The present invention is directed toward a load distributing insert for aircraft brake rotors and, more specifically, toward a load distributing rotor insert for aircraft brake rotors having a lower mass than conventional rotor inserts.
A known type of aircraft brake system comprises a plurality of stator disks mounted to a fixed portion of a wheel support and a plurality of rotor disks connected for rotation with an aircraft wheel which rotors extend into spaces between the stators. When braking is required, a piston mounted next to this stack of disks is extended to compress the stack and force the rotors and stators into contact, thus slowing the rotors and the wheel attached thereto.
Rotor drive keys are mounted on the interior of the aircraft wheel to engage the rotors and cause the rotors to rotate with the wheel. These drive keys are essentially metal bars that run parallel to the axis of the wheel and perpendicular to the major faces of the rotor disks. Each rotor disk includes a plurality of notches along its outer periphery through which the drive keys extend, and this notch-and-key arrangement circumferentially couples the rotors to the wheel.
Brake rotors and stators are sometimes formed from steel. However, it is becoming common to form the rotor and stator disks from carbon materials. These materials may comprise, for example, carbon embedded in a carbon fiber matrix, which material may be referred to generically as “carbon” or “carbon-carbon.” Carbon rotors also include notches in their peripheral walls for accommodating drive keys. However, because carbon can be more fragile than steel, these notches also typically include inserts to better distribute the load from the drive keys to the rotor disk and to reduce wear on the carbon disks. These inserts are typically formed from steel and are thus heavier than a similarly sized body of carbon material.
A conventional rotor and rotor insert are illustrated in
Rotor inserts such as the above perform in an acceptable manner. However, such inserts are generally formed from steel and add to the weight of a brake assembly. Eliminating the inserts on a carbon rotor is generally not an acceptable option because the drive keys are likely, eventually, to damage the notch in the carbon rotor. However, it would be desirable to provide an insert that performs functions similar to those of existing inserts but which has a reduced mass so as to reduce the overall weight of a brake assembly.
These problems and others are addressed by embodiments of the present invention, a first aspect of which comprises an aircraft brake rotor having a circular rotor disk with first and second walls and a peripheral wall connecting the first and second walls. The peripheral wall includes at least one notch having a bottom wall and first and second side walls extending away from the bottom wall. An insert having a first portion mounted against the first side wall is provided in the notch, and a retainer is connected to the rotor disk. The retainer has at least one projection, and a portion of the at least one insert extends between the at least projection and the first side wall, thereby limiting movement of the at least one insert in a direction perpendicular to the first side wall.
Another aspect of the invention comprises an aircraft brake rotor with a circular rotor disk having first and second sides and a peripheral wall connecting the first and second sides. The peripheral wall includes at least one notch having a bottom wall and first and second side walls that extend away from the bottom wall. Load distributing means are mounted against the first side wall and against the second side wall, and retainer means are connected to the rotor disk for retaining the load distributing means against the first side wall. A portion of the load distributing means extends between the retainer means and the first side wall.
A further aspect of the invention comprises an aircraft brake rotor with a circular rotor disk having first and second sides and a peripheral wall connecting the first and second sides. The peripheral wall includes a first notch and a second notch circumferentially spaced from the first notch, and each of the first and second notches have first and second side walls extending away from the bottom wall. First and second inserts are provided in the first notch that overlie the first notch first and second side walls, and third and fourth inserts are provided in the second notch that overlie the second notch first and second side walls. A retainer is connected to the rotor around a portion of the peripheral wall and has a first U-shaped end portion near the first notch and a second U-shaped end portion near the second notch. First and second projections at the first U-shaped end portion project into the first notch, and third and fourth projections at the second U-shaped end portion project into the second notch. A portion of the first insert extends between the first projection and the first notch first wall and a portion of the third insert extends between the third projection and a portion of the second notch second wall, and this limits movement of the first insert in a direction perpendicular to the first notch first side wall and limits movement of the third insert in a direction perpendicular to the second notch second side wall.
These aspects and features of the invention and others will be better understood after a reading of the following detailed description together with the attached drawings wherein:
Referring now to the drawings, wherein the showings are for purposes of illustrating embodiments of the invention only and not for the purpose of limiting same,
A rotor insert 22 is illustrated in
Retainers 30 are connected along peripheral wall 14 of rotor 10 and include first and second U-shaped end portions 31 with first and second legs 34 of the U overlying the first and second sides 12 of the rotor and a central portion 36 overlying peripheral wall 14. First and second projections 38 extend from the legs 34 of the retainer 30 past first portion 24 of each insert 22 and engage curved side portions 32 to hold the inserts 22 against the side walls 20 of the notches 16. The length of retainers 30 is selected to be slightly greater than the distance between two adjacent notches 16 so that the central portions 36 of the retainers overlie the tops 28 of the inserts 22 and limit movement of the inserts in a radial direction out of slots 16. Fasteners 40 secure the retainers to the rotor 10. Openings 42 may be formed in retainer 30 between the first and second U-shaped end portions 31 to reduce the weight of the retainer. A drive key (not illustrated) extending through notch 16 will engage second portion 26 of the insert 22 away from the projections 38.
An insert according to a second embodiment of the present invention is illustrated in
An insert and retainer according to a third embodiment of the present invention are illustrated in
The present invention has been described herein in terms of several embodiments. Modifications of and additions to these embodiments will become apparent to those of ordinary skill in the art upon a reading of the foregoing description. It is intended that all obvious modifications and additions comprises a part of the present invention to the extent they fall within the scope of the several claims appended hereto.
Number | Name | Date | Kind |
---|---|---|---|
3550740 | LeBlanc et al. | Dec 1970 | A |
3670858 | Van Horn | Jun 1972 | A |
3757907 | Crossman et al. | Sep 1973 | A |
3907076 | Crossman et al. | Sep 1975 | A |
3972395 | Jannasch et al. | Aug 1976 | A |
4007814 | Berger | Feb 1977 | A |
4155432 | Krause | May 1979 | A |
4465165 | Bok | Aug 1984 | A |
4511021 | Grider | Apr 1985 | A |
4557356 | Petersen | Dec 1985 | A |
4742948 | Fisher et al. | May 1988 | A |
4747473 | Bok et al. | May 1988 | A |
4784246 | Edmisten | Nov 1988 | A |
4863001 | Edmisten | Sep 1989 | A |
4890700 | Guichard | Jan 1990 | A |
5143184 | Snyder et al. | Sep 1992 | A |
5273140 | Berwanger | Dec 1993 | A |
5560452 | Labougle | Oct 1996 | A |
6139215 | Kuhne et al. | Oct 2000 | A |
6635355 | Bianco et al. | Oct 2003 | B2 |
20070193836 | Walker et al. | Aug 2007 | A1 |
Number | Date | Country |
---|---|---|
0161200 | Nov 1985 | EP |
2719879 | Nov 1995 | FR |
2139300 | Nov 1984 | GB |
2201475 | Sep 1988 | GB |
WO-2005106279 | Nov 2005 | WO |
Number | Date | Country | |
---|---|---|---|
20080272235 A1 | Nov 2008 | US |