WO2010102473A1

WO2010102473A1 - Vortex wind wheel for wind generator

Info

Publication number: WO2010102473A1
Application number: PCT/CN2009/072914
Authority: WO
Inventors: 许纯权
Original assignee: 东莞市金鑫智能机械设备有限公司
Priority date: 2009-03-13
Filing date: 2009-07-24
Publication date: 2010-09-16
Also published as: CN101832224B; CN101832224A

Abstract

A vortex wind wheel for a wind generator includes an axial sleeve (2), the outer edge of the axial sleeve (2) connects with many wind blades (1) fixedly, the wind blades (1) are twisted into U shape from blade tips (11) to blade roots (12) gradually, the wind blades (1) are contracted from the blade roots (12) to the blade tips (11), and they are formed into a sharp angle at the blade tips (11), the wind blade (1) is divided into the front part (14) and the rear part (13) by a connection line from the blade tip (11) to the midpoint of the blade root (12), the projection area of the rear part (13) is bigger than the projection area of the front part (14). The vortex wind wheel can use horizontal air flow and rising air flow, and the resistance against wind is small.

Description

Vortex wind turbine for wind power generator

Technical field

The invention relates to the technical field of wind turbine components, and in particular to a vortex wind wheel for a wind power generator. Background technique

The wind wheel is an important component of the wind power generator, which is used to convert the wind energy into the rotational energy of the machine. When used, the wind blade of the wind wheel is rotated by the air flow on the windward side, thereby driving the wind wheel to drive the rotor of the generator to rotate and realize power generation. .

The existing wind wheel is roughly divided into a blade impeller and a curved impeller according to the shape of its blade; the blade of the paddle impeller is in the form of a slurry, and the structure thereof is generally mounted on the sleeve with 3 to 6 blades, and the paddle impeller wind resistance Small, easy to be driven by the wind, but its wind blade is less affected by the wind surface, and the utilization of wind energy is not high. Therefore, in order to obtain high power, the diameter of the blade will be continuously increased, which will increase the cost and difficulty in installation and maintenance. The wind turbine investment value is affected; and the curved impeller is generally curved in a curved surface. When the impeller is installed, its axial direction is generally perpendicular to the airflow direction, that is, vertical installation, and the wind blade of the wind wheel is large by the wind surface. Wind turbines can capture wind energy more than the blades of the impeller, but the defects are: Because the blades are symmetrically arranged around the shaft, some of the blades are in the windward and quasi-windward state, while the other blades are in the upwind and semi-wind directions. This will offset some of the forward thrust torque and reduce the effective power generation efficiency of the wind turbine.

The airflow includes horizontal airflow and updraft airflow. Most of the current wind turbine impellers can only use airflow in one direction. Summary of the invention The object of the present invention is to provide a vortex wind turbine for a wind power generator, which can utilize both a horizontal air flow and an upward air flow to rotate, which has high utilization rate of wind energy, and is reversed. The wind resistance is small and the driving force is strong.

To achieve the above object, the present invention adopts the following technical solutions:

A vortex wind wheel for a wind power generator, comprising a bush sleeve, the outer edge of the bush sleeve is uniformly fixed with a plurality of blades; the wind blade is gradually warped from the top of the blade to the root of the blade; the fan blade From the root to the tip of the leaf gradually shrinks and forms a sharp corner at the tip of the leaf; the wind blade is divided into a front part and a rear part by a line connecting the midpoint of the leaf tip to the midpoint of the leaf root, and the rear projected area is larger than the front part shadow area.

Wherein, a gap is formed between the blade root of each blade and the sleeve.

The U-shaped cross section of the blade root has an opening width not greater than a length of the sleeve.

The ratio of the length of the boundary to the opening width of the U-shaped section of the blade root is not less than 2.

The ratio of the height of the section of the U-shaped section of the blade root to the width of the opening is not less than 1. Further, the outer edge of the sleeve is uniformly fixed with 8 blades.

One side of the concave surface of the blade is a windward side.

A baffle is disposed at both ends of the sleeve.

The inner wall of the sleeve is provided with a pin groove.

The utility model has the beneficial effects that: a vortex wind wheel for a wind power generator, comprising a bush sleeve, wherein the outer edge of the bush sleeve is uniformly fixed with a plurality of blades; the wind blade gradually warps from the top of the blade to the blade root U-shaped; the leaves gradually contract from the root to the tip of the leaf and form a sharp corner at the tip of the blade; the blade is divided into a front and a back by a line connecting the midpoint of the leaf tip to the midpoint of the blade root, the rear part The projected area is larger than the projected area of the front portion; when the airflow is blown toward the wind wheel from a direction perpendicular to the axis of the sleeve, the concave side of the wind blade is subjected to wind, and an air vortex is formed in the U-shaped curved surface to push the impeller Rotating; when the airflow is blown from the direction parallel to the axis of the sleeve to the wind wheel, since the projected area of the rear portion is larger than the projected area of the front portion, the airflow is behind the blade Blocking, forming an air vortex in the u-shaped arc surface to push the impeller to rotate; therefore, the present invention can utilize both the horizontal air flow and the upward air flow to rotate; and when the impeller rotates, the air flow forms a vortex on the concave surface of the wind blade The driving force of the impeller is strong; when the impeller rotates, the U-shaped convex surface is against the wind, the convex surface is streamlined, the windward wind resistance is small, and the resistance torque generated is small. DRAWINGS

Figure 1 is a front elevational view of the present invention;

Figure 2 is a left side view of the present invention;

Figure 3 is a front elevational view of the blade of the present invention;

Figure 4 is a cross-sectional view taken along the line A-A of Figure 3; detailed description

The present invention will be further described with reference to the accompanying drawings, which are shown in FIG. 1 and FIG. 3, which are preferred embodiments of the present invention, a vortex wind turbine for a wind power generator, which includes a bushing 2 The outer edge of the sleeve 2 is uniformly fixed with a plurality of blades 1; the blade 1 gradually warps from the tip 11 to the blade root 12 in a U shape; the blade 1 gradually contracts from the blade root 12 to the tip 11 A sharp corner is formed at the tip 1 1; the wind blade 1 is divided into a front portion 14 and a rear portion 1 3 by a line connecting the tip 11 to the midpoint of the leaf 12, and the rear portion 1 3 has a larger projected area than the front portion. The projected area of 14.

The invention is coaxially fixed to the rotating shaft of the generator by the sleeve 2, and when used, when the airflow is blown to the wind wheel from the direction perpendicular to the axis of the sleeve 2, the concave side of the blade 1 is subjected to the wind, An air vortex is formed in the U-shaped arc surface to push the impeller to rotate; when the air flow is blown from the direction parallel to the axis of the sleeve 2 toward the wind wheel, since the projected area of the rear portion 13 is larger than the projected area of the front portion 14 The airflow is blocked by the rear portion 13 of the vane 1, and an air vortex is formed in the U-shaped arc surface to push the impeller to rotate; Therefore, the present invention can utilize both the horizontal airflow and the upward airflow to rotate; it is suitable for vertical installation, and is also suitable for horizontal installation, and has a wide application range.

As shown in FIG. 2, in this embodiment, a gap 15 is formed between the blade root 12 of the blade 1 and the sleeve 2, and the gap 15 is an air flow passage. When the airflow is blown to the concave U-shaped blade 1 In the arc surface, it will flow along the arc surface to the blade root 12 and flow out from the gap 15 to blow the next blade 1 , which further improves the utilization of wind energy; The gap 15 is formed at each of the roots 12, and the gaps 15 of all the blades 1 form an annular air passage around the sleeve 2, and the airflow flows in the annular air passage to form a vortex around the sleeve 2, which makes The impeller rotates more vigorously and the output torque is greater.

As shown in FIG. 4, the U-shaped cross section of the blade 1 of the blade 1 has an opening width not greater than the length of the sleeve 2; that is, the blade root 12 of the blade 1 is along the sleeve. 2 The axial direction is fixed on the outer wall of the sleeve 2, and does not exceed the ends of the sleeve 2.

The ratio of the length of the boundary to the opening width of the 12U section of the blade root is not less than 2; the ratio of the height of the section of the 12U section of the blade 1 to the width of the opening is not less than 1; Obtain a suitable wind receiving area and reduce the reverse wind resistance.

Referring to Figure 1, the outer edge of the sleeve 2 of the embodiment is uniformly fixed with 8 blades 1 .

The concave side of the blade 1 of the present invention is a windward side. In use, the wind is blown toward the side to push the impeller to rotate; at the same time, in order to ensure that the impeller is parallel to the axial direction of the sleeve 2, In operation, it is also necessary to bring the front portion 14 of the blade 1 to the wind.

As shown in FIG. 2, at both ends of the sleeve 2, a baffle 21 is disposed at the two ends, and the baffle 21 is used to prevent the blade 1 from sliding along the axial direction of the sleeve 2, so that the wind wheel rotates more. smooth.

As shown in FIG. 1 , the inner wall of the sleeve 2 of the embodiment is provided with a pin groove 22 which is matched with the pin groove 22 on the generator shaft for mounting the pin to make the impeller and the shaft Secured. The above are only the preferred embodiments of the present invention, and equivalent changes or modifications made to the structures, features, and principles of the present invention are included in the scope of the present invention.

Claims

Rights request

A vortex wind wheel for a wind power generator, comprising a bushing (2), the outer edge of the bushing (2) being uniformly fixed with a plurality of blades (1); wherein: the fan blade (1) The leaf tip (11) to the leaf root (U) gradually warp in a U shape; the wind blade (1) gradually shrinks from the leaf root (U) to the tip (11) and forms at the tip (11). Sharp blade; the fan blade (1) is divided into a front portion (I ⁴ ) and a rear portion ( 13 ) by a line connecting the midpoint of the leaf tip (11) to the root of the blade root (U), and the rear portion (13) is projected. The area is larger than the projected area of the front (I ⁴ ).

2. A vortex wind turbine for a wind power generator according to claim 1, characterized in that: a gap is provided between the blade root (U) of each blade (1) and the sleeve (2) (15).

3. A vortex wind turbine for a wind power generator according to claim 2, wherein: the U-shaped cross section of the blade (1) blade root (Π) has an opening width not greater than the sleeve ( ² ) the length.

A vortex wind turbine for a wind power generator according to claim 3, wherein: the ratio of the length of the boundary to the opening width of the U-shaped section of the blade root (12) is not less than 2.

5. A vortex wind turbine for a wind power generator according to claim 4, characterized in that: the ratio of the height of the section of the U-shaped section of the blade (1) blade root (12) to the width of the opening Not less than 1.

The vortex wind wheel for a wind power generator according to claim 5, characterized in that: the outer edge of the sleeve (2) is uniformly fixed with eight blades (1).

A vortex wind turbine for a wind power generator according to claim 6, wherein: a concave side of said vane (1) is a windward side.

A vortex wind turbine for a wind power generator according to any one of claims 1 to 7, characterized in that: the sleeve (1) is provided with a baffle (21) at both ends.

A vortex wind turbine for a wind power generator according to claim 8, characterized in that: the inner wall of the sleeve (2) is provided with a pin groove ( ²² ).