Mobility scooter design.
my design
theirs
Most of today’s mobility scooters are built and sold by large multi-corporation. Businesses.
The design of them varies from atrocious rip offs designed by a perambulator engineer to ones designed by a formula one engineer.
and one thing in common is a very high price for what you get
my concept is made from scrap materials so not as flash but a lot better design
So have they actually asked the users about what they want from a mobility scooter.
Good points-
They have made very nice seats that swivel and can be removed to make transport easier.
They have mobility scooters that dismantle to small parts.
There are fast ones and slow ones and even off road 4 wheel drive mobility scooters.
The gearbox design is generally good enough for the purpose but not to my knowledge any where near the standard of a cheap motorbike gear box system.
They also all have one standard feature.
A adjustable steering column that can be moved back and forward to assist the driver to get in and out of the scooter.
When up right the steering is just like a push bike and very nice but it means that any thing on the handle bars has to move with the steering so limiting any load here.
Moving the steering column towards the rider converts it to tiller steering and the very few people I have seen using this mode find it very disconcerting and uncomfortable.
For goodness sake! Tiller steering went out in automobiles in 1906.
Have not the designers of mobility scooters gone past this error yet.
The sensible way to go is a light weight frame in the front that supports the top of the steering handle bars and has an adjustable clamp that allows the steering column to move back and forwards to the convenient position to suit the disablement of the driver.
This makes the handle bars so much sturdier
for some one using them to pull themselves up on or off the mobility scooter.
As well the lightweight frame will enable many different sorts of attachments that are not limited to the weight restrictions of a moving handle bar.
Attachments that would then be able to be used are.
Large grocery carrier.
Walking stick holder
Any other heavy disability items even a light weight wheel chair.
Special clip on windshield and other weather protection.
Pet carrier.
Even on the larger ones a grand child carrier.
This site has a comprehensive guide to today's varieties of scooter
well worth a look as it describes most of the varieties available and who should use them.
www.mobility-scooter-solutions.com.
With this sort of frame in front and attached adjustable steering there is no limit to the accessories that could be attached to the front of the scooter and as well they are in full view of the driver.
So here is my design of the scooter of the future
(please note i am on a pension and have to build my projects from scrap materials)
It opens the way for not only disabled people using them but also able bodied people will enjoy them as well due to the appearance being more that just a disabled persons transport
It is no bigger than a large scooter and would fit through any supermarket entrance or maneuver in the narrow isles.
Groceries can be carried in the front where the lid opens forward to form a large carrying space
the motor is mounted on the wheel assembly and swung from the chassis.
each side is independent and instead of a roll bar i have used a system in the front suspension to limit the roll this works well as undulations in the road seem to be evened out and the ride is
very comfortable.
and the rear suspension
later construction with a motorbike clear windshield set up right
the rear part rebuilt to look a lot better
note there are just a pin and a bolt to remove and the entire wheel assembly can be removed for repair
A VERY comprehensive site about batteries and electric vehiclesBATTERIES
i am looking at using LiFeP04 batteries as wit a potential of 3000 plus cycles i will for what today is a very good tradesman's weeks wages get a battery that will possibly last me for the next 10-15 years
so here is a site that sells them.
THE ELECTRIC BICYCLE CO 
another design adapted from a standard scooter frame and motor the windshield not on yet
here is my scooter at a local museum open day with a tram conductor who borrowed it for the day
another car i made was a all alloy gull winged commuter car. it was made from 3 sheets of alloy and the basic concept would be still 20 years ahead of its time (50 years ahead when i built it)
more about it here
http://www.storydad.com/forum/index.php/topic,130.0.htmlFurther links to other information on scooters on this site
initial stages of the above scooter rebuilding a scooter transmission from scrap motors cycle gearselectric fuel cell powered scooter making an adult tricyclefuture development of electric carselectric cars and batteries(lease them or not) article on new breakthrough shows insight to lifep04 battery this company will change the goal posts on electric vehicles with their new technology About CHEEVC
CHEEVC, an R&D company based in Scotland, has developed a software configurable battery which can be programmed to provide a variable DC voltage and current output at the battery terminals, a world first.
CHEEVC’s patented new technology provides controlled access to individual cells in the battery chain allowing them to be switched on or off under software control. Besides providing variable power control, this facility allows the implementation of a range of new features previously not available within a battery.
Our Technology
The Basics
The basic hardware enables the cells to be switched off or bypassed for short periods, so called “rest periods”, during charging and discharging cycles, providing time for the chemical transformations in the cells to stabilise. This in turn reduces the stress on the cells which enables a longer cell cycle life to be achieved. At the same time, the round trip efficiency losses during the charge-discharge cycle are also reduced.
The rest periods also allow the cell voltage to be monitored in the open circuit condition, enabling a more accurate estimation of the state of charge of the battery.
Implicit in the system is cyclic redundancy which provides immunity to single cell failures and also facilitates lossless cell balancing, during both charging and discharging cycles, thus enhancing the battery safety, increasing the reliability and extending the cycle life.
The electronics and associated software are applicable to any type of cell chemistry or cell construction.
Quiescent Recovery
Chemical action in the cell cannot take place instantaneously, and reactions can therefore take between several seconds to several hours to be completed. Longer reaction times are even more noticeable in large, high capacity cells.
The introduction of “rest periods” during charging and discharging allows more complete transformation of the active chemicals.
Allowing the time for the ion transportation to be completed and the chemical reactions to stabilise, reduces the stress on the cells and allows increased cycle life or increased instantaneous charge/discharge rates.
The cyclic redundancy is a process where one or many cells are bypassed, while remaining cells carry the load. The bypassed cells have rest periods but can be switched in to provide a time limited power boost.
The Benefits
Software configuration can improve the battery through cell isolation, quiescent recovery, cyclic redundancy, lossless cell balancing and variable power output.
The benefits of such optimisation can be summarised as follows:
Increase in battery lifetime
Increase in battery capacity
Variable power control (no need for external controllers)
Immunity to single cell failures
Lossless cell balancing
More accurate SOC estimation
Press Release 7th May 2010
Innovative battery technology providing unique features and benefits
Press Release 27th Oct 2010
Scottish Enterprise SMART award approved for CHE EVC
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