NL1024958C2 - Windmill comprises rotor with rotor shaft, on which at least two rotor blades are located parallel to each other - Google Patents

Abstract

The windmill comprises a rotor with a rotor shaft (10), on which at least two rotor blades (2) are located parallel to each other. The rotor blades have a wing profile. More than four blades are provided, and at least two of them are active. The mill is provided with a wind guide for conducting wind to the active rotor blades. The mill is provided with a wind guide for screening the non-active rotor blades. On the inside of the rotor a further wind guide (5) is placed. The mill is provided with a tipping mechanism, with which the wind input angle of the rotor blades can be adjusted. The wind input angle of the blades during operation is adjusted by the tipping mechanism so that the active rotor blades on the front side and those on the rear side have the same input angle.

Description

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WINDMILL

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The invention relates to a windmill comprising a rotor with a rotor shaft with at least two rotor blades connected thereto:

According to the prior art, a windmill consists of a rotor shaft on which the rotor blades are mounted perpendicularly. The rotor blades are equipped with a wing profile for converting wind speed into force. The force is transferred to the rotor shaft by the rotor blades. The rotating movement of the rotor shaft is connected by means of a transmission mechanism to energy generating means.

A rotating windmill occupies a large surface area 15 and takes up a lot of space. To catch as much wind as possible, the rotor shaft is mounted on a mast that protrudes high above the earth's surface. This leads to horizon pollution.

The object of the invention is to obviate the above drawbacks and to make a windmill suitable for being placed on the roof. To this end, according to the invention, the windmill of the above-mentioned type is characterized in that the rotor blades are parallel to the rotor shaft. This makes it possible to realize a smaller surface area, so that the windmill is compact in construction and the windmill is suitable for placement on the roof.

The rotor blades are equipped with a wing profile to convert the wind speed into power. Because the rotor blades are mounted parallel to the rotor shaft, the force is exerted over the entire length of the rotor blade at the same distance from the rotor shaft.

The invention is described in more detail below with reference to the accompanying figures, wherein: 1024958 * 2

Figure 1 is a perspective view of a windmill according to the invention;

Figure 2 is the plan view of a windmill according to the invention, in which the location of the sections of Figures 3 and 4 is indicated;

Figure 3 is a sectional view of a windmill according to the invention showing the internal wind guide;

Figure 4 is a sectional view of a windmill according to the invention which. the tilting mechanism shows.

The windmill consists of a housing (Figure 2) and a rotor (Figure 1) which rotates in the housing. The rotor consists of two side plates (1) in which the rotor blades (2) are mounted in bearings.

The windmill (figure 3) is provided with a wind guide (3) for guiding the wind to the active rotor blades (4) located at the front.

The wind guide also ensures that the non-active rotor blades, which turn against the wind, are shielded from the wind. An additional advantage is that the wind guide provides protection for the rotating parts.

A wind guide (5) is attached to the inside of the rotor. This internal wind guide ensures that the wind is guided through the rotor to the active rotor blades (6) at the rear.

Depending on the size of the windmill and the size of the rotor blades, several rotor blades can be active, but always at least one at the front and one at the rear.

The rotor blades are provided with a tilting mechanism 30 (Figure 4) with which the wind angle of the rotor blades can be adjusted before operation. The wind angle must be such that the apparent wind, which is the resultant of the wind speed and the speed of the rotor blade, flows parallel to i024958 ♦ 3 ♦ the chord of the wing profile. The tilting mechanism consists of a disc (8) which is eccentrically mounted on the rotor shaft and of rods (9). which connect the disc (8) to the rotor blades (2). The tilt angle can be adjusted by turning the axis (7). The tilting mechanism also ensures that the wind angle of the rotor blades is adjusted during operation, such that the active rotor blades at the front (4) and the active rotor blades at the rear (6) have the same wind angle. In very strong winds, adjusting the angle of incidence of wind offers the possibility of limiting the rotor speed.

The rotor shaft is divided (7 and 10) because the wind guide (5) is fixed on the inside of the rotor, on the side of the tilting mechanism with a bearing on the shaft (7) and on the opposite side, fixed on the shaft (10) is confirmed. The rotor shaft with the tilting mechanism can thereby be rotated, while the wind guide remains in place. The side of the rotor is provided with a cam (11) which projects into a slot (12) that is milled into the eccentric disc. The rotor and the eccentric disk therefore have the same speed of rotation.

The side partition on the opposite side of the tilting mechanism is provided with a pulley (13) with which the movement and the force can be transferred to a dynamo by means of a drive belt.

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Claims (11)

Windmill comprising a rotor with a rotor shaft with at least two rotor blades connected thereto, characterized in that the rotor blades (2) are parallel to the rotor shaft (7, 10). Windmill according to claim 1, characterized in that the rotor blades (2) are provided with a wing profile. 3. Windmill as claimed in any of the foregoing claims, characterized in that more than four rotor blades (2) are provided, wherein at least two rotor blades (4 and 6) are active. 4. Windmill as claimed in any of the foregoing claims, characterized in that the mill is provided with a wind guide (3) for guiding the wind to the active rotor blades. 5. Windmill as claimed in any of the foregoing claims, characterized in that the mill is provided with a wind guide (3) for shielding the inactive rotor blades. Windmill according to one of the preceding claims, characterized in that a wind guide (5) is placed on the inside of the rotor. 7. Windmill as claimed in any of the foregoing claims, characterized in that it is provided with a tilting mechanism with which the angle of incidence of the rotor blades (2) can be adjusted. 8. Windmill as claimed in any of the foregoing claims, characterized in that it is provided with a tilting mechanism with which the angle of incidence of the rotor blades during operation is adjusted such that the active rotor blades at the front (4) and the active rotor blades at the rear (6) have an equal wind angle. 1024958 »*. Windmill according to claims 7 and 8, characterized in that the tilting mechanism comprises a disc (8) eccentrically mounted on the rotor shaft (7, 10), and means for adjusting the eccentricity, the rotor blades (2) ) are connected to the eccentric disk (8) by means of rods (9). Windmill according to claim 9, characterized in that the side of the rotor is provided with a cam (11) which projects into a slot (12) in the eccentric disk (8). Windmill according to one of the preceding claims, characterized in that the rotor is connected to a dynamo by means of a transmission mechanism (13). 102495B