SU859676A1 - Rotor-type wind engine - Google Patents

Description

(54) ROTARY WIND MOTOR

one

The invention relates to wind energy and can be used to generate electricity or perform mechanical work.

Rotary wind turbines are known, containing rotors, the shafts of which are mounted on a common frame and connected through a power take-off mechanism to a GO power converter.

However, such devices are not characterized by a high utilization of wind energy.

The purpose of the invention is to increase the utilization of wind energy.

The goal is achieved by the fact that the wind turbine additionally contains a support with a rim mounted on it, a vertical axis and brackets fixed on the support, one-way clutches and accelerating propellers mounted on the brackets coaxially to the rotors, the frame being mounted for rotation on the vertical axis, the lower ends the shafts are equipped with rollers interacting with the rim, and the upper ones are connected via freewheels with accelerating wind wheels ..

In addition, the Savonius rotor is mounted on the vertical axis, which is connected to the frame by means of an additional one-way clutch.

When the energy converter is executed in the form of several electroheaters of the wind turbine motor, it is equipped with a frictional transmission, the drive wheel of which is installed on the frame, and driven on the shafts of the electric generators, the latter being equipped with switching

15 electromagnets.

FIG. Figure 1 shows the proposed device, side view, vHa of Figure 2 is the same, top view; FIG. 3 shows the power take-off mechanism of a wind turbine with an energy distributor.

Claims (3)

The rotor wind turbine contains rotors 1, the shafts 2 of which are mounted on a common frame 2 and connected through a power take-off mechanism 4 to an energy converter 5. The wind turbine further comprises a support 6 with a rim 7 mounted on it, a vertical axis 8 and brackets 9 fixed on the support 6, a clutch 10 free; stroke and accelerating wind-wheels 11, mounted on brackets 9 coaxially with rotors 1, the frame 3 is mounted rotatably on the vertical axis 8, the lower ends of the shafts 2 are provided with rollers 12 interacting with the jack 7, and the upper ones are connected through a free-running coupling 10 with accelerating propeller P. On the vertical axis 8, a Savonius rotor 3 is mounted, connected to frame 3 by means of an additional freewheel 14, When running energy converter 5 in the form of several electric generators, the wind turbine is equipped with a friction clutch The first gear, the drive wheel 15 of which is mounted on the frame 3, and the driven wheels 16 are mounted on the shafts of the electric generators, the latter are equipped with switching electromagnets 17. The rotor wind turbine operates as follows. Under the action of the wind, the rotor 13 of Savonius rotates the frame 3 together with the rotors 1 mounted on it. The propeller wheels 11 under the action of the wind also begin to rotate through the freewheel 10 and the shaft 2 to rotate the rotors 1, creating an additional torque element on the rollers 12. The rotors at This involves a complicated movement, rotating around its own axes and around a vertical axis 8. At the same time, aerodynamic forces act on the winds blown by the wind by virtue of the Magnus effect, which also create a torque about axis 8 in the same the board. The emergence of aerodynamic forces on the rear (relative to the wind) rotors 1 does not occur, as they are shielded from the wind by the front rotors 1 and Savonius rotors 3. Upon reaching the calculated rotational speed of the clutches 10 and 14 of the free wheeling, the accelerating propellers 11 and the rotor 13 of Savonius are distinguished. Torque from rotating rotors 1; spins the frame 3 and is transmitted by means of wheels 15 and 16 of the friction transmission to electric generators, which, depending on wind speed, are connected or disconnected by electromagnets 176 A wind turbine does not require installation in the wind and is easy to manufacture and maintain. Supplying the rotor 1 with the rollers 12 which engage with the rim 7 eliminates a constantly running engine for rotating the rotors about the axis 8, and giving the rotor an auxiliary accelerating propeller II makes it possible for the rotor wind turbine to produce a moving moment. The shielding of the rotors 1 with respect to the wind by the Savonius rotor 13, mounted on the vertical axis 8, makes it possible to increase the efficiency of the rotor wind turbine and the moving torque of the latter, which makes it possible to use it at low wind speeds. Thus, the proposed implementation of a rotor wind turbine allows to increase the efficiency of a wind turbine due to an earlier launch of a wind turbine at low wind speeds. In addition, such a wind turbine has an increased reliability due to the absence of a wind-up mechanism. Claim 1. A rotary wind turbine comprising rotors whose shafts are mounted on a common frame and connected through a power take-off to an energy converter, characterized in that in order to increase the utilization of wind energy, the wind turbine additionally contains a support with a rim mounted on it, a vertical axis and brackets fixed on the support, one-way clutches to accelerating wind turbines ENA mounted on brackets coaxially rotors, wherein the frame is mounted rotatably on a vertical axis of the lower ends of the shafts provided with rollers, vzaimodeystvuyuschimi- rim and the top are connected via a freewheel clutch with propeller overclocking. 2. A wind turbine according to claim 1, characterized in that a Savonius rotor is mounted on the vertical axis, which is connected to the frame by means of an additional one-way clutch. 3 .. A wind turbine in accordance with claim 1, in which, when the energy converter is executed in the form of several electric generators, it is equipped with a friction gear, the drive wheel of which is mounted on the frame and the followers on the shafts of the electric generator N cw h h h h eight Figures 1 are tori, the latter are equipped with ne () switching electromagnets. Sources of information taken into account in the examination 1. Ya. I. Shefter to the inventor about wind turbines and wind turbines M., Selkhozgiz, 1957, p., 21. 1 $ z and z 522 G7 V I U ////// // //// //// L Fig.Z