h a l f b a k e r yCeci n'est pas une idée.
add, search, annotate, link, view, overview, recent, by name, random
news, help, about, links, report a problem
browse anonymously,
or get an account
and write.
register,
|
|
|
Riding the London bus system at different times (and on different types of buses) got me thinking about optimising bus design. It seems to me that the thing to optimise is people density, i.e. 'number of people per square meter of road'.
There are three basic bus designs in use in London - single-decker,
double-decker and the new 'bendy' buses, which are twice as long but hinged in the middle (and a real pain for other traffic, not to mention that they have an unfortunate tendency to burst into flames).
By the 'people density' measure, bendy buses and single-deckers should be about the same (bendybuses hold more but take up twice as much road space). Doubledeckers would be twice as efficient, except that so much space is taken up by the stairwell. So the challenge would be to come up with a single-decker design that (roughly) doubles people density.
Assuming that a seated person takes up twice as much floorspace as a standing person, a single-decker bus with no seats would achieve this goal. But such buses wouldn't be very popular.
Hence the idea of a bus in which seats can be made to 'disappear' during rush-hour conditions (near the centre of the city, during certain hours, or just under driver control).
The seats are spring-mounted flip-up seats, with the hinge mounted on a horizontal bar at bum-level. A parallel bar runs at waist-height; when the seat flips up, the top end latches to the waist-high bar, preventing it from being lowered. If all seats are raised and latched, the bus has only standing room (two people per seat area), demarcated by the pairs of horizontal bars. As a handy side-effect, the bars stop people being sloshed around inside the bus when it brakes or accelerates.
During non-rush-hour conditions, the driver hits a switch that opens all the latches, allowing the seats to be lowered as required.
As on current buses, certain unlatchable seats would be reserved for people who can't stand.
Please log in.
If you're not logged in,
you can see what this page
looks like, but you will
not be able to add anything.
Destination URL.
E.g., https://www.coffee.com/
Description (displayed with the short name and URL.)
|
|
And when rammed gently from the side by another vehicle, all the seats flip up at once, crushing the passengers. |
|
|
Also, the //sloshing around// of the passengers is a good thing. If everyone was strapped in tightly, they wouldn't slosh, but their internals organs and brain still would. |
|
|
I can see all the saved room. That of course minus all the mechanics to make 30 seats fold down and tuck away. |
|
|
Seating flexibilty along these lines would definitely be useful. Maybe flexible seating downstairs and fixed upstairs, as it's always downstairs where lots of people want to stand for a couple of stops. |
|
|
<trivia>The seats on the trains in Sydney are pretty cool, they swing forward and back, therefore you may sit facing in either direction. |
|
|
Baked in Japan on most local commuter trains - the 8 seats closest to the doors (so 16 seats per carriage) are locked up in peak hours to allow more people in and more safety near the exits. The conductor can release all seats from his cubicle at rear of train. Haven't been everywhere in Japan, but encountered this system in all major cities. |
|
|
[skinflaps] Ditto on some Blackpool trams. [cf] Similar arrangement (apart from the conductor-operated release) on the Paris Metro with spring-loaded seats that rest in the "up" position. They don't need to be locked "up", because other rush hour commuters would disembowel anyone foolish enough to use one at peak times. They even have a word for the folding seat - strapontin - I don't know the derivation, but it is also used for the seat a theatre usher(ette) uses. |
|
| |