DE336599C - windmill - Google Patents

Description

Windmill. The invention relates to wind turbines in which the The wings that serve as a mist are so yielding on theirs. vertical axes are arranged that they are automatically on one side of the wheel with their Surface and on the opposite side A the same finite edge to find a -., tellen. Compared to the known Windrä.lern (1: This type of the invention exists essentially clear that (LieDrehl) e «-e-ung derFl # i # el through on the axes and cooperating cam pairs attached to the vanes is limited, which to limit the deflection with steep comb surfaces facing each other are provided. In order to avoid breakage in strong winds, the cams are also the Wings are arranged to be longitudinally displaceable on the axles and are engaged by springs held with the axis cam. In this way, the wings can by adding .the Slide ridge surfaces up on top of each other, in strong winds above the normal deflection angles swing out, and the cams can even, in stronger winds, one above the other evade away so that the speed of the bike is always below the danger limit is held.

The invention is illustrated in the drawing in an exemplary embodiment. Fig. I is a plan view of the wind turbine. Fig. 2 illustrates a side view, wherein the holding device is shown in vertical section.

Fig. 3 shows a detail of the wheel on a larger scale.

FIG. 4 is a section along line 4-4 of FIG. 3.

Fig. 5 is a section showing the fixed cam of the resilient stop Fig. 6 is a section showing the movable cam from below seen illustrated. The vertical shaft i is in the bearing 2 of the windmill rotatably mounted. The wind turbine rotates with the vertical shaft i and exists from the upper and lower Nabers 3 and 4, which are the upper and lower spokes or wear arms 5 and 6. In the present embodiment, there are four pairs such arms or spokes are arranged at an angle of 9o ° to one another. One or more vertical rods 7 connect each pair of the upper and lower arms 6. In the present case Trap are two such vertical bars for each pair of upper and lower arms 7 shown. The outer ends of the upper arms 5 and the lower arms 6 are through Tie rods 8 and 9 connected to one another. To increase the strength of the wheel, are the upper arms 5 through Tie rods io connected to a hub ii, which is attached to the vertical shaft i a little above the T hub 3.

The wings 12 are suspended in such a way that they swing around the vertical rods 7. In order to limit this movement, upper and lower cams 13 and 14 are attached to each rod 7 and have steep ridge surfaces. These steep ridge surfaces interact with steep ridge surfaces on upper and lower cams 15 and 16, which are arranged on the rod 7 so as to be rotatable and vertically displaceable. From the movable cams 15 and 16 extend upper and lower arms 17 and 18, to which the wings 12 are attached with their upper and lower edges.

The upper and lower cams 15 and 16 rest on the upper and lower cams 13 and 14 by their own gravity. In order to exert additional pressure on the cams i5 and 16, compression springs ig and 2o are arranged. The spring ig is arranged between the upper surface of the cam 15 and an adjustable nut 22. The spring 22 is located between the upper surface of the cam 16 and an adjustable nut 22. In this way the tension of the springs ig and 2o can be regulated to suit various requirements.

The cams are arranged and designed so that the wings 12 to their vertical rods 7 uninterrupted an extended swinging movement and with an unusually high wind pressure also another swinging movement can perform. This latter oscillating movement is made possible in the "ice", .that the steep lifting surfaces of the moving cams on the steep lifting surfaces of the fixed ones Cam against the action of gravity and the tension of the springs ig and 2o slide up.

The mode of action is as follows: Stand at normal wind pressures the wings 12 on one side of the wheel face the wind with their flat sides represents, wherein the wings, as can be seen from Fig. i and 2, essentially are in the plane of their upper and lower arms 5 and 6. When the wheel turns, the wings are first thrown outwards and then they turn the winch with their edges as soon as they are on the opposite side of the wheel reach. As the wings resume their first mentioned position, Then gradually secure yourself again with your upper and lower arms 5 and 6 parallel layers. These various positions are shown in FIG.

When the wind gets too big, the cams allow the resilient Form stops for the wings, a sufficient evasion of the same from the wind. If necessary, the wings can also swing completely beyond the stops, so that in this way the speed of the wheel is always below the danger limit is held.

Claims (2)

PATRNT- AI \ TSPRÜCIIR: i. Wind turbine with rotating from the winch, resiliently mounted on vertical axes blades, characterized in that the rotary movement of the blades is limited by on the axles and on the blades cooperating pairs of cams (13, 15; 14, 16), which are used to limit the Rash are provided with mutually directed steep ridge surfaces. 2. Wind turbine according to claim i, characterized in that the cams (i5, 16) of the blades are arranged to be longitudinally displaceable on the axes and are pressed against the cams (13, 14) of the axes by springs (ig, 2o).