DE606608C - Aileron and elevator control for gyrocopter - Google Patents

Description

The subject of the invention is a transverse and altitude control for gyroscopes (aircraft with circling wings).

The aileron and elevation control of the previously known gyroplane with rigid propeller blades was done by rudders on rigid auxiliary surfaces and tail units, similar to those of normal hang gliders. These auxiliary surfaces and tail units worsen the efficiency of the gyroplane because they are additional Show weights, increase air resistance and the flow at the propeller especially at high angles of attack.

There are also helicopters with arranged on the propeller blades, periodic controlled oars became known, in which in the hollow axis of rotation of the lifting screw Eccentrics are arranged, which are adjusted by means of a control stick. According to the invention is in the transverse and Height control for gyroplanes with articulated screw blades that in in helicopters known manner arranged in the hollow axis of rotation of the support screw, the periodic controlling movement of the rudder hinged on the propeller blades effecting eccentrics with the .Gelenken of the propeller blades connected by articulated levers on which the rudder-adjusting push rods attack.

The new invention also provides the readily apparent effect the further effect that the pivoting movement of the propeller blades is automatically damped by controlling the rudder.

Fig. Ι shows, for example, the axis and Hub piece of a support screw with the built-in control (control in middle position). The left half is shown in section parallel to the axis of rotation.

Fig. 2 is a plan view of section AA of Fig. 1, but the steering guide has been added schematically to the oars to explain the steering process. In contrast to Fig. Ι, the control is shown at full deflection.

The support screw rests on a strut pyramid, the upper strut ends b (Fig. 1) of which are connected to the axle piece α. The axle piece α carries the control lever c and the · eccentric, which consists of the pieces z, m, s, q in the lower hollow part. The control stick c can either be operated as a hanging control stick directly from the driver's hand or indirectly by means of cables, bumpers or the like, which are connected to a normal stick or handwheel control.

The upper full part of the axis α forms the journal for the supporting screw. In our example, the tapered roller bearings 0, which can absorb radial and axial forces, are located between the hub and the axis α. Instead of the latter, however, other known ball bearing arrangements can also be used.

The hub piece η carries in a known manner the bearings for the hinged blades of the support screw, of which the inner ends of the surface spars h with their joints g and the joint pins d can be seen. A four-wing structure was shown as an example; However, any other number of wings can also be used, the wings of which are connected in a similar way and for which the operation of the control is the same.

The control lever c is mounted spherically in the two-part ball socket /, i , but can also be articulated in a similar way in a universal joint. At the upper end is a ball head k, which can move a cylindrical bush s in the center of the eccentric. This bushing forms the actual eccentric with the nut m, the spoke pieces s and the ball bearing q (see also Fig. 2). The spoke pieces s penetrate the hollow axis α through slots in it. The ball bearing q has a small spherical bearing I for each wing. The push levers ί and u , which are used to operate the push rods w, are connected to these bearings. The lever u is mounted on ball bearings at ν and has the pivot pin d of the wing as its axis of rotation. The bumpers w transmit their movement to the oars r in any known manner (Fig. 2). This transfer is shown schematically in Fig. 2. For this purpose, any mechanical, pneumatic or electromagnetic transmission type known per se can be actuated by the bumper w. Furthermore, the oars themselves can be operated in the normal way directly by means of rudder levers or indirectly by means of auxiliary rudders, auxiliary flaps or the like, which are known per se. If possible, the type of transmission should be selected so that the control forces and deflections remain within small limits.

The inside of the axle and hub piece is closed off from the outside so that it can be filled with a lubricating liquid into which all moving parts are immersed. The flanges χ and y close off the eccentric tightly and are also guides for the eccentric.

The mode of operation of the control is as follows: The movement of the control lever c causes the eccentric z, m, Sj q to move in a plane perpendicular to the main axis a. In Fig. 2 you can see the eccentric with a full deflection after the circular angular position of 90 ^° . The distance e means the eccentricity between the axis of rotation α and the center of the eccentric. With the interposition of the control mechanism t, U ₁ w and the control guide p , the deflections of the rudders on the circling blades are effected. From Fig. 2 you can see the periodic movement of the rudder during one revolution of the propeller. This movement of the rudders accelerates diametrically opposed blades up and down. As a result, any desired transverse and vertical inclinations of the support screw can be achieved by suitable control movements.

The rotary vane system of Fig. 1 has pivotable blades of known type which can pivot about the hinge pin d. The control has the advantage that it automatically dampens the pivoting movements of the blades. As can be seen from the figures, when a leaf is opened, its rudder is also moved upwards. This reduces the air force so that the pivoting movement comes to a standstill earlier.

Claims (1)

Claim: Aileron and elevation control for gyroplanes with hinged screw blades, characterized in that in the known manner in helicopters in the hollow axis of rotation of the support screw arranged, the periodic controlling movement, the one on the propeller blades hinged rudder effecting eccentrics with the joints of the propeller blades by articulated levers is connected, on which attack the rudder-adjusting bumpers. 1 sheet of drawings