PL242492B1 - Blade of a rotor with variable twist angle - Google Patents

Abstract

A rotor blade with a variable twist angle, having a spar, filling and elements made of shape memory material, is characterized by the fact that inside the blade there is a spar (1) consisting of a vertical beam and a horizontal beam connected to it in its central part. The end of the upper crossbar (2) directed towards the leading edge (3) is connected to the upper end of the vertical beam with a deformable connection. Between the end of the horizontal beam and the free end of the upper crossbar (2) there is an element (4a) made of material with shape memory, and the lower end of the vertical beam is connected with a deformable and tilting connection - the end of the lower crossbar (5) directed towards the leading edge (3). Between the end of the horizontal beam and the free end of the lower crossbar (5) there is an element (4b) made of material with shape memory.

Description

Description of the invention

The subject of the invention is a rotor blade with a variable twist angle, in particular for helicopter main rotors.

So far, blades made of metal girders covered with a composite, wooden blades, metal blades or composite blades are known. In addition, available blades are rectangular or tapered. They can also be twisted linear, double-linear or non-linear. There are various ways to increase the aerodynamic performance of rotorcraft by modifying their rotor blades.

Active Control Rotor Blade and Active Twist Rotor Blade technologies are mainly described in scientific publications. From the publication of M. Miller, J. Narkiewicz, W. Kania, T. Czechyra, "The Application of Helicopter Rotor Blade Active Control Systems for Noise and Vibration Reduction and Performance Improvement", no. 184, pp. 164-180, there are known construction solutions for "intelligent" rotors (Smart Rotor) through the use of piezoelectric elements in the active control of the blades. These elements are installed inside the blade structure as piezo-actuators or piezo-composites. It is possible to control the angle of inclination of the additional flap (at the trailing edge or blade tip) or to deform a fragment of the blade in order to twist it. Active control of the blade can apply to its fragment or its entire length. In the work of J.J. Epps, I. Chopra, "In-flight tracking of helicopter rotor blades using shape memory alloy actuators", Smart Mater. Struct., vol. 10, no. 1.2001, the concept of using SMA wires as elements reinforcing the load-bearing structure of a helicopter blade was described. In Lachenal, S. Daynes, and P. M. Weaver, "Review of morphing concepts and materials for wind turbine blade applications", Wind Energy, vol. 16, pp. 283-307, 2013, attention was paid to the research conducted so far and the consequences of the use of intelligent materials, namely the reduction of the aerodynamic drag of the blades, the reduction of noise and vibration, but also the possibility of turbulence. The possibility of reducing torsional loads on helicopter blades with piezoelectric actuators by 10% was indicated. The lack of moving parts and the simplification of the structure are important.

Patent application US 2017036752 (A1) discloses an active propeller blade with a shape memory alloy. The exemplary blade includes a propeller body, a plate coupled to the propeller body, a torque transmitting member, and a shape memory alloy (SMA) actuator. The SMA actuator has a far end and a proximal end. The distal end of the SMA actuator is attached to the torque transmitting element. The proximal end of the SMA actuator is connected to the propeller body. The SMA is configured to apply torque to the proximal end of the torque transmitting member as a consequence of the heat generated to the SMA. The SMA actuator is wrapped with a heating coil, which causes it to deform.

US 6,220,550 (B1) describes a device for deforming and moving aerodynamic or hydrodynamic surfaces, including rotor blade surfaces. The elements are bent and locked in one of at least three stable positions, in which the device, and thus the aerodynamic or hydrodynamic surfaces, are held by the force generated by the elastic deformation of the bent members. Since bending elements are always elastically deformed, the device snaps between discreet, stable positions and is firmly held in each of them. In another embodiment, more bending elements may be used to provide additional stable positions. In one application, the active device is used as a trailing lip tab for a helicopter rotor blade or tail rotor for vibration damping. The device can be operated manually or electrically using shape memory alloy wires to fasten the flex members in their various stable positions.

US Patent No. 6,135,713 (A) discloses an actively steerable helicopter rotor blade comprising a trailing edge flap actuated by a high-speed actuator. A lightweight, robust, fast-acting actuator suitable for use as a flap actuator consists of a pair of column actuators made of a smart material, such as piezoelectric, magnetostrictive, shape memory alloy, or other material that exhibits a change in shape when exposed to an external stimulus. Each of the column actuators consists of multiple piezoelectric ceramic elements connected together into single columns. The differential voltage applied to the columns causes differential extension of the column cylinders, which causes the cylinder tube to rotate around an axis perpendicular to the tips of the column cylinders. The movement of the actuator tube is coupled by the connection to the rotor blade flap. Spherical joints are positioned between the column cylinders and the cylinder tube to prevent significant bending loads being transferred to the column cylinders, and a center support is also provided for each column cylinder to limit the amount of acceleration due to bending loads, which would otherwise lead to failure due to bending loads stretching of the ceramic elements of the actuator.

From the patent description No. PL 208709 (B1) a wind turbine blade and a method of assembling a laminated blade profile are known, the essence of which is that the beam has at least one first part and at least one second part. The first part has at least one body part connected to at least one mounting surface and to at least one support wall. The parts are matched by means of height adjustment and connected to each other by mounting surfaces, and laminated profiles are mounted around the beam and glued to the respective support walls.

The essence of a variable-angle rotor blade with a spar, filling and elements made of shape-memory material is that inside the blade there is a spar consisting of a vertical beam and a horizontal beam connected to it in its central part. The end of the upper crossbar directed towards the leading edge is connected to the upper end of the vertical beam by means of a deformable connection. Between the end of the horizontal beam and the free end of the upper crossbar there is an element made of shape memory material, and the lower end of the lower crossbar directed towards the leading edge is connected to the lower end of the vertical beam by means of a deformable and tilting connection, with the end of the lower crossbar directed towards the leading edge between the end of the horizontal beam and the free end of the lower crossbar an element made of a material with shape memory.

The advantageous effect of the variable-angle rotor blade according to the invention is that it allows each section to be controlled separately (independently). Such a blade is universal in terms of adjusting the shape (twist angle) to the flight phase (hovering, flight at cruising speed, etc.), which directly increases the operability of the rotorcraft using the proposed solution. Variable-twist rotor blade especially for helicopter main rotors enables optimization of lift/drag ratio to maximize aerodynamic excellence. Optimization of aerodynamic features allows to reduce the loads generated cyclically by the rotor, depending on the phase of flight.

This will have a particularly significant impact on the effect of detachment of air streams from the blade surface in progressive flights. Reducing the amplitudes of variable loads significantly increases the fatigue strength of the structure, and thus reduces the weight of cooperating assemblies, such as pushers, fixed and rotating rings of the swash plate. The use of properly programmed metastructures of shape memory materials will reduce the power demand, thus increasing the range of the aircraft and/or extending the hovering time.

The object according to the invention has been explained in more detail in the embodiment in the drawing, where the individual figures show: Fig. 1 - cross-section of the blade with the spar, Fig. 2 - cross-section of the spar in the entry position, Fig. 3 - cross-section of the spar in the deformed position.

The rotor blade with a variable twist angle in the embodiment has a girder 1 inside, consisting of a vertical beam 1a and a horizontal beam 1b connected to it in its central part. The end of the upper crossbar 2 directed towards the leading edge 3 is connected to the upper end of the vertical beam 1a with a deformable connection. Between the end of the horizontal beam 1b and the free end of the upper crossbar 2 there is an element 4a made of a material with shape memory, and the lower end of the vertical beam 1a is connected the end of the lower crossbar 5 directed towards the trailing edge 9. Between the end of the horizontal beam 1b and the free end of the lower crossbar 5 there is an element 4b made of material with shape memory.

The principle of operation of the device according to the invention is that by changing the temperature of the element 4a made of material with shape memory, its elongation occurs, which causes the upper crossbar 2 to be deformed relative to the horizontal beam 1b. At the same time, by changing the temperature of the element 4b made of shape memory material, its elongation takes place, which causes the lower crossbar 5 to be deformed in relation to the horizontal beam 1b. The deformation of the upper crossbar 2 and the lower crossbar 5 causes the upper surface 6 and the lower surface 8 of the blade profile to be deformed via the filling 7.

Claims (1)

Patent Disclaimer 1. A rotor blade with a variable twist angle, having a spar, filling and elements made of shape memory material, characterized in that inside the blade there is a spar (1) consisting of a vertical beam (1a) and a horizontal beam connected to it in its central part (1b), and the upper end of the vertical beam (1a) is connected with a deformable connection by the end of the upper crossbar (2) directed towards the leading edge (3), and between the end of the horizontal beam (1b) and the free end of the upper crossbar (2) there is an element (4a) made of a material with shape memory is attached, and the lower end of the vertical beam (1a) is connected with a deformable and tilting connection with the end of the lower crossbar (5) directed towards the trailing edge (9), and between the end of the horizontal beam (1b) and the free end of the lower crossbar (5) there is an element (4b) made of shape memory material.