DE917540C - High-speed wind turbine - Google Patents

Description

High-speed wind turbine There are high-speed wind turbines with both fixed as well as adjustable wings.

Wheels with fixed wings have before those with adjustable wings Wings have the advantage that they can be built more stable with lower manufacturing costs let, while wheels with adjustable blades can be controlled better in their speed are and also with a corresponding setting of the wings a greater starting torque can raise.

Disadvantages of this type are in particular that the storage very long adjustable wing in the wind turbine hub must be very good and strong and as a result becomes very expensive. It is the same with the control organs; because the Requires adjustment of the long wings and keeping them in a certain position very large forces, especially in strong winds.

The invention aims to create a wind turbine which the Advantages of the fixed; connects with those of the adjustable wings.

The solution is that the wings in the direction of their longitudinal axis consist of two consecutive parts, the inner part of which is fixed and the outer part of which is designed to be adjustable about its longitudinal axis. Through appropriate The outer parts should be adjusted either less or at all in strong winds do not cooperate or deliver a counter-torque and thereby regulate the speed and limit. In addition, the outer parts can be adjusted so that the fast-moving Wind turbine one gets bigger starting torque, and eventually you can they are also placed in such a way that the wheel facing the wind is in the parked position State remains still.

Since the forces acting on the outer adjustable wing parts, are only relatively small, their storage can be carried out simply and easily will. For the same reason, the adjustment forces are only small, so that they can be applied by smaller control organs.

The drawing shows in Fig. I the wind turbine according to the invention of seen forward in the direction of the wind. With i are the inner, larger fixed parts the wing and with 2 the outer adjustable wing parts. they are drawn in the position in which they, according to Figure 3, the fixed wing parts i continue without twisting each other.

The wing parts i are rigid with tubular spars d on the hub 3 attached. In order to achieve even greater strength, these spars can be braced 5 are connected to each other. The adjustable wing parts 2 have special Spars, which through the tubular spars q. go into the hub 3 and can turn in it. The device for adjusting the outer. Wing parts 2 can partially sit in the hub 3 and attack the spars of the wing parts 2 here.

FIGS. 2 to 5 show, on a larger scale than in FIG Positions of the two wing parts to one another, as can be seen in section A-A would. The hatched profiles are those of the fixed wing part, while those outlined with a line are those seen in the direction indicated in FIG Show profiles of the adjustable wing part. The arrows W indicate the wind direction and wind speed, the direction and speed of rotation by the arrows L ' indicated. The twist required to achieve the best efficiency the wing is not shown in the drawing.

Fig. 2 shows the starting position in which the adjustable wing part 2 is only at a small angle to the wind direction. Generated in this position the wind on the outer wing part e has a greater force than on the inner part in the direction of rotation. This force is exerted on the largest possible lever arm. That's why a big one is created Starting torque.

Fig. 3 shows the operating position for all middle. well exploitable Wind speeds. The profile of the adjustable wing part 2 is complete covered by the profile i. So the wind turbine runs at a soft speed is in a certain relationship to the wind speed, if the wind speed is uneven Wind speed with an uneven speed of rotation. That needs not being a disadvantage, but can lead to the optimal use of wind power, if only the driven machine with its power requirement and its characteristics is adapted to the changing power of the wind turbine. Fig. 4. shows how the profile of the adjustable wing part 2 by the action of a centrifugal governor at strong Wind has passed into a braking position. Between this position and the one which is shown in Fig. 3, can still through a number of other positions the centrifugal governor can be adjusted so that when the wind gets stronger first only the wind power component in the direction of rotation on this blade 2 is less and only then does braking occur in the air.

With the appropriate design of the control elements and the setting of the centrifugal governor is it z. B. possible with winds over 8 m / sec. one that only rises slightly, to achieve almost constant speed of rotation of the wind turbine.

Fig. 5 shows an even greater adjustment of the outer wing part, which was created by actuating the parking device. The two wing parts i and 2 are set to each other so that the torque, which in the direction of rotation U generated on the fixed wing part i by the wind when the wind turbine is at a standstill is exactly as large as that which is on the outer wing part 2 from Wind is exerted. The torques should cancel each other out in this position, so that the wind turbine practically comes to a standstill at any wind speed. So that but actually comes to a standstill, can possibly be done simultaneously with the actuation the parking device a friction brake on the hub 3 or otherwise on a suitable one Place to be inserted :.

The organs of the automatic control as well as the parking device are not shown. They can be designed similarly to those for adjustable ones Wings are already known.

Claims (7)

PATENT CLAIMS: i. High-speed wind turbine, characterized in that that the blades in the direction of their longitudinal axis consist of two consecutive There are parts whose inner part (i) is fixed and whose outer part (2) is around its longitudinal axis is adjustable. 2. High-speed wind turbine according to claim i, characterized in that the regulation and limitation of the speed by adjustment the outer wing parts (2) is reached. 3. High-speed wind turbine according to the claims i and 2, characterized in that the wing parts at medium wind speeds (i and 2) are adjusted to each other so that the outer adjustable wing part (2) forms the continuation of the inner fixed part (i), the wing as a whole in order to achieve optimal performance at the assumed wind speed has the best setting and torsion (Fig. i and 3). ¢. High-speed wind turbine according to claims i and 2, characterized in that the outer wing parts (2) before reaching a certain speed a1> by action of a centrifugal governor can be set so that the wind pressure component in the direction of rotation on this wing part is less. 5. High-speed wind turbine according to the claims z and 2, characterized in that the outer wing parts (2) when exceeded a certain speed can be set so that it corresponds to the torque of the inner wing parts deliver counteracting torque (Fig. 4.). 6. Fast moving Wind turbine according to claim 5, characterized in that the torques which the fixed wing parts (z) and the outer adjustable wing parts (2) exerted by the wind, balancing each other out, so that the Wind turbine enters (Fig. 5). 7. High-speed wind turbine according to claims r and 2, characterized in that the outer wing parts (2) in such a position can be rotated so that a greater starting torque can be generated by the wind (Fig. 2). B. high-speed wind turbine according to claim 6, characterized in that In addition, a brake is applied in a manner known per se, which the Holds the wind turbine completely. Attached publications: German patent specification 726458,