阅读说明：本技术 一种基于配合角输入驱动的风力发电机组件 (Wind driven generator assembly based on matching angle input driving ) 是由 王凯 陈生明 张�浩 于 2020-06-15 设计创作，主要内容包括：本发明公开了一种基于配合角输入驱动的风力发电机组件,涉及风力发电技术领域。本发明中：叶轮组合基壳内依次设有第一锥形轮、第二传导轮和第三锥形轮；第一转环体的内侧环面上设有与第一锥形轮相配合的第一环面齿口；叶轮组合基壳上活动装设有第一轴承环、第二轴承环、第三轴承环；第一偏心轴的一端设有配合安装在第二端侧齿口槽内的第一端侧齿轮；第二偏心轴的一端设有配合安装在第三端侧齿口槽内的第二端侧齿轮。本发明通过多角度独立转动方位角叶轮,带动叶轮组合基壳内侧的轴向锥形轮,将动力逐级增大化传导至第三后输轴上,从多方向、多角度、多层级对风力发电组件提供高效化的风力收集和转力驱动操作。(The invention discloses a wind driven generator assembly based on matching angle input driving, and relates to the technical field of wind power generation. In the invention: a first conical wheel, a second transmission wheel and a third conical wheel are sequentially arranged in the impeller combined base shell; a first annular surface tooth opening matched with the first conical wheel is arranged on the annular surface of the inner side of the first annular rotating body; the impeller combined base shell is movably provided with a first bearing ring, a second bearing ring and a third bearing ring; one end of the first eccentric shaft is provided with a first end side gear which is arranged in the second end side gear slot in a matching way; one end of the second eccentric shaft is provided with a second end side gear which is installed in the third end side gear groove in a matching mode. The multi-angle independent rotation azimuth impeller drives the axial conical wheel on the inner side of the impeller combined base shell to gradually increase and transmit power to the third rear transmission shaft, and efficient wind power collection and rotation force driving operation is provided for the wind power generation assembly from multiple directions, multiple angles and multiple layers.)

1. A wind driven generator assembly driven based on a mating angle input comprises an impeller combined base shell (1), and is characterized in that:

the impeller combined base shell (1) is movably provided with a first rotating ring body (2), a second rotating ring body (4) and a third rotating ring body (6);

the periphery side of the first rotating ring body (2) is fixedly connected with a plurality of first azimuth impellers (3) which are uniformly distributed;

the peripheral side of the second rotating ring body (4) is fixedly connected with a plurality of second azimuth impellers (5) which are uniformly distributed;

the peripheral side of the third rotating ring body (6) is fixedly connected with a plurality of third azimuth impellers (7) which are uniformly distributed;

a first conical wheel (8), a second transmission wheel (9) and a third conical wheel (10) are sequentially arranged in the impeller combined base shell (1);

a first annular surface tooth opening (21) matched with the first conical wheel (8) is formed in the annular surface of the inner side of the first rotating ring body (2);

a second toroidal tooth opening (22) matched with the second transmission wheel (9) is arranged on the inner side toroidal surface of the second rotary ring body (4);

a third annular face tooth opening (23) matched with the third conical wheel (10) is formed in the annular face of the inner side of the third rotating ring body (6);

the impeller combination base shell (1) is movably provided with a first bearing ring (11), a second bearing ring (12) and a third bearing ring (13);

the first bearing ring (11) is positioned between the first swivel body (2) and the second swivel body (4);

the second bearing ring (12) is positioned between the second swivel body (4) and the third swivel body (6);

the third bearing ring (13) is positioned between the third rotating ring body (6) and the rear side end plate of the impeller combined base shell (1);

one end of the second transmission wheel (9) is provided with a second end side tooth mouth groove (15) with an inner ring side in a tooth mouth structure;

one end of the third conical wheel (10) is provided with a third end side tooth mouth groove (18) with a tooth mouth structure at the inner ring side;

the other end of the first conical wheel (8) is connected with a first eccentric shaft (14) in a matching way, and one end of the first eccentric shaft (14) is provided with a first end side gear (16) which is installed in a second end side gear slot (15) in a matching way;

the other end of the second transmission wheel (9) is connected with a second eccentric shaft (17) in a matching way, and one end of the second eccentric shaft (17) is provided with a second end side gear (19) which is installed in a third end side gear slot (18) in a matching way;

the other end of the third conical wheel (10) is connected with a third rear transmission shaft (20) which is connected with the wind power generation assembly in a matching mode.

2. The wind turbine assembly driven based on a mating angle input of claim 1, wherein:

the angles between the first azimuth angle impeller (3), the second azimuth angle impeller (5), the third azimuth angle impeller (7) and the outer ring side face of the impeller combination base shell (1) are sequentially increased.

3. The wind turbine assembly driven based on a mating angle input of claim 1, wherein:

the radial axis of the first azimuth angle impeller (3) is vertical to the position of the annular surface of the first annular tooth opening (21);

the radial axis of the second azimuth impeller (5) is vertical to the position of the annular surface of the second annular tooth opening (22);

the radial axis of the third azimuth angle impeller (7) is vertical to the position of the annular surface of the third annular tooth opening (23).

4. The wind turbine assembly driven based on a mating angle input of claim 1, wherein:

an end side bearing is arranged between the front end of the first rotating ring body (2) and the front end plate of the impeller combined base shell (1) in a matched mode.

5. The wind turbine assembly driven based on a mating angle input of claim 1, wherein:

a first fixed ring plate (24) and a second fixed ring plate (26) are fixedly arranged in the impeller combined base shell (1);

the first fixed ring plate (24) is positioned between the first conical wheel (8) and the second transmission wheel (9);

the second fixed ring plate (26) is positioned between the second transmission wheel (9) and the third conical wheel (10);

a first connecting bearing ring body (25) is arranged in the first fixed ring plate (24);

the inner ring of the first connecting bearing ring body (25) is matched and connected with the first eccentric shaft (14);

a second connecting bearing ring body (27) is arranged in the second fixed ring plate (26);

the inner ring of the second connecting bearing ring body (27) is connected with the second eccentric shaft (17) in a matching way.

6. The wind turbine assembly driven based on a mating angle input of claim 1, wherein:

the radial size of the first end side gear (16) is smaller than the radial size of the second end side tooth mouth groove (15);

the inner ring sides of the first end side gear (16) and the second end side tooth mouth groove (15) are in tooth mouth meshing fit;

the radial size of the gear of the second end side gear (19) is smaller than the radial size of the groove body of the third end side gear groove (18);

the second end side gear (19) is in tooth mouth meshing fit with the inner ring side of the third end side tooth mouth groove (18).

Technical Field

The invention belongs to the technical field of wind power generation, and particularly relates to a wind power generator assembly based on matching angle input driving.

Background

The wind wheel is an important part for converting the kinetic energy of wind into mechanical energy and consists of a plurality of blades. When wind blows to the blades, aerodynamic force is generated on the blades to drive the wind wheel to rotate. The blade is made of a material which is required to have high strength and light weight and is made of glass fiber reinforced plastics or other composite materials (such as carbon fibers).

Because the rotating speed ratio of the fan impeller is low, and the size and the direction of wind power are changed frequently, the rotating speed of the fan impeller is unstable, and the transmission force input into the fan is insufficient sometimes, so that the wind power generation efficiency is influenced.

Just in this application from multi-direction, multi-angle, multilevel to wind power generation subassembly provide high-efficient wind-force collection and commentaries on classics power drive operation, solve the phenomenon that the inside transmission of inputing the fan is not enough.

Disclosure of Invention

The invention aims to provide a wind driven generator component based on matching angle input driving, which is used for providing efficient wind power collection and rotation force driving operation for the wind driven generator component from multiple directions, multiple angles and multiple levels by gradually increasing and transmitting power to a third rear transmission shaft.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a wind driven generator assembly based on matching angle input drive, which comprises an impeller combined base shell, wherein a first rotating ring body, a second rotating ring body and a third rotating ring body are movably arranged on the impeller combined base shell; the periphery side of the first rotating ring body is fixedly connected with a plurality of first azimuth impellers which are uniformly distributed; the peripheral side of the second rotating ring body is fixedly connected with a plurality of second azimuth impellers which are uniformly distributed; the peripheral side of the third rotating ring body is fixedly connected with a plurality of third azimuth impellers which are uniformly distributed.

A first conical wheel, a second transmission wheel and a third conical wheel are sequentially arranged in the impeller combined base shell; a first annular surface tooth opening matched with the first conical wheel is arranged on the annular surface of the inner side of the first annular rotating body; a second annular tooth mouth matched with the second conduction wheel is arranged on the annular surface of the inner side of the second rotary ring body; the inner side ring surface of the third rotating ring body is provided with a third ring surface tooth mouth matched with the third cone wheel.

The impeller combined base shell is movably provided with a first bearing ring, a second bearing ring and a third bearing ring; the first bearing ring is positioned between the first rotating ring body and the second rotating ring body; the second bearing ring is positioned between the second rotating ring body and the third rotating ring body; the third bearing ring is positioned between the third rotating ring body and the rear side end plate of the impeller combined base shell; one end of the second transmission wheel is provided with a second end side tooth mouth groove with an inner ring side in a tooth mouth structure; and one end of the third conical wheel is provided with a third end side tooth mouth groove with a tooth mouth structure at the inner ring side.

The other end of the first conical wheel is connected with a first eccentric shaft in a matching way, and one end of the first eccentric shaft is provided with a first end side gear which is installed in the second end side gear slot in a matching way; the other end of the second transmission wheel is connected with a second eccentric shaft in a matching way, and one end of the second eccentric shaft is provided with a second end side gear which is installed in a third end side gear groove in a matching way; the other end of the third conical wheel is connected with a third rear transmission shaft which is connected with the wind power generation assembly in a matching mode.

As a preferable technical scheme of the invention, the angles between the first azimuth angle impeller, the second azimuth angle impeller, the third azimuth angle impeller and the outer ring side surface of the impeller combined base shell are sequentially increased.

As a preferred technical scheme of the invention, the radial axis of the first azimuth angle impeller is vertical to the position of the annular surface of the first annular tooth mouth; the radial axis of the second azimuth impeller is vertical to the annular surface of the second annular surface tooth opening; the radial axis of the third azimuth angle impeller is vertical to the position of the annular surface of the third annular surface tooth opening.

As a preferable technical solution of the present invention, an end side bearing is fittingly provided between a front end of the first ring body and a front end plate of the impeller assembly base shell.

As a preferred technical scheme of the invention, a first fixed ring plate and a second fixed ring plate are fixedly arranged in an impeller combined base shell; the first fixed ring plate is positioned between the first conical wheel and the second transmission wheel; the second fixed ring plate is positioned between the second transmission wheel and the third conical wheel; a first connecting bearing ring body is arranged in the first fixed ring plate; the inner ring of the first connecting bearing ring body is fixedly connected with the first eccentric shaft; a second connecting bearing ring body is arranged in the second fixed ring plate; the inner ring of the second connecting bearing ring body is fixedly connected with the second eccentric shaft.

As a preferable technical solution of the present invention, a gear radial dimension of the first end side gear is smaller than a groove body radial dimension of the second end side notch groove; the first end side gear is meshed with the inner ring side of the second end side tooth notch groove; the radial size of the gear of the second end side gear is smaller than the radial size of the groove body of the third end side gear groove; the second end side gear is meshed with the inner ring side of the third end side gear groove.

The invention has the following beneficial effects:

1. the multi-angle independent rotation azimuth impeller drives the axial conical wheel on the inner side of the impeller combined base shell to gradually increase and transmit power to the third rear transmission shaft, and efficient wind power collection and rotation force driving operation is provided for the wind power generation assembly from multiple directions, multiple angles and multiple layers;

2. according to the invention, the azimuth impeller is arranged at an angle which is perpendicular to the transmission surface between the annular tooth opening and the conical wheel, so that the transmission efficiency between the rotary ring body and the conical wheel is improved;

3. the connecting bearing ring body is arranged to be matched with the eccentric shaft in an internal rotation manner, so that the rotation stability of the front-end conical wheel and the rear-end side fluted disc is ensured.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a partially enlarged view of the structure at B in FIG. 1;

in the drawings, the components represented by the respective reference numerals are listed below:

1-impeller combined base shell; 2-a first torus; 3-a first azimuth impeller; 4-a second swivel body; 5-a second azimuth impeller; 6-a third swivel body; 7-a third azimuth angle impeller; 8-a first cone wheel; 9-a second pulley; 10-a third cone wheel; 11-a first bearing ring; 12-a second bearing ring; 13-a third bearing ring; 14-a first eccentric shaft; 15-second end side notch groove; 16-a first end side gear; 17-a second eccentric shaft; 18-third end side tooth slot; 19-a second end side gear; 20-a third rear output shaft; 21-a first toroidal tooth space; 22-second toroidal tooth space; 23-a third toroidal tooth space; 24-a first stationary ring plate; 25-a first connecting bearing ring body; 26-a second stationary ring plate; 27-a second connecting bearing ring body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "angle," "inner," "vertical," "end," "inner," "peripheral side," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.