Thanks for all your replies! The device is a brake on a amusement ride. The brake is a non-contact magnetic brake which consists of a 1.5m long reaction plate which is brought close to the vehicle mounted magnet. The reaction plate is held up to the vehicle using springs (required so that the plate always moves up in case of power loss),and moves vertically down 110mm when the brake "releases". The brakes are used to control the speed of the vehicle and so need to be able to move rapidly (ie the 110mm stroke in <0.2s). The magnets exert a very strong attractive force on the reaction plate and its that force I have to overcome. The force does drop off rapidly as the plate gets further away, and so I was going to use a series of fluidic muscles to pull the plate down because their pulling force also drops as the muscle contracts. The problem that I have, is getting the appropriate volume of air into the muscles in such a short time frame, and so I was intending to lock the reaction plate, pressurise the muscles and then when the plate was needed to move, release the mechanism. The actual moving mass is quite low (ie 15-20kg). I can find electromagents which are suitable but they are heavy (approx 40kg) so thats why I wanted to see if there was anything more mechanical and lighter! Thanks for your comments so far!
