EP3568559B1 - Telescoping aircraft panel door - Google Patents
Telescoping aircraft panel door Download PDFInfo
- Publication number
- EP3568559B1 EP3568559B1 EP18702021.9A EP18702021A EP3568559B1 EP 3568559 B1 EP3568559 B1 EP 3568559B1 EP 18702021 A EP18702021 A EP 18702021A EP 3568559 B1 EP3568559 B1 EP 3568559B1
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- EP
- European Patent Office
- Prior art keywords
- panel
- door
- telescoping
- linkage
- door frame
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000009434 installation Methods 0.000 claims 1
- 230000007246 mechanism Effects 0.000 description 10
- 239000010813 municipal solid waste Substances 0.000 description 9
- 230000007704 transition Effects 0.000 description 3
- 230000009471 action Effects 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 230000009977 dual effect Effects 0.000 description 1
- 238000005286 illumination Methods 0.000 description 1
- 238000005192 partition Methods 0.000 description 1
- 238000005096 rolling process Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Images
Classifications
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05F—DEVICES FOR MOVING WINGS INTO OPEN OR CLOSED POSITION; CHECKS FOR WINGS; WING FITTINGS NOT OTHERWISE PROVIDED FOR, CONCERNED WITH THE FUNCTIONING OF THE WING
- E05F17/00—Special devices for shifting a plurality of wings operated simultaneously
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05D—HINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
- E05D15/00—Suspension arrangements for wings
- E05D15/16—Suspension arrangements for wings for wings sliding vertically more or less in their own plane
- E05D15/22—Suspension arrangements for wings for wings sliding vertically more or less in their own plane allowing an additional movement
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05D—HINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
- E05D15/00—Suspension arrangements for wings
- E05D15/56—Suspension arrangements for wings with successive different movements
- E05D15/58—Suspension arrangements for wings with successive different movements with both swinging and sliding movements
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05D—HINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
- E05D15/00—Suspension arrangements for wings
- E05D15/56—Suspension arrangements for wings with successive different movements
- E05D15/58—Suspension arrangements for wings with successive different movements with both swinging and sliding movements
- E05D2015/585—Suspension arrangements for wings with successive different movements with both swinging and sliding movements with stationary hinge parts
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05Y—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
- E05Y2800/00—Details, accessories and auxiliary operations not otherwise provided for
- E05Y2800/10—Additional functions
- E05Y2800/122—Telescopic action
Definitions
- the present disclosure relates to a panel door for an aircraft.
- the interior of a commercial aircraft typically includes several compartments, such as crew changing quarters, lavatories, galleys, and the like.
- ingress and egress of these compartments are typically through a door or panel that functions as a partition between compartments by walling off the compartment when the door is in a closed position.
- Doors of this type include both sliding doors and swinging doors.
- Each of these types of doors have inherent drawbacks. Namely, swinging or hinged doors occupy a large amount of cross-aisle space when the door is open and the design of the aircraft must account for the free space needed to accommodate the arc of the door as it transitions open. Conversely, sliding doors occupy twice the depth space to achieve the same closure area.
- WO2016/007663 discloses the preamble portion of claim 1. According to the present invention, such a door system is characterised by the characterising features of claim 1.
- a translating door 10 that can be a door in an aircraft, vessel, or other vehicle is disclosed.
- the translating door 10 includes at least two panels with a first panel 12 connected to door frame 14 via a hinge or set of hinges, such as the piano hinge 16, and a second panel 18 that is slidingly engaged with the first panel 12 and extends therefrom.
- the first panel 12 may be attached to the frame 14 in a pivoting arrangement and a width of the first panel 12 can span substantially half of a width of a doorway, such as doorway to an entrance for an aircraft lavatory.
- a handle or release lever 20 may be provided in the first panel 12 to assist in opening and closing the door 10.
- the first panel 12 may also be provided with at least one horizontal groove or slot 22, 24 (two, as illustrated), as set forth more fully below.
- the operation of the first panel 12 is relatively simple, swinging about a fixed point on a hinge or hinges 16 between an open position and a closed position. In the closed position, the first panel 12 is substantially in-line with the doorway.
- the first panel 12 may occupy approximately one half of a door frame area, and the second panel 18 may also occupy approximately one half of the door frame area.
- the second panel 18 of the translating door 10 in some embodiments, is attached to the first panel 12 through a wheel 23 and slot arrangement where the wheels are captured on tracks in the horizontal slots 22, 24 or grooves, such that the second panel 18 is carried by the wheels 24 to move relative to the first panel 12 in a sliding or translating relationship such that the second panel 18 slides along a surface on one side of the first panel 12 as the door 10 is opened or closed.
- the wheels 23 of the second panel 18, in other embodiments are replaced with other structures that allow the second panel 18 to glide or extend outward from the first panel 12 without undue friction or resistance, such as drawer slides.
- the second panel 18 is sized to be approximately the same width as the first panel 12, when fully extended away from the first panel 12 (in the direction away from the hinged connection on the first panel) the second panel 18 will cooperate with the first panel 12 to completely cover and occlude the door frame 14 in a reliable manner. That is, the first and second panels 12,18 have a combined width that when fully extended fill the doorway when the door 10 is closed by virtue of the full extension of the second panel 18 along and within the horizontal grooves or slots 22,24 of the first panel 12.
- the second panel 18 is connected along an upper edge 26 to the door frame 14 by a linkage 28 such as a rigid bar.
- the linkage 28 may be fixed at a first end 30 to the second panel 18 at an inner edge 32 that is closest to the piano hinge 16, and may be fixed at a second end 34 in a pivoting connection to the door frame 14 at approximately one quarter of a distance between sides of the door frame 14, closest to a side 36 with the hinge that connects to the first panel 12 (See FIGs. 2A-2E ).
- the linkage 28 is replaced by a flexible linkage or spring(s).
- the linkage 28 is replaced with a retractable chain.
- FIGs. 2A-2E show a sequence of the two panels 12, 18 as the door 10 transitions from fully closed in FIG. 2A to fully open in FIG. 2E .
- the translating door 10 is fully closed and lies in a plane of the doorway.
- a depth (or thickness) of the door 10 corresponds to a thickness of a single panel for an entire length of the door 10 except for where the two panels 12, 18 are joined together, creating space on both sides of the door itself.
- FIG. 2B shows the door 10 as slightly ajar as the door 10 begins to open.
- the first panel 12 is hinged to the door frame 14 at hinge 16 and moves in a predictable arc about the hinged connection.
- the second panel 18 is prevented from following the same arc due to a fixed connection of the inner edge 32 with the door frame via the linkage 28.
- the second panel 18 is retracted or constrained along a surface on one side of the first panel 12 within the horizontal grooves or slots 22, 24, and the door "shortens" in length as a result.
- the door 10 is approximately halfway open and the second panel 18 is further withdrawn or retracted past the first panel 12 as the door continues to shorten, and an amount of overlap between the first panel 12 and the second panel 18 increases.
- the fixed connection of the linkage 28 at the second panel 18 pulls the second panel along the first panel 12 such that a combined width (negating overlap) of the first and second panels 12, 18 is effectively halved when the door 10 reaches a fully opened position ( FIG. 2E ).
- the first panel 12 is opened more than halfway, and the second panel 18 has almost completely moved in alignment with the first panel such that a width of the door 10 is significantly reduced.
- the linkage 28 has retracted the second panel 18 into complete alignment with the first panel 12 such that a width of the second panel 18 completely overlaps a width of the first panel 12.
- the width of the door 10 now coincides with the width of the first panel 12 as the second panel 18 is hidden behind the first panel 12.
- the translating door 10 of the present disclosure extends only approximately halfway into the lavatory when fully opened as compared with a traditional door, yielding greater mobility and comfort to the occupant without any loss of function.
- FIG. 3 illustrates a perspective view of the first and second panels 12,18 in the closed (extended) position.
- the horizontal slot 22 in the first panel is shown, and the wheel 23 or other engagement mechanism is shown in shadow that couple the two panels 12,18 together.
- a pivoting extension 50 such as a coat hook, can be positioned just adjacent an edge of the second panel 18.
- the extension 50 is a lever that can pivot horizontally or vertically as the second panel 18 slides back and forth along a surface on one side of the first panel 12 as the door 10 is opened and closed.
- extension 50 when the extension 50 is pivoted out of a plane of the first panel 12, the second panel 18 is blocked from sliding across a surface of the first panel 12 by interference of the extension 50.
- a reliable and efficient locking mechanism can be formed from the extension 50, which can also function as a dual purpose coat hook or the like.
- FIG. 4 illustrates the linkage 28 between the second panel 18 and the door frame 14.
- the linkage 28 connects the second panel 18 at a top edge 26 with a pin or other mechanical arrangement that allows for rotation of the linkage 28 about the connection so that the linkage 28 can track the second panel 18 as the linkage 28 rotates around the primary hinge 16.
- the bar, rod, or other structure that forms the linkage 28 is connected to the door frame 14 or an immediate adjacent location by a similar pivoting coupling that allows for the linkage 28 to swivel at the fixed location.
- the linkage 28 limits the travel of the second panel 18 from the fixed connection point of the bar, thereby causing the second panel 18 to slide along the horizontal grooves 22, 24 from an extended position to a retracted position as the first panel 12 swings in an arc away from the fixed connection point. In this manner, the width of the door 10 automatically shortens to (roughly) half of its extended length when in the fully open position.
- the horizontal grooves or slots 22, 24 on the first panel 12 establish tracks or raceways that permit a smooth rolling or sliding motion across their surfaces, so that the second panel 18 can move easily and freely along the first panel. This is particularly important where there is only one linkage 28 maneuvering the second panel 18 at the top 26 of the door 10, because friction or sticking of the track will cause issues with torqueing or twisting of the panels with a resultant loss of effectiveness.
- the frame 14, linkage 28, and other associated components are associated with an upper door frame, but it can also be understood that the frame 14 and linkage can also be part of a lower door frame or both an upper door frame and a lower door frame.
- the result is a two panel door for an aircraft compartment that has a first panel hingedly connected to a door frame, the first panel having a width of approximately half of a door frame to which it is mounted, and a second panel mounted on the first panel for sliding translation thereon, the second panel extending parallel to the first panel in a sliding arrangement.
- the first panel is coupled to the door frame via a hinge and the second panel is coupled to the door frame via a linkage, the linkage fixing a distance that the second panel can extend from the door frame as the first panel swings about its hinged connection is a circular arc.
- the two panel door operates such that the ends of the panels 60,32 are adjacent in the closed configuration and the faces 62,64 of the panels 12, 18 are adjacent to each other in the open configuration.
- the translating door can be used in applications where door strength is an important factor, such as in the case of aircraft lavatory doors.
- the aircraft panel door can also be a telescoping door 500 where a second panel 506 slides into and out of a hollow portion 510 of a first panel 504 as the telescoping door 500 is opened and closed.
- the telescoping door 500 operates in a substantially similar way as the translating door 10 described previously.
- FIG. 5 provides an illustration of telescoping operations of the door 500 and can also include other components described previously with respect to the translating door 10, such as a door frame, release lever, pivoting extension, etc.
- the telescoping door 500 can be used in applications where a thickness of a door aperture is limited, such as in the case of galley doors in an aircraft due to the fact that a thickness of an overlapping portion 508 of the door 500 does not increase as the second panel 506 slides into and out of the cavity 510 of the first panel 504 as the door 500 moves between open and closed positions.
- the first panel 504 of the door 500 is connected to a frame (not shown) via a hinge 502 or set of hinges.
- the hinge 502 can be a piano hinge such as with the hinge 16 described previously or can be a garage hinge or simple pivoting door.
- the door 500 can be vertical swinging or horizontal swinging based on a function and location of the door 500. For example, for a storage compartment in a forward galley of an aircraft, the door 500 may swing vertically, and the hinge 502 is located above or below the first panel 504 between a horizontal surface of the first panel 504 and the door frame when the door 500 is in a closed position.
- the door 500 may swing horizontally, and the hinge 502 is between a vertical surface of the first panel 504 and the door frame on a left side or right side of the first panel 504 based on a direction the door 500 rotates as the door is opened or closed.
- the first panel 504 operates by swinging about a fixed point on the hinge 502 between an open position and a closed position. In the closed position, the first panel 504 is substantially in-line with the doorway where the first panel 504 occupies approximately one half of a door frame area, and the second panel 506 also occupies approximately one half of the door frame area.
- the second panel 506 of the telescoping door 500 can also be attached to the first panel 504 through a guiding mechanism such as a wheel and slot arrangement where the wheels are captured on tracks in the horizontal slots or grooves, such that the second panel 506 is carried by the wheels to move relative to the first panel 504 in a sliding or telescoping relationship such that the second panel 506 slides along one or both inner surfaces of the first panel 504 as the door 500 is opened or closed.
- the wheels of the second panel 506 can be replaced with other structures that allow the second panel 506 to glide or extend outward or inward within the first panel 504 without undue friction or resistance, such as drawer slides.
- the second panel 506 slides freely within the hollow portion 510 of the first panel 504 without any type of guiding mechanism.
- the second panel 506 is sized to be approximately the same width as the first panel 504, when fully extended away from the first panel 504 (in the direction away from the hinged connection on the first panel), the second panel 506 cooperates with the first panel 504 to completely cover and occlude the door frame in a reliable manner. That is, the first and second panels 504, 506 have a combined width that when fully extended close the doorway when the door 500 is closed by virtue of the full extension of the second panel 506 from the first panel 504. As the door 500 is moved from a closed position to an open position, the second panel 506 is withdrawn into the hollow portion 510 of the first panel 504, as indicated by the overlapping portion 508.
- the width of the second panel 506 is substantially withdrawn into the hollow portion 510 of the first panel 504 so that the second panel 506 is enclosed within the hollow portion 510 of the first panel 504.
- one or more inner surfaces of the first panel 504 are adjacent to one or more exterior surfaces of the second panel 506.
- a thickness of the second panel 506 is less than a thickness of the first panel 504 to facilitate the extension and retraction of the second panel 506 within the hollow portion 510 of the first panel 504 so that the second panel 506 can move freely and easily within the hollow portion 510 of the first panel 504.
- the second panel 506 is connected along an edge to the door frame by at least one linkage such as a rigid bar or control arm (see linkage 610 in FIGs. 6B-6C ).
- the second panel 506 can be connected to the door frame by the linkage on one side or both sides of the second panel 506.
- the linkage may be fixed at a first end to the second panel 506 at an inner edge that is closest to the hinge 502, and may be fixed at a second end in a pivoting connection to the door frame at approximately one quarter of a distance between sides of the door frame, closest to a side with the hinge that connects to the first panel 506 (see FIGs. 6B-6C and 7B ).
- other types of linkages can also be used, such as retractable chains, springs, or flexible linkages that connect the second panel 506 to the door frame, as discussed above in relation to the second panel 18 of the telescoping door.
- an edge of the first panel 504 on the same side of the door 500 as the linkage includes a slot 512 or groove that extends across the width of the first panel 504 that allows the linkage to remain in contact with the second panel 506 as the second panel 506 is withdrawn into the hollow portion 510 of the first panel 504 by providing accessibility for the linkage to connect to the second panel 506 when the second panel 506 is within the hollow portion 510 of the first panel 504.
- the slot 512 and the linkage function as the guiding mechanism that allows the second panel 506 to glide or extend outward or inward within the first panel 504 without undue friction or resistance.
- the second panel 506 may include a hollow portion and be drawn to substantially cover the first panel in the open configuration, and pull away from the first panel to expose the first panel in the closed configuration.
- the linkage would work substantially the same.
- FIGs. 6A-6C show a sequence of opening a two-panel vertical swinging telescoping door 600 according to the invention from fully closed in FIG. 6A to fully open in FIG. 6C .
- the telescoping door 600 covers a compartment in a forward galley of an aircraft and includes a first panel 602 and a second panel 604, which are implementations of the first and second panels 504 and 506 described previously.
- the telescoping door 600 is fully closed and lies in a plane of the doorway.
- a depth (or thickness) of the door 600 corresponds to an approximate thickness of a single panel for an entire length of the door 600 except that a thickness of the second panel 604 is slightly less than a thickness of the first panel 602 to facilitate the extension and retraction of the second panel 604 within a hollow portion of the first panel 602 so that the second panel 604 can move freely and easily within the hollow portion of the first panel 602.
- the second panel 604 of the door 600 can be secured in the closed position by latches 606 or any other type of locking or latching mechanism.
- the first panel 602 retracts completely from the second pane 604 such that an edge of the second panel 604 closest to the first panel 602 aligns with an edge of the first panel 602.
- the low friction guiding mechanism e.g., slot and wheel, drawer slide, etc.
- the first panel 602 partially overlaps the second panel 604 when in the fully extended position.
- the first panel 602 is hinged to the door frame 624 at hinge 608 and moves in a predictable arc about the hinged connection as the door is opened and closed.
- the second panel 604 is prevented from following the same arc due to a fixed connection of an inner edge with the door frame 624 via the linkage 610.
- the second panel 604 is retracted or withdrawn into the first panel 602, and the door 600 "shortens" in length as a result.
- the hinge 608 is located above the first panel 602 when the door 600 is in the closed position so that the door 600 swings in vertically upward arc when moving from the closed to the open position.
- an orientation of the vertical swinging door 600 can be reversed such that the hinge 608 is below the first panel 602, and the door 600 swings in a vertically downward arc when moving from the closed to the open position.
- the door 600 is approximately halfway open as the second panel 604 is withdrawn or retracted into the first panel 602, and an amount of overlap between the first panel 602 and the second panel 604 increases.
- a fixed connection of the linkage 610 at the second panel 604 pulls the second panel along the first panel 602 such that a combined width of the first and second panels 602, 604 is effectively halved when the door 600 reaches a fully opened position ( FIG. 6C ).
- an edge of the first panel 602 on the same side of the door 600 as the linkage 610 includes a slot 612 or groove that extends across the width of the first panel 602 which allows the linkage 310 to remain in contact with the second panel 604 as the second panel 604 is withdrawn into the hollow portion of the first panel 602.
- the slot 612 and the linkage 610 function as the guiding mechanism that allows the second panel 604 to glide or extend outward or inward within the first panel 602 without undue friction or resistance.
- the door 600 is in a fully opened position, and the linkage 610 has retracted the second panel 604 into alignment with the first panel 602 such that a width of the second panel 604 is mostly overlapped if not completely overlapped by a width of the first panel 602.
- the width of the door 600 now coincides with the width of the first panel 602 as the second panel 604 is for the most part hidden within the first panel 602.
- An edge of the second panel 604 in some embodiments, may be partially exposed (e.g., a portion attached to the linkage 610).
- the telescoping door 600 of the present disclosure extends only approximately halfway into the open galley space when fully opened as compared with a traditional door, yielding greater mobility and comfort to aircraft employees working in an around the galley without any loss of function.
- FIGs. 7A-7C show a sequence of opening a two-panel horizontal swinging telescoping door 700 according to the invention from fully closed in FIG. 7A to fully open in FIG. 7C .
- the telescoping door 700 covers a trash compartment in a forward galley of an aircraft that houses trash can, which is typically located on an outboard side of the galley in close proximity to an exit or service door. Trash is pushed through waste flap 720, and falls into a trash can 720 housed within a compartment enclosed by the telescoping door 700.
- the door 700 includes a first panel 702 and a second panel 704, which are implementations of the first and second panels 504 and 506 described previously.
- the telescoping door 700 is fully closed and lies in a plane of a doorway for the trash compartment.
- a depth (or thickness) of the door 700 corresponds to an approximate thickness of a single panel for an entire length of the door 700 except that a thickness of the second panel 704 is slightly less than a thickness of the first panel 702 to facilitate the extension and retraction of the second panel 704 within a hollow portion of the first panel 702.
- the second panel 704 of the door 700 can be secured in the closed position by latches 706 or any other type of locking or latching mechanism.
- the first panel 702 is hinged to the door frame 724 at hinge 708 and moves in a predictable arc about the hinged connection as the door is opened and closed.
- the second panel 704 is prevented from following the same arc due to a fixed connection of an inner edge with the door frame 724 via the linkage 710.
- the hinge 708 is located on one side of the first panel 702 when the door 700 is in the closed position so that the door 700 swings in a horizontal arc when moving from the closed to the open position.
- the door 700 is approximately halfway open as the door 700 moves from a closed to an open position, and an amount of overlap between the first panel 702 and the second panel 704 increases.
- a fixed connection of the linkage 710 at the second panel 704 pulls the second panel along the first panel 702 such that a combined width of the first and second panels 702, 704 is effectively halved when the door 700 reaches a fully opened position ( FIG. 7C ).
- an edge of the first panel 702 on the same side of the door 700 as the linkage 710 can include a slot 712 or groove that extends across the width of the first panel 702 which allows the linkage 710 to remain in contact with the second panel 704 as the second panel 704 is withdrawn into the hollow portion of the first panel 702.
- the slot 712 and the linkage 710 function as the guiding mechanism which allows the second panel 704 to glide or extend outward or inward within the first panel 702 without undue friction or resistance.
- the door 700 is in a fully opened position, and the linkages 710 have retracted the second panel 704 into complete alignment with the first panel 702 such that a width of the second panel 704 is substantially overlapped by a width of the first panel 702.
- the width of the door 700 now coincides with the width of the first panel 702 as the second panel 704 is hidden within the first panel 702.
- the telescoping door 700 of the present disclosure extends only approximately halfway into the open galley space when fully opened as compared with a traditional door, yielding greater mobility and comfort to aircraft employees working in an around the galley without any loss of function.
- the telescoping panel door implementations described herein can also be applied to other types of aircraft doors.
- implementing the telescoping doors for chilled galley cart compartment doors provide fewer gaps to seal and intrude less into a work area when open.
- the vertical swinging telescoping doors can be used to enclose overhead storage bins in order to reduce an amount of projection of the doors into an aisleway of an aircraft, which allows for better illumination during passenger loading and unloading due to reduced blocking of the overhead lights by the telescoping doors.
- the telescoping overhead bin doors provide more head clearance for flight crew when the doors are in an open position.
- a flight deck entry door can also be implemented as a telescoping door.
- the forward cabin on an aircraft is a very cramped compartment, and a telescoping flight deck door would provide better functionality and ease of use due to the reduced space intrusion when open while providing more security to the flight deck than a conventional bi-fold door.
- a mid-cabin closet door could also be implemented as a telescoping panel door as described previously herein.
- the result is a two panel door for an aircraft compartment that has a first panel hingedly connected to a door frame, the first panel having a width of approximately half of a door frame to which it is mounted, and a second panel mounted on the first panel for telescoping therein, the second panel extending parallel to the first panel within a hollow portion of the first panel in a sliding arrangement.
- the first panel is coupled to the door frame via a hinge and the second panel is coupled to the door frame via a linkage, the linkage fixing a distance that the second panel can extend from the door frame as the first panel swings about its hinged connection is a circular arc.
- the telescoping door can be used in applications where a thickness of a door aperture is limited, such as in the case of galley doors.
- the aircraft doors can have a curved shape, such as in the case of the overhead bin doors, and therefore the first panel and second panel also have a curved shape.
- the translating or telescoping operation of the curved first and second panels function in a substantially similar way to the telescoping or translating operation of the flat, planar-shaped doors described previously herein.
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Description
- The present disclosure relates to a panel door for an aircraft. The interior of a commercial aircraft typically includes several compartments, such as crew changing quarters, lavatories, galleys, and the like. In each case, ingress and egress of these compartments are typically through a door or panel that functions as a partition between compartments by walling off the compartment when the door is in a closed position. Doors of this type include both sliding doors and swinging doors. Each of these types of doors have inherent drawbacks. Namely, swinging or hinged doors occupy a large amount of cross-aisle space when the door is open and the design of the aircraft must account for the free space needed to accommodate the arc of the door as it transitions open. Conversely, sliding doors occupy twice the depth space to achieve the same closure area. Both of these shortcomings add unnecessary weight and/or occupy space that could be used for better purposes. Thus, there is a need for an improved door for use in an aircraft that overcomes the shortcomings of the prior art.
WO2016/007663 discloses the preamble portion of claim 1.
According to the present invention, such a door system is characterised by the characterising features of claim 1. - A more complete appreciation of the innovations and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, where:
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FIG. 1 is an elevated perspective view of an example translating panel door not forming part of the invention included for background interest only; -
FIG. 2A is a top view of the translating panel door ofFIG. 1 in an extended, closed position; -
FIG. 2B is a top view of the translating panel door ofFIG. 2A in a partially open position; -
FIG. 2C is a top view of the translating panel door ofFIG. 2A approximately halfway open; -
FIG. 2D is a top view of the translating panel door ofFIG. 2A in a substantially open position; and -
FIG. 2E is a top view of the translating panel door ofFIG. 2A in the fully open position; -
FIG. 3 is an elevated, perspective view of the first and second panels of the example translating panel door of thefigure 1 not forming part of the invention; -
FIG. 4 is a perspective view looking upward at the linkage between the second panel and the door frame of the example translating panel door of thefigure 1 not forming part of the invention; -
FIG. 5 is a top view of an example telescoping panel door according to the present invention in an extended, closed position; -
FIG. 6A is a perspective view of an example vertical swinging telescoping panel door according to the invention in an aircraft galley space in an extended, closed position; -
FIG. 6B is a perspective view of the vertical swinging telescoping panel door ofFIG. 6A in a halfway open position; -
FIG. 6C is a perspective view of the vertical swinging telescoping panel door ofFIG. 6A in a fully open position; -
FIG. 7A is a perspective view of an example horizontal swinging telescoping panel door according to the invention in an aircraft galley space in an extended, closed position; -
FIG. 7B is a perspective view of an example horizontal swinging telescoping panel door ofFIG. 7A in an aircraft galley space in a halfway open position; and -
FIG. 7C is a perspective view of the horizontal swinging telescoping panel door ofFIG. 7A in a fully open position. - Referring now to
FIG. 1 , a translatingdoor 10 that can be a door in an aircraft, vessel, or other vehicle is disclosed. The translatingdoor 10, in some embodiments, includes at least two panels with afirst panel 12 connected todoor frame 14 via a hinge or set of hinges, such as thepiano hinge 16, and asecond panel 18 that is slidingly engaged with thefirst panel 12 and extends therefrom. Thefirst panel 12 may be attached to theframe 14 in a pivoting arrangement and a width of thefirst panel 12 can span substantially half of a width of a doorway, such as doorway to an entrance for an aircraft lavatory. A handle orrelease lever 20 may be provided in thefirst panel 12 to assist in opening and closing thedoor 10. Thefirst panel 12 may also be provided with at least one horizontal groove orslot 22, 24 (two, as illustrated), as set forth more fully below. The operation of thefirst panel 12 is relatively simple, swinging about a fixed point on a hinge or hinges 16 between an open position and a closed position. In the closed position, thefirst panel 12 is substantially in-line with the doorway. Thefirst panel 12 may occupy approximately one half of a door frame area, and thesecond panel 18 may also occupy approximately one half of the door frame area.
Thesecond panel 18 of the translatingdoor 10, in some embodiments, is attached to thefirst panel 12 through awheel 23 and slot arrangement where the wheels are captured on tracks in thehorizontal slots second panel 18 is carried by thewheels 24 to move relative to thefirst panel 12 in a sliding or translating relationship such that thesecond panel 18 slides along a surface on one side of thefirst panel 12 as thedoor 10 is opened or closed. It should be noted that thewheels 23 of thesecond panel 18, in other embodiments, are replaced with other structures that allow thesecond panel 18 to glide or extend outward from thefirst panel 12 without undue friction or resistance, such as drawer slides. If thesecond panel 18 is sized to be approximately the same width as thefirst panel 12, when fully extended away from the first panel 12 (in the direction away from the hinged connection on the first panel) thesecond panel 18 will cooperate with thefirst panel 12 to completely cover and occlude thedoor frame 14 in a reliable manner. That is, the first andsecond panels door 10 is closed by virtue of the full extension of thesecond panel 18 along and within the horizontal grooves orslots first panel 12. - To extend and retract the
second panel 18 from thefirst panel 12 as discussed above, thesecond panel 18, in some implementations, is connected along anupper edge 26 to thedoor frame 14 by alinkage 28 such as a rigid bar. Thelinkage 28 may be fixed at afirst end 30 to thesecond panel 18 at aninner edge 32 that is closest to thepiano hinge 16, and may be fixed at asecond end 34 in a pivoting connection to thedoor frame 14 at approximately one quarter of a distance between sides of thedoor frame 14, closest to aside 36 with the hinge that connects to the first panel 12 (SeeFIGs. 2A-2E ). In other implementations, thelinkage 28 is replaced by a flexible linkage or spring(s). In further implementations, thelinkage 28 is replaced with a retractable chain. -
FIGs. 2A-2E show a sequence of the twopanels door 10 transitions from fully closed inFIG. 2A to fully open inFIG. 2E . InFIG. 2A , the translatingdoor 10 is fully closed and lies in a plane of the doorway. A depth (or thickness) of thedoor 10 corresponds to a thickness of a single panel for an entire length of thedoor 10 except for where the twopanels FIG. 2B shows thedoor 10 as slightly ajar as thedoor 10 begins to open. - In some embodiments, the
first panel 12 is hinged to thedoor frame 14 athinge 16 and moves in a predictable arc about the hinged connection. However, thesecond panel 18 is prevented from following the same arc due to a fixed connection of theinner edge 32 with the door frame via thelinkage 28. As a result, thesecond panel 18 is retracted or constrained along a surface on one side of thefirst panel 12 within the horizontal grooves orslots - In
FIG. 2C , thedoor 10 is approximately halfway open and thesecond panel 18 is further withdrawn or retracted past thefirst panel 12 as the door continues to shorten, and an amount of overlap between thefirst panel 12 and thesecond panel 18 increases. The fixed connection of thelinkage 28 at thesecond panel 18 pulls the second panel along thefirst panel 12 such that a combined width (negating overlap) of the first andsecond panels door 10 reaches a fully opened position (FIG. 2E ). - In
FIG. 2D , thefirst panel 12 is opened more than halfway, and thesecond panel 18 has almost completely moved in alignment with the first panel such that a width of thedoor 10 is significantly reduced. Finally, inFIG. 2E , thelinkage 28 has retracted thesecond panel 18 into complete alignment with thefirst panel 12 such that a width of thesecond panel 18 completely overlaps a width of thefirst panel 12. The width of thedoor 10 now coincides with the width of thefirst panel 12 as thesecond panel 18 is hidden behind thefirst panel 12. When used as a lavatory door, for example, the translatingdoor 10 of the present disclosure extends only approximately halfway into the lavatory when fully opened as compared with a traditional door, yielding greater mobility and comfort to the occupant without any loss of function. -
FIG. 3 illustrates a perspective view of the first andsecond panels horizontal slot 22 in the first panel is shown, and thewheel 23 or other engagement mechanism is shown in shadow that couple the twopanels extension 50, such as a coat hook, can be positioned just adjacent an edge of thesecond panel 18. When theextension 50 is seated inside thefirst panel 12, thesecond panel 18 is free to slide back and forth as shown inFIG. 2 as thedoor 10 transitions from open to closed. In some embodiments, theextension 50 is a lever that can pivot horizontally or vertically as thesecond panel 18 slides back and forth along a surface on one side of thefirst panel 12 as thedoor 10 is opened and closed. However, when theextension 50 is pivoted out of a plane of thefirst panel 12, thesecond panel 18 is blocked from sliding across a surface of thefirst panel 12 by interference of theextension 50. Thus, a reliable and efficient locking mechanism can be formed from theextension 50, which can also function as a dual purpose coat hook or the like. -
FIG. 4 illustrates thelinkage 28 between thesecond panel 18 and thedoor frame 14. Thelinkage 28 connects thesecond panel 18 at atop edge 26 with a pin or other mechanical arrangement that allows for rotation of thelinkage 28 about the connection so that thelinkage 28 can track thesecond panel 18 as thelinkage 28 rotates around theprimary hinge 16. The bar, rod, or other structure that forms thelinkage 28 is connected to thedoor frame 14 or an immediate adjacent location by a similar pivoting coupling that allows for thelinkage 28 to swivel at the fixed location. As thedoor 10 opens, thelinkage 28 limits the travel of thesecond panel 18 from the fixed connection point of the bar, thereby causing thesecond panel 18 to slide along thehorizontal grooves first panel 12 swings in an arc away from the fixed connection point. In this manner, the width of thedoor 10 automatically shortens to (roughly) half of its extended length when in the fully open position. - The horizontal grooves or
slots first panel 12 establish tracks or raceways that permit a smooth rolling or sliding motion across their surfaces, so that thesecond panel 18 can move easily and freely along the first panel. This is particularly important where there is only onelinkage 28 maneuvering thesecond panel 18 at the top 26 of thedoor 10, because friction or sticking of the track will cause issues with torqueing or twisting of the panels with a resultant loss of effectiveness. In some implementations, theframe 14,linkage 28, and other associated components are associated with an upper door frame, but it can also be understood that theframe 14 and linkage can also be part of a lower door frame or both an upper door frame and a lower door frame. - The result is a two panel door for an aircraft compartment that has a first panel hingedly connected to a door frame, the first panel having a width of approximately half of a door frame to which it is mounted, and a second panel mounted on the first panel for sliding translation thereon, the second panel extending parallel to the first panel in a sliding arrangement. The first panel is coupled to the door frame via a hinge and the second panel is coupled to the door frame via a linkage, the linkage fixing a distance that the second panel can extend from the door frame as the first panel swings about its hinged connection is a circular arc. The two panel door operates such that the ends of the
panels faces panels - Turning to
FIG. 5 , in an illustrative embodiment according to the invention, the aircraft panel door can also be atelescoping door 500 where asecond panel 506 slides into and out of ahollow portion 510 of afirst panel 504 as thetelescoping door 500 is opened and closed. Thetelescoping door 500 operates in a substantially similar way as the translatingdoor 10 described previously.FIG. 5 provides an illustration of telescoping operations of thedoor 500 and can also include other components described previously with respect to the translatingdoor 10, such as a door frame, release lever, pivoting extension, etc. In some embodiments, thetelescoping door 500 can be used in applications where a thickness of a door aperture is limited, such as in the case of galley doors in an aircraft due to the fact that a thickness of an overlappingportion 508 of thedoor 500 does not increase as thesecond panel 506 slides into and out of thecavity 510 of thefirst panel 504 as thedoor 500 moves between open and closed positions. - In some implementations, the
first panel 504 of thedoor 500 is connected to a frame (not shown) via ahinge 502 or set of hinges. Thehinge 502 can be a piano hinge such as with thehinge 16 described previously or can be a garage hinge or simple pivoting door. In some examples, thedoor 500 can be vertical swinging or horizontal swinging based on a function and location of thedoor 500. For example, for a storage compartment in a forward galley of an aircraft, thedoor 500 may swing vertically, and thehinge 502 is located above or below thefirst panel 504 between a horizontal surface of thefirst panel 504 and the door frame when thedoor 500 is in a closed position. For a trash compartment door that is typically located on an outboard side of an aircraft galley near an exit or service door, thedoor 500 may swing horizontally, and thehinge 502 is between a vertical surface of thefirst panel 504 and the door frame on a left side or right side of thefirst panel 504 based on a direction thedoor 500 rotates as the door is opened or closed. - The
first panel 504 operates by swinging about a fixed point on thehinge 502 between an open position and a closed position. In the closed position, thefirst panel 504 is substantially in-line with the doorway where thefirst panel 504 occupies approximately one half of a door frame area, and thesecond panel 506 also occupies approximately one half of the door frame area. - Just as with the translating
door 10, thesecond panel 506 of thetelescoping door 500 can also be attached to thefirst panel 504 through a guiding mechanism such as a wheel and slot arrangement where the wheels are captured on tracks in the horizontal slots or grooves, such that thesecond panel 506 is carried by the wheels to move relative to thefirst panel 504 in a sliding or telescoping relationship such that thesecond panel 506 slides along one or both inner surfaces of thefirst panel 504 as thedoor 500 is opened or closed. In other implementations, the wheels of thesecond panel 506 can be replaced with other structures that allow thesecond panel 506 to glide or extend outward or inward within thefirst panel 504 without undue friction or resistance, such as drawer slides. In some implementations, thesecond panel 506 slides freely within thehollow portion 510 of thefirst panel 504 without any type of guiding mechanism. - If the
second panel 506 is sized to be approximately the same width as thefirst panel 504, when fully extended away from the first panel 504 (in the direction away from the hinged connection on the first panel), thesecond panel 506 cooperates with thefirst panel 504 to completely cover and occlude the door frame in a reliable manner. That is, the first andsecond panels door 500 is closed by virtue of the full extension of thesecond panel 506 from thefirst panel 504. As thedoor 500 is moved from a closed position to an open position, thesecond panel 506 is withdrawn into thehollow portion 510 of thefirst panel 504, as indicated by the overlappingportion 508. In addition, when thedoor 500 is in an open position, the width of thesecond panel 506 is substantially withdrawn into thehollow portion 510 of thefirst panel 504 so that thesecond panel 506 is enclosed within thehollow portion 510 of thefirst panel 504. For example, in the open position, one or more inner surfaces of thefirst panel 504 are adjacent to one or more exterior surfaces of thesecond panel 506. In addition, a thickness of thesecond panel 506 is less than a thickness of thefirst panel 504 to facilitate the extension and retraction of thesecond panel 506 within thehollow portion 510 of thefirst panel 504 so that thesecond panel 506 can move freely and easily within thehollow portion 510 of thefirst panel 504. - Like the translating
door 10, to extend and retract thesecond panel 506 from thefirst panel 504 of thetelescoping door 500 as discussed above, thesecond panel 506 is connected along an edge to the door frame by at least one linkage such as a rigid bar or control arm (seelinkage 610 inFIGs. 6B-6C ). In some implementations, thesecond panel 506 can be connected to the door frame by the linkage on one side or both sides of thesecond panel 506. The linkage may be fixed at a first end to thesecond panel 506 at an inner edge that is closest to thehinge 502, and may be fixed at a second end in a pivoting connection to the door frame at approximately one quarter of a distance between sides of the door frame, closest to a side with the hinge that connects to the first panel 506 (seeFIGs. 6B-6C and7B ). In some implementations, other types of linkages can also be used, such as retractable chains, springs, or flexible linkages that connect thesecond panel 506 to the door frame, as discussed above in relation to thesecond panel 18 of the telescoping door. In some implementations, an edge of thefirst panel 504 on the same side of thedoor 500 as the linkage includes aslot 512 or groove that extends across the width of thefirst panel 504 that allows the linkage to remain in contact with thesecond panel 506 as thesecond panel 506 is withdrawn into thehollow portion 510 of thefirst panel 504 by providing accessibility for the linkage to connect to thesecond panel 506 when thesecond panel 506 is within thehollow portion 510 of thefirst panel 504. In some implementations, theslot 512 and the linkage function as the guiding mechanism that allows thesecond panel 506 to glide or extend outward or inward within thefirst panel 504 without undue friction or resistance. - Although described in relation to the
second panel 506 being stowed and deployed from thehollow portion 510 of thefirst panel 504, in alternative embodiments, the second panel may include a hollow portion and be drawn to substantially cover the first panel in the open configuration, and pull away from the first panel to expose the first panel in the closed configuration. In this embodiment, the linkage would work substantially the same. -
FIGs. 6A-6C show a sequence of opening a two-panel vertical swingingtelescoping door 600 according to the invention from fully closed inFIG. 6A to fully open inFIG. 6C . Thetelescoping door 600 covers a compartment in a forward galley of an aircraft and includes afirst panel 602 and asecond panel 604, which are implementations of the first andsecond panels FIG. 6A , thetelescoping door 600 is fully closed and lies in a plane of the doorway. A depth (or thickness) of thedoor 600 corresponds to an approximate thickness of a single panel for an entire length of thedoor 600 except that a thickness of thesecond panel 604 is slightly less than a thickness of thefirst panel 602 to facilitate the extension and retraction of thesecond panel 604 within a hollow portion of thefirst panel 602 so that thesecond panel 604 can move freely and easily within the hollow portion of thefirst panel 602. In addition, thesecond panel 604 of thedoor 600 can be secured in the closed position bylatches 606 or any other type of locking or latching mechanism. - In some implementations, the
first panel 602 retracts completely from thesecond pane 604 such that an edge of thesecond panel 604 closest to thefirst panel 602 aligns with an edge of thefirst panel 602. The low friction guiding mechanism (e.g., slot and wheel, drawer slide, etc.), for example, may be designed to align the first panel with the second panel. To ensure ease of retraction, in other implementations, thefirst panel 602 partially overlaps thesecond panel 604 when in the fully extended position. - In some embodiments, the
first panel 602 is hinged to thedoor frame 624 athinge 608 and moves in a predictable arc about the hinged connection as the door is opened and closed. However, thesecond panel 604 is prevented from following the same arc due to a fixed connection of an inner edge with thedoor frame 624 via thelinkage 610. As a result, thesecond panel 604 is retracted or withdrawn into thefirst panel 602, and thedoor 600 "shortens" in length as a result. In addition, thehinge 608 is located above thefirst panel 602 when thedoor 600 is in the closed position so that thedoor 600 swings in vertically upward arc when moving from the closed to the open position. In some examples, an orientation of the vertical swingingdoor 600 can be reversed such that thehinge 608 is below thefirst panel 602, and thedoor 600 swings in a vertically downward arc when moving from the closed to the open position. - In
FIG. 6B , thedoor 600 is approximately halfway open as thesecond panel 604 is withdrawn or retracted into thefirst panel 602, and an amount of overlap between thefirst panel 602 and thesecond panel 604 increases. A fixed connection of thelinkage 610 at thesecond panel 604 pulls the second panel along thefirst panel 602 such that a combined width of the first andsecond panels door 600 reaches a fully opened position (FIG. 6C ). In addition, an edge of thefirst panel 602 on the same side of thedoor 600 as thelinkage 610 includes aslot 612 or groove that extends across the width of thefirst panel 602 which allows the linkage 310 to remain in contact with thesecond panel 604 as thesecond panel 604 is withdrawn into the hollow portion of thefirst panel 602. In some implementations, theslot 612 and thelinkage 610 function as the guiding mechanism that allows thesecond panel 604 to glide or extend outward or inward within thefirst panel 602 without undue friction or resistance. - In
FIG. 6C , thedoor 600 is in a fully opened position, and thelinkage 610 has retracted thesecond panel 604 into alignment with thefirst panel 602 such that a width of thesecond panel 604 is mostly overlapped if not completely overlapped by a width of thefirst panel 602. The width of thedoor 600 now coincides with the width of thefirst panel 602 as thesecond panel 604 is for the most part hidden within thefirst panel 602. An edge of thesecond panel 604, in some embodiments, may be partially exposed (e.g., a portion attached to the linkage 610). When used as a galley compartment door, for example, thetelescoping door 600 of the present disclosure extends only approximately halfway into the open galley space when fully opened as compared with a traditional door, yielding greater mobility and comfort to aircraft employees working in an around the galley without any loss of function. -
FIGs. 7A-7C show a sequence of opening a two-panel horizontal swingingtelescoping door 700 according to the invention from fully closed inFIG. 7A to fully open inFIG. 7C . Thetelescoping door 700 covers a trash compartment in a forward galley of an aircraft that houses trash can, which is typically located on an outboard side of the galley in close proximity to an exit or service door. Trash is pushed throughwaste flap 720, and falls into atrash can 720 housed within a compartment enclosed by thetelescoping door 700. Thedoor 700 includes afirst panel 702 and asecond panel 704, which are implementations of the first andsecond panels trash can 720, the door can interfere with a bustle of the aircraft (not shown). Due to the telescoping action that occurs as thedoor 700 is opened, thedoor 700 does not interfere with the bustle. - In
FIG. 7A , thetelescoping door 700 is fully closed and lies in a plane of a doorway for the trash compartment. A depth (or thickness) of thedoor 700 corresponds to an approximate thickness of a single panel for an entire length of thedoor 700 except that a thickness of thesecond panel 704 is slightly less than a thickness of thefirst panel 702 to facilitate the extension and retraction of thesecond panel 704 within a hollow portion of thefirst panel 702. In addition, thesecond panel 704 of thedoor 700 can be secured in the closed position bylatches 706 or any other type of locking or latching mechanism. - In some embodiments, the
first panel 702 is hinged to thedoor frame 724 athinge 708 and moves in a predictable arc about the hinged connection as the door is opened and closed. However, thesecond panel 704 is prevented from following the same arc due to a fixed connection of an inner edge with thedoor frame 724 via thelinkage 710. As a result, thesecond panel 704 is retracted or withdrawn into thefirst panel 702, and thedoor 700 "shortens" in length as a result. In addition, thehinge 708 is located on one side of thefirst panel 702 when thedoor 700 is in the closed position so that thedoor 700 swings in a horizontal arc when moving from the closed to the open position. - In
FIG. 7B , thedoor 700 is approximately halfway open as thedoor 700 moves from a closed to an open position, and an amount of overlap between thefirst panel 702 and thesecond panel 704 increases. A fixed connection of thelinkage 710 at thesecond panel 704 pulls the second panel along thefirst panel 702 such that a combined width of the first andsecond panels door 700 reaches a fully opened position (FIG. 7C ). In addition, an edge of thefirst panel 702 on the same side of thedoor 700 as thelinkage 710 can include aslot 712 or groove that extends across the width of thefirst panel 702 which allows thelinkage 710 to remain in contact with thesecond panel 704 as thesecond panel 704 is withdrawn into the hollow portion of thefirst panel 702. In some implementations, theslot 712 and thelinkage 710 function as the guiding mechanism which allows thesecond panel 704 to glide or extend outward or inward within thefirst panel 702 without undue friction or resistance. - In
FIG. 7C , thedoor 700 is in a fully opened position, and thelinkages 710 have retracted thesecond panel 704 into complete alignment with thefirst panel 702 such that a width of thesecond panel 704 is substantially overlapped by a width of thefirst panel 702. The width of thedoor 700 now coincides with the width of thefirst panel 702 as thesecond panel 704 is hidden within thefirst panel 702. When used as a trash compartment door, for example, thetelescoping door 700 of the present disclosure extends only approximately halfway into the open galley space when fully opened as compared with a traditional door, yielding greater mobility and comfort to aircraft employees working in an around the galley without any loss of function. - The telescoping panel door implementations described herein can also be applied to other types of aircraft doors. For example, implementing the telescoping doors for chilled galley cart compartment doors provide fewer gaps to seal and intrude less into a work area when open. In addition, the vertical swinging telescoping doors can be used to enclose overhead storage bins in order to reduce an amount of projection of the doors into an aisleway of an aircraft, which allows for better illumination during passenger loading and unloading due to reduced blocking of the overhead lights by the telescoping doors. Also, the telescoping overhead bin doors provide more head clearance for flight crew when the doors are in an open position. A flight deck entry door can also be implemented as a telescoping door. In some embodiments, the forward cabin on an aircraft is a very cramped compartment, and a telescoping flight deck door would provide better functionality and ease of use due to the reduced space intrusion when open while providing more security to the flight deck than a conventional bi-fold door. In addition, a mid-cabin closet door could also be implemented as a telescoping panel door as described previously herein.
- The result is a two panel door for an aircraft compartment that has a first panel hingedly connected to a door frame, the first panel having a width of approximately half of a door frame to which it is mounted, and a second panel mounted on the first panel for telescoping therein, the second panel extending parallel to the first panel within a hollow portion of the first panel in a sliding arrangement. The first panel is coupled to the door frame via a hinge and the second panel is coupled to the door frame via a linkage, the linkage fixing a distance that the second panel can extend from the door frame as the first panel swings about its hinged connection is a circular arc. In some implementations, the telescoping door can be used in applications where a thickness of a door aperture is limited, such as in the case of galley doors.
- In some implementations, the aircraft doors can have a curved shape, such as in the case of the overhead bin doors, and therefore the first panel and second panel also have a curved shape. The translating or telescoping operation of the curved first and second panels function in a substantially similar way to the telescoping or translating operation of the flat, planar-shaped doors described previously herein.
Claims (10)
- A telescoping panel door system for an aircraft compartment, comprising: a door frame;a first panel (504, 602, 702) configured for hinged connection to the door frame;a second panel (506, 604, 704) adapted to move with respect to and slideably extend from the first panel; andat least one fixed-length linkage (610, 710) hingedly attached to the door frame and the second panel; characterised byat least one elongate aperture (512, 612, 712) in an edge of the first panel, the at least one fixed-length linkage being attached to the second panel through the at least one elongate aperture;wherein the second panel is adapted to slideably extend from and retract within the first panel;wherein the door frame, first and second panels, at least one fixed length linkage, and at least one elongate aperture are configured such that in a closed operational position, the second panel is extended from an interior of the first panel, the first and second panels cooperate to completely cover an opening defined by the door frame, and the fixed-length linkage is generally parallel to the plane defined by the door frame, and in an open operational position, the second panel is retracted into the interior (510) of the first panel by operation of the first linkage and the first and second panels are nested to reduce a distanced spanned by the first panel and second panel.
- The telescoping panel door of claim 1, further comprising an engagement structure for slideably engaging the first panel (504, 602, 702) with the second panel (506, 604, 704).
- The telescoping panel door of claim 2, wherein the engagement structure comprises a slot and a wheel.
- The telescoping panel door of claim 1, wherein, in the open operational position, the second panel (506, 604, 704) is completely retracted into the interior (510) of the first panel (504, 602, 702).
- The telescoping panel door of claim 1, wherein, upon installation, a width of the first panel (504, 604, 704) extends one half the width of the door frame.
- The telescoping panel door of claim 1, wherein the fixed-length linkage (610, 710) fixes a hinged arc in which the first panel (504, 602, 702) is configured to swing.
- The telescoping panel door of claim 1, wherein the first panel (602) is configured for hinged connection on a horizontal side of the first panel such that the first panel is configured to swing in a vertical arc.
- The telescoping panel door of claim 1, wherein the first panel (504, 702) is configured for hinged connection on a vertical side of the first panel such that the first panel is configured to swing in a horizontal arc.
- The telescoping panel door of claim 1, wherein a thickness of the second panel (506, 604, 704) is less than a thickness of the first panel (504, 602, 702) such that the second panel is configured to slide freely within the interior of the first panel.
- The telescoping panel door of claim 1, further comprising a latch (606, 706) configured to secure the telescoping panel door in the closed configuration.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US15/406,690 US9976336B2 (en) | 2014-07-11 | 2017-01-14 | Telescoping aircraft panel door |
PCT/US2018/013328 WO2018132575A1 (en) | 2017-01-14 | 2018-01-11 | Telescoping aircraft panel door |
Publications (2)
Publication Number | Publication Date |
---|---|
EP3568559A1 EP3568559A1 (en) | 2019-11-20 |
EP3568559B1 true EP3568559B1 (en) | 2021-09-22 |
Family
ID=61074602
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP18702021.9A Active EP3568559B1 (en) | 2017-01-14 | 2018-01-11 | Telescoping aircraft panel door |
Country Status (3)
Country | Link |
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EP (1) | EP3568559B1 (en) |
CN (1) | CN110418870B (en) |
WO (1) | WO2018132575A1 (en) |
Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE2502765C2 (en) * | 1975-01-24 | 1983-04-14 | Seawell S.A., Luxembourg | Room divider in the form of a partition |
JP3358505B2 (en) * | 1997-08-27 | 2002-12-24 | 松下電工株式会社 | Door opening and closing device |
KR100363036B1 (en) * | 1998-09-09 | 2002-12-11 | (주)단건축사사무소 | Sliding door |
US20060197357A1 (en) * | 2005-03-03 | 2006-09-07 | Arvinmeritor Technology, Llc | Vehicle door system |
US7950439B2 (en) * | 2005-11-28 | 2011-05-31 | Victor Ray Anderson | Combination-action slide and hinge swinging door |
DE102011121864B4 (en) * | 2011-12-21 | 2013-09-05 | Kesseböhmer Holding e.K. | Cabinet with a hinged cabinet door and fitting for a hinged cabinet door of a cabinet |
US9440727B2 (en) * | 2014-07-11 | 2016-09-13 | B/E Aerospace, Inc. | Telescoping aircraft panel door |
KR101693353B1 (en) * | 2016-11-18 | 2017-01-05 | 주식회사 21세기이엔지 | a Building fireproof door |
-
2018
- 2018-01-11 WO PCT/US2018/013328 patent/WO2018132575A1/en unknown
- 2018-01-11 CN CN201880016791.3A patent/CN110418870B/en active Active
- 2018-01-11 EP EP18702021.9A patent/EP3568559B1/en active Active
Also Published As
Publication number | Publication date |
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WO2018132575A1 (en) | 2018-07-19 |
EP3568559A1 (en) | 2019-11-20 |
CN110418870B (en) | 2021-09-28 |
CN110418870A (en) | 2019-11-05 |
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