DE3425313A1 - Wind turbine - Google Patents

Abstract

The wind turbine is intended for converting wind energy into other forms of energy, and consists of a horizontal rotor, which is rotatably mounted on a mast, is coupled to a generator, and on which there is arranged on the rotor arm at least one wind capture vane with a cross-section resembling a slender sectional wing. Arranged on at least one end (1) of the wind capture vane (2) transverse to the surface (3) thereof is an auxiliary wing (4). The sectional surface (5), on the wind vane side, of the auxiliary wing (4) forms an acute angle with the other horizontal limiting surface (6) of the auxiliary wing (4). This construction lends the rotor a self-starting thrust and an additional thrust during rotation. <IMAGE>

Description

Wind turbine

The invention relates to a wind turbine according to the preamble of the main claim.

Wind turbines of the type mentioned are well known, and there are many efforts have been made to optimize such turbines with horizontal rotors, by a multiple of the rotational speed in relation to the wind speed, i.e. high speeds. Starting points for this were, for example, special designs the profiles of the vestibule sheets, their adjustability during circulation and Finally, arrangements and designs of the rotor with windscreen blades in such a way that that the windscreen leaves do not interfere with each other when they circulate.

In particular, the mobility of the porch leaves to the hinged ends on the rotor arms is associated with a relatively high effort, not only because of the optimal setting of the windscreen leaves during their rotation accepted but also to impart start-up properties to such turbines themselves.

The invention is based on the object of developing wind turbines of the initially introduced to improve the type mentioned 1 that on a movable Arrangement of the windscreen leaves on the rotor can be dispensed with, but the windscreen leaves or the rotor even at low wind speeds by simple means itself should have start-up properties and the means used for this also after Start-up of the rotor should also contribute to optimal energy conversion.

This task is with a wind turbine of the type mentioned according to the invention by the features listed in the characterizing part of the main claim solved.

Advantageous further developments result from the subclaims.

Such small auxiliary wings are known per se, namely to the Ends of aircraft wings are perpendicular to the wing and have there however, a different task than in the present case.

The inventive design of the wind turbine results namely surprising that by such a simple measure the rotor itself can start up even at low wind speeds, but for what It is essential that the wing-side profile surface of the auxiliary wing in the way increases against the direction of rotation, because only generated with such a profile along the wing to the Auxiliary wing outflowing flow in Direction of rotation a thrust component on the auxiliary vane, which the rotor easily in Sets gear.

Although this is usually always assumed for horizontal rotors can that the at least one vestibule sheet mostly a position at standstill has, in which this push effect is effective, the auxiliary wing is advantageous so set at the end of the porch sheet that this the sheet end after both Sides protrudes, which ensures that this effect at every rest position can take effect at any point in the circuit.

It has also proven advantageous in this context that the Blade half, seen from the auxiliary wing, slightly converging towards the rotor arm attachment to be arranged, creating a flow orientation along the blade surfaces to the auxiliary wing is supported.

As has been shown, the thrust component that is caused by the small auxiliary wing forms, received even during high speed, because it could even higher speeds than with porch leaves without such auxiliary wings were found will. Depending on the actual length of the windscreen leaves, more can of course Auxiliary wings on the surfaces of the porch leaves be provided which will be explained in more detail.

Because of the small auxiliary wings, the self-start of the rotor as well is guaranteed even at low wind speeds, can as a result other, relatively complex measures can be dispensed with, i.e. those with a slimline wing profile-like Cross-section windscreens can be rigidly attached to the end of the rotor arms and all related control and / or fixing elements to determine the most favorable setting in actual circulation can be omitted, but what means nothing else than simple and inexpensive manufacturability and finally lower weight.

The wind turbine according to the invention is illustrated below with reference to the drawings Representation of exemplary embodiments explained in more detail.

It shows schematically Fig. 1 in perspective, the wind turbine with only a vestibule; 2-4 plan views of the vestibule sheet from above; Fig. 5 shows a side view of a vestibule leaf end with auxiliary wing, and FIG. 6 shows a perspective a special embodiment of the vestibule sheet.

The wind turbine shown in FIG. 1 has only one rotor arm 10 Windscreen leaf 2, with only one aerodynamically favorable on the other rotor arm 10 ' shaped counterweight is arranged. This is not intended to rule out the possibility of the wind turbine can of course also be equipped with several rotor arms 10, on whose A vestibule sheet 1 then also ends in each case. The rotor arm 10 'with counterweight is then dispensable. As can be seen from Fig. 1, 1 of the vestibule sheet is at each end 2 arranged transversely to its surface 3, a small auxiliary wing 4, the wing-side Profile surface 5 with the other horizontal boundary surface 6 of the auxiliary wing forms an acute angle 7.

Whether the wind is flowing in from one side or the other and up the vestibule surface 3 hits, so will in any case, and only in this way will the thrust effect his explanation, at least part of the incident wind along surface 3 Flow up and down and at the same time on the wing-side profile surface 5 of the Auxiliary wing 4 meet, which is due to the angular position of the auxiliary wing 4 results in a thrust component in the direction of rotation and starts the rotor.

As can be seen from Fig. 2, the entire vestibule sheet is simple rigidly attached to the end of the rotor arm 10 and the slim airfoil-like formed vestibule sheet is provided with a curvature as a whole, that of the curvature of the circulation circuit 12 corresponds. The auxiliary wing 4 is also on the upper one End 1 of the profile surface 3 oriented accordingly and stands with on both sides same length or

Width beyond the neutral longitudinal axis 11 of the vestibule sheet. For the reasons mentioned, the central assignment of the entire auxiliary wing 4 to neutral longitudinal axis 11 is preferred, in particular when, as in Fig. 1 shown, actually only one vestibule sheet 2 is arranged on the entire rotor. If with reference to the position of the vestibule shown in Fig. 1 at a standstill the wind coming from the right side of the rotor can be cer described effect also from the inside of the windscreen sheet surface 3 in relation take effect on the auxiliary wing.

As indicated by dashed lines in Fig. 1, depending on the length of the entire Windscreen between the auxiliary wings 4 at the ends 1 and the rotor arm approach 7 additional auxiliary wings 4 'are provided. As can also be seen from Fig. 1, the vestibule sheet 2 is formed slightly kinked with respect to the vertical and in such a way that the two halves of the vestibule 2 converge towards the rotor arm 10 to each other get lost. In addition, the vestibule can rotate in the direction of rotation be formed with arrows, as can be seen in particular from FIG. 6. Possible would also be the small auxiliary wing or wings at the ends 1 of the windscreen sheets 2 according to FIG. 5 pivotable and adjustable to form the auxiliary wing with respect to to be able to set an optimal push.

The installation of a simple adjustment mechanism is problem-free, since the vestibule is rigidly attached to the rotor arm 10. In addition to the This can be intensified by the small auxiliary wing generated be that in the sense of Fig. 3, 4 at least one inflow surface part 3 'of the Windscreen sheet 2 in relation to the "normal wing surface course" behind the front Oncoming edge 8 is arranged set back with the formation of a thrust surface 9 and this can run in the sense of FIG. 6, this thrust surface in the auxiliary wing 9 or whose profile surface 5 can pass. Such recessed surfaces 3 'can in relation to the overall profile of the vestibule sheet, possibly also on both sides of the Windscreen sheet are arranged, it may well be possible that the Thrust surfaces 9 alone, i.e. without the arrangement of an auxiliary wing 4, as described, sufficient for the rotor to start up. In this case the front profile edge would be 8 with the thrust surfaces 9 in its effect as an auxiliary wing 4 to be understood.

With reference to Fig. 3, 4 and 6 it should be added that the auxiliary wing or the thrust surfaces 9 by a corresponding extension design of the rotor arm end to the vestibule sheet 2 in addition to the auxiliary wing 4 at the end of the vestibule sheet can be represented or realized.

Instead of the counterweight in Fig.i, as mentioned, at the end of the A corresponding vestibule sheet 2 can of course also be arranged on the rotor arm 10 ′, wherein the ends 1 of the windscreen sheets 2, as indicated by dashed lines in Figure 1, for Can be braced towards the center of the rotor, in which the generator or generators are arranged and coupled directly to the rotor.

Claims (9)

Patent claims: r <, wind turbine for converting wind energy into other forms of energy, consisting of a rotatably mounted on a mast, with a generator coupled horizontal rotor, on which at least one in cross section Slender wing profile-like windscreen is arranged on the rotor arm, d a -d u r c h g e k e n n n z e i c h n e t that at least one end (1) of the vestibule sheet (2) an auxiliary wing (4) is arranged transversely to the surface (3) of which the wing-side Profile surface (5) with the other horizontal boundary surface (6) of the auxiliary wing (4) forms an acute angle (7). 2. Wind turbine according to claim 1, since you r c h g e -k e n n z e i c h n e t that the auxiliary wing (4) with respect to the end of the surface of the vestibule sheet (2) is placed in the middle of the end and the end (2) with the same length after both Sides towering over. 3. Wind turbine according to claim 1 or 2, d a d u r c h g e k e n n z e i c h n e t that between the auxiliary wing (4) and the rotor arm attachment (7) on Vestibule (2) at least one further auxiliary wing (4 ') is arranged. 4. Wind turbine according to one of claims 1 to 3, characterized in that that the at least one auxiliary wing (4 ") is adjustable on the vestibule sheet (2) is. 5. Wind turbine according to one of claims 1 to 4, characterized in that that at least one inflow surface part (3 ') of the vestibule sheet (2) with respect to the "normal wing surface course" behind the front leading edge (8) under training a thrust surface (9) is arranged set back. 6. Wind turbine according to claim 5, d a d u r c h g e -k e n n z e i c h n e t that the thrust surface (9) is designed to merge into the auxiliary wing (4) is (Fig. 6). 7. Wind turbine according to one of claims 1 to 6, characterized in that that the windscreen (2) rigidly attached to the rotor arm (10) and the neutral longitudinal axis (11) its slim airfoil profile corresponding to the one it traversed Circular path (12) is curved. 8. Wind turbine according to one of claims 5 to 7, characterized in that that the vestibule sheet (2) is swept in the direction of rotation and the thrust surface (9) arranged to run parallel to the front leading edge (8) of the vestibule sheet (2) is (Fig. 6). 9. Wind turbine according to one of claims 1 to 8, characterized in that that the vestibule sheet (2) converges towards the rotor arm (10) from the auxiliary wing (4) is inclined (Fig. 1).