FR3008955A1 - DEVICE FOR DRIVING ROTATION OF AN AIRCRAFT WHEEL - Google Patents

Abstract

The invention relates to a device for rotating an aircraft wheel which comprises a rim (4) mounted for rotation on an axle (2) of an undercarriage along an axis of rotation (X), the device comprising a drive ring gear (103) and a drive actuator (101) having an output gear (102) which cooperates with the drive ring gear to drive the rotating wheel. The drive ring gear is coaxially mounted to rotate the rim of the wheel, the drive device having selective coupling means (150) operable to rotate the rim and the drive ring or to release them.

Description

The invention relates to a device for driving in rotation of an aircraft wheel. BACKGROUND OF THE INVENTION Devices are known for driving in rotation an aircraft wheel carried by an axle of a landing gear. The devices generally comprise a drive actuator with a shaft equipped with an output gear for driving a ring gear secured to a rim of the wheel. For safety reasons, the actuator is generally equipped with a coupler operable to selectively couple or uncouple a motor from the actuator and the output shaft of the actuator, so that during phases where the wheel of the aircraft is driving (for example the landing), it can not drive the engine. However, such provisions are cumbersome and complex to manage. OBJECT OF THE INVENTION An object of the invention is to propose a device for driving in rotation of an aircraft wheel in which the positive connection between the wheel of the aircraft and the motor of the drive member can be neutralized simply. PRESENTATION OF THE INVENTION In order to achieve this goal, there is provided a device for rotating an aircraft wheel which comprises a rim mounted for rotation on an axle of an undercarriage along an axis of rotation. the device comprising a driving ring gear secured to the rim of the wheel, and a drive actuator comprising an output gear which cooperates with the drive ring gear to drive the wheel in rotation. According to the invention, the driving ring gear is mounted to rotate coaxially with the rim of the wheel, the driving device having selective coupling means operable to link in rotation or to release the rim of the wheel and the crown. toothed drive. Thus, the drive ring gear and the output gear remain permanently engaged, but the release of the ring allows a rotation of the wheel of the aircraft without it causing the driving ring gear, and therefore the output gear of the drive actuator, whose motor is thus protected from reversion oversteps. According to a preferred embodiment, the coupling means comprise first pawls disposed between the rim of the wheel and the driving ring gear to be movable between a retracted position in which they leave free a relative rotational movement between the crown. toothed drive and the rim, and an engaged position in which they allow a drive in rotation of the rim by the drive ring gear in a first direction of rotation. Preferably, the coupling means comprise second pawls disposed between the rim and the drive ring gear to be movable between a retracted position in which they leave free relative rotational movement between the drive ring gear and the rim and an engaged position in which they allow rotation of the rim by the driving ring gear in a second direction of rotation.

According to a particular embodiment, the first and second pawls are arranged in pairs and are carried by the driving ring gear by sharing a common pivot, their respective angular positions being controlled by means of pallets extending between two consecutive pairs and which are pivotally mounted on the drive ring so as to selectively raise one of the pawls to bring it into engagement with the rim. Preferably, the pallets are each associated with a control lever whose angular position is controlled by an auxiliary ring gear mounted coaxially with the drive ring gear and a relative rotational movement relative to the drive ring gear. causes a rotation of the lever and therefore a rotation of the pallet. PRESENTATION OF THE FIGURES The invention will be better understood in the light of the following description of a particular embodiment of the invention, with reference to the figures of the accompanying drawings in which: FIG. 1 is a sectional diagram of the device drive of the invention in position on an aircraft undercarriage; FIG. 2 is a partial perspective view of the two coaxial toothed rings and the two coaxial pinions of the drive device of FIG. 1; - Figure 3 is a partial front view of the drive ring gear and selective coupling means; - Figure 4 shows the other side of the ring gear of Figure 3, and the part of the rim of the wheel facing; FIGS. 5A to 5C illustrate the different positions of the control levers of the pallets of FIG. 4; - Figure 6 is a sectional view of the gears driven by the drive actuator.

DETAILED DESCRIPTION OF AN EMBODIMENT OF THE INVENTION With reference to FIG. 1, the device of the invention is mounted on an undercarriage 1 of an aircraft which comprises an axle 2 on which a wheel 3 is mounted to turn according to an axis of rotation X. The wheel 3 comprises a rim 4 rotating on the axle by means of bearings 5. The rim carries a tire 6. The device 100 of the invention is installed on the side of the rim and comprises a drive actuator 101 fixed on the undercarriage and comprising a motor (not visible here) for rotating a drive gear 102. The drive gear cooperates with a drive ring gear 103 rotatably mounted on a support 104 secured to the axle 2 according to an axis of rotation coinciding with that of the wheel 3, by means of bearings 105. The device comprises selective coupling means 150 for coupling or uncoupling in rotation the toothed ring gear. 103 to 20 rim 4 of the wheel 3. These coupling means are used to secure or detach the wheel crown, while the drive pinion 102 still remains in engagement with the drive ring 103. Coupling means are now detailed with reference to Figures 2 and following. The coupling means 150 comprise articulated arms on heels 152 of the ring gear. These arms are here grouped in pairs and are here articulated on a common pivot 153. On each of the pivots 153 is from 30 when a first arm 154 oriented on one side, and a second arm 155 oriented on the other side. The arms 154, 155 have rounded ends adapted to be received in respective cavities 156 cut in a skirt 157 of the rim (visible in FIG. 4) which cap the heels 152 of the driving ring gear 103. the position illustrated in Figure 2, when all the first arms 154 are raised to cooperate with the rim, they act as ratchets that allow the driving of the rim by the drive ring gear in a first direction of rotation by cooperation of the ends of the arms 154 with the cavities 156 facing. When on the contrary it is the second arms 155 are raised, they play the role of ratchets that allow the drive of the rim by the drive ring gear in a second direction of rotation. The arms 154, 155 are thus movable between a retracted position (position of the arm 155 in FIG. 2) in which they leave free a relative rotational movement between the ring gear and the rim, and an engaged position in which they cooperate with the rim 4 to allow its drive by the driving ring gear 103. The control of the arms is done here as follows. Pallets 160, here leaf springs, are arranged on the driving ring gear 103 between two arms facing to pivot between two end positions in which they respectively rise one of the arms 154, 155 facing to bring it into position. engaged position. These extreme positions are illustrated in Figures 5.A and 5C. Each pallet 160 is associated with a pivot 161 which passes through the thickness of the driving ring gear 103 to lead to a control lever 162 which carries at its end a pin 163. The said pin 163 penetrates in radial lights 164 cut in an auxiliary ring gear 165 which is mounted to rotate along the same axis as the drive ring gear. It is therefore sufficient to organize a slight differential rotation of the auxiliary ring gear with respect to the drive ring gear to cause the pivoting of the control lever, and hence of the paddle 160, which brings one of the arms in the engaged position. This slight differential rotation movement is here obtained as follows. The driving pinion 102 is doubled by a control gear 166. This is received on the same output shaft of the drive actuator 101, but is driven by means of a friction device 167, which allows the sliding of the drive gear as soon as a resistance torque threshold is reached. The threshold is generated by a spring 168 pressing the drive gear 166 against the friction device 167. The dimensional characteristics of the gears 102, 166 on the one hand, and the crowns 103, 165 on the other hand (number of teeth, pitch diameters. ..) are chosen so that when the gears 102, 166 rotate at the same speed, the drive ring gear 103 and the auxiliary ring gear 165 rotate at slightly different speeds, thus causing a relative rotational movement of the two rings. Thus, when the drive actuator 101 is started, it drives the drive ring 103 and the auxiliary ring gear 165 at slightly different speeds, which causes the rotation of the vanes 160, and thus the rotation of some arms. (Or all the first arms or all the second arms) to their engaged position in which they cause the rotation coupling of the drive ring 103 and the rim 4 of the wheel 3. When the arms have reached in the engaged position, they cause rotational locking of the auxiliary ring gear 165 relative to the drive ring gear 103, which causes the drive gear 166 to slide relative to the drive gear 102.

When it is desired to uncouple the driving ring gear 103 from the rim 4, it suffices to rotate the drive actuator in the other direction. The crowns then adopt a differential rotation movement in the other direction, which brings the pallets back to the neutral position as illustrated in FIG. 5B. The one of the arms which was raised then returns in retracted position. To ensure the return of the arms in their retracted position, fingers 170 (visible in Figure 2) are pivotally mounted on the drive ring gear 103 according to the same principle as that of the pallets to disengage and allow the lifting of the one arm, or on the contrary to lower and push the arms to the retracted position. The invention is not limited to what has just been described, but on the contrary covers any variant within the scope defined by the claims. In particular, although the attachment of the drive gear to the drive gear is here performed by means of a threshold friction device, any other device can be used (magnetic, hydraulic ...) as long as it allows a sliding of the two gears when the crowns are locked in rotation between them.

Claims (8)

REVENDICATIONS1. Device for rotating an aircraft wheel which comprises a rim (4) mounted for rotation on an axle (2) of an undercarriage along an axis of rotation (X), the device comprising a ring gear of drive (101) and a drive actuator (101) having an output gear (102) which cooperates with the drive ring gear to drive the rotating wheel, characterized in that the drive gear ring is mounted to coaxially rotating the rim of the wheel, the driving device having selective coupling means (150) operable to rotate the rim and the drive ring or to release them. 2. Device according to claim 1, wherein the coupling means comprise first pawls (154) disposed between the rim and the drive ring gear to be movable between a retracted position in which they leave free a relative rotational movement between the driving ring gear and the rim, and an engaged position in which they allow a driving rotation of the rim by the drive ring gear in a first direction of rotation. 3. Device according to claim 2, wherein the coupling means comprise second pawls (155) disposed between the rim and the drive ring gear to be movable between a retracted position in which they leave free relative rotational movement between the driving ring gear and the rim, and an engaged position in which they allow a drive in rotation of the rim by the drive ring gear in a second direction of rotation. 4. Device according to claim 2, wherein the first and second pawls are arranged in pairs and are carried by the toothed drive ring by sharing a common pivot (153), their respective angular positions being controlled by means of pallets (16a). ) extending between two consecutive pairs and which are pivotally mounted on the drive ring gear (103) so as to selectively raise one of the pawls to bring it into engagement with the rim. 5. Device according to claim 4, wherein the vanes (160) are each associated with a control lever (163) whose angular position is controlled by an auxiliary ring gear (165) mounted coaxially with the drive ring gear and which a relative rotational movement relative to the driving ring gear causes a rotation of the lever and therefore a rotation of the pallet. 6. Device according to claim 5, wherein the control lever (163) of each of the pallets comprises a pin (163) which penetrates into a longitudinal slot of the auxiliary ring (165). Apparatus according to claim 5, wherein the auxiliary ring gear (165) is rotated by a drive pinion (166) coaxial with and driving with the drive pinion (102), the pinions and rings having dimensional characteristics such that a rotation of the same speed of the pinions printed by the drive actuator 30 causes a differential rotation between the rings. Apparatus according to claim 5, wherein the drive gear (166) is rotatably connected to the last drive gear (102) by a threshold friction device (167,168) so that the drive gear rotates with the drive gear until a torque exceeding a given threshold causes it to slip.