CN205154509U - Wheeled generator of crosswind power - Google Patents

Abstract

Wheeled generator of crosswind power for utilize wind -force to generate electricity, including the rotor and the stator of generator, in generator stator placed the rotor in, the both ends that the rotor used the stator were rotated and are connected on the stator as the axle, and the windy impeller of rotor excircle surface set, fan blade take turns to the casing that is covered with half encirclement, and this casing is supported by the both ends of stator, rotate when connecting on the stator as the axle at the both ends of using the stator when the casing, the casing on linked firmly the wind direction rudder plate, the semi -circular fan housing of transferring is equipped with between casing and the fan blade wheel, when the both ends and the casing of stator link firmly, the opening part of casing and tuber pipe intercommunication, the axis direction of the axis direction perpendicular to stator of tuber pipe, the blade that the fan blade took turns to lies in the tuber pipe, the both ends mouth of tuber pipe is trumpet - shaped, is covered with the filter screen on two horn mouths respectively, the both ends inner wall of tuber pipe is equipped with protruding edge respectively, the air inlet end of tuber pipe installs inside has the adjusting device who is used for controlling the intake.

Description

Crosswind power wheel-type electric generator

Technical field

The utility model relates to field of wind power equipment, specifically provides a kind of crosswind power wheel-type electric generator.

Technical background

Common wind power plant is horizontal axis wind-driven generator, horizontal axis wind-driven generator complex structure body is high, the cost causing it to manufacture and to safeguard is high, assembling difficulty is large, and its flabellum used needs cutting steam windward when rotated, and windage is large, the utilization ratio of wind energy is low, and due to horizontal axis wind-driven generator self structure, cannot wind-force be concentrated, when wind speed is too high, will stop using, high speed winds stream cannot be utilized to generate electricity.

Summary of the invention

The purpose of this utility model is: provide a kind of crosswind power wheel-type electric generator, the utilization ratio of this technology generator to wind energy is high, compares that horizontal axis wind-driven generator structure is simple, cost is low.

The technical solution of the utility model is: crosswind power wheel-type electric generator, comprise rotor and the stator of generator, it is characterized in that: generator unit stator is placed in rotor, rotor with the two ends of stator for axle, be rotationally connected with on stator, rotor outer circle surface is set with fan blade, fan blade is covered with the housing of semi-surrounding, and this housing is by the two end supports of stator.

Described housing is fixed with wind direction rudder plate, housing, is rotationally connected with on stator for axle with the two ends of stator.

Fan housing motor housing is equipped with, the pto＝power take-off of fan housing motor is fixed with the first gear, semicircle tune fan housing is housed between housing and fan blade, adjust fan housing with the two ends of stator for axle, be rotationally connected with stator two ends, adjust on fan housing and be fixed with semicircular gear ring, gear ring is connected with the first gears meshing.

Two ends and the housing of stator are connected, the opening of housing is communicated with airduct, the axial direction of airduct is perpendicular to the axial direction of stator, blade on fan blade is positioned at airduct, the two-port of airduct is toroidal, two horn mouths are covered with filter screen respectively, and the two ends inwall of airduct is respectively equipped with convex edge, and the air intake of airduct is built with the controlling device for controlling air output.

Described controlling device has baffle plate motor and baffle plate, baffle plate motor and airduct are connected, the pto＝power take-off of baffle plate motor is fixed with the second gear, described airduct is provided with plate hole, baffle plate is positioned at plate hole and is flexibly connected with plate hole, baffle plate is fixed with tooth bar, and tooth bar is connected with the second gears meshing.

The utility model has the advantages that: fan blade is by Wind power propelling, rotor in drive electrical generators is that axle rotates with stator, can generate electricity, because fan blade is thrust direction rotation with the wind, it is little that the resistance that fan blade produces compares the resistance of horizontal axis wind-driven generator flabellum, because resistance is little and along revolution, also can not damage under the fan blade High Rotation Speed in this technology, high speed winds stream can be utilized to generate electricity, therefore high to the utilization ratio of wind energy; Fan blade is directly fixed on rotor, saves the mechanism such as transmission, speed change, and compared with horizontal axis wind-driven generator, crosswind power wheel-type electric generator of the present utility model is to wind direction no requirement (NR), and structure is simple, cost is low.

Fan housing motor can drive adjusts fan housing to rotate, the fan blade shade be positioned at outside housing is adjusted fan housing, is regulating the wind-exposuring area of fan blade, thus control the rotating speed of rotor, this structure instead of brake system and the speed variator system of horizontal axis wind-driven generator, has saved cost and maintenance cost; The object arranging controlling device is equally also the rotating speed in order to control rotor.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model crosswind power wheel-type electric generator;

Fig. 2 is the plan view of the utility model crosswind power wheel-type electric generator;

Fig. 3 is the second structural representation of the utility model crosswind power wheel-type electric generator;

Fig. 4 is the third structural representation of the utility model crosswind power wheel-type electric generator.

1 housing in figure, 2 fan blades, 3 rotors, 4 fan blades, 5 stators, 6, the opening of housing, 7 wind direction rudder plates, 8 stator axis, 9 electric wires, 10 bearings, 11 horn mouths, 12 airducts, 13 turnover panels, 14 baffle plate motors, 15 tooth bars, 16 second gears, 17 baffle plates, 18 filter screens, 19 turnover panel motors, 20 convex edges, 21 adjust fan housing, 22 fan housing motors, 23 first gears, 24 gear rings.

Embodiment

Crosswind power wheel-type electric generator, its fondational structure is: the rotor 3 and the stator 5 that comprise generator, generator unit stator is placed in rotor, namely rotor is the electric generator structure of external rotor and inner stator, rotor with the two ends of stator for axle, be rotationally connected with on stator, the two ends of described stator are the extensions at stator axis 8 two ends in stator, rotor outer circle surface is set with fan blade 2, fan blade forms by wheel rim with around some fan blades 4 that wheel rim cylindrical is uniform, fan blade is covered with the housing 1 of semi-surrounding, this housing is by the two end supports of stator.Housing is the shape of the semi-surrounding such as D shape or U-shaped, the cylindrical conformal of inner walls and fan blade, gap is provided with between fan blade and housing, the two ends of the rotor of generator are rotationally connected by the two ends of bearing 10 with stator, during use, make fan blade side leakage outside housing windward, wind promotes fan blade rotor driven and rotates, thus makes electrical power generators.

According to above-mentioned basic structure, the utility model crosswind power wheel-type electric generator is also derivative A type and Type B.

A type: as shown in Figure 1, 2, based on fondational structure, described housing is fixed with wind direction rudder plate 7, and the direction, plate face of wind direction rudder plate is perpendicular to the axial direction of stator, and housing, is rotationally connected with on stator for axle with the two ends of stator.It is outer and the fixing and mounting bracket supporting with fan station is housed that the wherein one or both ends at stator two ends extend to housing; Said structure in use, on the pedestal being assemblied in fan station by fixing and mounting bracket or base station, now stator is fixing, and wind direction rudder plate by wind promotes, drive housing turns to, the fan blade partial Upwind that fan blade is exposed, wind is moved fan blade rotor driven and is rotated, thus makes electrical power generators, this model can be rotated with the wind, automatic capturing wind-force, does not limit wind direction and wind velocity, is applicable to being arranged on any place having wind to produce.

As shown in Figure 4, in order to control the rotating speed of fan blade in said structure, described housing is equipped with fan housing motor 22, the pto＝power take-off of fan housing motor is fixed with the first gear 23, semicircle tune fan housing 21 is housed between housing and fan blade, adjust fan housing with the two ends of stator for axle, be rotationally connected with stator two ends, adjust on fan housing and be fixed with semicircular gear ring 24, gear ring is connected with the first gears meshing, in order to make structure svelteness in accompanying drawing, between the first gear and gear ring, power transmitting gear is housed; Be connected in and adjust the motor on fan housing to be driven by the first gear of being meshed and gear ring to adjust fan housing to rotate, fan housing is adjusted to be that the center of circle is rotated between housing and fan blade with stator, when adjusting fan housing to go to an end points, can be completely coated by fan blade, when adjusting fan housing to go to the other end stop, can take in housing completely, described gear and gear ring also can replace with other driving mechanism, such as: drivign belt.

Type B: as shown in Figure 3, based on fondational structure, two ends and the housing of stator are connected, the opening 6 of housing is communicated with airduct 12, the axial direction of airduct is perpendicular to the axial direction of stator, on fan blade, exposed blade outside housing is positioned at airduct, the two-port of airduct is horn mouth 11 shape, two horn mouths are covered with respectively the filter screen 18 for the grains of sand, foreign material in filtered airflow, the two ends inwall of airduct is respectively equipped with for stopping the convex edge 20 that rainwater enters, and the air intake of airduct is built with the controlling device for controlling air output; Said structure in use, on pedestal housing being fixed on fan station or base station, now stator, housing and airduct are fixing, and by the air intake of airduct windward, wind compresses in laggard Gas inlet tube through horn mouth, wind speed strengthens, then promote the rotor turns of fan blade drive electrical generators, thus make electrical power generators, this model can be settled by array arrangement, under the condition of weak wind, utilize horn mouth to improve wind speed, combination generating reaches design voltage.

Described controlling device has baffle plate motor 14 and baffle plate 17, baffle plate motor and airduct are connected, the pto＝power take-off of baffle plate motor is fixed with the second gear 16, described airduct is provided with plate hole, baffle plate is positioned at plate hole and is flexibly connected with plate hole, baffle plate is fixed with tooth bar 15, tooth bar is connected with the second gears meshing, in order to make structure svelteness in accompanying drawing, between the first gear and gear ring, power transmitting gear is housed, described baffle plate both sides are respectively equipped with guide rail, and the two side ends of baffle plate connects with corresponding slide, and guide rail and airduct are connected; Controlling device also can be a turnover panel 13, is fixed with and turns over axle in the middle part of turnover panel, and turn over axle and be connected with turnover panel motor 19 power, turnover panel motor and airduct are connected, and drive motor controls the turnover panel amount of turning by turning over axle, can control air output equally.

Above-described fan housing motor, baffle plate motor and turnover panel motor all use reducing motor, each motor carries out telecontrol by manual control or by automatic control system, is connected to the grid or electricity supply and use equipment use by the electric energy that the utility model crosswind power wheel-type electric generator produces by electric wire.

Crosswind power wheel-type electric generator of the present utility model can be arranged on the traffic tool of roof, roadside, wasteland, hillside, seashore, the water surface and various electricity consumption, wherein A type can make Portable movable wind-driven generator, can for the army and the people's field survivorship, this model volume is little, during work, noise is low and not do not pollute, can be contained on the helmet or knapsack and power to electric thermal cloth, footwear, the people being applicable to work in the wild, survive uses; Type B can be arranged on the relevant position in building, make the two ends of airduct lay respectively at the two ends of building, make to walk in airduct " draught ", make that this technology generator is family, office, production etc. provides electric power, dump energy also can go up electrical network, takes out consumption electricity consumption.

Claims (5)

1. crosswind power wheel-type electric generator, comprise rotor and the stator of generator, it is characterized in that: generator unit stator is placed in rotor, rotor with the two ends of stator for axle, be rotationally connected with on stator, rotor outer circle surface is set with fan blade, fan blade is covered with the housing of semi-surrounding, and this housing is by the two end supports of stator.

2. crosswind power wheel-type electric generator according to claim 1, it is characterized in that: described housing is fixed with wind direction rudder plate, housing, is rotationally connected with on stator for axle with the two ends of stator.

3. crosswind power wheel-type electric generator according to claim 2, it is characterized in that: housing is equipped with fan housing motor, the pto＝power take-off of fan housing motor is fixed with the first gear, semicircle tune fan housing is housed between housing and fan blade, adjust fan housing with the two ends of stator for axle, be rotationally connected with stator two ends, adjust on fan housing and be fixed with semicircular gear ring, gear ring is connected with the first gears meshing.

4. crosswind power wheel-type electric generator according to claim 1, it is characterized in that: two ends and the housing of stator are connected, the opening of housing is communicated with airduct, the axial direction of airduct is perpendicular to the axial direction of stator, blade on fan blade is positioned at airduct, and the two-port of airduct is toroidal, and two horn mouths are covered with filter screen respectively, the two ends inwall of airduct is respectively equipped with convex edge, and the air intake of airduct is built with the controlling device for controlling air output.

5. crosswind power wheel-type electric generator according to claim 4, it is characterized in that: described controlling device has baffle plate motor and baffle plate, baffle plate motor and airduct are connected, the pto＝power take-off of baffle plate motor is fixed with the second gear, described airduct is provided with plate hole, baffle plate is positioned at plate hole and is flexibly connected with plate hole, and baffle plate is fixed with tooth bar, and tooth bar is connected with the second gears meshing.