RU2709944C2 - Propeller with folding blades - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: propeller driven by engine includes screw bushing connected with drive motor, blades and rotor hub which is connected with screw bushing with possibility of joint rotation. Blades are made folding in direction opposite to flight direction of aircraft and are connected with bushing by means of hinges. Blades in folded position are located along fairing on its outer surface with possibility of rotation in folded position together with fairing during folding blades and their unfolding.EFFECT: invention is aimed at improving operating reliability, simplifying the design and reducing the size of the nacelle.5 cl, 3 dwg

Description

The invention relates to the field of aeronautics, namely to propellers with folding blades for an aircraft.

Known is an aircraft propeller comprising a propeller hub associated with a drive motor and air blades, as well as a propeller cowl, wherein the cowl is rotatably connected to the propeller hub together with the propeller hub, and the blades are folded and connected to the hub by hinges (RU 2456206 C2, publ., 20.07.2012).

The disadvantages of the known screw are the need for folding in the direction coinciding with the direction of flight of the device. This decision is associated with the need to use the oncoming air flow to drive the generator at the beginning of the screw folding process. In this case, the indicated direction of unfolding of the rotor blades determines the necessity of arranging the plane of rotation of the rotor in working condition near the housing surface on which the propulsion system of the rotor drive is installed. In addition, folding the blades in the direction of flight requires the use of a drive lock, which is installed after unfolding the blades.

The technical result is to increase the reliability of the propeller, simplify the design and reduce the size of the nacelle.

The problem is achieved in that the propeller with folding blades for the aircraft, driven by the engine and contains a propeller hub associated with the drive motor and air blades, as well as a fairing of the propeller hub, while the fairing is connected to the propeller hub with the possibility of rotation together with the hub propellers, the blades are made folding in the direction opposite to the direction of flight of the aircraft and are connected to the sleeve by means of hinges, the blades being folded in the folded position cowling in a recess made in the form of non-through grooves on its outer surface with possibility of their rotation in the folded position with the cowling, at least during the folding and unfolding of the blades.

The task is also achieved by the fact that the niches can be made in the form corresponding to the shape of the blades.

The task is also achieved by the fact that the blades in the folded position can be located within the dimensions of the fairing in the direction of the axis of rotation of the screw.

The task is also achieved by the fact that the geometric axis of rotation of the hinges do not intersect with the axis of rotation of the screw, and the plane of rotation of each hinge can be offset relative to the specified axis of rotation of the screw.

The task is also achieved by the fact that the engine can be made electric and located inside the fairing.

The invention is illustrated using the drawings.

In FIG. 1 shows a pulling screw with folded blades;

In FIG. 2 - the same, with the blades in the working position to create thrust of the aircraft.

In FIG. 3 shows a view of the propeller in the working position of the blades.

The propeller contains a sleeve 1 connected to the drive motor 2. The sleeve 1 has hinges 3 with blades 4 fixed to them, while the cowl 5 of the screw sleeve 1 is connected in it with the possibility of their joint rotation.

On the surface of the fairing 5, niches 6 are made in the shape corresponding to the shape of the blades 4, for laying them in these niches 6 when folding. In this case, the niches 6 are made in the form of through-through recesses, and when folding, the blades 4 are placed within the fairing 5, that is, they do not extend beyond its limits along the length after folding.

The geometric axis of rotation of the hinges 3 are offset from the axis of rotation of the screw, that is, they do not intersect it, and the plane in which the blades 4 are rotated in the hinge 3 is offset relative to the axis of rotation of the screw. Moreover, as shown in the drawings, with an even number of blades 4, the rotation planes of each pair of blades 4 are located centrally symmetrical about the axis of rotation of the screw.

The engine 2 can be made electric and is located inside the fairing 5 within its dimensions.

The described propeller operates as follows. In the folded position, the blades 4 are laid along the fairing 5 and are located in the niches 6. Moreover, the entire sleeve 1 with the engine 2 and the fairing 5 with the blades 4 are located outside the housing on which the nacelle is mounted. The ends of the blades 4 are directed along the flight direction of the apparatus. When it is necessary to unfold the blades 4, the shaft of the engine 2 is rotated, and under the action of centrifugal forces, or under the influence of drive mechanisms, the blades 4 rotate in hinges 3, being installed in a plane approximately perpendicular to the axis of rotation of the screw. In this case, the blades 4 after the layout can reach the stops (not shown in the drawings), or in their working position a balance can be achieved between the action of the centrifugal forces on the blades 4 and the forces creating longitudinal traction.

In the working position of the screw, after the layout of the blades 4, the plane of their rotation is at the maximum distance from the mount of the nacelle. This makes it possible to improve the aerodynamics of the apparatus with the given dimensions of the folding blades and, accordingly, the nacelle and fairing, in particular, due to the recession of the blades in the niches after their folding, and it is also most useful to use the dimensions of the nacelle. The lack of need for the use of drive clamps of the blades in the working position simplifies the design, its reliability.

Claims (5)

1. A propeller with folding blades for an aircraft driven by an engine and comprising a propeller hub coupled to a drive motor and blades, as well as a propeller cowl, wherein the cowl is rotatably connected to the propeller hub together with the propeller hub; the blades are made folding in the direction opposite to the direction of flight of the aircraft and are connected to the sleeve by means of hinges, moreover, the blades in the folded position are located along the fairing in niches made in the form of non-through x recesses on its outer surface with possibility of their rotation in the folded position with the cowling, at least during the folding and unfolding of the blades. 2. The propeller according to claim 1, characterized in that the niches are made with a shape corresponding to the shape of the blades. 3. The propeller according to claim 1, characterized in that the blades in the folded position are located within the dimensions of the fairing in the direction of the axis of rotation of the screw. 4. The propeller according to claim 1, characterized in that the geometric axis of rotation of the hinges do not intersect with the axis of rotation of the screw, and the plane of rotation of each hinge is offset relative to the specified axis of rotation of the screw. 5. The propeller according to claim 1, characterized in that the engine is electric and located inside the fairing.

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