The present invention relates to a cable car system for transporting people, comprising at least one vehicle configured with a vehicle cabin, which vehicle can along the line be coupled to a transport cable or, by means of a hauling cable coupled to the latter, is transported along at least one carrying cable or along a track, wherein along the line it is coupled to the transport cable or to the hauling cable and in the stations it is uncoupled from the transport cable or from the hauling cable, is moved through the station and is moved past at least one embarkation or disembarkation area in which the passengers board or leave the vehicle, whereupon it is recoupled to the transport cable or to the hauling cable and is moved out of the station, wherein in the embarkation or disembarkation area is provided a conveyor, which is moved in the direction of the at least one vehicle and is moved at least approximately at the speed of the vehicle and by which those passengers who enter or leave the at least one vehicle cabin moving past the embarkation or disembarkation area, respectively, are moved along in the motional direction of the vehicle.
A cable car system of this type is known, for example, from WO 2009/082827 A1.
In known cable car systems of this type, the passengers boarding the vehicles are located on a platform from which they enter into vehicle cabins moving past said platform or onto which the passengers exiting the moving vehicle cabins arrive. In order to enable the embarkation or disembarkation of the passengers, the vehicles are moved past the platform at a relatively low speed of, for example, 0.3 m/sec. As a result of this low speed which is necessary for the operation, the transport capacity of the cable car system is limited. Regardless of this low speed, the embarkation and disembarkation poses a difficulty for passengers with handicaps, in particular for passengers in wheelchairs. Even for non-handicapped people, the movement of the vehicles induces stress for the embarking or disembarking passengers.
As far as the transport capacity is concerned, this can be boosted by increasing the length of the embarkation and disembarkation area and the number of vehicles which are assigned thereto and move past the platforms. As far as the stress induced in the passengers, in particular when entering the vehicles, is concerned, this can only be reduced by still further lowering the speed of the vehicles moving past the platforms.
As a result of the conveyor, the entering and exiting of the vehicle cabins is made significantly easier for the passengers.
Known cable car systems do not however meet the requirements of enhanced comfort, since the embarkation and disembarkation areas are located outside the station building, so that the passengers are exposed to the climatic and acoustic conditions prevailing outside the station building. The object of the present invention is to bring about, in this respect, a significant increase in comfort. This is achieved according to the invention by virtue of the fact that between the motional path of the at least one vehicle and the embarkation and disembarkation area there is provided for the passengers a screen, in particular a wall, by which the passengers present in the embarkation or disembarkation area are very largely protected, on the one hand, against the climatic conditions prevailing outside the station building and, on the other hand, against the acoustic emissions caused by the operation of the cable car system and which is configured with at least one opening through which the passengers move from the embarkation area to the at least one vehicle cabin or from this to the disembarkation area, wherein the conveyor is located within this at least one opening and wherein it extends in the motional direction of the vehicle only over a part of the length of this at least one opening.
It is hereby ensured that the passengers are not exposed to the climatic and acoustic conditions prevailing outside the station building.
Preferably, the conveyor extends in the motional direction of the vehicle only over approximately two-thirds of the length of the at least one opening.
According to further preferred features, the conveyor is moved at the same speed as the at least one vehicle moving past the embarkation or disembarkation area. In particular, the conveyor has a width which lies between half the length and the total length of the conveyor.
A cable car system according to the invention is explained in greater detail below with reference to an illustrative embodiment represented in the drawing, wherein:
In
In the station, the vehicles 3, after having been uncoupled from the transport cable 2, are moved through the station along guide rails 4. Following the uncoupling of the vehicles 3 from the transport cable 2, the speed of the vehicles 3 is reduced to about 0.3 m/sec by means of deceleration tires 41. At this speed, the vehicles 3 are moved by means of transport tires 42 past the embarkation and disembarkation area for the passengers. Subsequently, the speed of the vehicles 3 is increased to the speed of the transport cable 2 by means of acceleration tires 43, whereupon the vehicles 3 are recoupled to the transport cable 2.
For the entering of the vehicle cabins 30 or following the exiting thereof, the passengers are found in the embarkation or disembarkation area 11, respectively, which is located within the station building 1.
The station building 1 is closed off from the motional path of the vehicles 3 by a wall 12, which is located directly beside the motional path of the vehicle cabins 30. In this wall 12 is provided an opening 13, through which the passengers make their way from the embarkation area 11 into the vehicle cabins 30 or make their way out of the vehicle cabins 30 into the disembarkation area 11.
As a result of the wall 12, the passengers present in the embarkation or disembarkation area 11 find themselves very largely protected, on the one hand, from the climatic conditions prevailing outside the station building 1 and, on the other hand, from the acoustic emissions caused by the operation of the cable car system.
Since the distance between the wall 12 and the vehicle cabins 30 can amount to just a few centimeters, the passengers, when boarding or when leaving the vehicle cabins 30, are protected from climatic and acoustic nuisances.
In the region of the opening 13 is found a conveyor 10, which is moved at an at least approximately same speed as the vehicles 3, thus, for example, at a speed of 0.3 m/sec, in the same direction as the vehicles 3. The passengers who want to access the vehicle cabins 30 thus step for the moment onto the conveyor 10. As soon as they are on the conveyor 10, they are moved at approximately the same speed as the vehicle cabins 30, so that they can step into the vehicle cabins 30 without any stress. This applies, in particular, to passengers of restricted mobility. The same also applies also to those passengers who leave the vehicle cabins 30. Since the stepping onto or leaving of the conveyor 10 is easier than the boarding of the vehicle cabins 30 through their door opening, the speeds of the vehicles 3 and of the conveyor 10 can hereby be increased, so that a boosting of the transport capacity of the cable car system is also achievable.
Preferably, the conveyor 30 extends within the opening 13 only over a part of the length of the opening 13, so that collisions of the passengers with that end wall of the opening 13 which is located in the direction of transport are avoided. Preferably, the length of the conveyor 10 here amounts to about 50% to 80%, in particular 70%, of the length of the opening 13.
Number | Date | Country | Kind |
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A 433/2014 | Jun 2014 | AT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/AT2015/000074 | 5/18/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/184478 | 12/10/2015 | WO | A |
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