Method of equipments integration for a complex electrical centre and module of implementation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02B-001/26
H05K-007/20
H05K-007/14
H02G-003/00
출원번호
US-0449390
(2012-04-18)
등록번호
US-8810999
(2014-08-19)
우선권정보
FR-11 53475 (2011-04-21)
발명자
/ 주소
Guering, Bernard
출원인 / 주소
Airbus Operations (SAS)
대리인 / 주소
Wood, Herron & Evans, LLP
인용정보
피인용 횟수 :
2인용 특허 :
8
초록▼
An integration method and module aims at simplifying the electrical connections between equipment and an electrical power center to be supplied electricity, while enabling a good accessibility of each piece of equipment for easier maintenance. To do so, a particular integration of this equipment is
An integration method and module aims at simplifying the electrical connections between equipment and an electrical power center to be supplied electricity, while enabling a good accessibility of each piece of equipment for easier maintenance. To do so, a particular integration of this equipment is carried out so as to be able to connect the equipment in a direct extension of the electrical power center. According to one embodiment, an integration module includes a frame and a cover, the frame having a substantially parallelepipedic shape adapted to be able to extend longitudinally along a main axis in parallel with a longitudinal main side of the electrical power center. Cells, which define a constant cross section and an adjustable width enabled by movable intermediary walls, extend perpendicularly to the main longitudinal axis. Such cells are adapted to receive formatted electrical equipment.
대표청구항▼
1. An integration method for a plurality of pieces of equipment being dedicated to a power supply of an electrical power centre for a structure to be electrically supplied, each piece of equipment in the plurality of equipment being associated with one predetermined area of the electrical power cent
1. An integration method for a plurality of pieces of equipment being dedicated to a power supply of an electrical power centre for a structure to be electrically supplied, each piece of equipment in the plurality of equipment being associated with one predetermined area of the electrical power centre, the method comprising: formatting the plurality of equipment so as to be able to integrate the plurality of equipment in alignment along the electrical power centre; andinserting the plurality of equipment into cells defined in a module that is separate from the electrical power centre and serves as an extension of the electrical power centre, and connecting the plurality of equipment in linear alignment within the module such that the plurality of equipment and the electrical power centre are automatically coupled electrically upon insertion via an electrical connection extending therebetween, the electrical connection defined at least in part by connectors on the plurality of equipment interfacing with stationary electric connectors in the cells of the module when the plurality of equipment are completely inserted into the cells of the module. 2. The integration method according to claim 1, further comprising: integrating inter-power centre crossing connections within the module when the structure to be electrically supplied comprises at least two electrical power centres, one of the at least two electrical power centres is the electrical power centre, each of the at least two electrical power centres is separate from the module. 3. The integration method according to claim 1, wherein formatting the plurality of equipment further includes shaping each of the plurality of equipment so as to define a parallelepipedic shape of a determined section and a varying width. 4. The integration method according to claim 1, further comprising: splitting at least one of the pieces of equipment so as to allow the split piece of equipment to be homogenously distributed for transportation and optimized maintenance, wherein an overall power of the split piece of equipment is recovered through a series or parallel connection provided at an outlet connection of the module. 5. The integration method according to claim 1, further comprising: segregating electrical control and power connections at the module. 6. The integration method according to claim 1, further comprising: providing a forced fluidic cooling circulation with an interface located in the module for communication between the plurality of equipment and an external circuit. 7. The integration method according to claim 1, further comprising: providing a thermal insulation at the module so as to insulate individually the plurality of equipment. 8. An electrical power integration module for use with an electrical power centre for a structure to be electrically supplied, the electrical power centre being separate from the module such that the module serves as an extension of the electric power centre, and the module comprising: a frame having a substantially parallelepipedic shape adapted to be able to extend longitudinally along a main axis in parallel with a longitudinal main side of the electrical power centre;a cover hinged in connection to an upper part of the frame in operation; andintermediary movable dividing walls located in the frame,wherein the frame and the cover collectively define a plurality of aligned cells of a constant cross section extending perpendicularly to the main axis and of a width to be adjusted along said main axis by the intermediary movable dividing walls, andwherein each of the cells receives one of a plurality of pieces of equipment being that are formatted in cross section to match the constant cross section of the cells, each of the cells further comprising stationary electrical connectors coupled to dedicated harnesses to provide an electrical interface between connectors on the plurality of equipment and the electrical power centre. 9. The integration module according to claim 8, wherein the stationary electrical connectors of the cells are fastened on a bottom part of the cells and are automatically connected to the connectors of the plurality of equipment immediately upon complete insertion of the plurality of equipment into the cells. 10. The integration module according to claim 8, further comprising: a module cooling circuit generating forced cooling fluid circulation; anda cooling interface configured to communicate cooling fluid between the module cooling circuit and the plurality of equipment to thereby provide cooling to the plurality of equipment. 11. The integration module according to claim 10, wherein the module cooling circuit further includes performs a go pipe, connected to the intermediary movable dividing walls by go side channels, and a return pipe coupled to return side channels connected to the intermediary movable dividing walls, wherein ends of internal cooling circuits provided within the plurality of equipment are arranged to become fluidicly coupled with the intermediary movable dividing walls and the go side channels and the return side channels during mounting of the plurality of equipment into the aligned cells defined by the intermediary movable dividing walls. 12. The integration module according to claim 8, wherein the intermediary movable dividing walls further comprise: a thermal insulator for the pieces of equipment being inserted into adjacent cells of the plurality of aligned cells. 13. The integration module according to claim 8, wherein the frame and the intermediary dividing walls are perforated according to a trellis structure. 14. The integration module according to claim 8, wherein the frame and the cover collectively define a closed volume in a closed, locking position of the cover. 15. The integration module according to claim 8, wherein the cover is adapted to be able to be locally substituted for a cargo compartment floor resting in a primary sub-structure on a floor support framework when in a closed, locking position, such that the frame and intermediary dividing walls are located below the cargo compartment floor. 16. The integration module according to claim 8, wherein the frame is rigidly fastened in at least four points on a primary sub-structure on a floor support framework by fasteners and is laterally blocked by connecting rods extending from the electrical power centre.
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이 특허에 인용된 특허 (8)
Bernier, Alan T., Aircraft electrical power distribution network.
Jourdan, Jean-Marie; Betelle, Jean; Bougon, Philippe M. M., System for producing and distributing electrical energy for vehicles particularly aircraft, as well as an electrical power center for such a system.
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