Vibration-proof centering ring for the legs of a torque tube of an aircraft brake and brake equipped with such a ring
阅读说明:本技术 用于飞行器制动器的扭矩管的支脚的防振居中环以及配装有这种环的制动器 (Vibration-proof centering ring for the legs of a torque tube of an aircraft brake and brake equipped with such a ring ) 是由 J·维迪 R·勒弗洛什 于 2019-07-04 设计创作,主要内容包括:本发明提供一种抗振居中环(50),用于使飞行器制动器的扭矩管(2)的支脚(24)在飞行器的轮轴(20)上居中。居中环包括交错的支承区域(50A、50B),这些支承区域布置成交错地支承在轮轴和扭矩管支脚上,并且在它们的非支承侧上通过功能间隙(J)偏移,使得没有支承区域同时支承在轮轴和扭矩管的支脚上,这些支承区域通过柔性系带(51)彼此连接。(The invention provides an anti-vibration centering ring (50) for centering a leg (24) of a torque tube (2) of an aircraft brake on an axle (20) of an aircraft. The centering ring comprises staggered support areas (50A, 50B) which are arranged to bear in a staggered manner on the wheel axle and torque tube legs and are offset on their non-supporting side by a functional gap (J) so that no support areas bear simultaneously on the legs of the wheel axle and torque tube, which support areas are connected to one another by flexible tethers (51).)
1. An aircraft brake comprising a torque tube (2) with legs arranged to be centered on an aircraft axle, the brake comprising an anti-vibration centering ring (50) for centering the legs (24) of the torque tube (2) on the aircraft axle (20), characterized in that the centering ring comprises staggered support regions (50A, 50B) arranged to be supported staggered on the axle and the torque tube legs and offset on their non-supporting sides by a functional gap (J) such that no support regions are simultaneously supported on the axle and the legs of the torque tube, which support regions are connected to each other by flexible tethers (51).
2. The brake of claim 1, characterized in that the flexible strap (51) is centered in the area extending between the foot (24) and the torque tube (2), the bearing area (50A, 50B) protruding from the flexible strap in both directions.
3. The brake of claim 1, characterized in that the thickness (E1) of the flexible tie (51) is less than 25% of the thickness (E2) of the support area (50A, 50B).
4. Brake according to claim 1, characterized in that the functional clearance (J) lies in the range of 0.2 to 0.8 mm.
5. The brake of claim 1 defined by cyclically repeating a pattern comprising a support region (50A) for supporting on the axle, a first flexible tie, a support region (50B) for supporting on the torque tube leg, and a second flexible tie.
Technical Field
The invention relates to a vibration-proof centering ring for a leg of a torque tube in an aircraft brake.
Background
The aircraft wheels are mounted on axles carried by the landing gear. Some wheels are fitted with brakes that typically include a torque tube engaged about an axle and having a brake disk fitted over the torque tube, including a rotor disk that rotates with the wheel for braking and a stator disk that prevents rotation by the torque tube. The brake actuator selectively applies pressure to the discs to generate a braking torque due to friction generated between the faces of the discs in this manner, thereby slowing the wheel. The torque tube typically includes an annular web that extends laterally and carries a foot that serves to center the torque tube on the axle. The centering ring fits under the legs.
Document FR 2842496 discloses a centering ring with support areas connected to each other by flexible ties. In particular, this document describes a ring (fig. 8) having some bearing areas each with two bearing surfaces, and other bearing areas each with a single bearing surface. A bearing area having two bearing surfaces acts simultaneously on the torque tube leg and the axle and they occupy an angular range close to a substantially horizontal axis X corresponding to the direction in which braking forces are applied to the torque tube leg. The support area with a single support surface comprises two support areas acting on the legs of the torque tube and occupying an angular range close to an axis Y perpendicular to the axis X and corresponding to the direction of the applied landing force, and on either side of these two support areas, pairs of support areas with a single support surface act on the wheel axle. A bearing region having a single bearing surface projects from only one side of the structural ring, imparting annular stiffness to the ring.
These anti-vibration centering rings therefore have a preferred orientation, which limits their ability to absorb vibrations and makes their installation more complicated. Furthermore, it has been observed in use that some rings undergo permanent deformation, in particular in the portion of the structural ring that connects together the bearing areas having the single bearing surfaces.
Disclosure of Invention
The present invention seeks to propose an aircraft brake with a vibration-proof centering ring, which does not comprise the above-mentioned drawbacks.
In order to achieve this object, the invention provides an aircraft brake comprising a torque tube with a foot arranged centrally on an aircraft axle, which brake comprises an anti-vibration centering ring for centering the foot (24) of the torque tube (2) of the aircraft brake on the aircraft axle, which centering ring comprises staggered bearing regions which are arranged to bear staggeredly on the axle and torque tube foot and which are offset on their non-bearing sides by a functional gap so that no bearing region bears simultaneously on the axle and torque tube foot, which bearing regions are connected to one another by a flexible tie strap.
Thus, there is no longer any bearing area for simultaneous bearing on the foot and on the axle, so that the vibration absorption is improved. A force (braking or landing force) must be applied in order to reduce the spacing between the foot and the axle, so that some of the support areas are supported via their two faces due to the deformation of the flexible tethers.
The term "flexible" is used to indicate that the strap is capable of deforming without undergoing permanent deformation by remaining within its elastic range.
The functional gap on the non-supporting side is given a size suitable for absorbing vibrations while preventing the flexible ligament from plasticizing. It should be observed that, unlike the loop in document FR 2842496, all the support areas protrude from the flexible tie in both directions. The flexible straps ensure angular spacing of the support areas and they form springs that ensure that the support areas are in contact with the torque tube legs or the axle, respectively.
Preferably, the centering ring is obtained by cyclically repeating a pattern comprising a support area for supporting on the wheel axle, a first flexible tie, a support area for supporting on the pipe foot and a second flexible tie. Thus, the centering ring no longer has any preferred orientation, which makes it easier to install and avoids any need to provide means to prevent its rotation.
Drawings
The invention may be better understood in light of the following description of specific embodiments of the invention with reference to the figures of the accompanying drawings, in which:
figure 1 is a cross-sectional view of an aircraft wheel fitted with an aircraft brake comprising a torque tube having an annular web for centering the torque tube on the wheel axle; and
figure 2 is a front view of the centering ring of the invention.
Detailed Description
Fig. 1 shows an aircraft brake F comprising a stationary part 1, which stationary part 1 comprises a torque tube 2 with a brake flange 3, which brake flange 3 is fastened to one end, for example by means of bolts 4. In this example, the flange 3 carries a plurality of actuators 7, each actuator 7 comprising a piston 10 which applies a braking force.
The fixed part 1 coaxially surrounds an
The brake F comprises a stack of brake discs engaging on the torque tube 2. The disks include stator disks S1, S2, S3, S4 and S5 constrained to rotate with the torque tube 2 by
As can be seen in fig. 2, centering
The minimum functional gap J below the offset support surface is determined to optimize the absorption of vibrations, while the maximum functional gap J is determined to avoid any permanent deformation of the
Preferably, the thickness E2 of the support area is in the range of 5mm to 10mm, while the thickness E1 of the flexible ligament is less than 2 mm. Preferably, the thickness E1 of the
In this example, the
Tests and calculations have shown that in the case of external loads (braking, landing) on the axle, good damping capacity and good handling are obtained without causing permanent deformations. The ring is fully able to rotate in use without losing its ability to absorb vibrations and therefore no anti-rotation means are required.
The invention is not limited to the above description but, on the contrary, covers any modifications coming within the scope defined by the claims. In particular, although the illustrated embodiment has five
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