Made in Europe
Directly from factory
Lifetime warranty on the frame
VBONUS VELO FRANCE
MADRID GRANTS
7005 Aluminum Frame
250W Brushless Motor
Lithium battery 36V 16Ah (576Wh)
Removable battery
Shimano 7 speed transmission
Shimano RD-TY300 rear derailleur
Shimano SL-TX50 shifter
Shimano MF-TZ500-7 Sprocket
5 levels of assistance
LCD display:
- Battery capacity
- Support level
- Speed
- Partial distance
- Total distance
Hydraulic disc brakes (front 160mm / rear 160mm)
Aluminum crankset
Aluminum stem
Suntour NEX fork with hydraulic suspension
Rear luggage rack integrated into the frame
26" double wall aluminum rims
Ergonomic grips and comfort saddle
Autonomy of up to 80 km -In eco mode
Charging time 4h
Bell, stand, mudguards, chain guard and front and rear LED lights
Height adjustable seat and handlebars
Electric touring bicycle with 26-inch wheels, 7005 aluminum frame and rims, hydraulic disc brakes and 36V and 16Ah lithium battery. The assisted pedaling system offers 5 levels of assistance and the LCD display will give us information about the battery capacity, level of assistance, speed, total distance and partial distance. It includes a bell, a rack integrated into the frame, front and rear lights, a comfort saddle and a stand. For more convenience, the battery is removable. It includes a 7-speed Shimano gearbox and front suspension with Zoom fork. Charging time is 4 hours and maximum speed is 25 km/h. The paint applied is gloss black.
More about autonomy
The battery of an electric bicycle is a kind of energy reservoir for the assistance system. Battery autonomy is completely linked to the bicycle and depends on many parameters and factors that have a direct influence. It can vary from one to three times (and even more) depending on:
A) The orography (flat, moderate relief, high relief) - The type of route- Urban: with many stops/starts that consume energy
- On the field: rather fluid and linear
- On mountain roads with climbs where the electric assistance will tax the battery for a sustained period with routes where the difference in altitude can be very significant in total
- Example of a 25 kg Dutch bicycle with a very upright rider position that offers significant air resistance so a person weighing 90 kg will automatically "consume" more than a person weighing 70 kg.
- Type of rubber, structure, size, but above all optimal tire inflation! Using an electric bicycle with underinflated tires can represent a loss of range (in km) of 30%..
- In cold weather, a battery naturally loses its autonomy. The optimal temperature is between 15 and 25C..
- If the user is driving in eco mode, they will of course be able to cover a greater distance than in Turbo mode.
The integration of the battery into the frame gives it additional rigidity and better weight distribution, making the bike more dynamic. The battery is also better protected in the event of an impact.
48V 13Ah battery (624Wh) = 120Km* - 70/75kg person in eco mode.
36V 16Ah battery (576 Wh) = 80km * - 70/75kg person in eco mode.
36V 10Ah battery (360 Wh) = 70Km * - 70/75kg person in eco mode.
¿How many km can I travel with my electric bicycle This is the big question we ask ourselves when we want to buy an electric bicycle and the answer is complex, since it depends on many factors..The first and main factor regarding the autonomy of a fully charged battery is the energy stored in it, which we quantify in watt hours (Wh) and obtain by multiplying the battery's volts (V) by the ampere hours ( Ah), for example, a 48V13Ah battery has a fully charged energy of 624Wh and a 36V16Ah battery has an energy of 576Wh.
Once we are clear about the concept of energy, we have to see the power of the engine, which is what will determine the consumption of this energy. A bicycle for legal use in the EU may have a motor with a maximum nominal power of 250W, but it does not consume the same when working at the limit of its capacity on an incline of more than 20% (it may have peak consumption of close to 150% of its nominal power) than when we use it quietly in a place without slopes.
Once this is understood, we can also say that it is of no use to us if the cyclist who climbs 20% does so at a low level of assistance and he does most of the work by pedaling and the cyclist who goes on the flat place, goes with a high level of assistance and does not make any effort, leaving all the work to the motor. To this factor, which is obviously key in autonomy, we can add that factors such as the weight of the cyclist, their position, their pedaling cadence and the times it starts and stops since consumption peaks are caused during startups..
The type of terrain (hill or flat), the surfaces (asphalt or road) and even the wind (headwind) and the type and geometry of the tire also have consequences.
For all these reasons, it is very difficult to provide accurate and reliable information about the range of the bicycle. The information we provide about the autonomy of our products is for a 75kg person with normal use of the bicycle, that is, mountain bikes with a combined use of roads with ups and downs, urban bikes with city trips with quite a few cycles. starting and stopping, etc.
We do not advertise maximum autonomy, but real autonomy with tests without seeking especially low consumption. We have managed to obtain ranges of more than 200km seeking maximum efficiency, but we understand that it would be dishonest to advertise them since the use of resources was not normal.
We can only add that the aspect that highlights moma electric bicycles over those of the competition is precisely the autonomy, 100% of professionals who have tried them have been impressed with this data, for us it is essential in this type of vehicle and we work day by day to improve it as much as possible with batteries with a lot of energy storage capacity and very efficient motors that consume as little energy as possible.