CA2852494A1 - Air seal assembly for aircraft flap seal - Google Patents

Air seal assembly for aircraft flap seal Download PDF

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Publication number
CA2852494A1
CA2852494A1 CA2852494A CA2852494A CA2852494A1 CA 2852494 A1 CA2852494 A1 CA 2852494A1 CA 2852494 A CA2852494 A CA 2852494A CA 2852494 A CA2852494 A CA 2852494A CA 2852494 A1 CA2852494 A1 CA 2852494A1
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Canada
Prior art keywords
air seal
hole
fastener
bracket
mounting
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Granted
Application number
CA2852494A
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French (fr)
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CA2852494C (en
Inventor
Scott Foster
Harold Demarest
Eiji Sugi
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Alaska Airlines Inc
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Alaska Airlines Inc
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Filing date
Publication date
Priority claimed from US14/284,356 external-priority patent/US9618118B2/en
Application filed by Alaska Airlines Inc filed Critical Alaska Airlines Inc
Publication of CA2852494A1 publication Critical patent/CA2852494A1/en
Application granted granted Critical
Publication of CA2852494C publication Critical patent/CA2852494C/en
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Abstract

An air seal assembly for an aircraft control surface comprises a bulb-type air seal, a mounting bracket and a fastener. The bulb-type air seal has a hollow bulb portion, a T-shaped mounting extension, and a first through hole extending through the T-shaped mounting extension. The mounting bracket has a T-shaped channel configured to slidingly receive the T-shaped mounting extension of the air seal and a second through hole. The fastener has a head at one end and an opposite exposed end sized for extending through the first through hole in the T-shaped mounting extension and through the second through hole in the mounting bracket. The exposed end is accessible to tighten the fastener against the bracket to keep the air seal in place within the T-shaped channel.

Description

AIR SEAL ASSEMBLY FOR AIRCRAFT FLAP SEAL
FIELD
This application relates to aircraft, and particularly to an aircraft flap seal and seal retainer assembly.
BACKGROUND
Modern aircraft have a variety of flight control surfaces that can be controlled to maneuver the aircraft in flight. Seals are often provided at edges of movable flight control surfaces where they intersect with adjacent surfaces to reduce aerodynamic drag and noise.
One such type of flight control surface is the flaps on a passenger jet aircraft. Such aircraft are typically fitted with one or two sets of flaps on the trailing edge of each wing.
These flaps are extendable along a direction of air flow over the wing. To reduce drag and noise caused by air rushing past the junctions of the flaps with the adjacent surfaces of the wings, bulb seals are provided at one of more edges of the flaps. Each bulb seal is made of a resilient material designed to be compressed by contact with another object when it is in its sealing position.
In conventional installations, the bulb seal is coupled to a bracket which is in turn mounted to the aircraft with screws or other suitable fastening arrangement.
The bracket has a channel, and the seal has a corresponding mounting portion shaped to be slid into the channel for mounting. To prevent the seal from migrating out of the channel, it is fixed in place, typically using safety wire that must be threaded through holes in the seal and the bracket and then twisted together like a bread tie.
Over time, this safety wire connection tends to wear and eventually breaks, typically without notice. When a broken safety wire on an air seal is observed, it can be cause for a flight delay, which is very expensive.
SUMMARY
Described below are implementations of a new air seal assembly and methods that address drawbacks of the prior art.
According to one implementation, an air seal assembly for an aircraft control surface comprises a bulb-type air seal, a mounting bracket and a fastener. The bulb-type air seal has a hollow bulb portion, a T-shaped mounting extension, and a first through hole extending through the T-shaped mounting extension. The mounting bracket has a T-shaped channel configured to slidingly receive the T-shaped mounting extension of the air seal and a second through hole. The fastener has a head at one end and an opposite exposed end sized for extending through the first through hole in the T-shaped mounting extension and through the second through hole in the mounting bracket. The exposed end is accessible to tighten the fastener against the bracket to retain the air seal in place within the T-shaped channel.
In some implementations, at least the bulb portion of the air seal is formed of a resiliently deformable material.
The fastener can be a threaded bolt, and the assembly can also comprise a nut sized to threadedly engage the bolt at the exposed end when the bolt is positioned to extend through the first through opening in the mounting extension and the aligned second through opening in the mounting bracket so that the nut can be tightened against the mounting bracket.
In some implementations, the bolt and nut are tightenable without accessing the head of the bolt, including, e.g., by holding the exposed end of the bolt and tightening the nut relative to the exposed end. In some implementations, the exposed end of the bolt has a recess shaped to receive a hex key for holding the bolt during tightening of the nut.
In some implementations, the fastener comprises a fastening pin having the head and a collar having a nut, and wherein the nut is configured to separate from the collar after the collar is tightened against the mounting bracket to a predetermined preload specification.
In some implementations, the mounting bracket has a right-angle flange cross-section. The mounting bracket can comprise an attachment flange having a series of spaced apart slotted openings dimensioned to receive fasteners for attaching the air seal assembly to an aircraft.
In some implementations, the assembly comprises a filler plate dimensioned to fit within the hollow bulb portion and having a third through hole alignable with the first through hole in the mounting extension. The through hole in the filler plate can be countersunk to accommodate the head of the fastener and sized to receive the fastener.
The filler plate and the mounting bracket are each formed of a relatively rigid material, and wherein the bulb seal is formed of a resilient material, and wherein the arrangement of
- 2 -the fastener, filler plate, air seal and mounting bracket allows the air seal to be securely fastened to the bracket without causing damage to the resilient material of the air seal.
According to a method implementation, a method of installing an air seal assembly for an aircraft control surface comprises providing an elongate air seal having a bulb, providing a retainer bracket having at least one open end shaped to slidingly receive the elongate air seal, forming a hole in the retainer bracket, sliding the retainer bracket over an end of the elongate air seal and aligning the hole in the retainer bracket with a selected position for a hole in the elongate air seal. The hole in the retainer bracket is then used as a guide to drill a hole in the elongate seal at the selected position into an interior of a hollow space defined within the bulb. The method also can include accessing the interior space and inserting a fastener through the hole in the elongate air seal and the hole in the retainer bracket and tightening a nut on an exposed end of the fastener to tighten the fastener against the elongate air seal and the retainer bracket.
In some implementations, providing an elongate air seal comprises reusing an installed elongate air seal by removing any existing security wire from one end of the elongate air seal and removing any existing retainer bracket.
In some implementations, the method further comprises mounting the retainer bracket to the aircraft by installing fasteners through a mounting flange of the retainer bracket.
These and other implementations are described herein with reference to the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 is a partial perspective view of an aircraft showing a portion of its fuselage and left wing, and of particular interest, flaps on the trailing edge of the wing.
Fig. 2 is a section view approximately along the lines A-A in Fig. 1 and showing the inboard and outboard flaps and their respective flap seal mounting arrangements.
Fig. 3 is a side section view of another installation showing an inboard flap seal and its conventional mounting bracket.
Fig. 4 is an enlarged portion of a side section view similar to Fig. 3, except showing the seal secured to the conventional mounting bracket with twisted safety wire.
Fig. 5 is an end view of the new bulb seal assembly showing the new mounting bracket and fastening arrangement.
-3 -Fig. 6 is a perspective view of the new bulb seal mounting bracket.
Figs. 7 and 8 are top plan and side elevation views, respectively, of the mounting bracket of Fig. 6.
Fig. 9 is a perspective view of the filler plate used with the new bulb seal assembly.
Fig. 10 is a top plan view of the filler plate of Fig. 9.
Figs. 11(a) to I 1(d) are sectional views of an exemplary fastening arrangement showing a fastener being assembled through the bulb seal and mounting bracket.
DETAILED DESCRIPTION
Fig. 1 is a perspective view of a portion of a conventional aircraft showing the left wing and one of the flight control surfaces (specifically, the inboard flap F) that are used to fly the aircraft. Fig. 2 is a section view taken approximately along the lines A-A and looking forward in Fig. 1, showing the inboard flap F and its air seal S1 at the lower edge of the flap F. The air seal S1 has a bulb portion C that is deformed by contact with another structure, such as the adjacent seal S2 shown in Fig. 2. The seal S1 is attached to the flap F with a bracket B, as described in more detail below.
Fig. 3 is side section view of a portion of another flap F2 showing the length of the seal S1 and the bracket B. The seal S1 is received within a channel of the bracket B. Near the aft end of the seal, there is a pair of holes 1-1, H. Fig. 4 is a section view taken along the lines 4-4 in Fig. 3 that shows a portion of the seal S1 and the bracket B.
As shown in Fig. 4, the conventional approach to keeping the seal S1 in place within the channel of the bracket B is with a piece safety wire T having its ends twisted together (like a bread tie).
Specifically, the safety wire is threaded through the pair of holes H, H in the seal S1 and aligned holes in the bracket B.
Installing the safety wire is difficult and time consuming. For example, after the wire is passed through the first pair of aligned holes, then passing it through the second pair of aligned holes can be difficult because it must undergo a change in its path of about 180 degrees over a very short distance. In addition, this change of path occurs within the hollow bulb section of the seal Sl, which further limits a worker's ability to manipulate the wire. If the wire ends are twisted together with a hand tool, it can be difficult to achieve the appropriate torque necessary to secure the ends together but not create undue stress that may cause the resulting joint to break prematurely. Even if installed properly, the
- 4 -safety wire joint is subject to failure at inopportune intervals, which can allow the seal to migrate within the channel and thus require repair. Such required repairs can cause flights delays, which are very costly and disruptive.
Fig. 5 is an end view of a new air seal assembly 10, which is shown in this example as installed on a flap F3. The new assembly includes a bulb seal 12 secured to a mounting bracket 14 with a fastener 16. The mounting bracket 14 is in turn attached to the flap F or other surrounding structure by one or more fasteners 17. The mounting bracket 14 is preferably an aluminum extrusion, but other suitable materials can also be used. The new air seal assembly provides for a more robust mounting that retains the air seal in place more securely, thus reducing service needs and minimizing delays and downtime caused by loose seals.
The bulb seal 12 has a hollow bulb portion 20 that is configured to be resiliently deformable by contact with another object, such as when the flap F3 is moved into place.
In this way, the seal 12 can be configured to block air flow as desired, such as through joints and seams.
The bulb seal has a mounting extension 22 along at least a portion of its length and having a suitable cross section, such as a "T" shape cross section as shown.
There is a through hole 24 extending from a side of the mounting extension 22 within the hollow bulb portion 20 to its exposed external side 23. Desirably, only a single hole in the seal 12 is required at each mounting location.
As shown, the bracket 14 can have a channel 32 shaped to receive the mounting extension 22. In the illustrated implementation, the channel 32 has a shape corresponding to the mounting extension 22 (e.g., a T-shape) such that the seal 12 is installed in the bracket 14 by aligning it with the channel 32 and sliding it longitudinally into the channel 32.
The fastener 16 is positioned in the through hole 24 to secure the bulb seal 12 to the bracket 14. In some embodiments, a through hole 56 (Fig. 6) is provided in the bracket 14 before assembly (or is made during assembly). In some embodiments, the fastener 16 is a threaded fastener having a body 44 with a threaded section or shaft 48. In some embodiments, the fastener 16 is a threaded bolt and there is a threaded nut 50 that is tightenable over the exposed end of the fastener 16 to secure the fastener 16 and the seal 12 to the bracket 14.
- 5 -=
In the illustrated implementation, the fastener 16 has a head 42 that is sized larger than the through hole 24. In the illustrated implementation, there is also a filler plate 52 positioned between the fastener 16 and the mounting extension 22. The fastener or the fastener/filler plate combination is positioned near an open end of the bulb portion 20, and thus is possible to insert the fastener or fastener/filler plate combination into the open end and with the fastener 16 extending through the through hole 24 to define an exposed end 46 of the fastener 16.
Figs. 6, 7 and 8 are perspective, top plan and side elevation views, respectively of the bracket 14, also sometimes referred to as a retainer bracket. As shown, the bracket 14 Fig. 9 is a perspective view of the filler plate 52. As shown, the filler plate 52 can be generally rectangular and have a through hole 60 provided as shown. The through hole 60 may be countersunk as desired to accommodate the head 42 of the fastener 16. If provided, the filler plate 52 provides a relatively rigid surface against which to tighten the fastener 16 and any nut 50 that is present. Because the bulb portion 20 is made of a In some implementations, the fastener 16 is tightenable from its exposed end 46, Figs. 11(a)-11(d) are simplified section views showing assembly and use of one suitable fastener 16 and nut 50. In Fig. 11(a), the fastener 16 is inserted through the
- 6 -the exposed end 46, such as a hex-shaped recess. After a predetermined torque is reached with the tool, the installation part 62 is sheared off, leaving the nut 50 fully tightened to a predetermined tightening force.
One suitable type of fastener is a Hi-Lokt fastener sold by Hi-Shear Corporation or a HuckBolt fastener sold by Alcoa Corporation. It is also suitable to use a blind bolt, a blind rivet or any other suitable type of fastener. In some applications, it may be possible to use a screw instead of a bolt or other fastener requiring tightening from the mounting bracket side.
According to an exemplary method of installation of the new seal assembly (or new retainer), the following steps are completed:
(1) the existing conventional safety wire T (or any remaining portion) is removed to allow the conventional bracket B to be removed from the seal S.
(2) the new mounting bracket 14 is slid over the free end of the seal S.
(3) using the through hole 56 in the mounting bracket 14 as a guide, a suitable hole is drilled in the mounting extension of the seal S.
(4) from the end of the seal S, a fastener (or a fastener and filler plate) is inserted such that the end of the fastener protrudes through the mounting extension.
(5) the exposed end of the fastener is positioned to protrude through the through hole 56 in the bracket 14.
(6) a nut 50 is threaded onto the exposed end of the fastener.
(7) the nut 50 is tightened to a predetermined torque.
(8) the position of the seals is adjusted as necessary to coordinate with proper operation of the flaps.
Thus, the described approach uses a fastener requiring only a single hole to be made in the seal. Further, the fastener is relatively easy to position through the open area of the bulb portion of the seal, and it can be tightened from the exposed end of the fastener without requiring access to its head. Moreover, the resulting attachment is more secure, particularly when a filler plate is used to provide a rigid clamping surface protecting the seal against the tightening force exerted by the fastener. The new mounting arrangement can be used at one end of the seal, or at multiple locations along the length of the seal.
Results Available internal records show that since about November 2011, approximately seventeen flap seals constructed according to the prior art design have required service.

The assignee has modified a majority of its 737-NG aircraft to have the new air seal assembly. As of the filing date of this application, and based on a survey of the applicable part numbers, no problems with the new air seal assembly have been reported.
In addition, none of the new air seal assembly installations has required service or replacement parts.
In view of the many possible embodiments to which the principles of the present disclosure can be applied, it should be recognized that the illustrated embodiments are only examples and should not be taken as limiting the scope of the following claims. We therefore claim all that comes within the scope and spirit of these claims.

Claims (20)

1. An air seal assembly for an aircraft control surface, comprising:
a bulb-type air seal having a hollow bulb portion, a T-shaped mounting extension, and a first through hole extending through the T-shaped mounting extension;
a mounting bracket having a T-shaped channel configured to slidingly receive the T-shaped mounting extension of the air seal and a second through hole; and a fastener having a head at one end and an opposite exposed end sized for extending through the first through hole in the T-shaped mounting extension and through the second through hole in the mounting bracket, wherein the exposed end is accessible to tighten the fastener against the bracket to retain the air seal in place within the T-shaped channel.
2. The air seal assembly of claim 1, wherein at least the bulb portion of the air seal is formed of a resiliently deformable material.
3. The air seal assembly of claim 1, wherein the fastener is a threaded bolt, further comprising a nut sized to threadedly engage the bolt at the exposed end, wherein when the bolt is positioned to extend through the first through opening in the mounting extension and the aligned second through opening in the mounting bracket, the nut is tightenable against the mounting bracket.
4. The air seal assembly of claim 3, wherein the bolt and nut are tightenable without accessing the head of the bolt.
5. The air seal assembly of claim 3, wherein the bolt is tightenable against the mounting bracket by holding the exposed end of the bolt and tightening the nut relative to the exposed end.
6. The air seal assembly of claim 5, wherein the exposed end of the bolt has a recess shaped to receive a hex key for holding the bolt during tightening of the nut.
7. The air seal assembly of claim 1, wherein the mounting bracket has a right-angle flange cross-section.
8. The air seal assembly of claim 1, further comprising a filler plate dimensioned to fit within the hollow bulb portion and having a third through hole alignable with the first through hole in the mounting extension.
9. The air seal assembly of claim 8, wherein the through hole in the filler plate is countersunk to accommodate the head of the fastener and sized to receive the fastener.
10. The air seal assembly of claim 8, wherein the filler plate and the mounting bracket are each formed of a relatively rigid material, and wherein the bulb seal is formed of a resilient material, and wherein the arrangement of the fastener, filler plate, air seal and mounting bracket allows the air seal to be securely fastened to the bracket without causing damage to the resilient material of the air seal.
11. The air seal assembly of claim 1, wherein the fastener comprises a fastening pin having the head and a collar having a nut, and wherein the nut is configured to separate from the collar after the collar is tightened against the mounting bracket to a predetermined preload specification.
12. An air seal assembly for an aircraft control surface comprising:
an elongate air seal having a body defining a deformable hollow bulb, a shaped mounting extension and an intermediate web connecting the shaped mounted extension to the hollow bulb, the elongate air seal having at least one through hole extending at least through the shaped mounting extension and the intermediate web;
a mounting bracket having a retaining channel with an open outer side, the retaining channel having at least one end configured to slidingly receive the shaped mounting extension with the hollow bulb extending outward through the open outer side, the mounting bracket having an attachment flange extending transversely from the mounting channel; and a fastener having a head at one end and an opposite end sized for extending through the through hole in the elongate air seal and through the seal mounting bracket to retain the air seal in place within the channel.
13. The air seal assembly of claim 12, wherein the attachment flange comprises a series of spaced apart slotted openings dimensioned to receive fasteners for attaching the air seal assembly to an aircraft.
14. The air seal assembly of claim 12, wherein the at least one through hole is located within about 0.3 to about 1.5 inches of an end of the elongate air seal.
15. The air seal assembly of claim 12, further comprising a filler plate having a through hole, wherein the filler plate is shaped to be inserted into the bulb portion through an open end of the elongate air seal and aligned with the through hole in the elongate air seal, thereby allowing the fastener to be received through the filler plate and to extend through the through hole.
16. A method of installing an air seal assembly for an aircraft control surface, comprising:
providing an elongate air seal having a bulb;
providing a retainer bracket having at least one open end shaped to slidingly receive the elongate air seal;
forming a hole in the retainer bracket;
sliding the retainer bracket over an end of the elongate air seal;
aligning the hole in the retainer bracket with a selected position for a hole in the elongate air seal;
using the hole in the retainer bracket as a guide and drilling a hole in the elongate seal at the selected position into an interior of a hollow space defined within the bulb;
accessing the interior space and inserting a fastener through the hole in the elongate air seal and the hole in the retainer bracket; and tightening a nut on an exposed end of the fastener to tighten the fastener against the elongate air seal and the retainer bracket.
17. The method of claim 16, wherein providing an elongate air seal comprises reusing an installed elongate air seal by removing any existing security wire from one end of the elongate air seal and removing any existing retainer bracket.
18. The method of claim 16, further comprising mounting the retainer bracket to the aircraft by installing fasteners through a mounting flange of the retainer bracket.
19. The method of claim 16, wherein tightening a nut on an exposed end of the fastener comprises holding the fastener with a hex key inserted in a hex-shaped recess formed in the exposed end while the nut is rotated relative to the exposed end.
20. The method of claim 19, wherein the nut is a part of a collar, and wherein the nut separates from the collar during tightening when the collar reaches a predetermined preload against the retainer bracket.
CA2852494A 2013-05-23 2014-05-22 Air seal assembly for aircraft flap seal Active CA2852494C (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
US201361826947P 2013-05-23 2013-05-23
US61/826947 2013-05-23
US14/284,356 US9618118B2 (en) 2013-05-23 2014-05-21 Air seal assembly for aircraft flap seal
US14/284356 2014-05-21

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CA2852494A1 true CA2852494A1 (en) 2014-11-23
CA2852494C CA2852494C (en) 2021-04-20

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10619740B2 (en) 2015-12-21 2020-04-14 Airbus Operations Limited Seal assembly

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10619740B2 (en) 2015-12-21 2020-04-14 Airbus Operations Limited Seal assembly

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CA2852494C (en) 2021-04-20

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