KR101112479B1 - The wind power generato system with multiple rotor wing blades - Google Patents

Abstract

The present invention relates to a multi-stage multi-wing wind power system, the housing (10) for accommodating the generator 20 to receive the most of the wind blowing to the front of the rotary vehicle 40 rotated by the force of the wind to produce power In the provided multi-stage multi-wing wind power system; A plurality of radial wheel stands 40a each having a different diameter inside the wheel 40; A plurality of wheel supports 40b for supporting a space between the wheels; Several rotor blades 40c are inclinedly coupled between the rotor stand and the rotor support. A structure 30 fixed to the ground so that the rotation wheel is supported to rotate in a wind blowing direction; A hub 30a fixed to the construct; A first turning bearing 52 coupled to and supported by the upper end of the hub, the hub 30b coupled to an upper part of the housing; A second turning bearing 53 coupled to the hub 30a and rotating; A mold support 60a fixed along the circumference of the second turning bearing; A mold support 60b supporting the left and right sides of the housing; A mold support (61) for vertically supporting the mold support (60a, 60b); It is provided with a mold (60) consisting of a reinforcing mold support (62) for connecting and supporting between the outer end of the mold support (60b) and the hub (30b). The first and second turning bearings 52 and 53 and respective wheels 80 below the mold rest 60a; The wheels 30 are coupled to the construct 30 and are provided with rails 90 that guide rotation. Rotating ring (40d) is provided along the outer circumference of the rotor and characterized by the circumferential bearing (70) on the upper, lower, left, right of the mold (60).

Wind energy, mechanical energy, mechanical energy, kinetic energy, housing, rotor, engine control, circumferential bearing, natural wind,

Description

The wind power generato system with multiple rotor wing blades}

1 is a side internal structure diagram according to the present invention,

2 is a front view of FIG. 1,

3 is a rear view of FIG. 2;

Figure 4 is a view showing the mold, the wheel, the rail of the lower plane of Figure 3,

5 is an enlarged view of a portion of the wing of FIG. 2,

Symbols for Important Parts of Drawings

10: housing,

20: generator,

21: generator central axis,

22 generator shaft bearings,

30: construct,

30a, 30b hub,

40: turn wheel,

40a: swivel pedestal,

40b: rotor wheel support,

40c: rotor blades,

40d: rotary ring,

50: wind direction check,

51: engine control medium,

52: first turning bearing,

53: second turning bearing,

60: Template,

60a, 60b: mold support,

61: mold support,

62: reinforcement frame support,

70: circumferential bearing,

80: wheels,

90: rails,

The present invention is a multi-stage multi-wing wind power system with a whole cross-sectional area in the limited installation area of the global wind power to generate energy with the total power for converting most of the wind energy received from the front of the rotor vehicle into power energy.

Representative propeller windmills of the modern horizontal axis generally have two or three wings. Most of the wind does not act on the windmill wings and just passes through and generates small energy. There is a problem generating.

As a solution to the above problems, the whole cross-sectional area is a multi-stage multi-wing wind power system. The wind-driven rotors maximize the wind. The multi-stage multi-wings generate energy with the total power that converts wind energy into power energy through most acceptance. The purpose is to provide a wind power system.

The present invention relates to a multi-stage multi-wing wind power system, the multi-stage multi-wing wind power system is provided with a housing for accommodating a generator to produce power by receiving most of the wind blowing to the front of the rotating car rotated by the force of the wind. In; A plurality of radial wheel sets having radially different diameters inside the wheels; A plurality of wheel supports for supporting spaces between the wheels; Several rotor blades are inclinedly coupled between the rotor stand and the rotor support. A structure that is fixed to the ground so that the rotation wheel is supported to rotate in a wind blowing direction; A hub fixed to the construct; A first turning bearing coupled to the upper end of the hub to support and rotate the hub, and a hub coupled to the upper part of the housing; A mold support fixed to the circumferential circumference of the second turning direction bearing coupled to the hub; A mold support for supporting the left and right sides of the housing; A mold support for supporting the mold support vertically; It is provided with a mold comprising a reinforcing mold support for connecting between the outer end of the mold support and the hub. Each of the first and second turning bearings and wheels below the mold support; The wheels are coupled to the construct and are provided with rails for guiding rotation, respectively. The rotary ring is provided along the outer circumference of the rotor and is characterized by a circumferential bearing on the upper, lower, left, and right sides of the mold.
In addition, the present invention, the multi-stage multi-wing wind power system rotating body (wing special fiber, etc.) is a high-strength lightweight material is good standard field assembly type installation.

When described in detail with reference to the accompanying drawings, the configuration is as follows.

(1), (2) is a side internal structure diagram according to the present invention, (2) is a view showing the front of Fig. (1), the housing 10, the generator 20 and the generator center The configuration functions of the shaft 21, the generator shaft bearing 22, the first direction change bearing 52, the wind direction check sense 50, and the engine control medium 51 have a conventional horizontal shaft type. It is similar to the typical propeller windmill.
The present invention is a multi-stage multi-wing wind power system configuration wherein the housing accommodates the generator. In the generation of most of the wind energy received in the wind blowing to the front of the rotor blade 40C by the force of the wind in the support operation to the generator shaft bearing inside the housing,
A plurality of radial wheel stands 40a each having a different diameter inside the wheel 40 to accommodate most of the wind blowing to the front of the wheel for operation of the generator; A plurality of wheel supports 40b for supporting a space between the wheels; It is a configuration of the rotor wheel 40 wind wheel structure provided with a plurality of rotor blades 40c are inclinedly coupled between the rotor wheel support and the rotor support.
FIG. 3 is a rear view of FIG. 2, and FIG. 4 is a view showing the mold wheel rail of the lower plane of FIG. 3, wherein the wheel is fixed to the ground to be rotatable in a wind blowing direction. The construct 30; A hub 30a fixed to the construct; A first turning bearing 52 coupled to and supported by the upper end of the hub, the hub 30b coupled to an upper part of the housing; A second turning bearing 53 coupled to the hub 30a and rotating; A mold support 60a fixed along the circumference of the second turning bearing; A mold support 60b supporting the left and right sides of the housing; A mold support (61) for vertically supporting the mold support (60a) (60b); A reinforcing mold support (62) connected and supported between the outer end of the mold holder (60b) and the hub (30b); It is a configuration of the structure including the mold 60 connected integrally.
In addition, there is provided a rotary ring (40d) along the outer circumference of the rotor to have a smooth operation of the wind turbine to enlarge the size of the rotor; Circumferential bearings (70) on the upper, lower, left, and right sides of the mold (60); The generator central axis 21 and the structure is provided with a connection coupling integrally.
Also with respective wheels 80 and under each of the mold rests 60a of the plane. It is a structure of the structure provided with the rail 90 fixed to the said construction 30, and integrally connected and coupled.
FIG. 5 is an enlarged view of a portion of the circumference around the central axis portion of FIG. 2, and has a structure showing a portion of the circumference around the central axis portion circumference as the first multi-stage flow path cross section of the rotary wheel 40. to be.
The present invention includes a plurality of radial wheels 40a each having a different diameter inwardly of the wheels 40 to accommodate most of the wind blowing to the front of the wheels as shown above; A plurality of wheel supports 40b for supporting a space between the wheels; A plurality of rotor blades 40c are provided to be inclinedly coupled between the rotor stand and the rotor support so as to generate electric power to the generator by the action power effect of the rotational force of the rotor.
In addition, the entire cross-sectional area of the rotor 40 rotated by the force of the wind becomes the rotor blade whole, and the centrifugal force of the generator central shaft 21 of the housing 10 for housing the generator 20 for producing most of the wind power received. A rotary ring 40d provided along the outer circumference of the wheel; The centripetal force of the circumferential bearings 70 on the upper, lower, left, and right sides of the mold 60 interact with each other, for example, the circumference from the central axis in the same wind velocity at the same wing area at the same wind velocity (construction) in one central axis. Increasingly, maximizing the square proportion as much as the circumferential radius size, maximizing the energy creation effect. Create energy with total power effect.

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The present invention is composed of a multi-stage multi-wing wind power system for maximum acceptance of most of the wind blowing from the front of the rotary car in the limited installation area of the global village equipped with a variety of various safety devices to maximize the operation of large wind energy power energy conversion total power energy generation It works.

Claims (4)

In the multi-stage multi-wing wind power system provided with a housing (10) for receiving the generator 20 so as to produce power by receiving most of the wind blowing to the front of the rotary car 40 rotated by the force of the wind; A plurality of radial wheel stands 40a each having a different diameter inside the wheel 40; A plurality of wheel supports 40b for supporting a space between the wheels; Multi-stage multi-wing wind power system provided with a plurality of rotor blades (40c) is inclined coupled between the wheel base and the wheel support. The method of claim 1, A structure 30 fixed to the ground so that the rotation wheel is supported and rotates in a wind blowing direction; A hub 30a fixed to the construct; A first turning bearing 52 coupled to the housing at an upper end of the hub to rotate in support and a hub 30b coupled to an upper portion of the housing; A second turning bearing (53) rotatably coupled to the hub (30a); A mold support 60a fixed along the circumference of the second turning bearing; A mold support 60b supporting the left and right sides of the housing; A mold support (61) for vertically supporting the mold support (60a, 60b); Multi-stage multi-wing wind power system provided with a mold (60) integrally connected by a reinforcing mold support (62) connected between the outer end of the mold support (60b) and the hub (30b). 3. The method of claim 2, The first and second turning bearings 52 and 53 and respective wheels 80 below the mold rest 60a; Multi-stage multi-wing wind power system is provided with a rail (90) for coupling the wheels to the construction 30 to guide the rotation. 3. The method of claim 2, Rotating ring 40d is provided along the outer circumference of the rotor, and multi-stage multiple wings provided with a plurality of circumferential bearings 70 rotatably supporting the rotary ring at the upper, lower, left, and right sides of the mold 60. Wind power systems.

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