CN102022272A - Intelligent gradient stable high-quality and high-power wind generating set - Google Patents

Abstract

The invention relates to an intelligent gradient stable high-quality and high-power wind generating set which is characterized in that a main wind wing (7) and an auxiliary wind wing (9) are connected around a main shaft (6) vertically connected to the upper end of a case (2), the interior of a lower case is connected with a speed changing box as well as one main generator (3) or a plurality of auxiliary generators (301), and the plurality of auxiliary generators (30) are connected by electromagnetic clutches (4). A tower frame (1) is connected to the case (2), and an intelligent control system (12) and an energy-storage and voltage-stabilization rectifying system (14) are arranged in the tower frame (1), thereby the integral structure of a vertical shaft is formed; or the main shaft (6) is vertically connected with the wind wing (7) and horizontally connected to one end of the case (2), thereby the integral structure of a horizontal shaft is formed. The intelligent gradient stable high-quality and high-power wind generating set overcomes the defects of insufficient power generated by using only one generator on the traditional wind generator, a plurality of generators are automatically connected or separated under the same wind wheel according to the magnitude of wind speeds to match with the intelligent gradient generating modes of generating under the conditions of different wind speeds, thereby improving generating power and generating quality. The intelligent gradient stable high-quality and high-power wind generating set realizes the targets of intelligent gradient, stability and high quality.

Description

Intelligent gradient is stablized high-quality high-power wind-driven generator group

Technical field

The intelligent gradient that the present invention relates to a plurality of generators of main shaft overlapped in series of vertical shaft/horizontal axis compatibility is stablized high-quality high-power wind-driven generator technical group field.

Background technique

The most essential practical problem that present wind-power electricity generation industry is run into mainly is that on the one hand blower fan can not provide stable high-quality electric power, can not directly be connected to the grid, and nearly 1/3 blower fan is arranged in idle running, directly causes investment loss; On the other hand, present country or local power network also are not intelligent electrical networks, must have intelligent generator set supporting.Now no matter be horizontal axis or vertical shaft, a generator only is housed, the performance of this generator just defines the workable wind friction velocity of wind-driven generator, can only make its startup usually such as the wind speed of 3 meter per seconds; And wind speed 12 meter per seconds are when above, and generator requires wind wheel to adjust propeller pitch angle again, with reducing the stressed wind speed round that reduces of wind wheel, and can be to guarantee generator because of the too high damage in overheated of rotating speed.Surpass per second more than 25 meters the time at wind speed, generator then need brake and shut down to guarantee safety, and all wind energies can only be given up.Therefore, generating efficiency is not high, and it is limited to network.

Summary of the invention

The invention reside in provides the compatible intelligent gradient of a kind of vertical shaft/horizontal axis to stablize high-quality high-power wind-driven generator group, reaches intelligent stable electric generation, improves generating efficiency, improves the purpose of high electric power quality.

The present invention is achieved by the following technical solutions:

A kind of mode of execution: main shaft (6) connects main wind wing (7), the secondary wind wing (9) all around, and be vertically connected on the cabinet (2), connect gearbox (5) in its lower case, connect a main generator (3) or a plurality of subsidiary generator (301) again, connect with magnetic clutch (4) between a plurality of subsidiary generators (3).Cabinet (2) is connection pylon (1) down, and cable (11,13), intelligent control system (12) and energy storage voltage stabilizing commutation system (14) are set in the pylon, constitutes the vertical shaft overall structure.

What aforementioned main shaft (6) was connected is 1 main generator (3); Or 1 subsidiary generator; Or 2 subsidiary generators; Or 3 subsidiary generators, or a plurality of subsidiary generator, be interconnective between the generator through magnetic clutch (4).

Realize the measure of intelligent gradient: at conventional wind speed by main generator (3) generating, when wind speed strengthens through cable (11) by intelligent control system (12) 1 subsidiary generator (301) that superposes step by step; Or 2 subsidiary generators; Or 3 subsidiary generators; Or a plurality of subsidiary generators.When reducing, wind speed automaticallyes switch.Air velocity transducer (15) transmits wind velocity signal.

High-quality measure is stablized in realization: be to network after cable (13) connects sodium-sulphur battery (inverter, rectifier) energy storage voltage stabilizing commutation system (14) at generator (3).

The secondary wind wing (9) of arc that connects uniform arc main wind wing (7) and tilt through support (6) Vertical direction around on the axis body of main shaft (6), this major and minor wind wing quantity is identical to be the 4-100 sheet.The main wind wing and the secondary wind wing are formed one deck, can superpose 2～4 layers on the main shaft (6).

Described main wind wing individuality highly is 2～30 meters, 0.3～2 meter of the individual height of the secondary wind wing, and main wind wing (7) contains 2～30 meters of support (6) planar development radiuses.

Intelligent control system (12) is through cable (11) connection and control magnetic clutch (4), hydraulic pressure draw-bar (10), air velocity transducer (15).

Energy storage voltage stabilizing commutation system (14) connects and control main generator (3) and subsidiary generator (301) through cable (13).And through this output connection electrical network.

According to another embodiment: main shaft (6) vertically connects the wind wing (7) and level is connected cabinet (2) one ends, connect gearbox (5), connect a main generator (3) or a plurality of subsidiary generator (301) again, connect with magnetic clutch (4) between a plurality of subsidiary generators thereafter.Cabinet (2) is connection pylon (1) down, and cable (11,13), intelligent control system (12) and energy storage voltage stabilizing commutation system (14) are set in the pylon, constitutes the horizontal axis overall structure.

The present invention has following characteristics:

Main feature is intelligent gradient, it is high-quality to stablize.In the present invention, being dragged by wind wheel is some generators of being connected respectively by clutch, and these generators can be according to being connected that wind speed and wind wheel carry out that quantity do not wait.Only connect a generator when wind speed 3 meter per seconds are following, because a generator adds to the overall design ability of the load of wind wheel much smaller than wind wheel, even therefore wind speed is below 3 meter per seconds, wind wheel still can drag this generator normal power generation.Can increase and decrease the platform number of the generator that is connected with wind wheel after this according to wind speed at random.Because the load that wind wheel dragged is adjustable on a large scale, therefore wind wheel can keep best stress here always, do not need to change the stressed of self by adjusting propeller pitch angle, also need when wind speed 25 meter per seconds are above, not brake, so the wind-driven generator among the design can constitute full use to wind energy.

Description of drawings

Accompanying drawing 1 is a vertical-axis generators group schematic representation of the present invention

Accompanying drawing 2 is horizontal axis generator set schematic representation of the present invention

Embodiment

Embodiment 1, vertical-axis generators group mode of execution:

Pylon 1 connects cabinet 2, and the cabinet upper end connects main shaft 6, and main shaft connects the main wind wing 7 and the secondary wind wing 9.Connect 1 main generator 3 or 1 subsidiary generator 301 or 2 subsidiary generators or 3 subsidiary generators through gearbox 5 in the cabinet of main shaft lower end, interconnect with magnetic clutch 4 between the major and minor generator.Cable 11,13, intelligent control system 12 and energy storage voltage stabilizing commutation system 14 are set in the pylon, constitute the vertical shaft overall structure.

What aforementioned main shaft 6 was connected is 4 subsidiary generators of 1 main generator, is interconnective through 3 magnetic clutchs 4 between the generator.

Realize the measure of intelligent gradient: air velocity transducer 15 transmits signals, and instruction only drives main generator 3 generatings under conventional wind speed, when wind speed strengthens through cable 11 by intelligent control system 12 1 subsidiary generator that superposes step by step; Or 2 subsidiary generators; Or 3 subsidiary generators.When reducing, wind speed automaticallyes switch.

High-quality measure is stablized in realization: be to network after cable 13 connects sodium-sulphur battery, inverter, rectifier, energy storage voltage stabilizing commutation system 14 at generator 3.

Connect the secondary wind wing 9 of arc of 18 uniform arc main wind wings 7 and 18 inclinations around on the axis body of main shaft 6 through support 8 Vertical direction, this major and minor wind wing quantity is identical.The main wind wing and the secondary wind wing are formed one deck, can superpose on the main shaft 6 2～4 layers.

Described main wind wing individuality highly is 5 meters, 1 meter of the individual height of the secondary wind wing, and main wind wing 7 contains 15 meters of support 8 planar development radiuses.

Intelligent control system 12 connects control magnetic clutch 4 through cable 11, switches subsidiary generator according to the wind-force size.And control hydraulic pressure draw-bar 10, comprehensive intrados is right when adjusting the wind wing wind wing being facingd the wind, during the rotation of the wind wing gradually beyond arc line type face.

Another embodiment: the main shaft 6 vertical connection wind wings 7 and level are connected cabinet 2 one ends, connect gearbox 5 thereafter, connect a main generator 3 and 3 subsidiary generators 301 again, connect with magnetic clutch 4 between the subsidiary generator.2 times connection pylons 1 of cabinet are provided with cable 11,13, intelligent control system 12, energy storage voltage stabilizing commutation system 14 in the pylon 1, constitute the horizontal axis overall structure.

Because generator is sent out the finiteness of designed capacity, the wind-driven generator that therefore a generator is housed can only work in certain wind speed range, crosses weak in the middle of this and strong excessively wind all can not be used for generating.If but a generator is decomposed into several, and wind wheel is big or small constant, and this wind wheel is will inevitably be because of the consideration that reduces and design of load strong to drag after the decomposition one or several small generators and run under the very low wind friction velocity and normal power generation.If increase some the generators that are linked in sequence with wind wheel more as required as the wind wheel load under the various high wind conditions after this, because load is huge and adjustable, that wind wheel does not just need to adjust propeller pitch angle to adjust stress again, even do not need brake, but directly the various huge wind energy that occurs is converted into the kinetic energy of wind wheel to greatest extent to be used for driving the generator combination generating.

Claims (8)

1. an intelligent gradient is stablized high-quality high-power wind-driven generator group, is made up of cabinet, main shaft, the wind wing, speed changer, generator, magnetic clutch, it is characterized in that:

Main shaft (6) connects main wind wing (7), the secondary wind wing (9) all around, and be vertically connected on the cabinet (2), connect gearbox (5) in its lower case, connect a main generator (3) or a plurality of subsidiary generator (301) again, connect with magnetic clutch (4) between a plurality of subsidiary generators.Cabinet (2) is connection pylon (1) down, and cable (11,13), intelligent control system (12) and energy storage voltage stabilizing commutation system (14) are set in the pylon, constitutes the vertical shaft overall structure,

Or main shaft (6) vertically connects the wind wing (7) and level is connected cabinet (2) one ends, connects gearbox (5) thereafter, connects a main generator (3) or a plurality of subsidiary generator (301) again, connects with magnetic clutch (4) between a plurality of subsidiary generators.Cabinet (2) is connection pylon (1) down, and cable (11,13), intelligent control system (12) and energy storage voltage stabilizing commutation system (14) are set in the pylon, constitutes the horizontal axis overall structure.

2. intelligent gradient according to claim 1 is stablized high-quality high-power wind-driven generator group, it is characterized in that: what aforementioned main shaft (6) was connected is 1 main generator (3); Or 1 subsidiary generator (301); Or 2 subsidiary generators; Or 3 subsidiary generators; Or a plurality of subsidiary generators, be interconnective between the generator through magnetic clutch (4).

3. intelligent gradient according to claim 1 is stablized high-quality high-power wind-driven generator group, it is characterized in that: when conventional wind speed, only connect main generator (3) generating, when wind speed strengthens through cable (11) by intelligent control system (12) 1 subsidiary generator that superposes step by step; Or 2 subsidiary generators; Or 3 subsidiary generators; Or a plurality of subsidiary generators, when reducing, wind speed automaticallyes switch.

4. intelligent gradient according to claim 1 is stablized high-quality high-power wind-driven generator group, it is characterized in that: be that generator (3) networks after cable (13) connects sodium-sulphur battery (inverter, rectifier) energy storage voltage stabilizing commutation system (14) output.

5. intelligent gradient according to claim 1 is stablized high-quality high-power wind-driven generator group, it is characterized in that: the secondary wind wing (9) of arc that connects uniform arc main wind wing (7) and tilt through support (8) Vertical direction around on the axis body of main shaft (6), this major and minor wind wing quantity is identical to be the 4-100 sheet, the main wind wing and the secondary wind wing are formed one deck, can superpose 2～4 layers on the main shaft (6).

6. intelligent gradient according to claim 1 is stablized high-quality high-power wind-driven generator group, it is characterized in that: described main wind wing individuality highly is 2～30 meters, 0.3～2 meter of the individual height of the secondary wind wing, main wind wing (7) contains 2～30 meters of support (6) planar development radiuses.

7. intelligent gradient according to claim 1 is stablized high-quality high-power wind-driven generator group, it is characterized in that: intelligent control system (12) connects and control magnetic clutch (4), hydraulic pressure draw-bar (10) and air velocity transducer (15).

8. intelligent gradient according to claim 1 is stablized high-quality high-power wind-driven generator group, it is characterized in that: energy storage voltage stabilizing commutation system (14) connects and control main generator (3) and subsidiary generator (301), and connects electrical network through this output.

Images