GROUND HANDLING FACILITY AN METHOD FOR PASSENGER-TRANSPORTING AIRCRAFT

Abstract

A ground handling facility (1) for passenger-transporting aircraft (100), in particular vertical takeoff and landing multicopters, including: at least one first platform (2) which is designed as a landing platform (2) for a passenger-transporting aircraft (100), wherein a) the at least one first platform is simultaneously designed as a takeoff platform for a passenger-transporting aircraft (100), or b) wherein a second platform (3) is provided which is designed as a takeoff platform (3) for a passenger-transporting aircraft (100); at least one region (4) which is designed as weather protection for the passengers and the aircraft (100), in particular by provision of a canopy; and at least one conveying device (5.1; 5.2; 5.3) for the aircraft (100) that is designed to move the aircraft (100) from the landing platform (2) through the region (4) to the takeoff platform (3), in which region there is provided at least one station (6.1-6.4) which is configured for a predetermined interaction with the aircraft (100).

Claims

1. A ground handling facility (1) for passenger-conveying aircraft (100), comprising: at least one first platform, configured as a landing platform (2) for the passenger-conveying aircraft (100), wherein a) the at least one first platform is simultaneously configured as a takeoff platform (3) for the passenger-conveying aircraft, or b) at least one second platform is provided which is configured as the takeoff platform (3) for the passenger-conveying aircraft; at least one region (4) which includes a weather protection area for passengers and the aircraft (100); at least one conveying device (5; 5.1; 5.2; 5.3) for the aircraft, which is configured to move the aircraft (100) from the landing platform (2) through the at least one region to the takeoff platform (3); said at least one region (4) including at least one station (6; 6.1-6.5) which is configured for a predefined interaction (I) with the aircraft (100), the at least one station including at least one of: a removal station (6.1) configured for removal of at least one power supply unit of the aircraft; an insertion station (6.4) configured for insertion of at least one charged or refilled power supply unit of the aircraft; a charging station configured for charging or refilling the at least one power supply unit of the aircraft; an embarking station (6.3) configured for embarking of passengers into the aircraft; a disembarking station (6.2) configured for disembarking of passengers from the aircraft; a loading station (6.3) configured for loading of goods for transport into the aircraft; an unloading station (6.2) configured for unloading of goods for transport from the aircraft; a maintenance station configured for technical maintenance of the aircraft; a transferring-out station (6.5) configured for transfer of the aircraft out of the conveying device (5; 5.2); or a transferring-in station (6.5) configured for transfer of an aircraft into the conveying device (5; 5.2).

2. (canceled)

3. The ground handling facility (1) according to claim 1, wherein in the region (4), multiple of the stations (6; 6.1-6.5) are provided in series in a conveying direction of the conveying device (5; 5.1; 5.2; 5.3), including at least a disembarking station (6.2) and an embarking station (6.3).

4. The ground handling facility (1) as claimed in claim 1, wherein the region (4) is at least covered by a roof.

5. The ground handling facility (1) as claimed in claim 1, wherein the conveying device (5) comprises a multi-part conveying device (5.1; 5.2; 5.3).

6. The ground handling facility (1) as claimed in claim 5, wherein the multi-part conveying device includes a first conveying device (5.1), a second conveying device (5.2) and a third conveying device (5.3), wherein the first conveying device (5.1) is configured to convey the aircraft (100) from the landing platform (2) to or into the region (4), the second conveying device (5.2; 5.2) is configured to convey the aircraft (100) through the region (4), and the third conveying device (5.3) is configured to convey the aircraft (100) out of or from the region (4) to the takeoff platform (3).

7. The ground handling facility (1) as claimed in claim 6, wherein at least the first conveying device (5.1) and the third conveying device, in comparison to the second conveying device (5.2; 5.2), have different conveying speeds, with the first conveying device (5.1) and the third conveying device (5.3) having a higher conveying speed than the second conveying device (5.2; 5.2).

8. The ground handling facility (1) as claimed in claim 1, wherein the conveying device (5) is configured to move the aircraft (100) in a continuous manner.

9. The ground handling facility (1) as claimed in claim 1, wherein the conveying device (5) is configured to move the aircraft (100) in a discontinuous manner in the region (4).

10. The ground handling facility (1) as claimed in claim 1, further comprising a braking device for a non-vertically landing aircraft located in a region of the landing platform (2).

11. The ground handling facility (1) as claimed in claim 1, wherein the region is arranged on a different horizontal plane than at least one of the takeoff or landing platform (2, 3).

12. The ground handling facility (1) as claimed in claim 1, wherein the ground handling facility s adapted to be on a building (20).

13. The ground handling facility (1) as claimed in claim 12, wherein at least one of the takeoff or landing platform (2, 3) is adapted to be arranged as an overhang in relation to the building (20).

14. The ground handling facility (1) as claimed in claim 1, wherein at least one of the region (4) or a course of the conveying device (5) in the region, has a meandering (M) form.

15. The ground handling facility (1) as claimed in claim 1, further comprising at least one further station (6.5) configured for removal of the aircraft (100) from the conveying device (5).

16. The ground handling facility (1) as claimed in claim 1, wherein the conveying device (5) comprises a conveyor belt, robot, towing device, pushing device, or carriage.

17. The ground handling facility (1) as claimed in claim 1, wherein a conveying speed of the conveying device (5) is selected such that an aircraft (100) is removable from the landing platform (2), and conveyed into the region (4), within a first time starting when said aircraft lands, and said first time is less than one minute.

18. The ground handling facility (1) as claimed in claim 17, wherein a conveying speed of the conveying device (5) is selected such that an aircraft (100) is conveyable through the region (4) within a second time, and said second time is less than five minutes.

19. The ground handling facility (1) as claimed in claim 1, further comprising a guiding device in the region of the landing platform (2), said guiding device (7) is configured to guide a landing one of the aircraft (100) into a region of action of the conveying device (5).

20. The ground handling facility (1) as claimed in claim 1, further comprising an additional conveying device (5.1) in the region of the landing platform (2), said additional conveying device (5.1) being configured to feed a landed one of the aircraft (100) to the conveying device (5).

21. A building (20), comprising at least one ground handling facility (1) as claimed in claim 1, wherein the ground handling facility (1) is arranged on or in a roof region of the building (20).

22. The building (20) as claimed in claim 21, further comprising an elevator (21) or a staircase as access to the ground handling facility (1), in particular to the region (4).

23. The building (20) as claimed in claim 21, wherein there are at least two ground handling facilities (1) which are arranged on mutually opposite sides of the building (20), having respectively separate ones of the takeoff platforms and the landing platforms.

24. The building (20) as claimed in claim 23, wherein the takeoff platforms and the landing platforms (2, 3) are arranged as overhangs in relation to the building (20).

25. A method for the ground handling of passenger-conveying aircraft (100), the method comprising: i) providing an aircraft (100) on a first platform (2), which serves as a landing platform for a passenger-conveying aircraft (100); ii) conveying the aircraft (100) from the landing platform (2) into at least one region (4), which serves as a weather protection area for passengers and the aircraft (100) using at least one conveying device (5) for the aircraft (100); iii) conveying the aircraft (100) through the region (4) by the at least one conveying device (5), in which region (4) at least one predefined interaction (I) with the aircraft (100) takes place at at least one station (6); iv) conveying the aircraft (100) out of the region (4) to a takeoff platform (3) for the aircraft (100) by the at least one conveying device (5).

26. The method as claimed in claim 25, wherein the aircraft (100) is conveyed initially relatively quickly away from the landing platform (2) to the region (4) or into the region (4), is subsequently conveyed relatively slowly through the region (4), and is then conveyed relatively quickly out of the region (4) or away from the region (4) to the takeoff platform (3).

27. The method as claimed in claim 25, further comprising removing the aircraft (100) from the landing platform (2), and conveying the aircraft into the region (4), within a first time starting when said aircraft lands, and said first time is less than one minute.

28. The method as claimed in claim 27, wherein the aircraft (100) is conveyed through the region (4) within a second time, and said second time is less than five minutes.

29. The method as claimed in claim 25, wherein the aircraft (100) is conveyed through the region (4) in continuous fashion.

30. The method as claimed in claim 25, wherein the aircraft (100) is conveyed through the region (4) in discontinuous fashion, with a stoppage or a slowed conveying movement in the region of the at least one station (6).

31. The method as claimed in claim 25, wherein the at least one of the interactions (I) comprises: removing at least one power supply unit of the aircraft; inserting the at least one power supply unit of the aircraft; charging or refilling the at least one power supply unit of the aircraft; embarking of passengers into the aircraft; disembarking of passengers from the aircraft; loading of goods for transport into the aircraft; unloading of goods for transport from the aircraft; technical maintenance of the aircraft; transferring of the aircraft out of the conveying device; or transferring of an aircraft into the conveying device.

32. The method as claimed in claim 25, further comprising guiding a landing one of the aircraft (100) into a region of action of the conveying device (5) by a guiding device (7) located in a region of the landing platform (2).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0073] Further characteristics and advantages of the invention will emerge from the following description of exemplary embodiments on the basis of the drawing.

[0074] FIG. 1 shows a simplified schematic illustration of a ground handling facility according to the invention together with a number of passenger-conveying aircraft;

[0075] FIG. 2 schematically shows a possible special embodiment of a ground handling facility according to the invention;

[0076] FIG. 3 schematically shows a further embodiment of a ground handling facility according to the invention;

[0077] FIG. 4 schematically shows a special embodiment of a ground handling facility according to the invention in the region of the landing platform;

[0078] FIG. 5 schematically shows an alternative to the embodiment as per FIG. 4;

[0079] FIG. 6 shows the roof region of a building according to the invention with two ground handling facilities according to the invention; and

[0080] FIG. 7 shows the embodiment substantially as per FIG. 6 from a slightly different perspective.

DETAILED DESCRIPTION

[0081] In FIG. 1, a ground handling facility according to the invention for passenger-conveying aircraft, in particular for vertical takeoff and landing, preferably electrically driven multicopters, is denoted as a whole by the reference designation 1. The ground handling facility 1 comprises a first platform 2, which is designed as a landing platform for the aircraft, and a second platform 3, which is designed as a takeoff platform for the aircraft. The aircraft themselves are not the subject of the invention, and are each denoted in the Figures by the reference designation 100.

[0082] Between the two platforms 2, 3, there is situated a special region which, in the context of the present description, will also be referred to as protected region and is denoted by the reference designation 4 (dashed line in FIG. 1). Said region 4 is designed as a weather protection area for the passengers and the aircraft 100 when these are situated in the stated region 4, for which purpose, in particular, a covering roof may be provided. The protected region 4 is however preferably a fully enclosed region to which access is provided by openable and closable doors, gates or the like, which is not illustrated in FIG. 1.

[0083] Furthermore, the ground handling facility 1 comprises a conveying device for the aircraft 100, which conveying device is symbolically illustrated by a curved arrow and is denoted by the reference designation 5. Possible embodiments of the conveying device 5 will be discussed in more detail further below. It must ultimately be designed and suitable for transporting the aircraft 100 from the landing platform 2 to the takeoff platform 3. In this context, it is not necessary for the transport to be realized actively by the conveying device 5, because the aircraft 100 may basically also be designed to be self-propelling (with wheels or the like). It is however preferred that the conveying device 5 actively acts on the aircraft 100 in order to transport these from the landing platform 2 through the protected region 4 to the takeoff platform 3. For this purpose, the conveying device 5 may for example be designed in the manner of a conveyor belt, without the invention being restricted to this.

[0084] It is basically not necessary for the landing platform 2 and the takeoff platform 3 to be physically separate units. Rather, it falls within the scope of the invention for a single platform to function both as takeoff platform 3 and as landing platform 2. The conveying device 5 must then be correspondingly configured such that it can transport the aircraft 100 away from said platform, through the protected region 4 and back to the same platform again. However, to ensure flight operation with a faster cycle frequency, it is preferable for the landing platform 2 and the takeoff platform 3 to be designed as separate platforms, as illustrated.

[0085] The conveying device 5 thus runs through the protected region 4, such that the aircraft 100 pass into said region 4. There, there is arranged at least one station 6 which is configured for a predefined interaction with the aircraft 100 which is situated at the stated station 6 due to the movement and specification by the conveying device 5. Said interaction is symbolically illustrated in FIG. 1 by a dashed double arrow I.

[0086] In the context of the invention, a multiplicity of different stations 6 may be realized in the protected region. This has already been referred to in detail further above, such that there is no need for a repetition at this juncture. In the following FIGS. 2 and 3, certain types of stations 6 will be discussed in more detail. It is advantageous if, in the protected region 4, there is not only a single station 6 as is illustrated by way of example in FIG. 1, but rather, at a multiplicity of stations 6, correspondingly different interactions I with the aircraft 100 are possible.

[0087] After the interaction I with the aircraft 100 has taken place at the station 6, the aircraft 100 moves onward, in accordance with the specification by the conveying device 5, in the direction of the takeoff platform 3, from which said aircraft takes off in order to participate in flight operation again.

[0088] FIG. 2 shows a special embodiment of the ground handling facility 1 according to the invention, wherein, for the sake of clarity, an explicit illustration of the aircraft 100 (see FIG. 1) has been omitted. Otherwise, the same reference designations are used in all Figures for the same elements or elements with the same action.

[0089] A first major difference in relation to the embodiment as per FIG. 1 consists in that, in FIG. 2, the conveying device 5 is of multi-part, in particular three-part, form. This is symbolized in FIG. 2 by the fact that, instead of a single arrow, three arrows with reference designations 5.1, 5.2, 5.3 are illustrated. Reference designation 5.1 denotes a first conveying device, reference designation 5.2 denotes a second conveying device, and reference designation 5.3 denotes a third conveying device. The first conveying device 5.1 is designed to transport a landed aircraft (not shown) from the landing platform 2 to or into the protected region 4, as illustrated. The specific transport path is not important here, though may be designed to be as short as possible. The second conveying device 5.2 is arranged in the protected region 4 and serves for transporting an aircraft (not shown) through said region 4. At the end of the region 4, the second transport device 5.2 then transfers the aircraft to the third transport device 5.3, which is provided for the (direct) onward transport to the takeoff platform 3.

[0090] In the protected region 4, the illustrated ground handling facility 1 as per FIG. 2 comprises not only one station 6, but rather four stations, which are denoted by the reference designations 6.1 to 6.4. The stations 6.1 to 6.4 are arranged in series along the second transport device 5.2, such that, by the second transport device 5.2, the aircraft (not shown) can be transported to the stations 6.1 to 6.4 in succession. Above the individual stations 6.1 to 6.4, it is symbolically illustrated which interactions with the aircraft (can) take place at the respective stations 6.1 to 6.4.

[0091] In the illustrated embodiment in FIG. 2, the station 6.1 constitutes a removal station for the removal of at least one power supply unit of the aircraft, in particular of a storage battery in the case of electrically powered aircraft. For this purpose, at the station 6.1, a robot 6.1a is provided which removes the (empty) power supply unit 6.1b from the aircraft (arrow P1). A manual removal by operating personnel is also possible.

[0092] Subsequently, the aircraft (not shown) passes to the station 6.2. This is designed as a combined disembarking station for the disembarking of passengers from the aircraft and unloading station for the unloading of goods for transport from the aircraft. For example, doors of the aircraft may be automatically opened, and/or an access ramp or the like may be deployed. Reference designation 6.2a denotes an article to be unloaded, while reference designation 6.2b represents a disembarking passenger (arrow P2). In particular, the unloading of articles may in turn be performed in automated fashion by a robot or the like, which is not illustrated in FIG. 2 for the sake of clarity.

[0093] The subsequent station 6.3 is a combined embarking station/loading station: as per arrow P3, passengers 6.3a embark into the aircraft; furthermore, articles (goods for transport) 6.3b can be loaded.

[0094] At the station 6.4, there is in turn illustrated a robot or manipulator 6.4a, which inserts a (full) power supply unit 6.4b into the aircraft as per arrow P4. A manual interaction is likewise possible. Station 6.4 may correspondingly also be referred to as insertion station.

[0095] Downstream of station 6.4, the aircraft (not shown) has been loaded and refueled, and can thus be transported by the third conveying device 5.3 to the takeoff platform 3, in order to participate in flight operation again.

[0096] As is also illustrated in FIG. 2 by 4 dashed arrows, the conveying device 5, in the region of the described second conveying device 5.2, may also be subdivided further, or designed to realize discontinuous conveying operation for the aircraft in the protected region 4. In this way, a respective aircraft can remain (stop) for example at the station 6.2 for a certain period of time in order that, in particular, the passengers 6.2b can calmly disembark. The same applies with regard to the station 6.3 and the embarking of new passengers 6.3a. In this context, it is not necessary for the aircraft to come to a complete stop at the stated stations. Rather, provision may also be made for the second conveying device 5.2 (or the stated partial conveying devices in this region) to adapt the conveying speed to the interaction that is respectively taking place with the aircraft, without the conveying speed decreasing entirely to zero.

[0097] As is readily evident, the invention is not restricted to the number, arrangement and combination of stations 6.1 to 6.4 shown by way of example in FIG. 2. Further stations are discussed in detail in the introductory part of the description.

[0098] It is also the case in the embodiment as per FIG. 3 that a multiplicity of stations 6.1 to 6.5 is provided in the protected region 4, wherein it is not the intention to discuss the stations 6.1 to 6.4 in any more detail. Also, the conveying device 5 is again of multi-part form (conveying devices 5.1, 5.2, 5.2, 5.3), wherein the conveying devices 5.1 and 5.3 correspond to the conveying devices with the same designation in FIG. 3. In the protected region 4, there are provided two partial conveying devices 5.2, 5.2, as shown, such that the aircraft 100 can, after passing through the station 6.2, be fed to an additional station 6.5. This is, in FIG. 3, a transferring-out and transferring-in station for aircraft 100 out of and into the conveying device 5 respectively. In this way, a landed aircraft 100 can be exchanged for a fresh aircraft at the station 6.5. This may take place for example in the event of damage to the aircraft 100, or if the aircraft 100 requires routine maintenance.

[0099] The further aircraft 100 shown in the lower part of the protected region 4 may be reserve aircraft or aircraft which have been stored owing to reduced flight operation, for example for weather-related reasons.

[0100] FIG. 4 schematically illustrates a special embodiment of a ground handling facility according to the invention in the region of the landing platform 2. A conveying device 5.1 connects the landing platform 2 to the protected region 4. The block arrow P5 denotes the conveying direction.

[0101] In the region of the landing platform 2, there is situated a guiding device 7 which is designed to generate, by contactless electromagnetics, a guiding field, illustrated here as a frustum, with which control electronics (not shown) of the aircraft 100 interact such that the aircraft 100 lands on the landing platform 2 exactly where it can be taken on and transported away by the conveying device 5.1. It basically falls within the scope of the invention to provide, instead of a contactlessly operating guiding device 7, a type of capture device onto which the aircraft 100 docks in order to then be set down on the landing platform 2 in the stated region. This is however more difficult to realize than the above-described contactless guiding device 7, such that the latter is preferred. The use of such a guiding device 7 can ensure that, in the ground handling of aircraft, no delays arise as a result of an aircraft 100 that has landed incorrectly on the platform 2 blocking the flight operation and necessitating an intervention by ground personnel or the like.

[0102] FIG. 5 schematically illustrates a different solution to this problem, in the case of which, in the region of the landing platform 2, there is provided an additional conveying device 5.1, specially illustrated using a trapezoidal shape, which covers most of the landing platform 2. In this way, it is no longer of crucial importance where on the landing platform 2 the aircraft 100 sets down. The additional conveying device 5.1 ensures that the landed aircraft 100 can be transported to the first transport device 5.1 and by the latter to the protected region 4.

[0103] FIG. 6 illustrates a special embodiment of the ground handling facility 1 according to the invention which is arranged twofold on the roof of a high-rise building. The high-rise building is denoted as a whole by the reference designation 20. It has, on the side, at least one elevator 21 by which passengers 22 can access the ground handling facilities 1. The ground handling facilities 1 have respectively separate landing and takeoff platforms 2, 3, in the manner already depicted. As can be seen from FIG. 6, the landing platforms 2 and the takeoff platforms 3 are of overhanging form in relation to the side walls 23 of the high-rise building 20, in order to reduce the influence of turbulence or the like. Shown by way of example in the region of the foremost takeoff platform 3 is the associated (third) conveying device 5.3, which may be of widened form in the region of the platform 3 itself, as illustrated and as described in principle, with regard to the landing platform 2, on the basis of FIG. 5.

[0104] While the platforms 2, 3 are situated approximately on a plane with the actual roof surface 24 of the high-rise building 20, the protected region 4 is situated below said roof surface 24, such that the first and third conveying devices 5.1, 5.3 correspondingly run obliquely downward and obliquely upward respectively. The access to the protected region 4 is closable by gates or shutters 4a, 4b, as is schematically illustrated.

[0105] As can be seen from FIG. 6 on the basis of a glass roof section of cross-shaped form, the protected region 4 for the two ground handling facilities 1 that are provided is in each case of meandering form, as shown in the front part of the Figure on the basis of the black line M. The course of the second conveying device 5.2 (not shown) in this region 4 also corresponds. In this way, the aircraft do not pass from the landing platform 2 to the takeoff platform 3 on the shortest direct path, but are rather transported along a longer path M in order to be able, in this way, to provide a multiplicity of interactions with the aircraft 100. Below the cross-shaped glass roof discussed above and denoted by reference designation 25, there may be situated a walkway system for the passengers 22, such that said passengers can access the stations (not shown) provided for them in the protected region 4.

[0106] FIG. 7 shows, from a slightly different perspective, the special embodiment of the invention that has already been described on the basis of FIG. 6. Some exemplary durations for particular subsections of the aircraft ground handling process are stated. For example, provision may be made whereby the transport of an aircraft that has landed on the platform 2 into the protected region 4 by the conveying device 5 takes approximately 30 seconds. Subsequently, in each case 90 seconds are available for the disembarking and the embarking along the meandering path M. The entire residence time of an aircraft in the protected region 4 is intended to amount to approximately 4 minutes, such that a further 2.5 minutes are also available for maintenance, loading and unloading, exchange of the power supply units etc. This has proven to be expedient and efficient. The transport from the protected region 4 to the takeoff platform 3 by the conveying device 5.3 in turn takes approximately 30 seconds. While one or more aircraft are situated in the protected region 4, the takeoff and landing platforms 2, 3 can be used for the landing and takeoff of further aircraft. The flight cycle frequency thus amounts to only 30 seconds.

[0107] In FIG. 7, by way of example, the radius of the landing platform 2 is denoted by the reference designation R. This radius may for example amountwithout limitationto approximately 20 meters.

[0108] Provision may be made whereby aircraft that are not in use are stored in (underlying) upper levels of the high-rise building 20, in the manner of a parking garage. This is illustrated by way of example in FIG. 7 by the arrows parking and unparking. Such parking and unparking processes are in turn each to be estimated as taking approximately 30 seconds.