IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0596434
(1984-04-03)
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우선권정보 |
BR-0001706 (1983-04-04) |
발명자
/ 주소 |
- Coester Oskar H. W. (Rua David Francisco Mauricio 85 Porto Alegre
- Rio Grande do Sul BRX)
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인용정보 |
피인용 횟수 :
8 인용 특허 :
9 |
초록
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A pneumatic propulsion system for passenger vehicles is constituted by a structural beam, composed of modular elements end-supported on pillars. The beam supports the trackway and provides an air duct for pneumatic propulsion of vehicles. A longitudinal slit in the top surface of the beam is sealed
A pneumatic propulsion system for passenger vehicles is constituted by a structural beam, composed of modular elements end-supported on pillars. The beam supports the trackway and provides an air duct for pneumatic propulsion of vehicles. A longitudinal slit in the top surface of the beam is sealed by flexible flaps and that press against each other to seal off the duct, while allowing for the passage of support mast. Airflow for propulsion of the vehicle is generated by a stationary airflow generator, which feeds the air propulsion duct by way of connecting ducts and which is outfitted with a set of four butterfly control valves that are controlled by a command and control system of flow and pressure condition in the duct which actuates the valves pneumatically, allowing automatic or manual selection of “suction”or “pressure”conditions in the duct. Shutoff valves are fitted to openings in the bottom surface of the beam to allow isolation of segments of the propulsion air duct or, alternatively, its venting to connecting ducts or to the atmosphere, allowing by means of a combination of several valves to delimit a specific propulsion air circuit. Traction of the vehicles results from the difference in pressure that is established on opposite sides of propulsion plate by the effect of the airflow generated by the generator unit. A support mast connects to a propulsion plate jointly with a traction arm which transfers the resultant tractive force to the vehicle. Adjustable decompression panels assembled on the propulsion plate assure that a maximum safe pressure differential limit is not exceeded, said limit being controlled by the action of a set of springs positioned on both sides of the propulsion plate.
대표청구항
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Improvements in a transportation system for pneumatic propulsion of passenger and/or freight vehicles, said transportation system being characterized by including: beams connected in tandem and constructed of prefabricated modules, pillars providing end supports for said beams, a trackway supported
Improvements in a transportation system for pneumatic propulsion of passenger and/or freight vehicles, said transportation system being characterized by including: beams connected in tandem and constructed of prefabricated modules, pillars providing end supports for said beams, a trackway supported on said beams; said beams defining a longitudinal propulsion air duct having a longitudinal slit at the top thereof, an openable sealing system for closing said slit; a vehicle supported on said trackway, a propulsion plate within said duct, a mast extending through said sealing system, a traction arm and said mast connecting said vehicle to said propulsion plate, lateral doors on said vehicle for normal entry and exit, frontal windows on said vehicle that are widely operable for emergency exit; an on-board battery means for said vehicle, an electrification means for energizing said transportation system, said electrification means supplying electrical energy through said trackway to said battery means; a braking system for said vehicle, pressure sensing means for controlling actuation of said braking system in response to differential pressures within said duct; a stationary airflow generator for supplying said duct with pneumatic propulsion air under pressure, a set of valves for regulating said propulsion air, control module means for controlling said set of valves; sensing means for positioning said vehicle along said trackway and for controlling speed of said vehicle; a retainer wheel means connected to said vehicle and moving within said duct to prevent derailing of said vehicle; a plurality of wheel assemblies connected to said vehicle, each of said assemblies including four non-driven rotatable wheels, each of said wheels including a rim, a hub inside of said rim and a vibration absorbing layer between said rim and said hub; movable decompression panel means for said propulsion plate to protect said transportation system from being damaged as a result of excessive pressure differentials on opposite sides of said propulsion plate; said decompression panel means (43) being adjustable as to the differential pressure to move from a shut position wherein through aperture means of said propulsion plate is blocked, to an open position wherein said aperture means is clear; and spring means (44) biasing said propulsion plate (37) toward said shut position; said propulsion plate (39) moving to said open position automatically in the event differential air pressure exceeds a limit value set for structural protection of the system. Improvements in a transportation system for pneumatic propulsion of passenger and/or freight vehicles, said transportation system being characterized by including: beams connected in tandem and constructed of prefabricated modules, pillars providing end supports for said beams, a trackway supported on said beams; said beams defining a longitudinal propulsion air duct having a longitudinal slit at the top thereof, an openable sealing system for closing said slit; a vehicle supported on said trackway, a propulsion plate within said duct, a mast extending through said sealing system, a traction arm and said mast connecting said vehicle to said propulsion plate, lateral doors on said vehicle for normal entry and exit, frontal windows on said vehicle that are widely operable for emergency exit; an on-board battery means for said vehicle, an electrification means for energizing said transportation system, said electrification means supplying electrical energy through said trackway to said battery means; a braking system for said vehicle, pressure sensing means for controlling actuation of said braking system in response to differential pressures within said duct; a stationary airflow generator for supplying said duct with pneumatic propulsion air under pressure, a set of valves for regulating said propulsion air, control module means for controlling said set of valves; sensing means for positioning said vehicle along said trackway and for controlling speed of said vehicle; a retainer wheel means connected to said vehicle and moving within said duct to prevent derailing of said vehicle; a plurality of wheel assemblies connected to said vehicle, each of said assemblies including four non-driven rotatable wheels, each of said wheels including a rim, a hub inside of said rim and a vibration absorbing layer between said rim and said hub; movable decompression panel means for said propulsion plate to protect said transportation system from being damaged as a result of excessive pressure differentials on opposite sides of said propulsion plate; said sealing system for the longitudinal slit (60) on the beam including first and second flexible material flaps (9) and (10) mounted symmetrically at opposite sides of said slit to a first and a second of said modules (1) and (2), respectively, in such a way that, as a differential pressure either negative or positive is established between the duct and atmosphere, the flaps will press one against the other, effectively sealing off the duct; each of said flaps including a longitudinally extending free edge with said first flap being upwardly inclined towards its said free edge, said second flap being downwardly inclined toward its said free edge and said free edges normally engaging one another to close said slit. Improvements in a transportation system for pneumatic propulsion of passenger and/or freight vehicles, said transportation system being characterized by including: beams connected in tandem and constructed of prefabricated modules, pillars providing end supports for said beams, a trackway supported on said beams; said beams defining a longitudinal propulsion air duct having a longitudinal slit at the top thereof, an openable sealing system for closing said slit; a vehicle supported on said trackway, a propulsion plate within said duct, a mast extending through said sealing system, a traction arm and said mast connecting said vehicle to said propulsion plate, lateral doors on said vehicle for normal entry and exit, frontal windows on said vehicle that are widely operable for emergency exit; an on-board battery means for said vehicle, an electrification means for energizing said transportation system, said electrification means supplying electrical energy through said trackway to said battery means; a braking system for said vehicle, pressure sensing means for controlling actuation of said braking system in response to differential pressures within said duct; a stationary airflow generator for supplying said duct with pneumatic propulsion air under pressure, a set of valves for regulating said propulsion air, control module means for controlling said set of valves; sensing means for positioning said vehicle along said trackway and for controlling speed of said vehicle; a retainer wheel means connected to said vehicle and moving within said duct to prevent derailing of said vehicle; a plurality of wheel assemblies connected to said vehicle, each of said assemblies including four non-driven rotatable wheels, each of said wheels including a rim, a hub inside of said rim and a vibration absorbing layer between said rim and said hub; movable decompression panel means for said propulsion plate to protect said transportation system from being damaged as a result of excessive pressure differentials on opposite sides of said propulsion plate; a set of connection ducts interposed between the stationary airflow generator to the propulsion air duct, and a valve command and control system including said control module means; said set of valves comprising four air control valves (13) the control of which for the “open”and “closed”position is effected by said valve command and control systems; each of said valves including a throttle plate (16); said improvements in a pneumatic propulsion system for passengers comprising a lever (15) and a pneumatic cylinder (14) connected to said lever (15) for actuating said throttle plate (16) of said valve; an electropneumatic valve (18) for controlling said cylinder; an air compressor (17) feeding said electropneumatic valve (18); an electric selector switch (20) for switching said another valve (18); an electronic module of logic circuits (19) operating in conjunction with selector switch (20); said module being under control of the control microprocessor having an output module (21) for controlling said electronic module to affect automatic system operation.
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