CN108167113B - Combined unitized wind-collecting type wind power generation equipment - Google Patents

Abstract

The application relates to a combined unitized wind-collecting type wind power generation device, which is provided with a pair of side wind deflectors, wherein the side wind deflectors are C-shaped, the openings of the side wind deflectors are outwards and symmetrically arranged, the wind-collecting type wind power generation device is provided with three rows, each wind-collecting type wind power generation device is connected with a fixed seat through a bottom support column, the number of middle wind-collecting type wind power generation devices is N, the number of front and rear wind-collecting type wind power generation devices is N+2, the side wind deflectors are arranged along the outer sides of 3 rows of wind-collecting type wind power generation devices, the middle part of each side wind deflector is an arc-shaped plate, storage battery columns are arranged in the arc-shaped plates in the middle part of each side wind deflector, the storage battery columns are connected with the corresponding wind power generation devices through connecting wires, and top wind-guiding cover plates are arranged at the tops of the two side wind-collecting type wind-guiding devices. According to the wind-powered air inlet type wind power generation device, the integral structure is designed by utilizing the wind inlet effect, wind enters from a large opening and is accelerated to be boosted by utilizing the wind channel, and then the integral layout is utilized, so that each unit power generation device can receive wind, and each power generation device adopts the wind-collecting type power generation structure, so that the power generation effect can be improved to the greatest extent.

Description

Combined unitized wind-collecting type wind power generation equipment

Technical Field

The application relates to the field of power generation equipment, in particular to combined unitized wind collecting type wind power generation equipment.

Background

With the continuous importance of the national environmental protection, wind power generation is increasingly popular due to no pollution, wind power generation mechanisms are often arranged in rows in open areas to form a power plant in order to improve the power generation efficiency, but because the wind power generation equipment is generated by pushing the whole equipment to rotate by wind power, the power generation efficiency is often limited and is easy to cause waste, the applicant designs a wind collecting type wind power generation structure, and adjusts blades according to the actual condition of wind power so as to achieve the optimal power generation effect, but only single power generation efficiency can be improved, if the wind power in the whole area is limited, the power generation efficiency is still limited, wind pressure can be greatly improved by utilizing the wind gap effect, and therefore, the design of the combined unitized wind collecting type wind power generation equipment can be considered.

Disclosure of Invention

In order to solve the problems, the application provides a combined unitized wind-collecting type wind power generation device, which utilizes a wind gap effect to design an integral structure, wind enters from a large opening and is accelerated to be pressurized by a wind channel, and then utilizes the integral layout to ensure that each unit power generation device can be subjected to wind, and each power generation device adopts the wind-collecting type power generation structure to maximally improve the power generation effect, and the application provides the combined unitized wind-collecting type wind power generation device which comprises a top wind guide cover plate, side wind guide plates, a fixed seat, a storage battery column, support columns and wind-collecting type power generation devices, wherein the side wind guide plates are provided with a pair, the side wind guide plates are in a C shape, the openings of the side wind guide plates are outwards and symmetrically arranged, the wind-collecting type power generation devices are provided with three rows, and each wind-collecting type power generation device is connected with the fixed seat through a bottom support column, the fixed seat is arranged on the ground, the number of the middle wind collecting type power generation devices is N, N is a positive integer, N is more than or equal to 1 and less than or equal to 3, the number of the front and rear wind collecting type power generation devices is N+2, two sides of each front and rear wind collecting type power generation device are respectively provided with one wind collecting type power generation device, the distance between each wind collecting type power generation device and each front and rear row of wind collecting type power generation devices is larger than the outer circle diameter of the maximum running track of the movable wind collecting plate in the corresponding wind collecting type power generation device, the side wind guide plates are arranged along the outer sides of the 3 rows of wind collecting type power generation devices, the middle part of the side wind guide plates is an arc plate, the arc plate at the middle part of the side wind guide plates is close to the outer circle of the maximum running track of the movable wind collecting plates in the middle part of the wind collecting type power generation devices, storage battery columns are arranged in the arc plate at the middle part of the side wind guide plates, and the battery columns are connected with the corresponding power generation devices through connecting wires, the top of the two side air deflectors is provided with a top air guiding cover plate.

According to the wind collecting type power generation device, the wind collecting type power generation device comprises a main generator, a bottom fixing frame and a power generation main structure, the bottom fixing frame is arranged outside the main generator, the power generation main structure is arranged on the bottom fixing frame and comprises a wind wheel shaft, movable wind collecting plates, wind collecting plate limiting frames and telescopic air cylinders, the rotating shaft of the main generator is connected with the bottom end of the wind wheel shaft through a speed changing structure, 3-4 wind collecting plate limiting frames are arranged, the wind collecting plate limiting frames are arranged around the central line of the wind wheel shaft at equal angles, the wind collecting plate limiting frames are fixed on the outer side of the wind wheel shaft through connecting frames, a pair of telescopic air cylinders are arranged in each wind collecting plate limiting frame, the end parts of telescopic rods of the telescopic air cylinders are connected with the movable wind collecting plates, the movable wind collecting plates are pushed in the wind collecting plate limiting frames through the telescopic air cylinders to move along guide rails in the wind collecting plate limiting frames, the structure is of an original structure of an applicant, and a good wind collecting effect can be achieved by adjusting the wind collecting positions according to wind conditions.

According to the application, the upper part and the lower part of each wind collecting plate limiting frame are connected through the reinforcing support, and the reinforcing support is arranged to provide the strength of the integral wind collecting type power generation equipment.

According to the application, a solar cell panel is paved on the top wind guide cover plate, and a flexible piezoelectric power generation layer is arranged on the outer side of the side wind guide plate.

The application provides combined unitized wind-collecting type wind power generation equipment, which is characterized in that the whole equipment is provided with more two sides, less middle and less layout, and special baffle plates are designed on the two sides, so that wind is aggregated together by utilizing a wind gap to the greatest extent while wind power generation is not influenced, the wind pressure in the whole channel is improved, the whole power generation efficiency is improved, solar cell panels can be paved on a top cover plate of the equipment, and flexible piezoelectric power generation equipment can be arranged on the two side plates, so that the power generation efficiency is improved to the greatest extent in a limited space.

Drawings

FIG. 1 is a diagram of the overall structure of the present application;

FIG. 2 is a partial block diagram of the present application;

FIG. 3 is a schematic diagram of a wind-collecting power plant according to the present application;

illustration of:

1. a top air guiding cover plate; 2. a solar cell panel; 3. a side air deflector; 4. a flexible piezoelectric power generation layer; 5. a fixing seat; 6. a battery column; 7. a support column; 8. wind-collecting type power generation equipment; 81. a main generator; 82. a bottom fixing frame; 83. reinforcing the support; 84. a wind wheel shaft; 85. a movable wind collecting plate; 86. wind collecting plate limiting frame; 87. and a telescopic cylinder.

Detailed Description

The application is described in further detail below with reference to the attached drawings and detailed description:

the application provides combined unitized wind-collecting type wind power generation equipment, which utilizes the wind gap effect to design an integral structure, wind enters from a large opening and is accelerated to be boosted by utilizing an air channel, and then utilizes the integral layout to ensure that each unit power generation equipment can receive wind, and each power generation equipment adopts the wind-collecting type power generation structure to furthest improve the power generation effect.

As an embodiment of the application, the application provides a combined unitized wind-collecting type wind power generation device, which comprises a top wind-guiding cover plate 1, side wind-guiding plates 3, a fixing seat 5, storage battery columns 6, supporting columns 7 and wind-collecting type power generation devices 8, wherein the side wind-guiding plates 3 are provided with a pair of wind-collecting type power generation devices 8, the side wind-guiding plates 3 are C-shaped, the openings of the side wind-guiding plates 3 face outwards and are symmetrically arranged, the wind-collecting type power generation devices 8 are provided with three rows, each wind-collecting type power generation device 8 is connected with the fixing seat 5 through a bottom supporting column 7, the fixing seat 5 is arranged on the ground, the number of middle wind-collecting type power generation devices 8 is N, N is a positive integer, N is greater than or equal to 1 and less than or equal to 3, the number of the front and rear wind-collecting type power generation devices 8 is N+2, the distance between each wind-collecting type power generation device 8 and the front and rear wind-collecting type power generation device 8 is greater than the maximum running diameter of a corresponding wind-collecting type power generation device 8, the wind-collecting type power generation device 3 is provided with the middle wind-collecting plate 3 along the middle wind-collecting type power generation device 3, the middle wind-collecting type power generation device is provided with the middle wind-collecting plate 3 and the middle wind-collecting type power generation device is provided with the middle arc plates 3, the middle wind-collecting type power generation device is provided with the middle wind-collecting plates 3 and the middle wind-collecting type power generation device 8, and the middle wind-collecting device 8 are provided with the middle wind-collecting type power generation device 8, and the middle wind-collecting device is provided with the middle wind-collecting wind.

As a specific embodiment of the application, the application provides combined unitized wind collecting type wind power generation equipment shown in fig. 1 and 2, which comprises a top wind guiding cover plate 1, a side wind guiding plate 3, a fixed seat 5, a storage battery column 6, a supporting column 7 and wind collecting type wind power generation equipment 8, wherein the side wind guiding plate 3 is a pair, the side wind guiding plate 3 is in a C shape, the opening of the side wind guiding plate 3 is outwards and symmetrically arranged, the wind collecting type wind power generation equipment 8 comprises a main generator 81, a bottom fixing frame 82 and a power generation main structure, the bottom fixing frame 82 is arranged outside the main generator 81, the power generation main structure is arranged on the bottom fixing frame 82, the power generation main structure comprises a wind wheel shaft 84, a movable wind collecting plate 85, a wind collecting plate limiting frame 86 and a telescopic cylinder 87, the rotating shaft of the main generator 81 is connected with the bottom end of the wind wheel shaft 84 through a speed change structure, the wind collecting plate limiting frames 86 are 3-4, the wind collecting plate limiting frames 86 are equiangularly wound around the central line of the wind wheel shaft 84 for one circle, the wind collecting plate limiting frames 86 are fixed on the outer side of the wind wheel shaft 84 through connecting frames, a pair of telescopic air cylinders 87 are arranged in each wind collecting plate limiting frame 86, the end parts of telescopic rods of the telescopic air cylinders 87 are connected with the movable wind collecting plates 85, the movable wind collecting plates 85 are pushed by the telescopic air cylinders 87 in the wind collecting plate limiting frames 86 to move along guide rails in the wind collecting plate limiting frames 86, the structure is an original structure of an applicant, the wind collecting plate position can be adjusted according to wind conditions through the structure to achieve good wind collecting effect, the upper parts and the lower parts of the wind collecting plate limiting frames 86 are connected through reinforcing brackets 83, the reinforcing brackets can provide the strength of the whole wind collecting type power generating equipment, the wind collecting type power generating equipment 8 has three rows, each wind-collecting type power generation device 8 is connected with the fixed seat 5 through the bottom supporting column 7, the fixed seat 5 is arranged on the ground, the number of the middle wind-collecting type power generation devices 8 is N, N is a positive integer, N is more than or equal to 1 and less than or equal to 3, the number of the front and rear wind-collecting type power generation devices 8 is N+2, two sides of each front and rear wind-collecting type power generation device 8 are respectively provided with one wind-collecting type power generation device 8, the distance between each wind-collecting type power generation device 8 and the front and rear row wind-collecting type power generation devices 8 is larger than the outer circle diameter of the maximum running track of the movable wind-collecting plate 85 in the corresponding wind-collecting type power generation device 8, the side wind-guiding plate 3 is arranged along the outer side of the 3 row wind-collecting type power generation device 8, the middle part of the side air deflector 3 is an arc plate, the arc plate in the middle part of the side air deflector 3 is close to the excircle of the maximum running track of the movable air deflector 85 in the wind collecting type power generation equipment 8 on two sides of the middle part, a storage battery column 6 is arranged in the arc plate in the middle part of the side air deflector 3, the storage battery column 6 is connected with each corresponding power generation equipment through a connecting wire, top air deflector cover plates 1 are arranged at the tops of the two side air deflectors 3, a solar cell panel 2 is paved on the top air deflector cover plates 1, and a layer of flexible piezoelectric power generation layer 4 is arranged outside the side air deflector 3.

The above description is only of the preferred embodiment of the present application, and is not intended to limit the present application in any other way, but is intended to cover any modifications or equivalent variations according to the technical spirit of the present application, which fall within the scope of the present application as defined by the appended claims.

Claims (1)

1. The utility model provides a combination formula unitized wind-collecting type wind power generation equipment, includes top wind deflector (1), side aviation baffle (3), mount pad (5), battery post (6), support column (7) and wind-collecting type power generation equipment (8), side aviation baffle (3) have a pair of, side aviation baffle (3) are C shape, the opening of side aviation baffle (3) outwards and symmetry set up, wind-collecting type power generation equipment (8) have three rows, and each wind-collecting type power generation equipment (8) links to each other with mount pad (5) through bottom support column (7), mount pad (5) are installed subaerial, and the number of middle part wind-collecting type power generation equipment (8) is N, and N is a positive integer, and N is more than or equal to 1 and less than or equal to 3, and the number of wind-collecting type power generation equipment (8) in front and back is N+2, and each wind-collecting type power generation equipment (8) of a plurality of wind-collecting type in both sides of wind-collecting type power generation equipment (8), and each wind-collecting type power generation equipment (8) and the wind-collecting type between the front and back row wind-collecting type power generation equipment (8) are the diameter of wind-collecting type power generation equipment (8) is the big wind-collecting type power generation equipment (8) that is the outside of the wind-collecting type power generation equipment (8) is the big arc face down, and the diameter of wind-collecting type power generation equipment (8) is the big outside wind-collecting down in the wind-collecting type power generation equipment (8) and the wind-collecting type power generation equipment (3, the middle arc plate of the side air guide plate (3) is close to an outer circle of the maximum running track of the movable air collecting plates (85) in the wind collecting power generation equipment (8) at two sides of the middle, a storage battery column (6) is arranged in the middle arc plate of the side air guide plate (3), the storage battery column (6) is connected with each power generation equipment through a connecting wire, and top air guide cover plates (1) are arranged at the tops of the two side air guide plates (3);

the wind collecting type power generation equipment (8) comprises a main power generator (81), a bottom fixing frame (82) and a power generation main body structure, wherein the bottom fixing frame (82) is arranged outside the main power generator (81), the power generation main body structure is arranged on the bottom fixing frame (82), the power generation main body structure comprises a wind wheel shaft (84), a movable wind collecting plate (85), wind collecting plate limiting frames (86) and telescopic air cylinders (87), rotating shafts of the main power generator (81) are connected with the bottom ends of the wind wheel shafts (84) through speed changing structures, 3-4 wind collecting plate limiting frames (86) are arranged, wind collecting plate limiting frames (86) are arranged around the center line of the wind wheel shaft (84) at equal angles, the wind collecting plate limiting frames (86) are fixed outside the wind wheel shafts (84) through connecting frames, a pair of telescopic air cylinders (87) are arranged in each wind collecting plate limiting frame (86), the ends of telescopic rods of the telescopic air cylinders (87) are connected with the movable wind collecting plate (85), and the movable wind collecting plate limiting frames (86) are pushed by the telescopic air cylinders (87) to move along the wind collecting plate limiting frames (86);

the upper part and the lower part of each wind collecting plate limiting frame (86) are connected through a reinforcing bracket (83);

a solar cell panel (2) is paved on the top air guide cover plate (1);

the outer side of the side air deflector (3) is provided with a flexible piezoelectric power generation layer (4).