CN104976059A - Oblique arc angle type high-efficiency wind power system capable of avoiding resistance - Google Patents

Abstract

The creative patent of invention discloses an oblique arc angle type high-efficiency wind power system capable of avoiding resistance. Peripheries of an oblique angle blade I 2, an oblique angle blade II 3 and an oblique angle blade III 4 are respectively connected with an upper blade supporting body 10 and a lower blade bearing body 9 so as to constitute a main driving part; centers of the oblique angle blade I 2, the oblique angle blade II 3 and the oblique angle blade III 4 are respectively connected with a blade connecting shaft 8 in equal divisions; a generator 6 is connected to the lower end of the blade connecting shaft 8, and a generator rotating shaft 7 is arranged at the lower end of the generator 6; the upper end of the blade connecting shaft 8 is connected with an oblique arc angle type upper tapered top 1 and an oblique arc angle type lower expanding body 5 so as to form rotating buoyancy and form gathered wind which is compressed into a negative pressure, and the negative pressure is discharged out through a tapered top skylight 14; an oblique arc angle I 11, an oblique arc angle II 12 and an oblique arc angle III 13 are respectively arranged on outer frames of the oblique arc tapered type upper tapered top 1 and the oblique arc angle type lower expanding body 5, so that avoiding resistance is formed to promote rotation in an assistant manner. According to the oblique arc angle type high-efficiency wind power system disclosed by the invention, limited wind energy resources are fully utilized so as to realize the additive effect of wind energy.

Description

Resistance high efficiency wind power generation system kept away by oblique arc angle type

Technical field

Patent of the present invention relates to the vane wind-driven generator of the multi-field purposes such as a kind of oblique arc angle type vertex of a cone, particularly relates to a kind of device utilizing cone wind gathering formation negative pressure to avoid wind resistance and oblique angle driving through skylight discharge and oblique arc angle and rotates to promote vane (being called for short " oblique arc angle type is kept away and hindered high efficiency wind power generation system ").

Background technique

Limited wind energy is as the utilization of clean energy resource wind energy, and the wind energy utilization efficiency of existing similar vertical wind power generator is very low.

Summary of the invention

Key innovations of the present invention: utilize cone wind gathering to form negative pressure and avoid wind resistance and oblique angle driving through skylight discharge and oblique arc angle.

The technology of the present invention method: main driving design oblique angle vane is avoided the forward resistance of wind and reduced counter blow; Utilize cone wind gathering effect to form negative pressure wind and discharge formation cone buoyancy via skylight; Be provided with the resistance assistance cone promotion rotation that oblique arc angle avoids wind outside cone frame, reach wind energy and superpose efficient object.

The total structure of wind power system of the present invention comprises: tiltedly support body, tiltedly arc angle one, tiltedly arc angle two, oblique arc angle three, vertex of a cone skylight on the vertex of a cone, oblique angle vane one, oblique angle vane two, oblique angle vane three, the tiltedly lower body of arc angle, generator, alternator shaft, vane connecting shaft, vane lower support, vane in arc angle.

2 oblique angle vanes one and 3 oblique angle vanes two and 4 oblique angle vane three peripheries connect and compose main driving with support body on 10 vanes and 9 vane lower supports respectively; And 2 oblique angle vanes one and 3 oblique angle vanes two and 4 oblique angle vane three centers respectively equal portions be arranged at 8 vane connecting shafts and be connected; 8 vane connecting shaft lower ends are connected with 6 generators; 6 generator lower ends are provided with 7 alternator shafts.

8 vane connecting shaft upper ends connect form rotary floating by the vertex of a cone in 1 oblique arc angle with the lower body of 5 oblique arc angle and formed wind gathering compressed become negative pressure discharged by 14 vertex of a cone skylights; In 1 oblique arc angle, the vertex of a cone and 5 oblique arc angles lower external frame are respectively arranged with 11 oblique arc angles one and 12 oblique arc angles two and 13 oblique arc angle three formation and keep away resistance assistance promotion rotation; Make full use of limited wind energy resources and form wind energy Overlay.

Accompanying drawing explanation

fig. 1 is that resistance high efficiency wind power generation system architecture schematic diagram kept away by the oblique arc angle type of patent of the present invention.

fig. 2 is patent cone isoboles of the present invention.

fig. 3 is patent active force oblique angle of the present invention vane isoboles.

1, the vertex of a cone in oblique arc angle; 2, oblique angle vane one; 3, oblique angle vane two; 4, oblique angle vane three; 5, the oblique lower body of arc angle; 6, generator; 7, alternator shaft; 8, vane connecting shaft; 9, vane lower support; 10, support body on vane; 11, oblique arc angle one; 12, oblique arc angle two; 13, oblique arc angle three; 14, vertex of a cone skylight.

Power generation system is formed by Zhang Tiyu 2 oblique angle vane under the vertex of a cone in 1 oblique arc angle and 5 oblique arc angles one and 3 oblique angle vanes two and 4 oblique angle vanes three and 6 generators etc.

2 oblique angle vanes one and 3 oblique angle vanes two and 4 oblique angle vane three peripheries connect and compose main driving with support body on 10 vanes and 9 vane lower supports respectively; And 2 oblique angle vanes one and 3 oblique angle vanes two and 4 oblique angle vane three centers respectively equal portions be arranged at 8 vane connecting shafts and be connected; 8 vane connecting shaft lower ends are connected with 6 generators; 6 generator lower ends are provided with 7 alternator shafts.

8 vane connecting shaft upper ends connect form rotary floating by the vertex of a cone in 1 oblique arc angle with the lower body of 5 oblique arc angle and formed wind gathering compressed become negative pressure discharged by 14 vertex of a cone skylights; In 1 oblique arc angle, the vertex of a cone and 5 oblique arc angles lower external frame are respectively arranged with 11 oblique arc angles one and 12 oblique arc angles two and 13 oblique arc angle three formation and keep away resistance assistance promotion rotation; Make full use of limited wind energy resources and form wind energy Overlay.

Embodiment

Below in conjunction with implement and contrast accompanying drawing 1 tiltedly arc angle type keep away resistance high efficiency wind power generation system invention patent and be described in detail.

embodiment 1:

As: tiltedly resistance high-efficiency wind driven generator kept away by arc angle type.

Utilize this oblique arc angle type to keep away resistance high efficiency wind power generation system, arrange oblique arc angle and cone structure, form negative pressure whirlpool, as power, the vane of pushing generator rotates, and forms whirlpool vane superposition generating; Kinetic energy thrust adds negative pressure whirlpool and strengthens torque force.

The invention forms power generation system by Zhang Tiyu 2 oblique angle vane under the vertex of a cone in 1 oblique arc angle and 5 oblique arc angles one and 3 oblique angle vanes two and 4 oblique angle vanes three and 6 generators etc.

2 oblique angle vanes one and 3 oblique angle vanes two and 4 oblique angle vane three peripheries connect and compose main driving with support body on 10 vanes and 9 vane lower supports respectively; And 2 oblique angle vanes one and 3 oblique angle vanes two and 4 oblique angle vane three centers respectively equal portions be arranged at 8 vane connecting shafts and be connected; 8 vane connecting shaft lower ends are connected with 6 generators; 6 generator lower ends are provided with 7 alternator shafts.

8 vane connecting shaft upper ends connect form rotary floating by the vertex of a cone in 1 oblique arc angle with the lower body of 5 oblique arc angle and formed wind gathering compressed become negative pressure discharged by 14 vertex of a cone skylights; In 1 oblique arc angle, the vertex of a cone and 5 oblique arc angles lower external frame are respectively arranged with 11 oblique arc angles one and 12 oblique arc angles two and 13 oblique arc angle three formation and keep away resistance assistance promotion rotation; Make full use of limited wind energy resources and form wind energy Overlay.

Claims (7)

1. tiltedly resistance high efficiency wind power generation system kept away by arc angle type, it is characterized in that: be provided with oblique arc angle and cone device formation negative pressure whirlpool.

2. tiltedly resistance high efficiency wind power generation system kept away by arc angle type, it is characterized in that: tiltedly arc angle vane is more than three.

3. tiltedly resistance high efficiency wind power generation system kept away by arc angle type, it is characterized in that: cone bevel angle is more than three.

4. tiltedly resistance high efficiency wind power generation system kept away by arc angle type, it is characterized in that: omnidirectional's Wind Power Utilization.

5. tiltedly resistance high efficiency wind power generation system kept away by arc angle type, it is characterized in that: the resistance reducing reverse wind energy.

6. tiltedly resistance high efficiency wind power generation system kept away by arc angle type, it is characterized in that: make full use of limited wind energy resources.

7. tiltedly resistance high efficiency wind power generation system kept away by arc angle type, it is characterized in that: tiltedly arc angle and cone effectively improve generating efficiency.