance, and portability.
- No ordinary portable mobility scooter – Enhanced 5-wheel stability. The first generation, 3-wheel portable mobility scooters, while agile, are unable to match 4 wheel portables when it comes to stability. Using British designed 5-wheel Quintell™ technology makes for stability in a class of its own, crucial for negotiating hills and inclines and when mounting or descending kerbs.
- Enhanced comfort & posture control – Being able to achieve a healthy posture is a vital consideration when choosing any mobility vehicle. Quingo is the only range of mobility scooters that feature adaptive footplates and allow for full ergonomic posture control, affording exceptional comfort even on those lengthy excursions. The feet forward configuration of Quingo allows customers of a loftier stature, and those who may suffer joint stiffness, to be accommodated in comfort in a portable vehicle measuring only 105 cm in length.
- Safer curb handling – even at angles. Kerbs can represent considerable obstacle to scooter users. Only the Quingo 5-wheel system features the capability to ascend and descend kerbs at an angle of up to 45°. Additionally, Quingo’s patented Kerbmaster not only prevents tipping but also eliminates beaching with its auto-powered drive system.
- Unrivalled agility and a tighter turning circle – In independent research carried out by Thorpe Associates the 5-wheel Quingo proved to be more maneuverable than any 4 wheel scooter, of comparable length, available today. This makes for agility, while maintaining safety, in places with restricted space such as small shops and shopping centers
Specs
- Type – 5 Wheel PMV*
- Class – EN 12184 class B
- Intended Use – Pavement
- Maximum Speed – 4mph/6.4kph
- Carrying Capacity – 300lbs/136kg/21.4st
- Electric Motor – DC 24v 250 Watt
- Battery Configuration – 2 x 15Ah
- Travel Range 2 Battery Configuration – 16 km 10 miles**
- Battery Configuration – 4 x 15Ah
- Travel Range 4 Battery Configuration – 29 km 18 miles***
- Curb Climbing – Max 2″/3cm
*PERSONAL MOBILITY VEHICLE
**(16KM) ***(29KM)
Travel range varies greatly by each of the following factors such as type of terrain, surfaces driven on, the weight of the rider, the ambient temperature & the condition and age of batteries. All these factors can reduce the quoted travel range calculated in ISO716-4:2008 test conditions.