DE610434C - Aileron and altitude control for aircraft with orbiting wings - Google Patents

Description

The invention relates to aileron and elevator control for aircraft with circling Wings.

The invention is an extension and addition of the aileron and elevator controls according to patent 606608. The subject matter of the invention is intended to provide a lateral and height control for aircraft with circling wings with the help of periodically moving

y oars oars on the circling wing blades be made possible, so that other control parts and their rigid auxiliary support surfaces and horizontal stabilizers become superfluous. The compared to previously known aircraft achievable advantages of this kind were: lower air resistance, lower weight, more favorable flight characteristics and better controllability even in excessive flight conditions.

The operation of the control is the same as in the subject of the main patent. Compared to this, the following beneficial supplements have been added:
The wing blades of aircraft with circling wings can be folded backwards in a manner known per se in order to take up as little storage space as possible on the ground. So that this folding back can be done in the simplest and fastest way without having to loosen or loosen parts of the control, the control has been expanded so that the control parts of the blades are not firmly connected to the eccentric, but slide on this under pressure and a Allow the wing blades to fold back easily.

Aircraft with circling wings can in a known manner with an auxiliary drive four can be seen for the rotary wing, which has a short or vertical start or a To enable standstill in the air. This drive is usually located below the Swing hub. The installation of this drive is made easier when the eccentric disc is above the hub as in the subject matter of the invention.

For the execution of vertical or almost vertical flight movements and for the Standstill in the air is desirable if the lift of the wing blades is increased, z. B. by increasing the curvature of the profile by adjusting the rudders of all the blades pans down and down at the same time. This joint movement of the oars can thereby be accomplished that the eccentric disc is conical, shaped and in its axial direction also controls up and down. By swiveling all of them down One can oars z. B. achieve that in the case of

fertilize the movement of the last section of the fall is strongly dampened, while at the same time the Rotational energy of the rotary wing is so strongly consumed that the aircraft after the It can no longer be lifted off or knocked over due to gusts or strong winds touching the ground. After the landing All the rudders can even be swiveled upwards so that the aircraft can slide through ίο the wind is pressed to the ground.

The illustration shows, for example, the arrangement of the control in the axis and Hub of a rotary wing. It is a sectional side view of the front only Half was shown.

The hollow axle piece α of the rotary vane rests on a strut pyramid with struts b. The control lever c is mounted spherically or cardanically in the interior of the axis and thus actuates the eccentric, which consists of parts d, e, ₃ f, g . The control lever c can either be operated as a hanging control stick directly by the driver or indirectly by means of cables, bumpers and the like of a normal stick or handwheel arrangement.

The hub of the rotary wing. is carried by angled roller or ball bearing. The hubs carry the universal joint pieces in a manner known per se; to them are the scorns h of the wing blades. The vertical joint can be provided with friction damping or the like in a known manner.

The horizontal hinge pin / also serves as an axis for the roller lever / *, which transfers the eccentric movement to the control guides inside the blades. These control guides can be of a known type, such as. B. mechanical, electromagnetic or pneumatic type. In the example shown, a cylinder y and a piston / i of a pneumatic transmission is shown.

The roller lever is o. The like by spring pressure; pressed against the conical eccentric disk g. The roller / slides loosely on the eccentric plate g and allows the blades to be folded back around the vertical hub joint without parts of the control system having to be loosened or loosened.

The conical eccentric disk g lies between two flanges of the vertical guide m, which can be controlled up and down in the vertical direction by a special actuation of a known type (mechanical, pneumatic or electromagnetic). The eccentric disk g makes these additional movements and thereby controls the roller levers r of all the blades at the same time. This creates a movement in the same direction for all the rudders, which results in an increase or decrease in the lift of the entire rotary wing without the controllability being impaired by the original eccentric movement. The conical outside of the eccentric disk can be straight or of a special curve shape in order to achieve the most favorable control effect.

Claims (4)

Patent claims: 1. Aileron and elevator controls for aircraft with circling wings according to Patent 606 60S by means of an eccentric built into the hollow axis of the rotary wing, the deflection of which generates periodic rudder movements on the rudders of the circling blades, characterized in that that the control mechanism of the blades is not firmly connected to the eccentric disc, but to this slides along under contact pressure. 2. Aileron and height control according to claim i, characterized in that the Eccentric is above the rotary vane hub. 3. Aileron and elevator control after. Claim ι and 2, characterized in that that the eccentric outer shape, any rectilinear or curvilinear and is conical in nature. 4. Aileron and height control according to claim ι to. 3, characterized in that that the eccentric disc are additionally controlled in the upward and downward direction can. 1 sheet of drawings