CN204783472U - Wind power generation set of parallel axis and vertical axis combination - Google Patents

Abstract

The utility model belongs to the technical field of power generating equipment and specifically relates to a wind power generation set of parallel axis and vertical axis combination, including parallel axis electricity generation subassembly, vertical axis electricity generation subassembly, frame, battery and dc -to -ac converter, parallel axis electricity generation subassembly includes horizontal rotating shaft, first flabellum subassembly and first aircraft nose, first flabellum subassembly comprises the flabellum that the polylith is screw form evenly distributed, and it is installed perpendicularly in the one end of horizontal rotating shaft, and the other end of horizontal rotating shaft is installed in first aircraft nose, and first aircraft nose is installed in the frame, vertical axis electricity generation subassembly includes vertical shaft, second flabellum subassembly and second aircraft nose, second flabellum subassembly comprises the flabellum that the polylith is screw form evenly distributed, and it is installed perpendicularly in vertical shaft's one end, and vertical shaft's the other end is installed in the second aircraft nose, and the second aircraft nose is installed in the upper portion of frame, the equal fixed mounting of battery and dc -to -ac converter is in the frame. The utility model discloses can be more abundant utilize the wind energy, improve the generating efficiency.

Description

The wind generating unit that a kind of parallel axes and vertical shaft combine

Technical field

The utility model relates to field of generating equipment, the wind generating unit that especially a kind of parallel axes and vertical shaft combine.

Background technique

Along with the progress of expanding economy, society, people propose more and more higher requirement to the energy, and searching new energy become the urgent problem that current mankind faces.Wind energy, as a kind of clean renewable energy sources, is more and more subject to the attention of countries in the world.Its amount of accumulateing is huge, and the wind energy in the whole world is about 2.74 × 10^9MW, and wherein available wind energy is 2 × 10^7MW, than the water energy total amount that the earth can develop also large 10 times.Wind is utilized by people very early--mainly to be drawn water by windmill, flour milling etc., and now, people are interested is how to utilize wind to generate electricity.New Energy Sources In China strategy starts to be set to emphasis greatly developing wind-power electricity generation.

At present, there is the wind-driven generator of many kinds, if application number is 201110395686.5, name is called the disclosure of the invention patent of wind-driven generator, this wind-driven generator is by blower fan head, blower fan leaf, blower fan bar, fan seat four part forms, described blower fan bar bottom is screw mandrel, screw mandrel has the groove that is parallel to screw mandrel axis, described channel section center line silk rolling rod axis, described fan seat comprises middle part for the poroid fixed base of ladder, be contained in the lower bearing in fixed base, upper bearing, be fixed on lower bearing, lifting ring on upper bearing, the inwall of described lifting ring is the screw thread that the screw portion of same blower fan bar matches, be contained in the driven gear that lifting ring top is fastenedly connected with it, be contained in the spacer ring between driven gear and upper bearing, driving gear conplane with driven gear, be connected to active motor driving gear providing power, be fixed on the pin rod of fixed base and blower fan bar.

And for example application number is 200880128988.2, name is called the disclosure of the invention patent of wind-driven generator, comprise the front vane and rear blade that are connected with the front-end and back-end of main body respectively, described main body is arranged on to be had on the king-post of certain altitude, rotate with opposite directions against wind to make described front vane and rear blade, multiple permanent magnet utilizes the rotating force transmitted from front vane to rotate, coil case utilizes and rotates with the direction contrary with permanent magnet from the rotating force of rear blade transmission, described permanent magnet and described coil case are all arranged in main body, wherein front vane is connected on front hub, described front hub is coupled to the front end of front axle, described front axle is axially connected to the front end of main body (1), star wheel (6) is fixed on the middle part of front axle (3), permanent magnet (7) is installed on the external diameter of star wheel at certain intervals, and wherein solid of rotation is coupled to hold permanent magnet within it by bearing with front axle, coil case corresponds to the outside that permanent magnet is arranged on solid of rotation, rear blade is connected with rear-wheel hub, described rear-wheel hub is coupling in one end of rear axle, the rear end that described rear axle is arranged on main body is inner, it is made to be connected with one end of solid of rotation (20) inner side when its end exposes the rear end of main body.

Above-mentioned two kinds of wind-driven generators are parallel axes generator, are merely able to utilize the wind energy being parallel to horizontal plane, and can not utilize the wind energy perpendicular to horizontal plane, abundant not to the utilization of wind energy.

Model utility content

Technical problem to be solved in the utility model is to provide and a kind ofly can either utilizes the wind energy being parallel to horizontal plane, again enough wind generating units utilizing parallel axes and vertical shaft perpendicular to the wind energy of horizontal plane to combine.

The utility model solves the technological scheme that its technical problem adopts: the wind generating unit that a kind of parallel axes and vertical shaft combine, comprises parallel axes electrification component, vertical shaft electrification component, frame, storage battery and inverter,

Described parallel axes electrification component comprises the horizontal rotating shaft, the first flabellum assembly and the first head that are parallel to horizontal plane and arrange; Described first flabellum assembly by polylith helically the equally distributed flabellum of paddle form, it is installed vertically on one end of horizontal rotating shaft, and the other end of described horizontal rotating shaft is installed on the first head, and described first head is installed on the top of frame;

Described vertical shaft electrification component comprise arrange perpendicular to horizontal plane vertical rotating shaft, the second flabellum assembly and the second head; Described second flabellum assembly by polylith helically the equally distributed flabellum of paddle form, it is installed vertically on one end of vertical rotating shaft, and the other end of described vertical rotating shaft is installed on the second head, and described second head is installed on the top of frame;

Described storage battery and inverter are all fixedly installed in frame.

Further, described first head and the second head are same head, are provided with the power coil matched with vertical rotating shaft and the power coil matched with horizontal rotating shaft in described head.

Further, being provided with for driving described horizontal rotating shaft and the first flabellum component integration to rotate, making flabellum perpendicular to the automatic control tegulatingdevice of wind direction.

Further, described automatic control tegulatingdevice comprises sensor for detecting wind direction, controller, the rotatable platform be rotatably assorted with head and the drive unit for driving rotatable platform to rotate, and the sensor of described wind direction is installed on the windward side of flabellum; Described controller and drive unit are all installed on frame; Described horizontal rotating shaft is installed on rotatable platform.

Further, described drive unit is motor.

Further, described first flabellum assembly and the second flabellum assembly include 3 flabellums.

The beneficial effects of the utility model are: the wind energy transformation being parallel to horizontal plane is mechanical energy by the first flabellum assembly of parallel axes electrification component, and the changes mechanical energy of the first flabellum assembly is electric energy by the first head, thus makes full use of the wind energy being parallel to horizontal plane.Wind energy transformation perpendicular to horizontal plane is mechanical energy by the second flabellum assembly of vertical shaft electrification component, and the changes mechanical energy of the second flabellum assembly is electric energy by the second head, thus makes full use of the wind energy perpendicular to horizontal plane.Storage battery is used for storage of electrical energy, and it is normal voltage that inverter is used for electric energy conversion, can directly for user.The utility model can utilize wind energy more fully, improves generating efficiency, is conducive to the consumption reducing non-renewable energy resources, protection of the environment.

Accompanying drawing explanation

Fig. 1 is the structural representation of the wind generating unit that the utility model parallel axes and vertical shaft combine.

Embodiment

Below in conjunction with drawings and Examples, the utility model is further illustrated.

As shown in Figure 1, the wind generating unit that a kind of parallel axes of the present utility model and vertical shaft combine, comprise parallel axes electrification component, vertical shaft electrification component, frame 1, storage battery 2 and inverter 3, described parallel axes electrification component comprises horizontal rotating shaft 41, the first flabellum assembly 42 and the first head 43 that are parallel to horizontal plane setting; Described first flabellum assembly 42 by polylith helically the equally distributed flabellum of paddle form, it is installed vertically on one end of horizontal rotating shaft 41, and the other end of described horizontal rotating shaft 41 is installed on the first head 43, and described first head 43 is installed on the top of frame 1; Described vertical shaft electrification component comprises vertical rotating shaft 51, the second flabellum assembly 52 and the second head 53 that arrange perpendicular to horizontal plane; Described second flabellum assembly 52 by polylith helically the equally distributed flabellum of paddle form, it is installed vertically on one end of vertical rotating shaft 51, and the other end of described vertical rotating shaft 51 is installed on the second head 53, and described second head 53 is installed on the top of frame 1; Described storage battery 2 and inverter 3 are all fixedly installed in frame 1.

The wind energy transformation being parallel to horizontal plane is mechanical energy by the first flabellum assembly 42 of parallel axes electrification component, and the changes mechanical energy of the first flabellum assembly 42 is electric energy by the first head 43, thus makes full use of the wind energy being parallel to horizontal plane.Wind energy transformation perpendicular to horizontal plane is mechanical energy by the second flabellum assembly 52 of vertical shaft electrification component, and the changes mechanical energy of the second flabellum assembly 52 is electric energy by the second head 53, thus makes full use of the wind energy perpendicular to horizontal plane.Storage battery 2 is for storage of electrical energy, and inverter 3, can directly for user for being normal voltage by electric energy conversion.The utility model can utilize wind energy more fully, improves generating efficiency, is conducive to the consumption reducing non-renewable energy resources, protection of the environment.

In order to the weight of alleviator, reduce the floor space of device, reduce installation difficulty, described first head 43 and the second head 53 are same head, are provided with the power coil matched with vertical rotating shaft 51 and the power coil matched with horizontal rotating shaft in described head.

In order to utilize the wind energy being parallel to horizontal plane more fully, improving generating efficiency, being provided with for driving described horizontal rotating shaft 41 and the first flabellum assembly 42 unitary rotation, making flabellum perpendicular to the automatic control tegulatingdevice of wind direction.Described automatic control tegulatingdevice comprises sensor 61 for detecting wind direction, controller 62, the rotatable platform 63 be rotatably assorted with head and the drive unit 64 for driving rotatable platform 63 to rotate, and the sensor 61 of described wind direction is installed on the windward side of flabellum; Described controller 62 is all installed on frame 1 with drive unit 64; Described horizontal rotating shaft 41 is installed on rotatable platform 63.Sensor 61 monitors wind direction at any time, and wind direction signals is delivered to controller 62, when wind direction is not orthogonal to flabellum windward side, controller 62 accessory drive 64 runs, rotatable platform 63 is driven to rotate, rotatable platform 63 drives horizontal rotating shaft 41 and the first flabellum assembly 42 to rotate, and knows that flabellum windward side is perpendicular to wind direction.

Conveniently control, cost-saving, described drive unit 64 is motor.

The flabellum quantity of the first flabellum assembly 42 and the second flabellum assembly 52 is arranged according to the actual requirements, and preferably, described first flabellum assembly 42 and the second flabellum assembly 52 include 3 flabellums.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (6)

1. the wind generating unit that combines of parallel axes and vertical shaft, is characterized in that: comprise parallel axes electrification component, vertical shaft electrification component, frame (1), storage battery (2) and inverter (3),

Described parallel axes electrification component comprises the horizontal rotating shaft (41), the first flabellum assembly (42) and the first head (43) that are parallel to horizontal plane and arrange; Described first flabellum assembly (42) by polylith helically the equally distributed flabellum of paddle form, it is installed vertically on one end of horizontal rotating shaft (41), the other end of described horizontal rotating shaft (41) is installed on the first head (43), and described first head (43) is installed on the top of frame (1);

Described vertical shaft electrification component comprise arrange perpendicular to horizontal plane vertical rotating shaft (51), the second flabellum assembly (52) and the second head (53); Described second flabellum assembly (52) by polylith helically the equally distributed flabellum of paddle form, it is installed vertically on one end of vertical rotating shaft (51), the other end of described vertical rotating shaft (51) is installed on the second head (53), and described second head (53) is installed on the top of frame (1);

Described storage battery (2) and inverter (3) are all fixedly installed in frame (1).

2. the wind generating unit that combines of a kind of parallel axes as claimed in claim 1 and vertical shaft, it is characterized in that: described first head (43) and the second head (53) are same head, are provided with the power coil matched with vertical rotating shaft (51) and the power coil matched with horizontal rotating shaft in described head.

3. the wind generating unit that combines of a kind of parallel axes as claimed in claim 2 and vertical shaft, it is characterized in that: being provided with for driving described horizontal rotating shaft (41) and the first flabellum assembly (42) unitary rotation, making flabellum perpendicular to the automatic control tegulatingdevice of wind direction.

4. the wind generating unit that combines of a kind of parallel axes as claimed in claim 3 and vertical shaft, it is characterized in that: described automatic control tegulatingdevice comprises sensor (61) for detecting wind direction, controller (62), the rotatable platform (63) be rotatably assorted with head and the drive unit (64) for driving rotatable platform (63) to rotate, and the sensor (61) of described wind direction is installed on the windward side of flabellum; Described controller (62) and drive unit (64) are all installed on frame (1); Described horizontal rotating shaft (41) is installed on rotatable platform (63).

5. the wind generating unit that combines of a kind of parallel axes as claimed in claim 4 and vertical shaft, is characterized in that: described drive unit (64) is motor.

6. the wind generating unit that combines of a kind of parallel axes as claimed in claim 1 and vertical shaft, is characterized in that: described first flabellum assembly (42) and the second flabellum assembly (52) include 3 flabellums.