CN108386316A - Wind power generating set noise reduction system and method, control device and its storage medium - Google Patents

Abstract

The invention discloses a kind of wind power generating set noise reduction system and method, control device and its storage mediums.The noise reduction system includes：Monitoring unit, the health data for monitoring wind power generating set；Multistage noise reduction unit, it is installed on from the near to the distant in the region between wind power generating set and residential block, every grade of noise reduction unit corresponds to an entry condition and a stop condition for generating the reversed sound wave opposite with the former noise phase of position, every grade of noise reduction unit；Controller judges whether noise reduction units at different levels meet corresponding entry condition for the health data according to wind power generating set；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, when this grade of noise reduction unit reaches corresponding stop condition, it is out of service to control this grade of noise reduction unit.Using the technical solution in the embodiment of the present invention, the noise reduction of wind power generating set can be improved.

Description

Wind power generating set noise reduction system and method, control device and its storage medium

Technical field

The present invention relates to technical field of wind power generation more particularly to a kind of wind power generating set noise reduction system and method, controls Device and its storage medium processed.

Background technology

In recent years, as a kind of clean energy resource, its utilization is increasingly taken seriously wind energy, and most wind energy resources are preferable Remote districts it is built be equipped with wind power plant, be provided with more wind power generating sets (hereinafter referred to as wind turbine) in wind power plant.Wind turbine is transported It will produce much noise in row, the characteristic of different location noise also differs.For example, the noise generated when blade swing flap has face Product is big, the generate point mostly big feature with frequency range；The noise that yaw system generates when running has frequency height, ear-piercing spy Point；The noise that the components such as radiator fan and current transformer generate has the characteristics that low frequency.With the further exploitation of wind energy resources, wind-powered electricity generation The addressing of field is more and more closer apart from resident residential area.

To reduce influence of the fan noise to resident, method in the prior art, which includes exploitation, has sound insulation, damping and resistance The new blade of Buddhist nun's function installs sound panel additional for residential block, and the isolation to noise source is realized by using the various characteristics of material.

But the inventors of the present application found that the method pair of the isolation to noise source is realized using the various characteristics of material The treatment effect of high-frequency noise is preferable, and very poor for the treatment effect of nowhere a large amount of ubiquitous low-frequency noise.

Invention content

An embodiment of the present invention provides a kind of wind power generating set noise reduction system and method, control device and its storages to be situated between Matter can handle the noise in whole frequency range, improve the noise reduction of wind power generating set.

In a first aspect, an embodiment of the present invention provides a kind of wind power generating set noise reduction system, which includes：

Monitoring unit, the health data for monitoring wind power generating set；

Multistage noise reduction unit is installed in the region between wind power generating set and residential block, every grade of noise reduction from the near to the distant Unit corresponds to a trip bar for generating the reversed sound wave opposite with the former noise phase of position, every grade of noise reduction unit Part and a stop condition；

Controller, for according to the health data of wind power generating set, judging whether noise reduction units at different levels meet pair The entry condition answered；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, until When this grade of noise reduction unit reaches corresponding stop condition, it is out of service to control this grade of noise reduction unit.

In a kind of possible embodiment of first aspect, every grade of noise reduction unit includes that at least one active noise reduction is set It is standby.

In a kind of possible embodiment of first aspect, the series of multistage noise reduction unit is three-level；Wherein, the first order Noise reduction unit is installed on the tower inner wall of wind power generating set at the position of yaw system；Second level noise reduction unit is installed on In wind power generating set and residential block line close to wind power generating set side and height it is equal with wind power generating set tower height At position；Third level noise reduction unit is installed in residential block.

In a kind of possible embodiment of first aspect, monitoring unit includes state sensor, is indicated for generating The whether in running order sensing signal of the yaw motor of yaw system；Controller, if being in for receiving yaw motor The sensing signal of working condition then controls the startup of first order noise reduction unit, working condition is not at until receiving yaw motor Sensing signal, control first order noise reduction unit it is out of service.

In a kind of possible embodiment of first aspect, monitoring unit further includes temperature sensor, for detecting partially Temperature at boat motor position；Controller turns down the rotating speed of yaw motor if being additionally operable to temperature reaches predetermined temperature threshold.

In a kind of possible embodiment of first aspect, temperature sensor is thermistor, is reached for working as temperature Trigger signal is generated when predetermined temperature threshold；Controller turns down turning for yaw motor if being additionally operable to receive trigger signal Speed.

In a kind of possible embodiment of first aspect, monitoring unit further includes anemobiagraph, for detecting wind-force hair The wind speed of motor group position；Controller, if being additionally operable to, wind speed reaches the first wind speed threshold value and wind power generating set is in Day run pattern then controls second level noise reduction unit and starts, until wind speed is less than the first wind speed threshold value or wind power generating set Terminate operational mode in the daytime, control second level noise reduction unit is out of service；If wind speed reaches the second wind speed threshold value and wind-power electricity generation Unit is in night operational mode, then controls the startup of third level noise reduction unit；Until wind speed is less than the second wind speed threshold value or wind-force Generating set terminates night operational mode, and control third level noise reduction unit is out of service.

In a kind of possible embodiment of first aspect, the second wind speed threshold value is less than the first wind speed threshold value.

In a kind of possible embodiment of first aspect, which further includes wireless signal generator, third level drop It makes an uproar and is provided with wireless signal receiver in unit；Wireless signal generator, the expression third level noise reduction for sending controller Unit starting or control signal out of service are forwarded to wireless signal receiver；Third level noise reduction unit, for according to wireless The control signal that signal receiver receives executes corresponding operating.

Second aspect, an embodiment of the present invention provides a kind of wind power generating set noise-reduction method, this method includes：

In region between wind power generating set and residential block, multistage noise reduction unit, every grade of noise reduction are installed from the near to the distant Unit corresponds to a trip bar for generating the reversed sound wave opposite with the former noise phase of position, every grade of noise reduction unit Part and a stop condition；

Monitor the health data of wind power generating set；

According to the health data of wind power generating set, judge whether noise reduction units at different levels meet corresponding trip bar Part；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, until this grade of noise reduction list Member reaches corresponding stop condition, and it is out of service to control this grade of noise reduction unit.

In a kind of possible embodiment of second aspect, the series of multistage noise reduction unit is three-level；Pacify from the near to the distant The multistage noise reduction unit of dress, including：First order noise reduction unit is installed on the tower inner wall of wind power generating set close to yaw system Position at；Second level noise reduction unit is installed in wind power generating set and residential block line close to wind power generating set side And at position highly equal with wind power generating set tower height；Third level noise reduction unit is installed in residential block.

In a kind of possible embodiment of second aspect, according to the health data of wind power generating set, judge Whether noise reduction units at different levels meet corresponding entry condition；If arbitrary level-one noise reduction unit meets corresponding entry condition, control It makes this grade of noise reduction unit to start, until this grade of noise reduction unit reaches corresponding stop condition, controls this grade of noise reduction unit and stop fortune Row, including：Whether the yaw motor for detecting yaw system is in running order；If yaw motor is in running order, control First order noise reduction unit starts, and until yaw motor is not at working condition, control first order noise reduction unit is out of service.

In a kind of possible embodiment of second aspect, this method further includes：Detect the temperature at yaw motor position Degree；If temperature reaches predetermined temperature threshold, the rotating speed of yaw motor is turned down.

In a kind of possible embodiment of second aspect, according to the health data of wind power generating set, judge Whether noise reduction units at different levels meet corresponding entry condition；If arbitrary level-one noise reduction unit meets corresponding entry condition, control It makes this grade of noise reduction unit to start, until this grade of noise reduction unit reaches corresponding stop condition, controls this grade of noise reduction unit and stop fortune It goes, further includes：Detect the wind speed of wind power generating set position；If wind speed reaches the first wind speed threshold value and wind-driven generator It when group is in day run pattern, then controls second level noise reduction unit and starts, until wind speed is less than the first wind speed threshold value or wind-force Generating set terminates operational mode in the daytime, and control second level noise reduction unit is out of service.

In a kind of possible embodiment of second aspect, according to the health data of wind power generating set, judge Whether noise reduction units at different levels meet corresponding entry condition；If arbitrary level-one noise reduction unit meets corresponding entry condition, control It makes this grade of noise reduction unit to start, until this grade of noise reduction unit reaches corresponding stop condition, controls this grade of noise reduction unit and stop fortune It goes, further includes：If wind speed reaches the second wind speed threshold value and when wind power generating set is in night operational mode, the third level is controlled Noise reduction unit starts；Until wind speed terminates night operational mode, control third less than the second wind speed threshold value or wind power generating set Grade noise reduction unit is out of service.

The third aspect, an embodiment of the present invention provides a kind of wind power generating set, which includes institute as above The wind power generating set noise reduction system stated.

Fourth aspect, an embodiment of the present invention provides a kind of wind power generating set noise reduction control device, which uses In wind power generating set noise reduction system as described above, which is characterized in that control device includes：Judgment module, for according to wind The health data of power generator group, judges whether noise reduction units at different levels meet corresponding entry condition；Control module is used for If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, until this grade of noise reduction unit When reaching corresponding stop condition, it is out of service to control this grade of noise reduction unit.

In a kind of possible embodiment of fourth aspect, the series of multistage noise reduction unit is three-level, first order noise reduction Unit corresponds to the first control unit in the first judging unit and control module in judgment module；Wherein, the first judging unit, For judging whether to receive the in running order sensing signal of yaw motor；First control unit, if for receiving partially The in running order sensing signal of avionics machine then controls the startup of first order noise reduction unit, does not locate until receiving yaw motor In the sensing signal of working condition, control first order noise reduction unit is out of service.

In a kind of possible embodiment of fourth aspect, the series of multistage noise reduction unit is three-level, second level noise reduction Unit corresponds to the second control unit in second judgment unit and control module in judgment module；Wherein, second judgment unit, For judging whether the wind speed of wind power generating set position reaches the first wind speed threshold value and wind power generating set is in day Between operational mode；Second control unit, if reaching the first wind speed threshold value for wind speed and wind power generating set is in day run Pattern then controls second level noise reduction unit and starts, until wind speed terminates in the daytime less than the first wind speed threshold value or wind power generating set Operational mode, control second level noise reduction unit are out of service.

In a kind of possible embodiment of fourth aspect, third level noise reduction unit corresponds to the third in judgment module and sentences Third control unit in disconnected unit and control module；Third judging unit, for judging wind power generating set position Wind speed whether reach the second wind speed threshold value and wind power generating set is in night operational mode；Third control unit, if for Wind speed reaches the second wind speed threshold value and wind power generating set is in night operational mode, then controls the startup of third level noise reduction unit； Until wind speed terminates night operational mode less than the second wind speed threshold value or wind power generating set, control third level noise reduction unit stops Operation.

5th aspect, an embodiment of the present invention provides a kind of computer readable storage mediums, are stored thereon with program, program Wind power generating set noise-reduction method as described above is realized when being executed by processor.

According to an embodiment of the invention, it is the noise in processing whole frequency range, wind-force can be monitored by monitoring unit Then the health data of generating set is installed in the region between wind power generating set and residential block multistage from the near to the distant Noise reduction unit generates the reversed sound wave opposite with the former noise phase of position using every grade of noise reduction unit, while making every Grade noise reduction unit corresponds to an entry condition and a stop condition.To be precisely controlled the startup and stopping of every grade of noise reduction unit, It can judge whether noise reduction units at different levels meet corresponding startup by controller according to the health data of wind power generating set Condition；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, until this grade of noise reduction When unit reaches corresponding stop condition, it is out of service to control this grade of noise reduction unit.

Due to being mounted with multistage in the embodiment of the present invention from the near to the distant region between wind power generating set and residential block Noise reduction unit, every grade of noise reduction unit can generate the reversed sound wave opposite with the former noise phase of position, so as to The noise in the whole frequency range between wind power generating set and residential block is enough eliminated, and then wind power generating set can be improved Noise reduction.

Further, since every grade of noise reduction unit corresponds to an entry condition and a stop condition so that controller can root Factually fan operation situation in border is precisely controlled the startup and stopping of every grade of noise reduction unit, determines noise reduction units at different levels to realize Phase timing noise reduction, and then the energy conservation and consumption reduction effects of wind power generating set can be reached.

Description of the drawings

From below in conjunction with the accompanying drawings to the present invention specific implementation mode description in may be better understood the present invention wherein, Same or analogous reference numeral indicates same or analogous feature.

Fig. 1 is that wind generator set blade provided in an embodiment of the present invention is put away the oars the form schematic diagram of state；

Fig. 2 is the form schematic diagram of wind generator set blade provided in an embodiment of the present invention in the on-state；

Fig. 3 is the structural schematic diagram of wind driven generator unit yaw system provided in an embodiment of the present invention；

Fig. 4 is that yaw system provided in an embodiment of the present invention illustrates the cabin direction before wind and the angle between wind direction Figure；

Fig. 5 is that yaw system provided in an embodiment of the present invention illustrates the cabin direction after wind and the angle between wind direction Figure；

Fig. 6 is the structural schematic diagram for the wind power generating set noise reduction system that one embodiment of the invention provides；

Fig. 7 is the schematic view of the mounting position of second level noise reducing apparatus provided in an embodiment of the present invention；

Fig. 8 is the structural schematic diagram for the wind power generating set noise reduction system that another embodiment of the present invention provides；

Fig. 9 is the flow diagram of wind power generating set noise-reduction method provided in an embodiment of the present invention；

Figure 10 is the structural schematic diagram of wind power generating set noise reduction control device provided in an embodiment of the present invention.

Reference sign：

101- blades；102- cabins；301- anemobiagraphs；302- yaw motors；

303- yaw motor gears；304- yaw gear disks；305- cams；

306-PLC controllers；601- monitoring unit；602- multistage noise reduction units；

6021- first order noise reduction units；The second level 6022- noise reduction unit；

6023- third level noise reduction units；603- controllers；801- sub-control stations；

802- thermistors；803- frequency converters；804- active noise reduction equipments；

805- wireless signal generators；806- central monitors；

1001- judgment modules；1002- control modules.

Specific implementation mode

The feature and exemplary embodiment of the various aspects of the embodiment of the present invention is described more fully below.Following detailed In description, it is proposed that many details, in order to provide the comprehensive understanding to the embodiment of the present invention.

A kind of wind power generating set noise reduction system and method for present invention offer, control device and its storage medium.The noise reduction System can handle the noise in whole frequency range, be that wind power plant is attached so as to improve the noise reduction of wind power generating set Close resident eliminates noise puzzlement.Meanwhile the wind power generating set noise reduction system in the embodiment of the present invention is with energy-saving Advantage.

As depicted in figs. 1 and 2, wind power generating set is generally made of three blades 101, and three blades 101 are symmetrically solid Due to 102 side of cabin.In general, the noise source of wind power generating set includes：101 swing flap noise of blade, yaw system are to wind The noise that the component workings such as noise, radiator fan and the current transformer of generation generate.

101 swing flap of blade refers to changing the front face area of blade 101 by pitch-controlled system adjustment 101 propeller pitch angle of blade, To control the size that blade 101 captures wind energy.Show the form of putting away the oars of blade 101 in Fig. 1, the paddle of blade 101 under the form Elongation is 0 °.Blade 101 is shown in Fig. 2 opens paddle form.In general, 101 swing flap of blade will produce vibrating noise, noise tool Have the characteristics that area is big, it is mostly big with frequency range to generate point.

Fig. 3 is the structural schematic diagram of wind driven generator unit yaw system provided in an embodiment of the present invention.Yaw system is to wind Refer to so that blade wind wheel plane (Plane of rotation of blade) is in state windward always by yaw motor 302, to make full use of Wind energy, yaw system work will produce vibrating noise, which has the characteristics that frequency is high, ear-piercing.In general, yaw system includes Survey wind component, executive module, detection components and control assembly.

As shown in figure 3, it includes anemobiagraph 301 to survey wind component.In one alternate embodiment, anemobiagraph 301 can be fixed In on cabin meteorology frame, the wind speed for detecting wind power generating set position.In one alternate embodiment, crosswind group Part further includes wind vane (not shown), for detecting the angle between 102 direction of cabin and practical wind direction.

As shown in figure 3, executive module includes the yaw motor 302 being meshed successively, yaw motor gear 303 and yaw tooth Wheel disc 304, yaw gear disk 304 are fixed with cabin 102.When to wind, yaw motor 302 starts, and drives yaw motor gear 303 And yaw gear disk 304 rotates, and then cabin 102 is driven to rotate.Since three blades are symmetrically fixed on 102 side of cabin, Therefore, blade wind wheel can be made to be right against wind direction by adjusting cabin 102 direction.

As shown in figure 3, detection components include cam 305, cam 305 can follow yaw gear disk 304 to rotate, Ke Yitong Cross the practical yaw direction and yawing velocity of the rotation angle detection cabin 102 of cam 305.

As shown in figure 3, control assembly can be PLC controller 306, the logical algorithm for executing yaw system.Yaw It needs more equipment coordinations to work in the process, therefore will produce certain noise.

Fig. 4 and Fig. 5 be respectively yaw system provided in an embodiment of the present invention to before wind and to after wind cabin direction and wind Angle wind schematic diagram between, wherein arrow indicate wind direction.Figure 4, it is seen that wind forward engine room direction and wind direction it Between angle a between 0 ° to 90 °.From figure 5 it can be seen that 0 ° is equal to the angle a after wind between cabin direction and wind direction, Blade wind wheel plane is right against wind direction at this time.

Fig. 6 is the structural schematic diagram for the wind power generating set noise reduction system that one embodiment of the invention provides, as shown in fig. 6, The wind power generating set noise reduction system includes monitoring unit 601, multistage noise reduction unit 602 and controller 603 (noise reduction controller).

Monitoring unit 601 is used to monitor the health data of wind power generating set.

Wherein, health data can be wind power generating set with the relevant health data of noise source.For example, The running state data etc. of the above wind direction data, air speed data and yaw motor.

Multistage noise reduction unit 602 is installed on from the near to the distant in the region between wind power generating set and residential block, every grade of drop Unit of making an uproar is for generating the reversed sound wave opposite with the former noise phase of position.

Wherein, every grade of noise reduction unit corresponds to an entry condition and a stop condition.

In one alternate embodiment, every grade of noise reduction unit includes at least one active noise reduction equipment 804 (refering to Fig. 8). Active noise reduction equipment 804 includes noise cancelling headphone and noise reduction sound equipment etc..

Wherein, the principle of active noise reduction equipment 804 is：The reversed sound wave equal with ambient noise is generated, noise is neutralized, To realize the effect of noise reduction.Since all sound is all made of certain frequency spectrum, therefore, it is possible to find that a kind of sound, Frequency spectrum and the noise to be eliminated are just the same, and only this noise can be just completely counterbalanced by by phase on the contrary.

Controller 603 is used for the health data according to wind power generating set, judges whether noise reduction units at different levels meet Corresponding entry condition；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, directly When reaching corresponding stop condition to this grade of noise reduction unit, it is out of service to control this grade of noise reduction unit.

According to an embodiment of the invention, it is the noise in processing whole frequency range, wind can be monitored by monitoring unit 601 Then the health data of power generator group is installed in the region between wind power generating set and residential block more from the near to the distant Grade noise reduction unit 602, the reversed sound wave opposite with the former noise phase of position is generated using every grade of noise reduction unit, simultaneously Every grade of noise reduction unit is set to correspond to an entry condition and a stop condition.To be precisely controlled the startup of every grade of noise reduction unit and stopping Only, it can judge whether noise reduction units at different levels meet correspondence by controller 603 according to the health data of wind power generating set Entry condition；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, until this When grade noise reduction unit reaches corresponding stop condition, it is out of service to control this grade of noise reduction unit.

Due to being mounted with multistage in the embodiment of the present invention from the near to the distant region between wind power generating set and residential block Noise reduction unit 602, every grade of noise reduction unit can generate the reversed sound wave opposite with the former noise phase of position, to The noise in the whole frequency range between wind power generating set and residential block can be eliminated, and then wind-driven generator can be improved The noise reduction of group.

Further, since every grade of noise reduction unit corresponds to an entry condition and a stop condition so that controller 603 can be with The startup and stopping of every grade of noise reduction unit are precisely controlled according to practical fan operation situation, to realize to noise reduction units at different levels Regular timing noise reduction, and then the energy conservation and consumption reduction effects of wind power generating set can be reached.

In one alternate embodiment, the series of multistage noise reduction unit 602 can be three-level.Below with three-level noise reduction unit For, the installation site and noise reduction process of noise reduction units at different levels is described in detail.

In one alternate embodiment, it is preferably to eliminate the high-frequency noise generated to wind by yaw system, first order drop Unit 6021 of making an uproar can be installed on the tower inner wall of wind power generating set at the position of yaw system.

To be precisely controlled the startup and stopping of first order noise reduction unit 6021, monitoring unit 601 may include state sensing Device.The state sensor can generate the sensing signal for indicating whether the yaw motor of yaw system is in running order, control Device 603 can control first order noise reduction unit 6021 and start after receiving the in running order sensing signal of yaw motor, The sensing signal of working condition is not at until receiving yaw motor, control first order noise reduction unit 6021 is out of service.

Further, since first order noise reduction unit 6021 only just starts in the case where yaw motor is in running order, With it is in the prior art it is always on compared with, the noise reduction energy consumption of wind power generating set can be saved.

In one alternate embodiment, monitoring unit 601 can also include temperature sensor, for detecting yaw motor position Set the temperature at place.Controller 603 can also turn down yaw electricity when the temperature at yaw motor position reaches predetermined temperature threshold The rotating speed of machine.

When reaching predetermined temperature threshold due to the temperature at yaw motor position, illustrate the running temperature of yaw motor compared with Height, therefore, it is necessary to carry out fall-back to yaw motor to protect yaw motor, and yaw motor fall-back can further drop The low noise generated by yaw motor operation.

In one alternate embodiment, temperature sensor can be thermistor 802 (refering to Fig. 8), and thermistor 802 is worked as Temperature generates trigger signal when reaching predetermined temperature threshold, controller 603 can turn down yaw electricity after receiving the trigger signal The rotating speed of machine.

In one alternate embodiment, second level noise reduction unit 6022 can be installed on wind power generating set and residential block connects On line close to wind power generating set side and at position highly equal with wind power generating set tower height.

Fig. 7 is the schematic view of the mounting position of second level noise reducing apparatus provided in an embodiment of the present invention.

As shown in fig. 7, the position where wind power generating set is region A, the position where residential block is region B, for more The low-frequency noise because of blade swing flap and the operation generation of wind power generating set other component, second level noise reduction unit 6022 are eliminated well It may be mounted on wind power generating set and residential block line close to wind power generating set side (such as region C) and height and wind-force At the equal position of generating set tower height.

To be precisely controlled the startup and stopping of second level noise reduction unit 6022, monitoring unit 601 can also include anemobiagraph, Wind speed for detecting wind power generating set position, controller 603 can reach the first wind speed threshold value and wind in wind speed When power generator group is in day run pattern, control second level noise reduction unit 6022 starts, until wind speed is less than the first wind speed Threshold value or wind power generating set terminate operational mode in the daytime, and control second level noise reduction unit 6022 is out of service.

Further, since second level noise reduction unit 6022 only reaches in wind speed at the first wind speed threshold value and wind power generating set Just start in the case of day run pattern, with it is in the prior art it is always on compared with, wind power generating set can be saved Noise reduction energy consumption.

In addition, since resident on daytime can make second level noise reduction unit 6022 only in wind-power electricity generation in residential area inner and outer movable Unit, which is under day run pattern, to be started, and enables to resident on daytime in residential area inner and outer movable from a large amount of low frequency noises Influence.

In one alternate embodiment, third level noise reduction unit 6023 can be installed in residential block.To be precisely controlled The startup and stopping of two level noise reduction unit 6022, controller 603 can reach the second wind speed threshold value and wind-driven generator in wind speed When group is in night operational mode, control third level noise reduction unit 6023 starts, until wind speed is less than the second wind speed threshold value or wind Power generator group terminates night operational mode, and control third level noise reduction unit 6023 is out of service.

Further, since third level noise reduction unit 6023 only reaches in wind speed at the second wind speed threshold value and wind power generating set Just start in the case of night operational mode, with it is in the prior art it is always on compared with, wind power generating set can be saved Noise reduction energy consumption.

In addition, since neighbouring residents at night can be rested in residential area substantially, third level noise reduction unit 6023 is made to exist herein Wind power generating set, which is under night operational mode, to be started, from the influence of a large amount of low frequency noises when can ensure resident's rest.

It makes an uproar as noted previously, as second level noise reduction unit 6022 and third level noise reduction unit 6023 can handle low frequency Sound, and in the case where meeting respective threshold wind velocity, the energy consumption of second level noise reduction unit 6022 is higher, third level noise reduction unit 6023 energy consumptions are relatively low, therefore, so that second level noise reduction unit 6022 is only started on daytime, third level noise reduction unit 6023 is only at night Start, on the one hand, it disclosure satisfy that the noise reduction demand to low-frequency noise, it on the other hand, between the two can also be by having complementary functions The noise reduction energy consumption of wind power generating set is further saved with condition complementation.

It should be noted that the noise tolerance due to people on daytime is higher compared to night, the first wind speed threshold value can To be greater than or equal to the second wind speed threshold value.Wherein, the value of the second wind speed threshold value and the second wind speed threshold value can be according to wind-force The distance between generating set and residential area determine.

In one alternate embodiment, it is contemplated that the installation site of third level noise reduction unit 6023 is more dispersed, the present invention Noise reduction system in embodiment further includes wireless signal generator 805, is accordingly provided with nothing in third level noise reduction unit 6023 Line signal receiver.Wherein, the expression third level noise reduction unit that wireless signal generator 805 is used to send controller 603 The 6023 control signals for starting or stoping operation are forwarded to wireless signal receiver, and then third level noise reduction unit 6023 is according to nothing The control signal that line signal receiver receives executes corresponding operating.

Fig. 8 is the structural schematic diagram for the wind power generating set noise reduction system that another embodiment of the present invention provides.Example in Fig. 8 Property show connection relation between the essential electrical component of wind power generating set noise reduction system and each component, for further Wind power generating set noise reduction system in the embodiment of the present invention is illustrated, to help those skilled in the art understand that originally Technical solution in inventive embodiments.Wind power generating set noise reduction system shown in Fig. 8 includes anemobiagraph 301, controller 603, first order noise reduction unit 6021, second level noise reduction unit 6022 and third level noise reduction unit 6023.

Wherein, wind speed of the anemobiagraph 301 for moment detection wind power generating set position.

Controller 603 can be the master controller of wind power generating set, the air speed data for receiving survey wind part, and While completing other logic controls of wind power generating set, provides and patrol for the three-level active noise reduction system in the embodiment of the present invention Collect operation.Controller 603 can also be the independently arranged device with logic computing function.

As shown in figure 8, be additionally provided under controller 603 with the relevant sub-control station 801 of noise reduction operation, shown in Fig. 8 Sub-control station 801 is connect with three yaw motors respectively.The order of controller 603 can be issued to yaw by sub-control station 801 Motor, and collect corresponding feedback from yaw motor.

Thermistor 802 is also shown in Fig. 8, is used for the running temperature of detection part yaw motor.801 He of sub-control station It is additionally provided with frequency converter 803 between each yaw motor.Frequency converter 803 is used to be driven according to the order that sub-control station 801 issues Yaw motor works or the rotating speed of adjustment yaw motor.

First order noise reduction unit 6021, second level noise reduction unit 6022 and third level noise reduction unit 6023 shown in Fig. 8 It is connect respectively with controller 603.Wherein, it is dropped about first order noise reduction unit 6021, second level noise reduction unit 6022 and the third level Make an uproar unit 6023 installation site description can refer to above obtain.

Controller 603 can according to the health data of wind power generating set (such as wind speed, the temperature of yaw motor and Working condition etc.) judge whether noise reduction units at different levels meet corresponding entry condition；It is corresponded to if arbitrary level-one noise reduction unit meets Entry condition, then control this grade of noise reduction unit and start, when this grade of noise reduction unit reaches corresponding stop condition, control should Grade noise reduction unit is out of service.Wherein, about first order noise reduction unit 6021, second level noise reduction unit 6022 and third level noise reduction The startup of unit 6023 and the description stopped operation can be referred to and be obtained above.

As shown in figure 8, third level noise reduction unit 6023 may include multiple active noise reduction equipments 804 (for example, noise reduction ear Machine, noise reduction sound equipment etc.).It is connected, is controlled by wireless signal generator 805 between controller 603 and multiple active noise reduction equipments 804 Device 603 processed can send out startup and stop signal to multiple active noise reduction equipments 804.Certainly, controller 603 and third level noise reduction Multiple active noise reduction equipments 804 in unit 6023 or wired connection.

Central monitor 806 is also shown in Fig. 8, which belongs to the central monitoring system of wind power plant.In Centre monitor 806 can receive the health data that the monitoring unit 601 of each wind power generating set noise reduction system uploads, and It can judge each wind power generating set whether normal operation according to the health data of upload.If there are the wind-force of operation exception Generating set, then the operating parameter of the wind power generating set of manual modification operation exception, and modified operating parameter is sent To corresponding wind power generating set, so that wind power generating set can be run according to modified operating parameter.

As described above, the wind power generating set noise reduction system in the embodiment of the present invention can utilize the fortune of wind power generating set Row characteristic and health data carry out classification to a variety of active noise reduction equipments and are precisely controlled, while reaching noise reduction purpose, The noise reduction energy consumption of wind power generating set can be saved.

It should be noted that active noise reduction equipment in wind power generating set noise reduction system in the embodiment of the present invention can be with It is used cooperatively with passive noise reducing apparatus, so as to reach better noise reduction.

Fig. 9 is the flow diagram of wind power generating set noise-reduction method provided in an embodiment of the present invention.As shown in figure 9, wind Power generator group noise-reduction method includes step 901 to step 903.

In step 901, in the region between wind power generating set and residential block, multistage noise reduction list is installed from the near to the distant Member, every grade of noise reduction unit is for generating the reversed sound wave opposite with the former noise phase of position, every grade of noise reduction unit pair Answer an entry condition and a stop condition.

In one alternate embodiment, the series of multistage noise reduction unit is three-level；Multistage noise reduction unit is installed from the near to the distant, Including：First order noise reduction unit is installed on the tower inner wall of wind power generating set at the position of yaw system；By second Grade noise reduction unit is installed on wind power generating set and residential block line close to wind power generating set side and height and wind-force hair At the equal position of motor group tower height；Third level noise reduction unit is installed in residential block

In step 902, the health data of wind power generating set is monitored.

In step 903, according to the health data of wind power generating set, judge whether noise reduction units at different levels meet pair The entry condition answered；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, until This grade of noise reduction unit reaches corresponding stop condition, and it is out of service to control this grade of noise reduction unit.

In one alternate embodiment, the startup to above-mentioned first order noise reduction unit and the control method that stops operation can be with For：Whether the yaw motor for detecting yaw system is in running order；If yaw motor is in running order, the first order is controlled Noise reduction unit starts, and until yaw motor is not at working condition, control first order noise reduction unit is out of service.

It is possible to further detect the temperature at yaw motor position；If temperature reaches predetermined temperature threshold, turn down partially The rotating speed of avionics machine reaches noise reduction purpose.

In one alternate embodiment, the startup to above-mentioned second level noise reduction unit and the control method that stops operation can be with For：Detect the wind speed of wind power generating set position；If wind speed reaches the first wind speed threshold value and wind power generating set is in It when day run pattern, then controls second level noise reduction unit and starts, until wind speed is less than the first wind speed threshold value or wind-driven generator Group terminates operational mode in the daytime, and control second level noise reduction unit is out of service.

In one alternate embodiment, the startup to above-mentioned second level noise reduction unit and the control method that stops operation can be with For：If wind speed reaches the second wind speed threshold value and when wind power generating set is in night operational mode, third level noise reduction list is controlled Member starts；Until wind speed terminates night operational mode, control third level noise reduction less than the second wind speed threshold value or wind power generating set Unit is out of service.

Figure 10 is the structural schematic diagram of wind power generating set noise reduction control device provided in an embodiment of the present invention, for as above The wind power generating set noise reduction system.As shown in Figure 10, which includes judgment module 1001 and control module 1002。

Wherein, judgment module 1001 is used for the health data according to wind power generating set, judges noise reduction units at different levels Whether corresponding entry condition is met.

If control module 1002, which is used for arbitrary level-one noise reduction unit, meets corresponding entry condition, this grade of noise reduction list is controlled Member starts, and when this grade of noise reduction unit reaches corresponding stop condition, it is out of service to control this grade of noise reduction unit.

If the series that Figure 10 also schematically illustrates multistage noise reduction unit is three-level, judgment module 1001 and control mould The refinement structure of block 1002.

As shown in Figure 10, first order noise reduction unit corresponds to the first judging unit 10011 and the first control unit 10021.Its In, the first judging unit 10011 is for judging whether to receive the in running order sensing signal of yaw motor；Such as Figure 10 institutes Show, the first control unit 10021, if the sensing signal in running order for receiving yaw motor, controls the first order Noise reduction unit starts, and the sensing signal of working condition is not at until receiving yaw motor, and control first order noise reduction unit is stopped Only run.

As shown in Figure 10, second level noise reduction unit corresponds to second judgment unit 10012 and the second control unit 10022.Its In, second judgment unit 10012 is for judging whether the wind speed of wind power generating set position reaches the first wind speed threshold value And wind power generating set is in day run pattern；If the second control unit 10022 for wind speed reach the first wind speed threshold value and Wind power generating set is in day run pattern, then controls second level noise reduction unit and start, until wind speed is less than the first wind speed threshold Value or wind power generating set terminate operational mode in the daytime, and control second level noise reduction unit is out of service.

As shown in Figure 10, third level noise reduction unit corresponds to third judging unit 10013 and third control unit 10023；Its In, third judging unit 10013 is for judging whether the wind speed of wind power generating set position reaches the second wind speed threshold value And wind power generating set is in night operational mode；If third control unit 10023 for wind speed reach the second wind speed threshold value and Wind power generating set is in night operational mode, then controls the startup of third level noise reduction unit；Until wind speed is less than the second wind speed threshold Value or wind power generating set terminate night operational mode, and control third level noise reduction unit is out of service.

The embodiment of the present invention also provides a kind of wind power generating set, which includes wind-force hair as described above Motor group noise reduction system.

An embodiment of the present invention provides a kind of computer readable storage mediums, are stored thereon with program, program is by processor Wind power generating set noise-reduction method as described above is realized when execution.

It should be clear that each embodiment in this specification is described in a progressive manner, each embodiment it Between just to refer each other for same or analogous part, the highlights of each of the examples are it is different from other embodiment it Place.For device embodiments, related place may refer to the declaratives of embodiment of the method.Not office of the embodiment of the present invention It is limited to particular step and structure described above and shown in figure.Those skilled in the art can understand the present invention in fact It after the spirit for applying example, is variously modified, modification and addition, or the sequence between changing the step.Also, it is risen in order to concise See, omits the detailed description to known method technology here.

Functional block shown in structures described above block diagram can be implemented as hardware, software, firmware or their group It closes.When realizing in hardware, it may, for example, be electronic circuit, application-specific integrated circuit (ASIC), firmware appropriate, insert Part, function card etc..When being realized with software mode, the element of the embodiment of the present invention is used to execute the program of required task Or code segment.Either code segment can be stored in machine readable media program or the data by being carried in carrier wave are believed It number is sent in transmission medium or communication links." machine readable media " may include be capable of storage or transmission information any Medium.The example of machine readable media includes electronic circuit, semiconductor memory devices, ROM, flash memory, erasable ROM (EROM), floppy disk, CD-ROM, CD, hard disk, fiber medium, radio frequency (RF) link, etc..Code segment can via such as because The computer network of special net, Intranet etc. is downloaded.

The embodiment of the present invention can be realized in other specific forms, without departing from its spirit and essential characteristics.For example, special Determine the algorithm described in embodiment to be changed, and system architecture is without departing from the substantially smart of the embodiment of the present invention God.Therefore, current embodiment is all counted as being exemplary rather than limited, the model of the embodiment of the present invention in all respects It encloses and is defined by appended claims rather than foregoing description, also, fall into the meaning of claim and complete in the range of equivalent Portion changes all to be included among the range of the embodiment of the present invention.

Claims (20)

1. a kind of wind power generating set noise reduction system, which is characterized in that including：

Monitoring unit, the health data for monitoring wind power generating set；

Multistage noise reduction unit is installed in the region between the wind power generating set and residential block, every grade of noise reduction from the near to the distant Unit corresponds to a trip bar for generating the reversed sound wave opposite with the former noise phase of position, every grade of noise reduction unit Part and a stop condition；

Controller, for according to the health data of the wind power generating set, judging whether noise reduction units at different levels meet pair The entry condition answered；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, until When this grade of noise reduction unit reaches corresponding stop condition, it is out of service to control this grade of noise reduction unit.

2. system according to claim 1, which is characterized in that every grade of noise reduction unit includes that at least one active noise reduction is set It is standby.

3. system according to claim 1, which is characterized in that the series of the multistage noise reduction unit is three-level；Wherein,

First order noise reduction unit is installed on the tower inner wall of the wind power generating set at the position of yaw system；

Second level noise reduction unit is installed on the wind power generating set and the residential block line close to the wind-driven generator At group side and position highly equal with the wind power generating set tower height；

Third level noise reduction unit is installed in the residential block.

4. system according to claim 3, which is characterized in that the monitoring unit includes state sensor, for generating Indicate the whether in running order sensing signal of the yaw motor of the yaw system；

The controller controls described if being additionally operable to receive the in running order sensing signal of the yaw motor Level-one noise reduction unit starts, and the sensing signal of working condition, control described first are not at until receiving the yaw motor Grade noise reduction unit is out of service.

5. system according to claim 4, which is characterized in that the monitoring unit further includes temperature sensor, for examining Survey the temperature at the yaw motor position；

The controller turns down the rotating speed of the yaw motor if being additionally operable to the temperature reaches predetermined temperature threshold.

6. system according to claim 5, which is characterized in that the temperature sensor is thermistor, for when described Temperature generates trigger signal when reaching the predetermined temperature threshold；

The controller turns down the rotating speed of the yaw motor if being additionally operable to receive the trigger signal.

7. system according to claim 3, which is characterized in that the monitoring unit further includes anemobiagraph, for detecting State the wind speed of wind power generating set position；

The controller, if being additionally operable to, the wind speed reaches the first wind speed threshold value and the wind power generating set is in day run Pattern then controls the second level noise reduction unit and starts, until the wind speed is less than the first wind speed threshold value or the wind-force Generating set terminates operational mode in the daytime, and it is out of service to control the second level noise reduction unit；And if the wind speed reaches The two wind speed threshold values and wind power generating set is in night operational mode then control the third level noise reduction unit and start；Directly Terminate night operational mode less than the second wind speed threshold value or the wind power generating set to the wind speed, controls the third Grade noise reduction unit is out of service.

8. system according to claim 7, which is characterized in that the second wind speed threshold value is less than the first wind speed threshold Value.

9. system according to claim 3, which is characterized in that the system also includes wireless signal generator, described It is provided with wireless signal receiver in three-level noise reduction unit；

The wireless signal generator, the expression third level noise reduction unit for sending the controller start or stop The control signal of operation is forwarded to the wireless signal receiver；

The third level noise reduction unit, the control signal for being received according to the wireless signal receiver execute corresponding operating.

10. a kind of wind power generating set noise-reduction method, which is characterized in that including：

In region between wind power generating set and residential block, multistage noise reduction unit, every grade of noise reduction unit are installed from the near to the distant For generating the reversed sound wave opposite with the former noise phase of position, every grade of noise reduction unit correspond to an entry condition and One stop condition；

Monitor the health data of the wind power generating set；

According to the health data of the wind power generating set, judge whether noise reduction units at different levels meet corresponding trip bar Part；If arbitrary level-one noise reduction unit meets corresponding entry condition, controls this grade of noise reduction unit and start, until this grade of noise reduction list Member reaches corresponding stop condition, and it is out of service to control this grade of noise reduction unit.

11. according to the method described in claim 10, it is characterized in that, the series of the multistage noise reduction unit is three-level；It is described Multistage noise reduction unit is installed from the near to the distant, including：

First order noise reduction unit is installed on the tower inner wall of the wind power generating set at the position of yaw system；

Second level noise reduction unit is installed in the wind power generating set and the residential block line close to the wind-power electricity generation At unit side and position highly equal with the wind power generating set tower height；

Third level noise reduction unit is installed in the residential block.

12. according to the method for claim 11, which is characterized in that the operation conditions according to the wind power generating set Data, judge whether noise reduction units at different levels meet corresponding entry condition；If arbitrary level-one noise reduction unit meets corresponding startup Condition then controls this grade of noise reduction unit and starts, and until this grade of noise reduction unit reaches corresponding stop condition, controls this grade of noise reduction list Member is out of service, including：

Whether the yaw motor for detecting the yaw system is in running order；

If the yaw motor is in running order, controls the first order noise reduction unit and start, until yaw motor is not located In working condition, it is out of service to control the first order noise reduction unit.

13. according to the method for claim 12, which is characterized in that the method further includes：

Detect the temperature at the yaw motor position；

If the temperature reaches predetermined temperature threshold, the rotating speed of the yaw motor is turned down.

14. according to the method for claim 11, which is characterized in that the operation conditions according to the wind power generating set Data, judge whether noise reduction units at different levels meet corresponding entry condition；If arbitrary level-one noise reduction unit meets corresponding startup Condition then controls this grade of noise reduction unit and starts, and until this grade of noise reduction unit reaches corresponding stop condition, controls this grade of noise reduction list Member is out of service, further includes：

Detect the wind speed of the wind power generating set position；

If the wind speed reaches the first wind speed threshold value and when the wind power generating set is in day run pattern, described in control Second level noise reduction unit starts, until the wind speed terminates in the daytime less than the first wind speed threshold value or the wind power generating set It is out of service to control the second level noise reduction unit for operational mode；

If the wind speed reaches the second wind speed threshold value and when the wind power generating set is in night operational mode, described in control Third level noise reduction unit starts；Until the wind speed terminates night less than the second wind speed threshold value or the wind power generating set It is out of service to control the third level noise reduction unit for operational mode.

15. a kind of wind power generating set, which is characterized in that the wind power generating set includes such as claim 1-9 any one The wind power generating set noise reduction system.

16. a kind of wind power generating set noise reduction control device is used for wind-driven generator as described in any one of claims 1-9 Group noise reduction system, which is characterized in that the control device includes：

Judgment module judges whether noise reduction units at different levels meet for the health data according to the wind power generating set Corresponding entry condition；

Control module controls this grade of noise reduction unit and starts if meeting corresponding entry condition for arbitrary level-one noise reduction unit, When this grade of noise reduction unit reaches corresponding stop condition, it is out of service to control this grade of noise reduction unit.

17. device according to claim 16, which is characterized in that it is described multistage noise reduction unit series be three-level, first Grade noise reduction unit corresponds to the first control unit in the first judging unit and the control module in the judgment module；Its In,

First judging unit receives the in running order sensing signal of the yaw motor for judging whether；

First control unit, if the sensing signal in running order for receiving the yaw motor, controls institute The startup of first order noise reduction unit is stated, is not at the sensing signal of working condition until receiving the yaw motor, described in control First order noise reduction unit is out of service.

18. device according to claim 16, which is characterized in that it is described multistage noise reduction unit series be three-level, second Grade noise reduction unit corresponds to the second control unit in second judgment unit and the control module in the judgment module；Its In,

The second judgment unit, for judging whether the wind speed of the wind power generating set position reaches the first wind speed The threshold value and wind power generating set is in day run pattern；

Second control unit is in the daytime if reaching the first wind speed threshold value and the wind power generating set for the wind speed Operational mode then controls the second level noise reduction unit and starts, until the wind speed is less than the first wind speed threshold value or described Wind power generating set terminates operational mode in the daytime, and it is out of service to control the second level noise reduction unit.

19. device according to claim 18, which is characterized in that third level noise reduction unit corresponds in the judgment module Third control unit in third judging unit and the control module；Wherein,

The third judging unit, for judging whether the wind speed of the wind power generating set position reaches the second wind speed The threshold value and wind power generating set is in night operational mode；

The third control unit, if reaching the second wind speed threshold value for the wind speed and the wind power generating set is in night Operational mode then controls the third level noise reduction unit and starts；Until the wind speed is less than the second wind speed threshold value or described Wind power generating set terminates night operational mode, and it is out of service to control the third level noise reduction unit.

20. a kind of computer readable storage medium, is stored thereon with program, which is characterized in that described program is executed by processor Wind power generating set noise-reduction methods of the Shi Shixian as described in claim 10-14 any one.