PASSENGER SEAT ARRANGEMENT WITH A MODULAR ENERGY SUPPLY, AND PASSENGER AIRCRAFT HAVING SUCH A SEAT ARRANGEMENT

Abstract

A passenger seat arrangement for a passenger aircraft includes a passenger seat assembly having at least one passenger seat and a seat supporting frame, at least one seat fastening rail which can be installed in a cabin floor of the passenger aircraft and in which the seat supporting frame is mounted, a first electronic housing in which electrical power converter components are arranged and which is mounted on the seat fastening rail, a second electronic housing in which electrical output ports for connecting electronic terminal devices are arranged, and wired cabling which electrically connects a supply port of the electrical power converter components of the first electronic housing to the electrical output ports of the second electronic housing.

Claims

1. A passenger seat arrangement for a passenger aircraft, comprising: a passenger seat assembly having at least one passenger seat and a seat supporting frame; at least one seat fastening rail which can be installed in a cabin floor of the passenger aircraft and in which the seat supporting frame is mounted; a first electronic housing comprising electrical power converter components and which is mounted on the seat fastening rail; a second electronic housing in which electrical output ports for connecting electronic terminal devices are disposed; and wired cabling which electrically connects a supply port of the electrical power converter components of the first electronic housing to the electrical output ports of the second electronic housing.

2. The passenger seat arrangement according to claim 1, wherein the first electronic housing has a rail mounting adapter, and a vector of a weight force of the first electronic housing runs through the rail mounting adapter into the seat fastening rail.

3. The passenger seat arrangement according to claim 1, wherein the seat supporting frame has supporting feet for a seating surface of the at least one passenger seat.

4. The passenger seat arrangement according to claim 3, wherein the first electronic housing is fastened to a supporting foot of the seat supporting frame.

5. The passenger seat arrangement according to claim 1, wherein the electrical output ports of the second electronic housing comprise USB sockets, seat lighting ports of passenger seats, AC voltage ports and/or seat actuator ports.

6. A passenger aircraft comprising: a passenger cabin; at least one electrical energy source; and at least one passenger seat arrangement according to claim 1, the at least one seat fastening rail of which is mounted in the cabin floor of the passenger cabin, and the second electronic housing of which is respectively connected to the at least one electrical energy source via electrical supply lines running in or along the seat fastening rail.

7. The passenger aircraft according to claim 6, wherein a weight of the second electronic housing is less than 3% of a weight of the seat assembly.

8. The passenger aircraft according to claim 6, wherein the seat fastening rail runs in the cabin floor along a longitudinal axis of the passenger aircraft.

9. The passenger aircraft according to claim 6, wherein the passenger seat arrangement has at least two passenger seats arranged beside one another.

10. The passenger aircraft according to claim 9, wherein a seat fastening rail in the cabin floor is assigned to each of the at least two passenger seats arranged beside one another, and wherein the passenger seat arrangement has at least two separate first electronic housings in each of which electronic power converter components are arranged and which are mounted on different ones of the seat fastening rails assigned to the at least two passenger seats arranged beside one another.

11. The passenger aircraft according to claim 6, wherein the at least one first electronic housing has openings for passive air cooling of the electrical power converter components therein.

12. A method for supplying energy to a passenger seat arrangement in a passenger aircraft, the method comprising: mounting a passenger seat assembly having at least one passenger seat and a seat supporting frame on at least one seat fastening rail which is installed in a cabin floor of the passenger aircraft; mounting a first electronic housing, in which electrical power converter components are arranged, on the at least one seat fastening rail; mounting a second electronic housing, which comprises electrical output ports for connecting electronic terminal devices, on the passenger seat assembly; and electrically connecting a supply port of the electrical power converter components of the first electronic housing to the electrical output ports of the second electronic housing via wired cabling.

13. The method according to claim 12, wherein a weight of the second electronic housing is less than 3% of a weight of the passenger seat assembly.

14. The method according to claim 12, wherein the seat supporting frame has supporting feet for a seating surface of the at least one passenger seat, and the mounting of the first electronic housing also comprises fastening the first electronic housing to a supporting foot of the seat supporting frame.

15. The method according to claim 12, wherein the first electronic housing has a rail mounting adapter, and a vector of a weight force of the first electronic housing runs through the rail mounting adapter into the seat fastening rail.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] The disclosure herein will be discussed in more detail below on the basis of the example embodiments shown in the schematic figures. In the figures:

[0030] FIG. 1 shows a side view of a schematic illustration of a passenger seat arrangement for a passenger aircraft according to one embodiment of the disclosure herein;

[0031] FIG. 2 shows a rear view of a schematic illustration of a passenger seat arrangement for a passenger aircraft according to one embodiment of the disclosure herein;

[0032] FIG. 3 shows a schematic illustration of an aircraft having a passenger seat arrangement according to FIG. 1 or 2 according to a further embodiment of the disclosure herein; and

[0033] FIG. 4 shows a schematic flowchart of the steps of a method for supplying energy to a passenger seat arrangement for a passenger aircraft according to a further embodiment of the disclosure herein.

[0034] The appended figures are intended to provide improved understanding of the embodiments of the disclosure herein. They illustrate embodiments and serve, in conjunction with the description, for the explanation of principles and concepts of the disclosure herein. Other embodiments, and many of the stated advantages, will emerge with regard to the drawings. The elements of the drawings are not necessarily shown true to scale relative to one another. Direction-indicating terminology such as, for instance, “top”, “bottom” “left”, “right”, “above” “below”, “horizontal”, “vertical”, “front”, “rear” and similar indications are used only for explanatory purposes and do not serve to restrict the generality to specific configurations as shown in the figures.

[0035] In the figures of the drawing, elements, features and components that are identical, functionally identical and of identical action are denoted in each case by the same reference signs unless stated otherwise.

DETAILED DESCRIPTION

[0036] Personal electronic devices (PEDs) in the context of this disclosure herein comprise all electronic devices that may be used for entertainment, communication and/or for office use. For example, PEDs can comprise all types of terminal devices, such as laptops, mobile telephones, smartphones, handheld devices, palmtops, tablet PCs, GPS devices, navigation devices, audio devices such as MP3 players, portable DVD or Blu-ray® players or digital cameras.

[0037] Passenger seats in the context of this disclosure herein may comprise any form of structural component parts of a vehicle that are intended to seat a passenger for the duration of the journey using the vehicle. In particular, passenger seats in aircraft may be used personally and at least temporarily exclusively by the aircraft passenger of the aircraft during the flight. Seats or passenger seats in the context of the disclosure herein may be aircraft seats divided into seat assemblies, but also loungers, armchairs, beds, suites of first class or business class or similar seating furniture within an aircraft.

[0038] Power converter components in the context of the disclosure herein are all circuits and devices that may be used to convert an infed type of electric current—direct current or alternating current—to the other respectively or to change characteristic parameters such as the voltage and frequency of an infed type of electric current. Power converter components may comprise power converters, for example. Such power converters may comprise rectifiers for converting alternating current to direct current, inverters for converting direct current to alternating current, converters for converting one type of alternating current to another or DC voltage converters for converting one type of direct current to another. Power converter components in the context of the disclosure herein may be implemented with the aid of analogue components such as resistors, inductances and capacitors and/or electronic components based on semiconductors, for example diodes, transistors or thyristors.

[0039] FIG. 1 shows a side view of a passenger seat arrangement 100 in a schematic structure. FIG. 2 shows a corresponding rear view of the passenger seat arrangement 100. The passenger seat arrangement 100 may have, for example, a seat assembly 10 in a passenger aircraft, for instance the aircraft A illustrated schematically in FIG. 3. In this case, a passenger aircraft A may comprise various seat assemblies which are fixedly or firmly mounted in a passenger cabin via one or more seat fastening rails 20 running in the passenger cabin floor.

[0040] The seat assembly 10 may have one or more passenger seats which have, for example, a seating surface 1 and a backrest 2 articulated to the seating surface 1. In this case, the passenger seats may be arranged, for example, beside one another, that is to say with laterally adjoining seating surfaces, with the result that a plurality of passengers may each occupy one passenger seat in the seat assembly 10 at the same time.

[0041] Furthermore, the seat assembly 10 may have a seat supporting frame having front supporting feet 3 and rear supporting feet 4 which support and bear the seating surface 1. The seat assembly 10 can be mounted on one or more seat fastening rails 20 in the passenger cabin via the seat supporting frame. In this case, the seat fastening rails 20 may have, for example, a direction in the cabin floor along the longitudinal axis of the passenger aircraft A and, in particular, may run parallel to one another in the case of a plurality of seat fastening rails 20.

[0042] Electrical supply lines which can be used to electrically connect the electrical energy sources on board the passenger aircraft A to energy supply systems assigned to respective seat assemblies 10 and to supply them with electrical energy may run in or along the seat fastening rails 20.

[0043] In this case, each passenger seat arrangement 100 in a passenger aircraft A may have, for example, a separate energy supply system locally mounted in the passenger aircraft A. In this case, the energy supply systems have a modular construction: A basic module of the respective energy supply system can be mounted on one of the seat fastening rails 20, while an associated peripheral module of the energy supply system is mounted on the seat assembly 10 at a suitable position that is suitable for connecting electrical consumers. The energy supply systems may be supplied by one or more electrical energy sources (not explicitly illustrated) in the passenger aircraft A.

[0044] The electrical energy sources may have, for example, one or more AC voltage sources, for example generators—in particular engine generators or generators of ram air turbines. Alternatively or additionally, the electrical energy sources may comprise, for example, DC voltage sources, for instance photovoltaic installations or fuel cells. The electrical energy sources may be electrically coupled to the respective basic modules of the energy supply systems via electrical supply lines which run in or along the seat fastening rails 20.

[0045] The energy supply systems may be designed, for example, to supply permanently installed electrical consumers, for instance displays of an on-board entertainment system on board a passenger aircraft, seat lighting systems of passenger seats, seat actuators or the like, as well as temporarily connected electrical consumers, for example PEDs, power banks or similar consumers, which are each assigned to a seat of the passenger seat arrangement 100 and are provided for use by a passenger booked on the respective seat for the duration of a journey.

[0046] As illustrated in FIGS. 1 and 2, the electrical energy supply system has a modular construction such that the basic module has a first electronic housing 5 in which electrical power converter components are arranged. The first electronic housing 5 comprises a rail mounting adapter 9, with the aid of which the first electronic housing 5 is installed on or at at least one of the seat fastening rails 20. The horizontal course of the seat fastening rails 20 means that the first electronic housing 5 is upright on the cabin floor and the vector of the weight force of the first electronic housing 5 runs through the rail mounting adapter 9 into the seat fastening rail 20 during normal operation of the passenger aircraft A. This increases the mechanical stability of the mounting position of the first electronic housing 5 on the seat fastening rail 20, with the result that particularly powerful and therefore rather heavy power converter components can also be arranged inside the first electronic housing 5.

[0047] In order to further improve the mechanical stability of the first electronic housing 5, the first electronic housing 5 can be mounted on or at the seat fastening rail 20 at a position which is in the vicinity of one of the supporting feet 4 of the seat supporting frame of the seat assembly 10. In this case, the first electronic housing 5 can be fastened to the supporting foot of the seat supporting frame via suitable mechanical connectors, for instance screws, bolts or rivets. In particular in the case of heavy power converter components which are installed in the first electronic housing 5, the basic module of the electrical energy supply system can be secured in an even better way in this manner.

[0048] A peripheral module of the electrical energy supply system is accommodated in a second electronic housing 8 which is separated from the first electronic housing 5. The first electronic housing 5 may have a supply port 6 which can be used to electrically connect one or more second electronic housings 8 via electrical supply lines 7 in the form of wired cabling. As a result of the separation between the first and second electronic housings 5 and 8 in the basic module and the peripheral module, respectively, the second electronic housings 8 can be placed on the seat assembly 10 according to ergonomic aspects. In addition, rather lightweight components of the electrical energy supply system may be accommodated in the second electronic housing 8, with the result that the weight of the second electronic housing 8, together with the components accommodated therein, is less than 3% of the weight of the seat assembly 10. This advantageously makes it possible to avoid the requirement for recertification of the seat assembly 10 on account of an excessive change in the overall weight, whether through retrofitting an electrical energy supply system or other future electrical components.

[0049] The second electronic housing 8 has electrical output ports for connecting electronic terminal devices, for example PEDs of passengers. The electrical output ports may comprise, for example, USB sockets, seat lighting ports of passenger seats, AC voltage ports and/or seat actuator ports. The supply port 6 of the electrical power converter components of the first electronic housing 5 is electrically connected to the electrical output ports of the second electronic housing 8 via the wired cabling 7.

[0050] The electrical output interfaces in the second electronic housing 8 may be, in particular, USB interfaces which operate according to the USB power delivery and/or the USB battery charging specification. Electrical consumers that are connected to the USB interfaces, for example PEDs of passengers of a passenger aircraft A, may accordingly obtain electrical power from the energy supply system.

[0051] The first electronic housing 5 may have openings for passive air cooling of the electrical power converter components arranged therein. Alternatively or additionally, it may also be possible to actively cool the electrical power converter components inside the first electronic housing 5 by a suitable cooling system.

[0052] FIG. 4 shows a flowchart of method steps of a method M for supplying energy to a passenger seat arrangement in a passenger aircraft, for example the passenger seat arrangement 100 explained and shown in connection with FIGS. 1 and 2. The method M may be carried out, in particular, in a passenger aircraft A having passenger seat arrangements 100 as explained in connection with FIG. 3.

[0053] In a first step M1, a passenger seat assembly 10 having at least one passenger seat and a seat supporting frame is first of all mounted on at least one seat fastening rail 20 which is installed in a cabin floor of the passenger aircraft A. In a second step M2, a first electronic housing 5, in which electrical power converter components are arranged, is then mounted on the at least one seat fastening rail 20. The first electronic housing 5 may have, for example, a rail mounting adapter 9, and a vector of the weight force of the first electronic housing 5 may run through the rail mounting adapter 9 into the seat fastening rail 20.

[0054] This first electronic housing 5 is used as a basic module of an electrical energy supply system for the passenger seat assembly 10. The seat supporting frame may have, for example, supporting feet for a seating surface 1 of the at least one passenger seat, with the result that the first electronic housing 5 may be fastened to a supporting foot 4 of the seat supporting frame during mounting in step M2.

[0055] In a third step M3, a second electronic housing 8, in which electrical output ports for connecting electronic terminal devices are arranged, is mounted on the passenger seat assembly 10. This second electronic housing 8 is separate from the first electronic housing 5 and is used as a peripheral module of the electrical energy supply system for the passenger seat assembly 10. The weight of the second electronic housing 8 and of the electrical and electronic components accommodated therein may here be less than 3% of the weight of the passenger seat assembly 10, thus advantageously making it possible to avoid the requirement for recertification of the passenger seat assembly 10 on account of an excessive change in the overall weight as a result of retrofitting an electrical energy supply system.

[0056] Finally, in a fourth step M4, a supply port 6 of the electrical power converter components of the first electronic housing 5 is electrically connected to the electrical output ports of the second electronic housing 8 via wired cabling 7.

[0057] In order to improve the stringency of the representation, various features were combined in one or more examples in the detailed description above. However, it should be clear in this case that the description above is only of an illustrative and in no way restrictive nature. It is used to cover all alternatives, modifications and equivalents of the various features and example embodiments. Many other examples will be immediately and directly clear to a person skilled in the art on the basis of his technical knowledge in view of the description above.

[0058] The example embodiments were chosen and described in order to be able to represent the principles on which the disclosure herein is based and their possible uses in practice in the best possible manner. As a result, experts may optimally modify and use the disclosure herein and its various example embodiments for the intended purpose. In the claims and the description, the terms “containing” and “having” are used as neutral concepts for the corresponding term “comprising”. Furthermore, use of the terms “a”, “an” and “one” is not intended to fundamentally exclude a plurality of features and components described in such a way.

[0059] While at least one example embodiment of the present invention(s) is disclosed herein, it should be understood that modifications, substitutions and alternatives may be apparent to one of ordinary skill in the art and can be made without departing from the scope of this disclosure. This disclosure is intended to cover any adaptations or variations of the example embodiment(s). In addition, in this disclosure, the terms “comprise” or “comprising” do not exclude other elements or steps, the terms “a”, “an” or “one” do not exclude a plural number, and the term “or” means either or both. Furthermore, characteristics or steps which have been described may also be used in combination with other characteristics or steps and in any order unless the disclosure or context suggests otherwise. This disclosure hereby incorporates by reference the complete disclosure of any patent or application from which it claims benefit or priority.