CN201004590Y - Serial permanent dual rotor wind electromotor and speed-varying and frequency-constant control system - Google Patents

Abstract

The utility model discloses a serial connecting permanent magnetism wind motor with double rotors and a speed changing constant frequency control system, which relates to a wind powered generator and the excitation control system of the wind motor. Wherein, exciter in the motor is serially connected with the main body of motor in the same shaft through the main transmission shaft of the device main wind wheel. The outer rotor of permanent magnetism is in a structure of rotating in respect to the inner rotor of exciter, and the outer rotor of permanent magnetism is installed in respect to the generator motor to rotate. When in controlling the system, the yawer is linked with the machine group centralized control device. The main wind wheel and the assistant wind wheel are respectively provided with a main wind wheel airscrew pitch changing adjusting mechanism and an assistant wind wheel airscrew pitch changing adjusting mechanism respectively used for adjusting the airscrew pitch angle. The main wind wheel airscrew pitch changing adjusting mechanism and the assistant wind wheel airscrew pitch changing adjusting mechanism are linked with the machine group centralized control device. The utility model need not assemble the deflector with complex power, which effectively simplifies the structure of machine group, and improves the running efficiency and reliability of machine group as well as reduces the cost for controlling system.

Description

Series connection permanent magnetism double-rotor pneumatic electric machine and variable speed constant frequency control system

Technical field

The utility model relates to wind-driven generator, the permanent-magnet variable-speed constant frequency of particularly connecting excitation double-rotor pneumatic electric machine and have the exciter control system of this wind-powered electricity generation machine.

Background technology

Known techniques such as Chinese patent CN200510022771.1 disclose a kind of speed-changing constant frequency method of wind power generation, be characterized in, at first the rotating speed with the wind energy conversion system rotor passes through the step-up gear speedup, the power shaft of the input power input differential permanent-magnet motor that then speed change is produced, carry out power dividing or interflow by the box of tricks of differential permanent-magnet motor and produce the stator winding that power circuit enters differential permanent-magnet motor and electrical network is realized the constant-speed and constant-frequency generating, to improve the generating efficiency of electricity generation system through feeder line.

And for example Chinese patent CN200410003089.3 discloses a kind of MW level and has directly driven the permanent-magnetic outer rotor synchro wind generator, and it adopts multipole outer-rotor structure.This generator comprises fixed axis, rotation axis, coil windings, permanent magnetic steel, iron core, stator and external rotor, wherein rotation axis by Bearing Installation on fixed axis, stator is installed on the fixed axis by stator support, external rotor is installed on the rotation axis by rotor field spider, can be provided with axial cooling ventilation duct between winding coil and stator support; Windward side between external rotor and stator is provided with protective cover.Because number of poles is many, its rotating speed is very low, thereby does not need step-up gear supporting, can directly drive generating; Generator does not have the cooling fan of carrying or adorns cooling system outward.

Known wind turbine generator is produced wind wheel by gear box under the wind-force effect transmission of power is given generator and is made it obtain corresponding rotating speeds; Usually the rotating speed of wind wheel is very low, does not far reach the high-speed engine desired rotating speed that generates electricity, and must be used for realization by the speedup of gear box gear pair; And the work condition environment of wind-driven generator unit is generally very poor, and the gear box fault that takes place frequently is a common occurrence.

The product reliability that known technology is made is poor, the maintenance cost height, and unit efficiency is low.Industry wishes to utilize the variable speed constant frequency range of operation of the brushless structure and the broad of brushless double-fed machine technology, efficiently utilize the technical advantage of wind energy in conjunction with the two phoenix wheels that are installed on the birotor power transmission shaft reverse rotation mutually, remove gear box and complicated control system and realize that the variable speed constant frequency of generating set moves.

Summary of the invention

Problem to be solved in the utility model is, overcomes the above-mentioned defective that the technology of taking over exists, and a kind of series connection permanent magnetism double-rotor pneumatic electric machine and variable speed constant frequency control system thereof are provided.

One of the utility model purpose provides a kind of series connection permanent magnetism double-rotor pneumatic electric machine;

Two of this case purpose provides a kind of exciter control system of variable speed constant frequency wind-powered electricity generation machine.

The utility model solves series connection permanent magnetism double-rotor pneumatic electric machine technical problem and takes following technical scheme to realize, a kind of series connection permanent magnetism double-rotor pneumatic electric machine that provides according to the utility model, comprise generator unit stator and the generator amature that is rotary configured setting by final drive shaft transmission, relative this stator in the generator main body, wherein, exciter is by the final drive shaft and the coaxial string dress of generator main body of device main air wheel; Permanent magnet is located at the permanent-magnetic outer rotor that constitutes exciter on the yoke of permanent-magnetic outer rotor; This permanent-magnetic outer rotor is to be the structure setting that counterrotating structure and this permanent-magnetic outer rotor are relative generator unit stator rotation with the exciter internal rotor; Described secondary wind wheel be can drive permanent-magnetic outer rotor constructing apparatus on counter drive shaft; Described counter drive shaft by secondary wind wheel transmission becomes the coaxial connection of the mode that can rotate mutually with final drive shaft by the transmission of main air wheel.

This case solves series connection permanent magnetism double-rotor pneumatic electric machine technical problem and also can be applied to the following technical measures to achieve further:

Aforesaid series connection permanent magnetism double-rotor pneumatic electric machine, wherein, described secondary wind wheel is with the drive structure configuration of relative main air wheel reverse rotation; Described secondary wind wheel is the setting of upwind rotational structure; The main air wheel is wind direction rotational structure setting down.

Aforementioned series connection permanent magnetism double-rotor pneumatic electric machine, wherein, described permanent magnet becomes configuration set, its number of pole-pairs and exciter internal rotor number of pole-pairs coupling; The yoke of described device permanent magnet is arranged in the permanent-magnetic outer rotor housing.

Aforesaid series connection permanent magnetism double-rotor pneumatic electric machine wherein, leaves the default spacing of avoiding secondary wind wheel and tower collision between described secondary wind wheel and the exciter.

Aforesaid series connection permanent magnetism double-rotor pneumatic electric machine, wherein, described major and minor power transmission shaft all has the hollow via-hole of preset diameters, and this power transmission shaft is by being configured in bearing on the generator and the bearings on the exciter.

The technical problem that this case solves the variable speed constant frequency control system can adopt following technical measures to realize, a kind of variable speed constant frequency control system that provides according to the utility model, comprise the wind-powered electricity generation machine, wherein, in the described wind-powered electricity generation machine, generator unit stator and the generator amature that is rotary configured setting by final drive shaft transmission, relative this stator, exciter is by the final drive shaft and the coaxial string dress of generator main body of device main air wheel; Permanent magnet is located at the permanent-magnetic outer rotor that constitutes exciter on the yoke of permanent-magnetic outer rotor; This permanent-magnetic outer rotor is to be the structure setting that counterrotating structure and this permanent-magnetic outer rotor are relative generator unit stator rotation with the exciter internal rotor; Described secondary wind wheel be can drive permanent-magnetic outer rotor constructing apparatus on counter drive shaft; Described counter drive shaft by secondary wind wheel transmission becomes the coaxial connection of the mode that can rotate mutually with final drive shaft by the transmission of main air wheel; Be provided with on the aforesaid major and minor wind wheel and the signal of rotating speed can be sent to the main air wheel speed measurement mechanism of unit centralized control equipment, secondary wind speed round measurement mechanism; The unit centralized control equipment have the port that connects with the wind speed checkout gear, with the wind direction checkout gear connect port, with the port of host computer transmission data; Yawer and unit centralized control equipment connect in the mode of wind direction rotation under the control main air wheel; Described main air is taken turns main air wheel variable propeller pitch adjusting mechanism, the secondary wind wheel variable propeller pitch adjusting mechanism with secondary wind wheel difference configuration adjustment propeller pitch angle, and described major and minor wind wheel variable propeller pitch adjusting mechanism and unit centralized control equipment all connect in the mode of control wind wheel variable propeller pitch adjusting mechanism change oar; Connect successively at the voltage output end of generator can be limited generator output voltage, with after date softly be incorporated into the power networks, the grid-connection control device and the step-up transformer of soft parallel off when shutting down, connect with external power grid again; Between grid-connection control device and step-up transformer successively the output voltage measurement mechanism that connects of configuration and unit centralized control equipment, the detecting device for output current that connects with the unit centralized control equipment, and with the mains frequency checkout gear of unit centralized control equipment connection; The unloaded checkout gear that configuration and unit centralized control equipment connect between generator and grid-connection control device.

The technical problem that this case solves the variable speed constant frequency control system can also adopt following technical measures further to realize:

Aforesaid variable speed constant frequency control system, wherein: the secondary wind wheel of described wind-powered electricity generation machine is with the drive structure configuration of relative main air wheel reverse rotation; The main air wheel is wind direction rotational structure setting down; The blade wind sweeping area of described main air wheel is set to blade wind sweeping area 2-5 times of secondary wind wheel; Described major and minor wind wheel variable propeller pitch adjusting mechanism structure is identical, it is made up of change oar servomechanism and change oar control device, and described unit centralized control equipment connects with the mode that change oar servomechanism is according to detected propeller pitch angle variation carrying out main air is taken turns and secondary wind speed round is regulated by becoming the oar control device; Dispose secondary wind wheel propeller pitch angle measurement mechanism, main air wheel propeller pitch angle measurement mechanism in described main air wheel and the secondary wind wheel respectively;

Aforesaid variable speed constant frequency control system, wherein: the permanent magnet of described wind-powered electricity generation machine becomes configuration set, its number of pole-pairs and exciter internal rotor number of pole-pairs coupling; The yoke of described device permanent magnet is arranged in the permanent-magnetic outer rotor housing; Major and minor wind wheel variable propeller pitch adjusting mechanism is by driven by servomotor; This change oar servomechanism and unit centralized control equipment are and can carry out the electric connection of mode of rotational speed regulation to main air wheel and secondary wind wheel according to the variation of propeller pitch angle.

Aforesaid variable speed constant frequency control system, wherein: the main air impeller blade wind sweeping area of described wind-powered electricity generation machine is 3 times of blade wind sweeping area of secondary wind wheel approximately, described wind sweeping area is the area that the wind wheel rotation forms; The wind direction rotation down of described main air wheel, the reverse rotation of secondary wind wheel upwind; Leave the default spacing of avoiding secondary wind wheel and tower collision between described secondary wind wheel and the exciter; Brake and unit centralized control equipment connect with the electric means that can start work when secondary wind speed round is 0.

Aforesaid variable speed constant frequency control system, wherein: described stator winding number of pole-pairs Pg is set to greater than permanent-magnetic outer rotor number of pole-pairs Pe, the described main air wheel that is configured on the final drive shaft, the stator that has the Pg number of pole-pairs under the wind-force effect relatively is with the rotation of Nzr speed, and the main air wheel speed satisfies following relational expression configuration:

$\mathrm{Nzr}=\frac{60\×(\mathrm{fg}-\mathrm{fe})}{\mathrm{Pg}+\mathrm{Pe}}$

Wherein: Nzr represents the main air wheel speed; Pg represents the stator winding number of pole-pairs; Pe represents the number of pole-pairs of permanent-magnetic outer rotor; Fg represents stator frequency; Fe represents the permanent-magnetic outer rotor reduced frequency; Described stator winding number of pole-pairs can be 3 times a permanent-magnetic outer rotor number of pole-pairs; Described exciter internal rotor winding number of pole-pairs is set to Pe to the utmost point; Described generator amature winding number of pole-pairs is set to Pg to the utmost point; Described exciter internal rotor winding is connected by connecting line negative-phase sequence between rotor with the generator amature winding; The wind-powered electricity generation machine secondary wind wheel be configured on the counter drive shaft, this pair wind wheel drives permanent-magnetic outer rotor with the rotation of Ne speed, and the permanent-magnetic outer rotor reduced frequency satisfies following relational expression:

$\mathrm{fe}=\frac{\mathrm{Ne}\×\mathrm{Pe}}{60}$ Wherein: Ne vice wind wheel relative stator rotating speed;

Be configured to the relative main air wheel of Nzre rotating speed permanent-magnetic outer rotor reverse rotation, that have the Pe number of pole-pairs on counter drive shaft, the rotating speed of the relative exciter internal rotor rotation of permanent-magnetic outer rotor satisfies following relational expression:

Nzre＝Nzr+Ne

Wherein: Nzre represents the rotating speed of the relative exciter internal rotor rotation of permanent-magnetic outer rotor; Described major and minor power transmission shaft all has the hollow via-hole of preset diameters, and this power transmission shaft is by being configured in bearing on the generator and the bearings on the exciter.

The utility model compared with prior art has significant advantage and beneficial effect.By above technical scheme as can be known, the utility model has following advantage at least under the structural arrangements of excellence:

The utility model need not the convertor assembly of allocating power complexity, effective simplification the machine set constructor, unit operation efficient and reliability have been improved, reduced the control system cost, though the two wind wheel structures of reasonable disposition of the two wind wheels of the utility model slightly increase equipment manufacturing cost, bigger wind wheel is set is used for generating, less wind wheel is regulated excitation frequency and is held concurrently and generate electricity, effectively improved wind energy utilization, more conventional single wind wheel wind-powered electricity generation unit wind energy utilization improves 10%-15%;

Brushless double-fed machine rotor and rotary permanent-magnet external rotor dual-rotor structure are adopted in this case, realize the operation of unit variable speed constant frequency excitation, quite reduce 1/3 at least, thereby shorten the generator diameter, be convenient to the equipment transportation, reduce unit weight with capacity single rotor power generator electrode logarithm; The configuration of two wind wheel structure settings of this case and Yawing mechanism makes the simpler, reliable of set yaw control change;

This case unit can be realized variable speed constant frequency operation, variable pitch adjusting, the two more single wind wheel variable speed constant frequency of the wind wheel generation unit unit wind energy utilizations of the following this case of rated wind speed improve a lot, non-gear box, can realize directly driving, the worry of no slip ring fault, do not need big capacity convertor assembly, unit reliability improves greatly; The utility model contrast prior art has significant contribution and progress, is really to have novelty, creativeness, practical good technology.

Embodiment of the present utility model is provided in detail by following examples and accompanying drawing thereof.

Description of drawings

Fig. 1 is the utility model apoplexy electric machine structure schematic diagram;

Fig. 2 is the utility model excitation winding wiring construction schematic diagram;

Fig. 3 is the utility model variable speed constant frequency control system structural representation;

Fig. 4 is the utility model variable speed constant frequency control system operation principle block diagram.

Embodiment

Below in conjunction with accompanying drawing and preferred embodiment, embodiment, structure, feature and effect thereof that foundation the utility model is provided, describe in detail as after.

Shown in Fig. 1-4, a kind of series connection permanent magnetism double-rotor pneumatic electric machine M comprises the generator main body 1 that is packed on the base 10, and generator unit stator 16 is installed in the motor casing 111, and generator amature 14 is the structure setting that relative stator 16 is rotated by final drive shaft 13, wherein,

Exciter 4 is contained in the casing by final drive shaft and the coaxial string of generator main body; Permanent magnet 43 is installed on the yoke 42 in the permanent-magnetic outer rotor housing 410, constitutes the permanent-magnetic outer rotor 41 of exciter, this permanent-magnetic outer rotor by connector 46 to be counterrotating structure setting with exciter internal rotor 45; Described permanent magnet 43 becomes configuration set, its number of pole-pairs and exciter internal rotor number of pole-pairs coupling by known techniques; Permanent-magnetic outer rotor is relative exciter internal rotor rotation, the also structure setting of generator unit stator rotation relatively;

Counter drive shaft 12 and final drive shaft 13 coaxial connections; Described major and minor power transmission shaft all has the hollow via-hole 130 of preset diameters, so that the Generator Set power transmission shaft is satisfying under the specification requirement condition more lightweight, thereby the reduction body weight, this power transmission shaft supports by the bearing 115,116 and the bearing on the exciter 147,148 that are configured on the generator;

Thus, generator amature and form the tandem rotor structure of generator with the exciter internal rotor of this rotor coaxial transmission rotation, and be birotor structure with permanent-magnetic outer rotor, thereby can realize the operation of unit variable speed constant frequency, quite reduce 1/3 at least with capacity single rotor power generator electrode logarithm, thereby can shorten the generator diameter, further reduce motor weight;

By known techniques, will by the counter drive shaft 12 of secondary wind wheel transmission with by 13 one-tenths coaxial installations of the bind mode that can rotate mutually of final drive shaft of main air wheel transmission, by counter drive shaft with the transmission of power of secondary wind wheel to permanent-magnetic outer rotor;

The drive structure device of secondary wind wheel 2 relative main air wheel reverse rotations is at the axle body end of counter drive shaft 12, this pair wind wheel is upwind with known techniques by the F2 direction by its wheel hub 21 and installs, leave the default spacing L that avoids secondary wind wheel and tower collision between secondary wind wheel and the exciter, can determine the reservation spacing that secondary wind wheel and pylon do not collide by the number of degrees at the main air wheel elevation angle; Main air wheel 3 is assemblied in final drive shaft 13 axle body ends, and this main air wheel is down wind direction rotational structure setting with known techniques by the F3 direction by its wheel hub 31.

A kind of variable speed constant frequency control system comprises aforementioned wind-powered electricity generation machine M, wherein, the wind-powered electricity generation machine main air wheel 3 be configured on the final drive shaft, the stator 16 that has the Pg number of pole-pairs under the wind-force effect relatively is with the rotation of Nzr speed, and the main air wheel speed satisfies following relational expression:

$\mathrm{Nzr}=\frac{60\×(\mathrm{fg}-\mathrm{fe})}{\mathrm{Pg}+\mathrm{Pe}}$

Wherein: Nzr represents the main air wheel speed; Pg represents the stator winding number of pole-pairs; Pe represents the number of pole-pairs of permanent-magnetic outer rotor 41; Fg represents stator frequency; Fe represents the permanent-magnetic outer rotor reduced frequency;

Described exciter internal rotor 45 winding numbers of pole-pairs are set to Pe to the utmost point; Described generator amature 14 winding numbers of pole-pairs are set to Pg to the utmost point; Described exciter internal rotor winding is connected by 123 negative-phase sequences of connecting line between rotor with the generator amature winding;

Described stator winding number of pole-pairs Pg is set to greater than permanent-magnetic outer rotor number of pole-pairs Pe, and described stator winding number of pole-pairs can be 3 times a permanent-magnetic outer rotor number of pole-pairs;

The wind-powered electricity generation machine secondary wind wheel 2 be configured on the counter drive shaft, this pair wind wheel drives permanent-magnetic outer rotor with the reverse rotation of the relative main air wheel of Ne speed, and the permanent-magnetic outer rotor reduced frequency satisfies following relational expression:

$\mathrm{fe}=\frac{\mathrm{Ne}\×\mathrm{Pe}}{60}$

Wherein: Ne vice wind wheel relative stator rotating speed

Be configured to the permanent-magnetic outer rotor that the Nzre rotating speed is counterrotating, have the Pe number of pole-pairs on counter drive shaft, the rotating speed of the relative exciter internal rotor rotation of permanent-magnetic outer rotor satisfies following relational expression:

Nzre＝Nzr+Ne

Wherein: Nzre represents the rotating speed of the relative exciter internal rotor rotation of permanent-magnetic outer rotor;

Be provided with on the aforesaid major and minor wind wheel and the signal of rotating speed can be sent to the main air wheel speed measurement mechanism G of unit centralized control equipment 5, secondary wind speed round measurement mechanism G1, the wind speed that the port D1 that connects via the wind speed checkout gear records and by the wind speed round that rotation-speed measuring device records is transferred to unit centralized control equipment 5; Unit centralized control equipment and yawer 6 connect, the wind direction rotation down of control main air wheel, and yawer 6 can be installed on the engine room inside 101 under the base;

Described main air wheel is taken turns variable propeller pitch adjusting mechanism 38, secondary wind wheel variable propeller pitch adjusting mechanism 28 with the main air of the hub portion difference configuration adjustment propeller pitch angle of secondary wind wheel, this main air wheel, secondary wind wheel variable propeller pitch adjusting mechanism and the 5 electric connections of unit centralized control equipment are sent the instruction of change oar by 5 pairs of main air wheels of unit centralized control equipment variable propeller pitch adjusting mechanism 38; Dispose secondary wind wheel propeller pitch angle measurement mechanism G28, main air wheel propeller pitch angle measurement mechanism G38 in described main air wheel and the secondary wind wheel respectively;

Described major and minor wind wheel variable propeller pitch adjusting mechanism structure is identical, it is made up of change oar servomechanism 381,281 that drives with servomotor M38, M2 8 and change oar control device 382,282, and the integrated control 5 of described unit is by becoming oar control device 382,282 and connecting with the change oar servomechanism 381,281 that servomotor M38, M28 drive; This change oar servomechanism changes the rotational speed regulation of carrying out main air wheel and secondary wind wheel according to detected propeller pitch angle under the control of unit centralized control equipment 5, realize the wind direction rotation down of main air wheel, and the reverse rotation of secondary wind wheel upwind; Brake 15 is arranged between generator ' s cover and the secondary wind wheel wheel hub;

Voltage output end at generator connects grid-connection control device 7 and step-up transformer 8 successively, connects with external power grid W again; Between grid-connection control device and step-up transformer successively the output voltage measurement mechanism G4 that connects of configuration and unit centralized control equipment 5, the detecting device for output current G3 that connects with the unit centralized control equipment, and with the mains frequency checkout gear G2 of unit centralized control equipment connection; The unloaded checkout gear G5 that configuration and unit centralized control equipment connect between generator M and grid-connection control device; The unit centralized control equipment also have the port D1 that connects with wind speed checkout gear (not shown), with wind direction checkout gear (not shown) connect port D2, with the port D3 of host computer transmission data; Described major and minor wind wheel blade is pressed known technology mode device on the wind wheel wheel hub, described main air impeller blade wind sweeping area is greater than blade wind sweeping area 2-5 times of secondary wind wheel, especially be that 3 times of left and right sides of blade wind sweeping area of secondary wind wheel are preferable with main air impeller blade wind sweeping area, described wind sweeping area is the area that the wind wheel rotation forms;

The output voltage of the output current of the generator that records via detecting device for output current G3 and the generator that records via output voltage measurement mechanism G4 is transferred to unit centralized control equipment 5, and the output of a generator value that calculates via unit centralized control equipment 5 is right with default rated power numeric ratio; Imposing a condition down, wind speed that unit centralized control equipment 5 will be recorded by the connection port D1 of wind speed checkout gear and the main air wheel rated speed that records by rotation-speed measuring device G, collection calculates the adjusting numerical value of the propeller pitch angle of main air wheel rated speed under this wind speed, compare with the propeller pitch angle value of main air wheel propeller pitch angle measurement mechanism G38 collection again, send the instruction of change oar by 5 pairs of main airs wheels of unit centralized control equipment variable propeller pitch adjusting mechanism 38; Can realize that thus the main air wheel moves, and prevents the generator overload under firm power;

In the time of between rated speed that permanent-magnet variable-speed constant frequency excitation double-rotor pneumatic electric machine is incorporated into the power networks, the main air wheel speed is being preset when connecting and the minimum speed, secondary wind wheel is taken turns reverse rotation, is made the generator unit stator electric voltage frequency be always 50Hz by this rotation speed change by pre-conditioned relative main air under unit centralized control equipment 5 is regulated; Secondary wind speed round is minimum to zero, brake 15 work when secondary wind speed round is 0 speed,

To sum up, the wind-powered electricity generation machine of two wind wheel organizations, wherein larger-diameter main air wheel is used for generating, secondary wind wheel than minor diameter is used for regulating the double generating of excitation frequency, the two on same axis, mutually opposite spin, yawer is responsible for controlling the wind direction rotation down of main air wheel, main force's generating; The reverse rotation of secondary wind wheel upwind, auxiliary power generation improves usefulness greatly.

Configurations such as the voltage output end grid-connection control device of described generator can be limited generator output voltage, with after date softly be incorporated into the power networks, soft parallel off when shutting down, can effectively reduce the impact of the reactive current that is incorporated into the power networks, guarantee unit safety operation; When generator reached rated output power, power of the assembling unit factor was controlled at operation about cos θ=1; When the generator active power of output hour, the lagging reactive power of unit output cos θ＜1; When generator speed was lower than specified minimum speed or output of a generator and is higher than peak power output, off-the-line generator from the electrical network was finished soft off-the-line by configurations such as grid-connection control devices.

The variable speed constant frequency excitation control method:

1. be configured in the stator 16 that has the Pg number of pole-pairs under the wind-force effect relatively main air wheel 3 on the final drive shaft 13, and the main air wheel speed satisfies following relational expression with the rotation of Nzr speed:

$\mathrm{Nzr}=\frac{60\×(\mathrm{fg}-\mathrm{fe})}{\mathrm{Pg}+\mathrm{Pe}}$

Wherein: Nzr represents the main air wheel speed; Pg represents the stator winding number of pole-pairs; Pe represents the number of pole-pairs of permanent-magnetic outer rotor 41; Fg represents stator frequency; Fe represents the permanent-magnetic outer rotor reduced frequency;

2. the secondary wind wheel in the configuration of counter drive shaft 12 ends drives permanent-magnetic outer rotor with the reverse rotation of the relative main air wheel of Ne speed, and the permanent-magnetic outer rotor reduced frequency satisfies following relational expression:

$\mathrm{fe}=\frac{\mathrm{Ne}\×\mathrm{Pe}}{60}$ Wherein: Ne vice wind wheel relative stator rotating speed

3. be configured to the permanent-magnetic outer rotor that the Nzre rotating speed is counterrotating, have the Pe number of pole-pairs on counter drive shaft, the rotating speed of the relative excitation internal rotor rotation of permanent-magnetic outer rotor satisfies following relational expression: Nzre=Nzr+Ne

Wherein: Nzre represents the rotating speed of the relative exciter internal rotor rotation of permanent-magnetic outer rotor;

4. described exciter internal rotor 45 winding numbers of pole-pairs are set to Pe to the utmost point; Described generator amature 14 winding numbers of pole-pairs are set to Pg to the utmost point; Described exciter internal rotor winding is connected by 123 negative-phase sequences of connecting line between rotor with the generator amature winding;

5. the wind speed that records of the port D1 that connects via the wind speed checkout gear and the main air wheel speed that records by rotation-speed measuring device G, be transferred to unit centralized control equipment 5, it is right that the unit centralized control equipment carries out main air vane tip speed ratio numeric ratio when the main air wheel is lower than rated speed, warp is right with the main air vane tip speed ratio numeric ratio that the unit centralized control equipment is preset, calculate the adjusting numerical value of propeller pitch angle, compare with the propeller pitch angle value of main air wheel propeller pitch angle measurement mechanism G38 collection again, send the instruction of change oar by 5 pairs of main airs wheels of unit centralized control equipment variable propeller pitch adjusting mechanism 38; Can realize that thus the main air wheel moves with its best tip speed ratio, reaches the purpose that makes full use of wind energy below rated speed;

When the main air wheel reaches rated speed, the output voltage of the output current of the generator that records via detecting device for output current G3 and the generator that records via output voltage measurement mechanism G4 is transferred to unit centralized control equipment 5, and the output of a generator value that calculates via this unit centralized control equipment is right with default rated power numeric ratio; When meeting preset value, wind speed that the port D1 that is connect by the wind speed checkout gear that unit centralized control equipment 5 will collect records and the main air wheel rated speed that records by rotation-speed measuring device G, calculate the adjusting numerical value of the propeller pitch angle of main air wheel rated speed under this wind speed, compare with the propeller pitch angle value of main air wheel propeller pitch angle measurement mechanism G38 collection again, send the instruction of change oar by 5 pairs of main airs wheels of unit centralized control equipment variable propeller pitch adjusting mechanism 38; Can realize that thus the main air wheel moves, and prevents the generator overload under firm power;

6. the wind speed that records of the port D1 that connects via the wind speed checkout gear and the secondary wind speed round that records by secondary wind speed round measurement mechanism G1 are transferred to unit centralized control equipment 5; When the main air wheel is lower than rated speed, the generator output voltage frequency numerical value comparison that calculates under the frequency numerical value of unit centralized control equipment 5 collection mains frequency checkout gear G2 and this rotating speed of secondary wind wheel, calculate the adjusting numerical value of propeller pitch angle under this rotating speed of secondary wind wheel, compare with the propeller pitch angle value of secondary wind wheel propeller pitch angle measurement mechanism G28 collection again, send the instruction of change oar by 5 pairs of secondary wind wheel variable propeller pitch adjusting mechanisms 28 of unit centralized control equipment; By unit centralized control equipment 5 according to $\mathrm{Nzr}=\frac{60\×(\mathrm{fg}-\mathrm{fe})}{\mathrm{Pg}+\mathrm{Pe}}$ Relational expression is carried out speed Control, makes generator keep the operation of 50Hz constant frequency below rated speed; When the main air wheel reaches rated speed, wind speed that the port D1 that connects via the wind speed checkout gear records and the secondary rated rotation speed of rotor that records by rotation-speed measuring device G, be transferred to unit centralized control equipment 5, unit centralized control equipment 5 is gathered the generator output voltage frequency numerical value comparison that calculates under mains frequency checkout gear G2 frequency numerical value and the secondary rated rotation speed of rotor when the main air wheel reaches rated speed, calculate the adjusting numerical value of secondary wind wheel propeller pitch angle under this wind speed, compare with the propeller pitch angle value of secondary wind wheel propeller pitch angle measurement mechanism G28 collection again, send the instruction of change oar by 5 pairs of secondary wind wheel variable propeller pitch adjusting mechanisms 28 of unit centralized control equipment; Make generator when rated speed, keep the operation of 50Hz constant frequency; With the generator output voltage frequency serves as to regulate target, and to limit stator frequency fg be 50Hz by regulating rotating speed that secondary wind wheel propeller pitch angle controls secondary wind wheel, and the static fe of permanent-magnetic outer rotor is considered as 0;

7. stator winding number of pole-pairs Pg is set greater than permanent-magnetic outer rotor number of pole-pairs Pe, described stator winding number of pole-pairs can be 3 times a permanent-magnetic outer rotor number of pole-pairs.

Thereby, the two rotor windings of connecting during work have identical power frequency, mutual reciprocal rotating magnetic field, generator amature winding excitation field connect relatively rotor rotary speed Nzre and main air wheel shaft mechanical rotation speed Nzr stack, cooperate, all the time form synchronous excitation magnetic field, this synchronous field produces the 50Hz electromotive force in to the stator winding of the utmost point having Pg, realizes the variable speed constant frequency excitation operation of generating set.

8. being assemblied in main air wheel and the secondary wind wheel 2 that is assemblied in counter drive shaft on the power transmission shaft 13 regulates by the relative opposite direction at blade pitch angle and is relative reverse rotation and disposes.

9. when the main air wheel speed was between default rated speed and minimum speed, secondary wind wheel made the generator unit stator electric voltage frequency be always the variation rotating speed of 50Hz by default rule reverse rotation, formation under unit centralized control equipment 5 is regulated; When the main air wheel speed reached 1.2-1.5 times of rated speed, when secondary wind speed round reached minimum speed 0 speed simultaneously, brake 15 started; Both this, when the main air wheel speed reached specified minimum speed, secondary wind wheel reverse speed reached the highest, unit can be realized the variable speed constant frequency operation.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any simple modification, equivalent variations and modification that above embodiment did.

Claims (10)

1. series connection permanent magnetism double-rotor pneumatic electric machine, comprise generator unit stator (16) and the generator amature (14) that is rotary configured setting by final drive shaft (13) transmission, relative this stator (16) in the generator main body, it is characterized in that exciter (4) is by the final drive shaft and the coaxial string dress of generator main body of device main air wheel (3); The yoke (42) that permanent magnet (43) is located at permanent-magnetic outer rotor goes up the permanent-magnetic outer rotor (41) that constitutes exciter; This permanent-magnetic outer rotor is to be the structure setting that counterrotating structure and this permanent-magnetic outer rotor are relative generator unit stator rotation with exciter internal rotor (45); Described secondary wind wheel be can drive permanent-magnetic outer rotor constructing apparatus on counter drive shaft; Described counter drive shaft by secondary wind wheel transmission (12) becomes the coaxial connection of the mode that can rotate mutually with the final drive shaft (13) of taking turns transmission by main air.

2. series connection permanent magnetism double-rotor pneumatic electric machine as claimed in claim 1 is characterized in that, described secondary wind wheel (2) is with the drive structure configuration of relative main air wheel reverse rotation; Described secondary wind wheel is the setting of upwind rotational structure; The main air wheel is wind direction rotational structure setting down.

3. series connection permanent magnetism double-rotor pneumatic electric machine as claimed in claim 1 or 2 is characterized in that, described permanent magnet (43) becomes configuration set, its number of pole-pairs and exciter internal rotor number of pole-pairs coupling; The yoke (42) of described device permanent magnet (43) is arranged in the permanent-magnetic outer rotor housing (410).

4. series connection permanent magnetism double-rotor pneumatic electric machine as claimed in claim 4 is characterized in that, leaves the default spacing (L) of avoiding secondary wind wheel and tower collision between described secondary wind wheel and the exciter.

5. series connection permanent magnetism double-rotor pneumatic electric machine as claimed in claim 5, it is characterized in that, described major and minor power transmission shaft all has the hollow via-hole (130) of preset diameters, and this power transmission shaft supports by the bearing (115,116) and the bearing (147,148) on the exciter that are configured on the generator.

6. variable speed constant frequency control system, comprise wind-powered electricity generation machine (M), it is characterized in that, in the described wind-powered electricity generation machine (M), generator unit stator (16) and the generator amature (14) that is rotary configured setting by final drive shaft (13) transmission, relative this stator (16), exciter (4) is by the final drive shaft and the coaxial string dress of generator main body of device main air wheel (3); The yoke (42) that permanent magnet (43) is located at permanent-magnetic outer rotor goes up the permanent-magnetic outer rotor (41) that constitutes exciter; This permanent-magnetic outer rotor is to be the structure setting that counterrotating structure and this permanent-magnetic outer rotor are relative generator unit stator rotation with exciter internal rotor (45); Described secondary wind wheel be can drive permanent-magnetic outer rotor constructing apparatus on counter drive shaft; Described counter drive shaft by secondary wind wheel transmission (12) becomes the coaxial connection of the mode that can rotate mutually with the final drive shaft (13) of taking turns transmission by main air;

Main air wheel speed measurement mechanism (G), the secondary wind speed round measurement mechanism (G1) that the signal of rotating speed can be sent to unit centralized control equipment (5) is set on the aforesaid major and minor wind wheel;

The unit centralized control equipment have the port (D1) that connects with wind speed checkout gear (not shown), with wind direction checkout gear (not shown) connect port (D2), with the port (D3) of host computer transmission data;

Yawer (6) connects with the mode of unit centralized control equipment with wind direction rotation under the control main air wheel; Described main air is taken turns main air wheel variable propeller pitch adjusting mechanism (38), the secondary wind wheel variable propeller pitch adjusting mechanism (28) with secondary wind wheel difference configuration adjustment propeller pitch angle, and described major and minor wind wheel variable propeller pitch adjusting mechanism and unit centralized control equipment (5) all connect in the mode of control wind wheel variable propeller pitch adjusting mechanism change oar;

Connect successively at the voltage output end of generator can be limited generator output voltage, with after date softly be incorporated into the power networks, the grid-connection control device (7) and the step-up transformer (8) of soft parallel off when shutting down, connect with external power grid again; Between grid-connection control device and step-up transformer successively the output voltage measurement mechanism (G4) that connects of configuration and unit centralized control equipment, the detecting device for output current (G3) that connects with the unit centralized control equipment, and with the mains frequency checkout gear (G2) of unit centralized control equipment connection; The unloaded checkout gear (G5) that configuration and unit centralized control equipment connect between generator (M) and grid-connection control device.

7. variable speed constant frequency control system as claimed in claim 6 is characterized in that: the secondary wind wheel (2) of described wind-powered electricity generation machine (M) is with the drive structure configuration of relative main air wheel reverse rotation; The main air wheel is wind direction rotational structure setting down; The blade wind sweeping area of described main air wheel is set to blade wind sweeping area 2-5 times of secondary wind wheel;

Described major and minor wind wheel variable propeller pitch adjusting mechanism structure is identical, it is made up of change oar servomechanism (381,281) and change oar control device (382,282), and described unit centralized control equipment connects with the mode that change oar servomechanism (381,281) is according to detected propeller pitch angle variation carrying out main air is taken turns and secondary wind speed round is regulated by becoming the oar control device; Dispose secondary wind wheel propeller pitch angle measurement mechanism (G28), main air wheel propeller pitch angle measurement mechanism (G38) in described main air wheel and the secondary wind wheel respectively;

8. as variable speed constant frequency control system as described in claim 6 or 7, it is characterized in that the permanent magnet (43) of described wind-powered electricity generation machine (M) becomes configuration set, its number of pole-pairs is mated with exciter internal rotor number of pole-pairs; The yoke (42) of described device permanent magnet (43) is arranged in the permanent-magnetic outer rotor housing (410); Major and minor wind wheel variable propeller pitch adjusting mechanism is driven by servomotor (M38, M28); This change oar servomechanism and unit centralized control equipment are and can carry out the electric connection of mode of rotational speed regulation to main air wheel and secondary wind wheel according to the variation of propeller pitch angle.

9. variable speed constant frequency control system as claimed in claim 8 is characterized in that, the main air impeller blade wind sweeping area of described wind-powered electricity generation machine (M) is 3 times of blade wind sweeping area of secondary wind wheel approximately, and described wind sweeping area is the area that the wind wheel rotation forms; The wind direction rotation down of described main air wheel, the reverse rotation of secondary wind wheel upwind; Leave the default spacing (L) of avoiding secondary wind wheel and tower collision between described secondary wind wheel and the exciter; Brake (15) connects with the electric means that can start work when secondary wind speed round is 0 with the unit centralized control equipment.

10. variable speed constant frequency control system as claimed in claim 9, it is characterized in that, described stator winding number of pole-pairs Pg is set to greater than permanent-magnetic outer rotor number of pole-pairs Pe, the described main air wheel (3) that is configured on the final drive shaft, the stator (16) that has the Pg number of pole-pairs under the wind-force effect relatively is with the rotation of Nzr speed, and the main air wheel speed satisfies following relational expression configuration:

$\mathrm{Nzr}=\frac{60\×(\mathrm{fg}-\mathrm{fe})}{\mathrm{Pg}+\mathrm{Pe}}$

Wherein: Nzr represents the main air wheel speed; Pg represents the stator winding number of pole-pairs; Pe represents the number of pole-pairs of permanent-magnetic outer rotor (41); Fg represents stator frequency; Fe represents the permanent-magnetic outer rotor reduced frequency; Described stator winding number of pole-pairs can be 3 times a permanent-magnetic outer rotor number of pole-pairs; Described exciter internal rotor (45) winding number of pole-pairs is set to Pe to the utmost point; Described generator amature (14) winding number of pole-pairs is set to Pg to the utmost point; Described exciter internal rotor winding is connected by connecting line between rotor (123) negative-phase sequence with the generator amature winding; The wind-powered electricity generation machine secondary wind wheel (2) be configured on the counter drive shaft, this pair wind wheel drives permanent-magnetic outer rotor with the rotation of Ne speed, and the permanent-magnetic outer rotor reduced frequency satisfies following relational expression:

$\mathrm{fe}=\frac{\mathrm{Ne}\×\mathrm{Pe}}{60}$

Wherein: Ne vice wind wheel relative stator rotating speed;

Be configured to the relative main air wheel of Nzre rotating speed permanent-magnetic outer rotor reverse rotation, that have the Pe number of pole-pairs on counter drive shaft, the rotating speed of the relative exciter internal rotor rotation of permanent-magnetic outer rotor satisfies following relational expression:

Nzre＝Nzr+Ne

Wherein: Nzre represents the rotating speed of the relative exciter internal rotor rotation of permanent-magnetic outer rotor; Described major and minor power transmission shaft all has the hollow via-hole (130) of preset diameters, and this power transmission shaft supports by the bearing (115,116) and the bearing (147,148) on the exciter that are configured on the generator.

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