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WO2005064153A1 - Wind turbine device - Google Patents

Wind turbine device Download PDF

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Publication number
WO2005064153A1
WO2005064153A1 PCT/JP2004/019816 JP2004019816W WO2005064153A1 WO 2005064153 A1 WO2005064153 A1 WO 2005064153A1 JP 2004019816 W JP2004019816 W JP 2004019816W WO 2005064153 A1 WO2005064153 A1 WO 2005064153A1
Authority
WO
WIPO (PCT)
Prior art keywords
wind
wind turbine
fan
centrifugal impeller
generator according
Prior art date
Application number
PCT/JP2004/019816
Other languages
French (fr)
Japanese (ja)
Inventor
Hironari Ogata
Kazunori Matsumoto
Original Assignee
Matsushita Electric Industrial Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Matsushita Electric Industrial Co., Ltd. filed Critical Matsushita Electric Industrial Co., Ltd.
Priority to CA002526399A priority Critical patent/CA2526399A1/en
Publication of WO2005064153A1 publication Critical patent/WO2005064153A1/en

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03DWIND MOTORS
    • F03D3/00Wind motors with rotation axis substantially perpendicular to the air flow entering the rotor 
    • F03D3/005Wind motors with rotation axis substantially perpendicular to the air flow entering the rotor  the axis being vertical
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F05INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
    • F05BINDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
    • F05B2240/00Components
    • F05B2240/20Rotors
    • F05B2240/21Rotors for wind turbines
    • F05B2240/211Rotors for wind turbines with vertical axis
    • F05B2240/213Rotors for wind turbines with vertical axis of the Savonius type
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F05INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
    • F05BINDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
    • F05B2240/00Components
    • F05B2240/20Rotors
    • F05B2240/21Rotors for wind turbines
    • F05B2240/211Rotors for wind turbines with vertical axis
    • F05B2240/215Rotors for wind turbines with vertical axis of the panemone or "vehicle ventilator" type
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F05INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
    • F05BINDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
    • F05B2270/00Control
    • F05B2270/10Purpose of the control system
    • F05B2270/101Purpose of the control system to control rotational speed (n)
    • F05B2270/1011Purpose of the control system to control rotational speed (n) to prevent overspeed
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy
    • Y02E10/72Wind turbines with rotation axis in wind direction
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy
    • Y02E10/74Wind turbines with rotation axis perpendicular to the wind direction

Definitions

  • the present invention relates to a wind power generation device using natural energy. More specifically, the present invention relates to a wind turbine protection device in a strong wind. Background art
  • a variable pitch wind power generation device in which a pitch of a rotor blade is changed according to a wind pressure applied to the windmill is known.
  • wind turbines suspended from a pivot in accordance with the wind pressure received by the wind turbine, and a suspended fixed-pitch lateral displacement wind power generator in which the generator swings.
  • One of these methods uses a direction plate and an output adjustment spring attached to it to displace the windmill speed according to the wind pressure so that almost constant wind is applied to the windmill regardless of the wind speed. It is to let.
  • the wind turbines are displaced just beside the direction of the wind to maintain the position with the least resistance to protect the wind turbine.
  • the wind turbine is a thermodynamical generator
  • a windmill that rotates by catching the natural wind A wind power generator having a storage battery that converts and stores energy into energy, a centrifugal impeller provided coaxially with a rotation axis of the wind turbine, and the centrifugal impeller has a casing that does not catch natural wind. Is formed. Brief Description of Drawings
  • FIG. 1 is a perspective view of the overall outline of a wind turbine generator according to one embodiment of the present invention.
  • FIG. 2 is a perspective view of a fan component of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 3A is a front view of a wind turbine generator according to one embodiment of the present invention.
  • FIG. 3B is a partial cross-sectional view of the multi-blade impeller in front of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 3C is a partial cross-sectional view of the windmill in front of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 4 is a diagram showing a characteristic table of the natural wind speed and the rotation speed of the windmill and the fan of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 5 is a general perspective view of a propeller fan windmill of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 6 is a diagram showing a cooling part of the bearing device of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 7 is a diagram showing a configuration portion of a tongue portion of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 8 is an overall front view of the exhaust heat ventilation passage of the wind turbine generator according to one embodiment of the present invention.
  • BEST MODE FOR CARRYING OUT THE INVENTION the wind speed of natural wind is strong. For example, when the wind speed during a typhoon is 60 mZs, the windmill rotates at high speed due to strong wind. As a result, the strength of the wind turbine blades repeats mechanical vibration and pulsation at high speeds, resulting in blade material deterioration and cracking. Finally, there is a problem that the blade may be damaged if the internal stress of the material exceeds the breaking point.
  • Such a conventional method has a problem that the structure is complicated, the equipment cost is high, and the complicated structure requires a large number of man-hours, such as requiring regular maintenance to secure functions.
  • the electromagnetic brake is applied to brake the battery, if there is a failure in the battery, there is also a problem with certainty that the wind turbine cannot be stopped.
  • the present invention is to solve such a conventional problem, and an object of the present invention is to provide a simple, reliable and inexpensive wind turbine protection device having a long maintenance cycle.
  • FIG. 1 is a perspective view of the overall outline of a wind turbine generator according to one embodiment of the present invention.
  • FIG. 2 is a perspective view of a fan component of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 3A shows the correctness of a wind power generator according to one embodiment of the present invention.
  • FIG. 3B is a partial cross-sectional view of the multi-blade impeller in front of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 3C is a partial cross-sectional view of a windmill in front of a wind turbine generator according to one embodiment of the present invention.
  • FIG. 4 is a characteristic table of the natural wind speed and the rotation speed of the windmill and the fan of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 5 is an overall schematic perspective view of a propeller fan windmill of a wind turbine generator according to one embodiment of the present invention.
  • FIG. 6 is a diagram showing a cooling part of a bearing device of a wind turbine generator according to one embodiment of the present invention.
  • FIG. 7 is a diagram showing the configuration of the tongue of the wind turbine generator according to one embodiment of the present invention.
  • FIG. 8 is an overall front view of the exhaust heat ventilation passage of the wind turbine generator according to one embodiment of the present invention.
  • the overall configuration of the wind power generator according to the present embodiment includes a wind turbine 1, a fan 20 for preventing over rotation of the wind turbine 1, a power generator 30 for converting the rotational energy of the wind turbine 1 into electric energy, and a power generator 30.
  • a power storage device 40 for storing the electric power generated by the device 30, an illumination device 50 for lighting using the power stored in the power storage device 40, and the like are provided.
  • the windmill 1, the fan 20, the power generator 30, the power storage device 40, and the lighting device 50 are each held at a predetermined height from the ground so as to be sandwiched between the two poles 2.
  • the pole 2 is installed on the ground by the mounting base 3.
  • the mounting base 3 is installed by a fixture such as an anchor port.
  • the fan casing 21 is formed by a top plate 22, a side plate 23, and a bottom plate 24.
  • the fan 20 has a suction port 10 arranged at the end of the hollow pole 2, and has a suction chamber 11 and an orifice 12 between the suction port 10 and the top plate 22, a multi-blade type. It is composed of an impeller 4, a tongue 13 and a fan discharge port 14.
  • the multi-blade impeller 4 is coaxially connected to the upper end of the rotating shaft 7 of the wind turbine 1. Note that the multi-blade impeller 4 is an example of a centrifugal impeller, and the centrifugal impeller is not limited to the multi-blade impeller 4.
  • the multi-blade impeller 4 which is a centrifugal impeller, is formed by a fan with casing so as not to catch natural wind.
  • the direction of the wind of the blades of the multi-blade impeller 4 is set in the same direction as the direction in which the wind turbine 1 rotates by receiving the wind, and the lower end of the wind turbine 1 It is connected coaxially with the rotation axis of the machine 5.
  • the wind turbine 1 includes a rotating shaft 7 to which the generator 5 is connected via a joint 6, and a plurality of wind turbine blades 8 arranged around the rotating shaft 7.
  • Bearings 9 are provided on the upper and lower portions of the rotating shaft 7, respectively.
  • the rotating shaft 7 is held by each bearing 9, and the bearing 9 is provided inside the fan 20 and inside the power generator 30, respectively.
  • a lighting device 50 is attached to a lower portion of the power generating device 30, and a lighting device 15 is provided therein.
  • a control box 16 and a lead storage battery 17 are provided inside the power storage device 40, and can be turned on and off automatically by an illuminance sensor.
  • the power storage device 40 has an inspection door 18 for performing maintenance.
  • the power generation device 30 and the lighting device 50 are electrically connected to the power storage device 40 via the control box 16. Electric power generated by the rotational energy of the wind turbine 1 is stored in the power storage device 40, and the power stored in the power storage device 40 is supplied to the lighting device 50, and the lighting 15 is turned on.
  • FIG. 4 shows the characteristics of the present embodiment when the wind turbine 1 is operated alone, when the fan 20 is operated alone, and when the wind turbine 1 and the fan 20 are operated integrally.
  • Figure 4 shows the characteristic table of the natural wind speed and the rotation speed of the windmill and the fan.
  • Curve 101 indicates the operating characteristics of the wind turbine 1 alone, and the rotation speed of the wind turbine 1 increases almost in proportion to the increase in natural wind speed.
  • the curve 102 is the load characteristic of the fan 20 alone, and the rotation speed of the fan 20 increases in proportion to the square of the natural wind speed as the natural wind speed increases. It has increased.
  • a curve 103 which is an operation characteristic when the fan 20 is attached to the wind turbine 1 is an operation characteristic obtained by subtracting the curve 102 from the curve 101, and shows an actual operation state. Prevention of excessive rotation of the wind turbine 1 will be described below for the case of a wind speed of 15 mZs as the upper limit of the normal wind speed and the case of a wind speed of 60 m / s during a t
  • the upper limit of the normal wind speed was set to 15 mZ s.
  • the rated wind speed of the wind power generator was set to 15 m // s, and the generated power at wind speeds exceeding that was 40 m / s.
  • the upper limit is set at 15 m / s because power is not stored in the battery.
  • the curve 103 at the upper limit of the normal wind speed of 15 mZs, the single operation of the wind turbine 1 is approximately 100 rZmin, and when the fan 20 is installed, 8 00 r / min. Therefore, the rotation speed suppression rate at which the rotation speed of the windmill 1 is reduced by providing the fan 20 is 20%.
  • the power storage device 40 can use capacitors in addition to lead-acid batteries. it can.
  • FIG. 5 is an overall schematic perspective view of a propeller fan windmill of the wind turbine generator according to the second embodiment of the present invention.
  • the wind turbine generator uses a horizontal axis wind turbine, and includes a multi-blade impeller 4 coaxially with the rotation axis 7 of the wind turbine 1.
  • the rotating shaft 7 is connected to the generator 5 via a joint 6.
  • the multi-blade impeller 4 is provided inside the fan 20, and has a structure in which the air sucked from the suction port 10 is discharged by the multi-blade impeller 4 to the fan discharge port 14.
  • the multi-blade impeller 4 which rotates coaxially, becomes a resistance and prevents over-rotation. Can be.
  • FIG. 6 is a view of a cooling portion of a bearing device of the wind turbine generator according to the third embodiment of the present invention.
  • the bearing 9 is provided in a ventilation path in a fan 20 provided on an upper part of the wind power generator.
  • FIG. 7 is a diagram of a tongue part of a wind turbine generator according to a fourth embodiment of the present invention.
  • a fan provided at the top of the above-mentioned wind power generator The tongue 13 mounted inside 20 is in the position 13 B where it does not function as a tongue when the normal wind speed is 15 ms or less, and the position 13 A when the strong wind exceeds 15 m / s. Variable structure.
  • the air in the fan 20 is pumped out in the centrifugal direction by the rotation of the multi-blade impeller 4, and is discharged from the fan discharge port 14 to the outside through the tongue 13. .
  • the fan characteristics of the fan 20 can be adjusted, the load up to an arbitrary wind speed range can be reduced, and the decrease in power generation caused by the fan 20 can be reduced.
  • the gap between the multi-blade impeller 4, which is a centrifugal impeller, and the tongue 13 does not have a tongue shape up to the power generation wind speed range of the windmill, and when the power generation wind speed range is reached, the tongue is formed in the casing.
  • a tongue forming means having a shape is formed.
  • FIG. 8 is an overall front view of the exhaust heat ventilation passage of the wind turbine generator according to the fifth embodiment of the present invention.
  • the configuration is the same as that of the first embodiment shown in FIG. 8.
  • the heat generated by the generator 5, the lighting 15, the control box 16 and the lead-acid battery 17 is transferred to the fan installed in the upper part of the wind power generator by using the inside of the two poles 2 as a wind path. It is discharged out of the device by 20. This makes it possible to discharge the heat generated inside the wind turbine to the outside, and to prevent a rise in the temperature inside the turbine, which becomes high.
  • the present invention provides a wind turbine that includes a wind turbine that rotates by capturing natural wind and a storage battery that converts the rotational energy into electric energy and stores the electric energy.
  • a fan having a centrifugal impeller and a casing in which the centrifugal impeller does not catch natural wind Is formed.
  • the fan has the centrifugal impeller, the tongue, and the casing, and the shape of the tongue is changed.
  • the load applied to the windmill is reduced. Adjustment is also possible.
  • the gap between the centrifugal impeller and the tongue does not have a tongue shape up to the power generation wind speed range of the wind turbine, and enters the power generation wind speed range. It was also shown that the casing had a tongue forming means having a tongue shape in the casing. In this way, the fan load is reduced during natural wind speeds where the power generated by the windmill can be used, and the fan load becomes heavy at higher natural wind speeds. Adjustable in the part.
  • the present invention provides the above-described wind turbine generator, wherein the bearing of the wind turbine is arranged in the ventilation path near the discharge port of the centrifugal impeller inside the casing and cooled by the discharge flow of the fan. It also shows that it has a configuration. By doing so, the bearing temperature rises as the fan speed increases, so the bearings also provide a fan air intake path.
  • the rotation direction of the centrifugal impeller is such that the blade direction of the centrifugal impeller is forward with respect to the direction in which the wind turbine rotates by receiving natural wind. It also indicates that the wind turbine and the fan blades are arranged in such a way that the rotation direction is adjusted to prevent reverse load.
  • the material of the centrifugal impeller can be made of aluminum.
  • the centrifugal impeller may be a multi-blade impeller. It is also possible to configure with.
  • the wind power generator of the present invention includes a heating element such as a storage battery, an inverter, a generator and a control device, and a connecting pole for holding the windmill and the heating element.
  • the connecting pole has a hollow structure and has a heating element. Form a communicating ventilation path. Then, it was shown that the ventilation path was connected to the fan inlet, and the heat generated by the heating element was exhausted from the fan. In this way, when exhausting the heat generated from the heating element, it is possible to exhaust from a fan that does not catch natural wind so as not to be affected by the outdoors such as rainwater.
  • the blade of the wind turbine 1 of the present invention may be other than the Savonius and the propeller, and the shape of the blade is not limited as long as it rotates by natural wind.
  • the material of the centrifugal impeller can be made of aluminum. .
  • the protection of the blades of the wind turbine in the case of receiving a natural wind is described.
  • the present invention is also applicable to a device that rotates by a water flow or other fluid.
  • the structure is simplified because the braking is automatically performed by the braking force of the fan. Becomes unnecessary. Further, according to the present invention, it is possible to provide a protection device for a wind turbine having a simple structure, a low facility cost, a small number of regular maintenance operations for securing a braking function, and a long maintenance cycle.
  • the present invention is simple, reliable and inexpensive, and has a long maintenance cycle.
  • a wind power generator having a car protection device is provided.
  • the present invention can be applied to protection of the blades of a windmill when receiving a natural wind, and protection of a windmill or other fluid that is rotated by a fluid.

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Sustainable Development (AREA)
  • Sustainable Energy (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Wind Motors (AREA)
  • Control Of Eletrric Generators (AREA)

Abstract

A wind turbine device where over speeding of a wind wheel with the increase in natural wind is prevented by a load produced by a fan based on a rotational force of the wind wheel. The wind turbine device has a wind wheel rotating while catching natural wind and a storage battery converting rotational energy into electrical energy to store it. The wind turbine device further has a centrifugal blade wheel provided coaxial with the rotation shaft of the wind wheel, and the centrifugal blade wheel has a casing, not catching natural wind, to form a fan.

Description

明細書  Specification
風力発電装置  Wind power generator
技術分野 Technical field
本発明は、 自然エネルギーを利用した風力発電装置に関する。 更に 詳しくは、 強風時の風車の保護装置等に関する。 背景技術  The present invention relates to a wind power generation device using natural energy. More specifically, the present invention relates to a wind turbine protection device in a strong wind. Background art
従来、 この種の強風時の風車の保護装置等に関するものは、 風車が 受ける風圧に応じて回転翼のピッチが変化する可変ピッチ式風力発電 装置が知られている。 また、 風車が受ける風圧に応じて枢軸から吊り 下げられた風車や発電機が揺動変化する懸垂型固定ピッチ方式の側方 変位方式風力発電装置等もある。 この方式の一つは方向板とそれに取 り付けられる出力調整バネを利用して、 風速の如何にかかわらず、 風 車にほぼ一定の風力しか加わらないように風圧に応じて風車回転数を 変位させるものである。 そして暴風時には、 風の方向に対して真横に 変位させて最も抵抗の少ない姿勢にして風車の保護を図っている。 こ のような方式は、 例えば、 特開昭 5 8 - 1 2 8 4 7 1号公報に開示さ れている。 一方、 プロペラ軸のプロペラの前にブレーキディスクを設 けるブレーキディスク方式では、 強風時にブレーキディスクの圧接に より摩擦をおこして制動をおこなわせるものである。 このような方式 は、 例えば、 特開昭 5 6 - 7 7 5 7 3号公報に開示されている。 発明の開示  Conventionally, as a device for protecting a windmill in the case of this kind of strong wind, a variable pitch wind power generation device in which a pitch of a rotor blade is changed according to a wind pressure applied to the windmill is known. There are also wind turbines suspended from a pivot in accordance with the wind pressure received by the wind turbine, and a suspended fixed-pitch lateral displacement wind power generator in which the generator swings. One of these methods uses a direction plate and an output adjustment spring attached to it to displace the windmill speed according to the wind pressure so that almost constant wind is applied to the windmill regardless of the wind speed. It is to let. In the event of a storm, the wind turbines are displaced just beside the direction of the wind to maintain the position with the least resistance to protect the wind turbine. Such a method is disclosed in, for example, Japanese Patent Application Laid-Open No. 58-128471. On the other hand, in the brake disc system, in which a brake disc is installed in front of the propeller on the propeller shaft, friction is generated by pressing the brake disc in strong winds to perform braking. Such a method is disclosed in, for example, Japanese Patent Application Laid-Open No. 56-77573. Disclosure of the invention
風力発電装置は、  The wind turbine is
自然風を捉えて回転する風車と、 その回転エネルギーを電気工 ネルギ一に変換して蓄える蓄電池とを備えた風力発電装置において、 風車の回転軸と同軸に併設された遠心羽根車を具備し、 遠心羽根車は自然風を捉えないケ一シングを有したファンを形 成する。 図面の簡単な説明 A windmill that rotates by catching the natural wind A wind power generator having a storage battery that converts and stores energy into energy, a centrifugal impeller provided coaxially with a rotation axis of the wind turbine, and the centrifugal impeller has a casing that does not catch natural wind. Is formed. Brief Description of Drawings
図 1は本発明の一実施例による風力発電装置の全体概要の斜視図で ある。  FIG. 1 is a perspective view of the overall outline of a wind turbine generator according to one embodiment of the present invention.
図 2は本発明の一実施例による風力発電装置のファン構成部分の斜 視図である。  FIG. 2 is a perspective view of a fan component of the wind turbine generator according to one embodiment of the present invention.
図 3 Aは本発明の一実施例による風力発電装置の正面図である。 図 3 Bは本発明の一実施例による風力発電装置の正面の多翼型羽根 車の部分断面図である。  FIG. 3A is a front view of a wind turbine generator according to one embodiment of the present invention. FIG. 3B is a partial cross-sectional view of the multi-blade impeller in front of the wind turbine generator according to one embodiment of the present invention.
図 3 Cは本発明の一実施例による風力発電装置の正面の風車の部分 断面図である。  FIG. 3C is a partial cross-sectional view of the windmill in front of the wind turbine generator according to one embodiment of the present invention.
図 4は本発明の一実施例による風力発電装置の自然風速と風車およ びファンの回転数の特性表を示す図である。  FIG. 4 is a diagram showing a characteristic table of the natural wind speed and the rotation speed of the windmill and the fan of the wind turbine generator according to one embodiment of the present invention.
図 5は本発明の一実施例の風力発電装置のプロペラファン風車の全 体概要斜視図である。  FIG. 5 is a general perspective view of a propeller fan windmill of the wind turbine generator according to one embodiment of the present invention.
図 6は本発明の一実施例の風力発電装置のベアリング装置の冷却部 分を示す図である。  FIG. 6 is a diagram showing a cooling part of the bearing device of the wind turbine generator according to one embodiment of the present invention.
図 7は本発明の一実施例の風力発電装置の舌部の構成部分を示す図 である。  FIG. 7 is a diagram showing a configuration portion of a tongue portion of the wind turbine generator according to one embodiment of the present invention.
図 8は本発明の一実施例の風力発電装置の排熱通風路の全体正面図 である。 発明を実施するための最良の形態 上述のような従来の風力発電装置では、 自然風の風速が強く、 たと えば台風時の風速 6 0 m Z sのような塲合には、 強風により風車が高 速で回転する。 そのため、 風車の羽根の強度が機械振動および脈動を 高速で繰り返し、 羽根の材質劣化や亀裂が生じる。 そして最終的には 材質の内部応力が破壊点を越えると羽根の破損を招くという課題があ る。 そのため従来から多くの対策がなされ、 強風時に回転翼の ツチ が変化する可変ピッチ式が知られている。 しかし、 この方式は回転伝 達機構等の多くの付帯設備を要する。 また、 懸垂型固定ピッチ方式も あるが、 この方式も回転伝達機構やパネ機構を有し、 多くの付帯設備 を要する。 また、 ブレーキディスク方式ではバネ機構を要し、 その方 式は摩擦力にて制動するため摩擦部の破損等の新たな問題を有したり もする。 また、 羽根が回転しないように電磁ブレーキをかけて制動さ せる方式もある。 FIG. 8 is an overall front view of the exhaust heat ventilation passage of the wind turbine generator according to one embodiment of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION In the above-mentioned conventional wind power generator, the wind speed of natural wind is strong. For example, when the wind speed during a typhoon is 60 mZs, the windmill rotates at high speed due to strong wind. As a result, the strength of the wind turbine blades repeats mechanical vibration and pulsation at high speeds, resulting in blade material deterioration and cracking. Finally, there is a problem that the blade may be damaged if the internal stress of the material exceeds the breaking point. For this reason, many measures have been taken in the past, and a variable pitch type, in which the rotor blades change during strong winds, is known. However, this method requires many auxiliary equipment such as a rotary transmission mechanism. There is also a suspension-type fixed-pitch method, but this method also has a rotation transmission mechanism and a panel mechanism, and requires many additional facilities. In addition, the brake disk method requires a spring mechanism, and this method has a new problem such as breakage of a friction portion because braking is performed by frictional force. There is also a system that applies electromagnetic brakes to prevent the blades from rotating.
このような従来の方式では、 構造が複雑で、 それにより設備費も高 価であり、 複雑な構造のため機能確保に定期メンテを要する等多くの 工数を必要とする課題がある。 また、 電磁ブレーキをかけて制動させ る場合、 バッテリーに故障がある時には、 風車の停止を継続できない 等の確実性にも問題がある。  Such a conventional method has a problem that the structure is complicated, the equipment cost is high, and the complicated structure requires a large number of man-hours, such as requiring regular maintenance to secure functions. In addition, when the electromagnetic brake is applied to brake the battery, if there is a failure in the battery, there is also a problem with certainty that the wind turbine cannot be stopped.
そこで本発明は、 このような従来の課題を解決するものであり、 簡 単で確実かつ安価で、 しかもメンテサイクルの長い風車の保護装置を 提供することを目的としている。  Accordingly, the present invention is to solve such a conventional problem, and an object of the present invention is to provide a simple, reliable and inexpensive wind turbine protection device having a long maintenance cycle.
以下、 本発明の実施例について図面を参照しながら説明する。  Hereinafter, embodiments of the present invention will be described with reference to the drawings.
本発明の風力発電装置を利用した街灯装置の一実施例を図面に基づ いて説明する。  An embodiment of a streetlight device using a wind power generator according to the present invention will be described with reference to the drawings.
図 1は本発明の一実施例による風力発電装置の全体概要の斜視図で ある。 図 2は本発明の一実施例による風力発電装置のファン構成部分 の斜視図である。 図 3 Aは本発明の一実施例による風力発電装置の正 面図である。 図 3 Bは本発明の一実施例による風力発電装置の正面の 多翼型羽根車の部分断面図である。 図 3 Cは本発明の一実施例による 風力発電装置の正面の風車の部分断面図である。 図 4は本発明の一実 施例による風力発電装置の自然風速と風車およびフアンの回転数の特 性表である。 図 5は本発明の一実施例による風力発電装置のプロペラ ファン風車の全体概要斜視図である。 図 6は本発明の一実施例による 風力発電装置のベアリング装置の冷却部分を示す図である。 図 7は本 発明の一実施例による風力発電装置の舌部の構成部分を示す図である。 図 8は本発明の一実施例による風力発電装置の排熱通風路の全体正面 図である。 FIG. 1 is a perspective view of the overall outline of a wind turbine generator according to one embodiment of the present invention. FIG. 2 is a perspective view of a fan component of the wind turbine generator according to one embodiment of the present invention. FIG. 3A shows the correctness of a wind power generator according to one embodiment of the present invention. FIG. FIG. 3B is a partial cross-sectional view of the multi-blade impeller in front of the wind turbine generator according to one embodiment of the present invention. FIG. 3C is a partial cross-sectional view of a windmill in front of a wind turbine generator according to one embodiment of the present invention. FIG. 4 is a characteristic table of the natural wind speed and the rotation speed of the windmill and the fan of the wind turbine generator according to one embodiment of the present invention. FIG. 5 is an overall schematic perspective view of a propeller fan windmill of a wind turbine generator according to one embodiment of the present invention. FIG. 6 is a diagram showing a cooling part of a bearing device of a wind turbine generator according to one embodiment of the present invention. FIG. 7 is a diagram showing the configuration of the tongue of the wind turbine generator according to one embodiment of the present invention. FIG. 8 is an overall front view of the exhaust heat ventilation passage of the wind turbine generator according to one embodiment of the present invention.
(実施例 1 )  (Example 1)
本実施例による風力発電装置の全体構成は、 風車 1 と、 風車 1の過 回転を防止するファン 2 0と、 風車 1の回転エネルギーを電気工ネル ギ一に変換する発電装置 3 0と、 発電装置 3 0により発生する電力を 蓄電する蓄電装置 4 0と、 蓄電装置 4 0に蓄電された電力を用いて点 灯する照明装置 5 0等を備えている。 そして、 風車 1とファン 2 0と 発電装置 3 0と蓄電装置 4 0と照明装置 5 0は、 2本のポール 2の間 に挟み込まれるようにして地上からそれぞれ所定高さに保持されてい る。 またポ一ル 2は、 取付台 3によって地上に設置されている。 この 取付台 3はアンカ一ポルトなどの固定具によつて設置されている。  The overall configuration of the wind power generator according to the present embodiment includes a wind turbine 1, a fan 20 for preventing over rotation of the wind turbine 1, a power generator 30 for converting the rotational energy of the wind turbine 1 into electric energy, and a power generator 30. A power storage device 40 for storing the electric power generated by the device 30, an illumination device 50 for lighting using the power stored in the power storage device 40, and the like are provided. The windmill 1, the fan 20, the power generator 30, the power storage device 40, and the lighting device 50 are each held at a predetermined height from the ground so as to be sandwiched between the two poles 2. The pole 2 is installed on the ground by the mounting base 3. The mounting base 3 is installed by a fixture such as an anchor port.
ファンケ一シング 2 1は、 天板 2 2と側板 2 3と底板 2 4で形成さ れる。 ファン 2 0は、 中空のポール 2の端部に配した吸込口 1 0を持 ち、 吸込口 1 0と天板 2 2との間に有する吸い込みチャンバ一 1 1 と オリフィス 1 2、 多翼型羽根車 4、 舌部 1 3、 ファン吐出口 1 4によ つて構成されている。 また多翼型羽根車 4は、 風車 1の回転軸 7の上 端に同軸に連結されている。 尚、 多翼型羽根車 4は遠心羽根車の一例 であり、 遠心羽根車は多翼型羽根車 4に限られるものではない。 また、 遠心羽根車である多翼型羽根車 4は自然風を捉えないようにケーシン グを有してファンが形成している。 そして、 多翼型羽根車 4の羽根の 風を受ける方向は、 風車 1が風を受けて回転する回転方向と同じ向き に取付けられ、 風車 1の下端は発電装置 3 0内に設けられた発電機 5 の回転軸と同軸に連結されている。 風車 1は、 発電機 5が継手 6を介 して連結される回転軸 7と、 この回転軸 7の周りに配設される複数枚 の風車羽根 8によって構成される。 回転軸 7の上部と下部には、 それ ぞれベアリング 9が設けられている。 それぞれのベアリング 9によつ て回転軸 7は保持されており、 ベアリング 9はファン 2 0の内部、 お よび発電装置 3 0の内部にそれぞれ設けられている。 The fan casing 21 is formed by a top plate 22, a side plate 23, and a bottom plate 24. The fan 20 has a suction port 10 arranged at the end of the hollow pole 2, and has a suction chamber 11 and an orifice 12 between the suction port 10 and the top plate 22, a multi-blade type. It is composed of an impeller 4, a tongue 13 and a fan discharge port 14. The multi-blade impeller 4 is coaxially connected to the upper end of the rotating shaft 7 of the wind turbine 1. Note that the multi-blade impeller 4 is an example of a centrifugal impeller, and the centrifugal impeller is not limited to the multi-blade impeller 4. Also, The multi-blade impeller 4, which is a centrifugal impeller, is formed by a fan with casing so as not to catch natural wind. The direction of the wind of the blades of the multi-blade impeller 4 is set in the same direction as the direction in which the wind turbine 1 rotates by receiving the wind, and the lower end of the wind turbine 1 It is connected coaxially with the rotation axis of the machine 5. The wind turbine 1 includes a rotating shaft 7 to which the generator 5 is connected via a joint 6, and a plurality of wind turbine blades 8 arranged around the rotating shaft 7. Bearings 9 are provided on the upper and lower portions of the rotating shaft 7, respectively. The rotating shaft 7 is held by each bearing 9, and the bearing 9 is provided inside the fan 20 and inside the power generator 30, respectively.
発電装置 3 0の下部には、 照明装置 5 0が取付けられ、 内部に照明 1 5が備えられている。  A lighting device 50 is attached to a lower portion of the power generating device 30, and a lighting device 15 is provided therein.
蓄電装置 4 0の内部には、 制御ボックス 1 6および鉛蓄電池 1 7が 設けられ、 照度センサ一によって自動点灯、 消灯を行うことができる。 また、 蓄電装置 4 0はメンテナンスを行うための点検扉 1 8を備えて いる。  A control box 16 and a lead storage battery 17 are provided inside the power storage device 40, and can be turned on and off automatically by an illuminance sensor. The power storage device 40 has an inspection door 18 for performing maintenance.
発電装置 3 0と照明装置 5 0とは、 制御ボックス 1 6を介して蓄電 装置 4 0と電気的に接続されている。 風車 1の回転エネルギーにより 発生する電力は蓄電装置 4 0に蓄電され、 この蓄電装置 4 0に蓄電さ れた電力は照明装置 5 0に供給されて、 照明 1 5は点灯する。  The power generation device 30 and the lighting device 50 are electrically connected to the power storage device 40 via the control box 16. Electric power generated by the rotational energy of the wind turbine 1 is stored in the power storage device 40, and the power stored in the power storage device 40 is supplied to the lighting device 50, and the lighting 15 is turned on.
図 4は、 本実施例において、 風車 1を単体で運転した場合、 ファン 2 0を単体で運転した場合と、 風車 1とファン 2 0を一体にして運転 した場合のそれぞれの特性を示す。 図 4では、 自然風速と風車および ファンの回転数の特性表に示す。 曲線 1 0 1は風車 1単体での運転特 性であり、 自然風速の増加にほぼ比例して風車 1の回転数が増加して いる。 また、 曲線 1 0 2はファン 2 0単体での負荷特性であり、 自然 風速の増加に応じてファン 2 0の回転数は自然風速の 2乗に比例して 増加している。 ここで、 風車 1にファン 2 0を取付けた場合の運転特 性である曲線 1 0 3は、 曲線 1 0 1から曲線 1 0 2を差し引いた運転 特性であり、 実際の運転状態を示す。 そして、 通常風速の上限値とし た風速 1 5 m Z sの場合と、 台風時の風速 6 0 m/ sの場合について 風車 1の過回転防止を以下に説明する。 FIG. 4 shows the characteristics of the present embodiment when the wind turbine 1 is operated alone, when the fan 20 is operated alone, and when the wind turbine 1 and the fan 20 are operated integrally. Figure 4 shows the characteristic table of the natural wind speed and the rotation speed of the windmill and the fan. Curve 101 indicates the operating characteristics of the wind turbine 1 alone, and the rotation speed of the wind turbine 1 increases almost in proportion to the increase in natural wind speed. The curve 102 is the load characteristic of the fan 20 alone, and the rotation speed of the fan 20 increases in proportion to the square of the natural wind speed as the natural wind speed increases. It has increased. Here, a curve 103 which is an operation characteristic when the fan 20 is attached to the wind turbine 1 is an operation characteristic obtained by subtracting the curve 102 from the curve 101, and shows an actual operation state. Prevention of excessive rotation of the wind turbine 1 will be described below for the case of a wind speed of 15 mZs as the upper limit of the normal wind speed and the case of a wind speed of 60 m / s during a typhoon.
なお、 通常風速の上限値を 1 5 m Z s としたのは風力発電装置の定 格風速を 1 5 m// s と設定して、 それを超える風速時の発電電力は蓄 電装置 4 0に蓄電しないため、 上限値を 1 5 m / s としている。 ここ で、 曲線 1 0 3に示したように 1 5 m Z sの通常風速の上限時におい て風車 1の単体運転は約 1 0 0 0 r Z m i nで、 ファン 2 0を取付け た場合は約 8 0 0 r / m i nである。 従って、 ファン 2 0を設けたこ とによる風車 1の回転数が減少する回転数抑制率は 2 0 %である。 そ れに対し、 台風時の風速 6 0 m Z sには風車 1の単体運転は約 4 4 0 0 r Zm i nで、 ファン 2 0を取付けた場合は約 2 1 5 0 r / i n である。 従って、 回転数抑制率が 5 1 %となり回転数抑制率が大きく 減少している。 これは風車 1の特性は風速に比例して回転数が増加す るが、 ファン 2 0の特性は風速の増加に対し 2乗で回転数が増加する ためである。 結果として、 風車 1とファン 2 0を同軸で接続した場合 は、 ファン 2 0が低い風速域においては風車 1の回転の抑制が少なく、 高い風速域においては風車 1の回転を抑制する。 このことから、 自然 風速が強風になるほど風車 1の回転数を大きく抑制して過回転になる ことを防止している。  The upper limit of the normal wind speed was set to 15 mZ s.The rated wind speed of the wind power generator was set to 15 m // s, and the generated power at wind speeds exceeding that was 40 m / s. The upper limit is set at 15 m / s because power is not stored in the battery. Here, as shown by the curve 103, at the upper limit of the normal wind speed of 15 mZs, the single operation of the wind turbine 1 is approximately 100 rZmin, and when the fan 20 is installed, 8 00 r / min. Therefore, the rotation speed suppression rate at which the rotation speed of the windmill 1 is reduced by providing the fan 20 is 20%. On the other hand, when the wind speed during a typhoon is 60 mZ s, the single operation of the wind turbine 1 is about 4400 rZin, and when the fan 20 is installed, it is about 2150 r / in. . Therefore, the rotation speed suppression rate became 51%, and the rotation speed suppression rate was greatly reduced. This is because the characteristics of the wind turbine 1 increase the rotation speed in proportion to the wind speed, whereas the characteristics of the fan 20 increase the rotation speed by the square of the increase in the wind speed. As a result, when the windmill 1 and the fan 20 are coaxially connected, the rotation of the windmill 1 is less suppressed in the low wind speed range of the fan 20 and is suppressed in the high wind speed range. For this reason, as the natural wind speed becomes stronger, the rotation speed of the wind turbine 1 is greatly suppressed to prevent the wind turbine 1 from becoming over-rotated.
以下、 本発明の風力発電装置の他の実施例を図面に基づいて説明す る。 なお、 上記実施例と同一機能を有する構成には同一符号を付して 説明を省略する。 また下記の実施例で図示しないその他の構成につい ては上記実施例と同様の構成をしている。  Hereinafter, another embodiment of the wind turbine generator of the present invention will be described with reference to the drawings. The components having the same functions as those of the above-described embodiment are denoted by the same reference numerals, and description thereof will be omitted. In addition, other configurations not shown in the following embodiments have the same configurations as the above-described embodiments.
なお、 蓄電装置 4 0は鉛蓄電池の他、 コンデンサも利用することが できる。 The power storage device 40 can use capacitors in addition to lead-acid batteries. it can.
(実施例 2 )  (Example 2)
図 5は本発明第二の実施例の風力発電装置のプロペラファン風車の 全体概要斜視図である。  FIG. 5 is an overall schematic perspective view of a propeller fan windmill of the wind turbine generator according to the second embodiment of the present invention.
図 5に示されるように、 本実施例による風力発電装置は、 水平軸風 車を使用したものであり、 風車 1の回転軸 7と同軸に多翼型羽根車 4 を備える。 回転軸 7は継手 6を介し発電機 5に接続される。 また、 多 翼型羽根車 4はファン 2 0の内部に設けられ、 吸込口 1 0から吸込ん だ空気を多翼型羽根車 4で搔き出しファン吐出口 1 4に排気する構造 である。  As shown in FIG. 5, the wind turbine generator according to the present embodiment uses a horizontal axis wind turbine, and includes a multi-blade impeller 4 coaxially with the rotation axis 7 of the wind turbine 1. The rotating shaft 7 is connected to the generator 5 via a joint 6. Further, the multi-blade impeller 4 is provided inside the fan 20, and has a structure in which the air sucked from the suction port 10 is discharged by the multi-blade impeller 4 to the fan discharge port 14.
図 1に示している実施例と同様に、 本実施例においても風車 1は強 風を受けた場合に、 同軸で回転する多翼型羽根車 4が抵抗となり過回 転になることを防ぐことができる。  Similarly to the embodiment shown in FIG. 1, in this embodiment, when the wind turbine 1 receives a strong wind, the multi-blade impeller 4, which rotates coaxially, becomes a resistance and prevents over-rotation. Can be.
(実施例 3 )  (Example 3)
また、 図 6は本発明第三の実施例の風力発電装置のベアリング装置 の冷却部分の図である。  FIG. 6 is a view of a cooling portion of a bearing device of the wind turbine generator according to the third embodiment of the present invention.
図 6に示すように、 風力発電装置の上部に備えられたファン 2 0内 の通風路にベアリング 9を設ける構造である。  As shown in FIG. 6, the bearing 9 is provided in a ventilation path in a fan 20 provided on an upper part of the wind power generator.
この構成において、 2本のポール 2内を通風路として吸込チャンバ — 1 1に蓄えられた空気はオリフィス 1 2を介して多翼型羽根車 4で 外部に排出される。  In this configuration, the air stored in the suction chamber 11 as a ventilation path in the two poles 2 is discharged to the outside by the multi-blade impeller 4 through the orifice 12.
それにより、 ベアリング 9に吐出流を当てることが可能となり、 温 度上昇を防ぐことができる。  This makes it possible to apply the discharge flow to the bearing 9 and prevent a rise in temperature.
(実施例 4 )  (Example 4)
また、 図 7は本発明第四の実施例の風力発電装置の舌部の構成部分 の図である。  FIG. 7 is a diagram of a tongue part of a wind turbine generator according to a fourth embodiment of the present invention.
図 7に示すように、 上述の風力発電装置の上部に設けられたファン 2 0内に取付けられた舌部 1 3は、 1 5 m s以下の通常風速時には 舌部として機能しない位置 1 3 Bの状態になり、 また、 1 5 m/ sを 超える強風時には位置 1 3 Aの状態になる可変構造としている。 As shown in Fig. 7, a fan provided at the top of the above-mentioned wind power generator The tongue 13 mounted inside 20 is in the position 13 B where it does not function as a tongue when the normal wind speed is 15 ms or less, and the position 13 A when the strong wind exceeds 15 m / s. Variable structure.
この構成において、 ファン 2 0内の空気は多翼型羽根車 4が回転す ることで遠心方向に搔き出され、 舌部 1 3を介してファン吐出口 1 4 から装置外に排出される。  In this configuration, the air in the fan 20 is pumped out in the centrifugal direction by the rotation of the multi-blade impeller 4, and is discharged from the fan discharge port 14 to the outside through the tongue 13. .
この舌部 1 3を可変することで、 ファン 2 0のファン特性の調整が 可能となり、 任意の風速域までの負荷を減らせ、 ファン 2 0により生 ずる発電減少を低減することができる。  By changing the tongue 13, the fan characteristics of the fan 20 can be adjusted, the load up to an arbitrary wind speed range can be reduced, and the decrease in power generation caused by the fan 20 can be reduced.
このように、 遠心羽根車である多翼型羽根車 4と舌部 1 3の間隙は、 風車の発電風速域までは舌部形状をなさず、 発電風速域に入るとケー シング内に舌部形状をなす舌部形成手段を形成している。  Thus, the gap between the multi-blade impeller 4, which is a centrifugal impeller, and the tongue 13 does not have a tongue shape up to the power generation wind speed range of the windmill, and when the power generation wind speed range is reached, the tongue is formed in the casing. A tongue forming means having a shape is formed.
(実施例 5 )  (Example 5)
また、 図 8は本発明第五の実施例の風力発電装置の排熱通風路の全 体正面図である。  FIG. 8 is an overall front view of the exhaust heat ventilation passage of the wind turbine generator according to the fifth embodiment of the present invention.
図 8に示すように、 構成は実施例 1の図 1に示す実施例と同様であ る。  As shown in FIG. 8, the configuration is the same as that of the first embodiment shown in FIG.
上記構成において、 発電機 5や照明 1 5や制御ボックス 1 6ゃ鉛蓄 電池 1 7で発生した熱は、 2本のポール 2の内部を逋風路として風力 発電装置の上部に設けられたファン 2 0により装置外に排出される。 それにより、 風力発電装置の内部で発生した熱量を屋外に排出する ことが可能となり、 高温になる装置内部の温度上昇を防ぐことができ る。  In the above configuration, the heat generated by the generator 5, the lighting 15, the control box 16 and the lead-acid battery 17 is transferred to the fan installed in the upper part of the wind power generator by using the inside of the two poles 2 as a wind path. It is discharged out of the device by 20. This makes it possible to discharge the heat generated inside the wind turbine to the outside, and to prevent a rise in the temperature inside the turbine, which becomes high.
以上に説明した通り、 本発明は、 自然風を捉えて回転する風車と、 その回転エネルギーを電気エネルギーに変換して蓄える蓄電池とを備 えた風力発電装置において、 風車の回転軸と同軸に併設した遠心羽根 車と、 前記遠心羽根車が自然風を捉えないケ一シングを有したファン を形成して構成されたものである。 それにより、 前記風車の回転力に 基づき前記ファンで生成された負荷によって、 自然風の増加に伴う前 記風車の過回転を防止している。 As described above, the present invention provides a wind turbine that includes a wind turbine that rotates by capturing natural wind and a storage battery that converts the rotational energy into electric energy and stores the electric energy. A fan having a centrifugal impeller and a casing in which the centrifugal impeller does not catch natural wind Is formed. Thus, the load generated by the fan based on the rotational force of the windmill prevents overwind of the windmill due to an increase in natural wind.
また、 以上に説明した通り、 本発明は、 ファンは遠心羽根車と舌部 とケ一シングを有し、 舌部の形状が変化する構成として、 ファン特性 を変化させて、 風車にかける負荷を調節することも可能である。  Further, as described above, according to the present invention, the fan has the centrifugal impeller, the tongue, and the casing, and the shape of the tongue is changed. By changing the fan characteristics, the load applied to the windmill is reduced. Adjustment is also possible.
また、 以上に説明した通り、 本発明は、 上述の風力発電装置におい て、 遠心羽根車と舌部の間隙は、 風車の発電風速域までは舌部形状を なさず、 発電風速域に入るとケーシング内に舌部形状をなす舌部形成 手段を有する構成であることも示した。 こうすることで、 風車によつ て発電した電力を活用できる自然風速の間はファンの負荷が軽く、 そ れ以上の自然風速の場合はフアンの負荷が重くなるように、 ファン特 性を舌部で調節できる。  Further, as described above, according to the present invention, in the above-described wind power generator, the gap between the centrifugal impeller and the tongue does not have a tongue shape up to the power generation wind speed range of the wind turbine, and enters the power generation wind speed range. It was also shown that the casing had a tongue forming means having a tongue shape in the casing. In this way, the fan load is reduced during natural wind speeds where the power generated by the windmill can be used, and the fan load becomes heavy at higher natural wind speeds. Adjustable in the part.
また、 以上に説明した通り、 本発明は、 上述の風力発電装置におい て、 ケーシングの内部に遠心羽根車の吐出口近傍の通風路に風車のベ ァリングを配置してファンの吐出流によって冷却する構成とすること も示している。 こうすることで、 ファンの回転数が上がるとべアリン グの温度も上昇するため、 ベアリングにファンの吸気風路を設けて兼 用している。  Further, as described above, the present invention provides the above-described wind turbine generator, wherein the bearing of the wind turbine is arranged in the ventilation path near the discharge port of the centrifugal impeller inside the casing and cooled by the discharge flow of the fan. It also shows that it has a configuration. By doing so, the bearing temperature rises as the fan speed increases, so the bearings also provide a fan air intake path.
また、 以上に説明した通り、 本発明は、 上述の風力発電装置におい て、 遠心羽根車の回転方向は、 風車が自然風を受けて回転する方向に 対して、 遠心羽根車のブレード方向が前向きに配設して構成されるこ とも示し、 風車とファンの羽根の回転方向を調節して逆負荷にならな いように配設することも示している。  Further, as described above, in the above-described wind turbine generator, the rotation direction of the centrifugal impeller is such that the blade direction of the centrifugal impeller is forward with respect to the direction in which the wind turbine rotates by receiving natural wind. It also indicates that the wind turbine and the fan blades are arranged in such a way that the rotation direction is adjusted to prevent reverse load.
また、 本発明は、 上記風力発電装置において、 遠心羽根車の材質を アルミニウムで構成することも可能である。  Further, according to the present invention, in the above-described wind turbine generator, the material of the centrifugal impeller can be made of aluminum.
また、 本発明の風力発電装置において、 遠心羽根車を多翼型羽根車 にして構成することも可能である。 In the wind turbine generator of the present invention, the centrifugal impeller may be a multi-blade impeller. It is also possible to configure with.
また、 本発明の風力発電装置は、 蓄電池やインバー夕や発電機およ び制御機器等の発熱体と、 風車および発熱体を保持する連結ポールと を備え、 連結ポールは中空構造で発熱体を連通する通風路を形成する。 そうして、 通風路をファンの吸込口に連結し、 発熱体の発熱をファン から排気する構成とすることも示した。 こうすることで、 発熱体から 発生する熱を排気するに際し、 雨水進入等の屋外の影響を受けないよ うに、 自然風を捉えないファンから排気できる。  Further, the wind power generator of the present invention includes a heating element such as a storage battery, an inverter, a generator and a control device, and a connecting pole for holding the windmill and the heating element. The connecting pole has a hollow structure and has a heating element. Form a communicating ventilation path. Then, it was shown that the ventilation path was connected to the fan inlet, and the heat generated by the heating element was exhausted from the fan. In this way, when exhausting the heat generated from the heating element, it is possible to exhaust from a fan that does not catch natural wind so as not to be affected by the outdoors such as rainwater.
ところで、 本発明の風車 1の羽根はサボ二ウス、 プロペラ以外でも よく、 自然風で回転するものならば羽根の形状にこだわらない。  By the way, the blade of the wind turbine 1 of the present invention may be other than the Savonius and the propeller, and the shape of the blade is not limited as long as it rotates by natural wind.
なお、 遠心羽根車の材質はアルミニウムで構成することが可能であ る。。  The material of the centrifugal impeller can be made of aluminum. .
また、 以上の説明では自然風を受けた場合の風車の羽根の保護に関 するものとしたが、 本発明は水流またはその他の流体により回転する ものにも適用できる。  Further, in the above description, the protection of the blades of the wind turbine in the case of receiving a natural wind is described. However, the present invention is also applicable to a device that rotates by a water flow or other fluid.
以上の説明から明らかなように、 本発明によれば、 台風等の強風時 において、 ファンのブレーキ力により自動的に制動するため構造が簡 素化され、 風車の保護に対して複雑な付帯設備が不要となる。 また、 本発明によれば、 簡単な構造により設備費も安価で、 制動機能を確保 するための定期メンテ回数を少なく、 しかもメンテサイクルの長い風 車の保護装置を提供できるものである。  As is apparent from the above description, according to the present invention, in the case of a strong wind such as a typhoon, the structure is simplified because the braking is automatically performed by the braking force of the fan. Becomes unnecessary. Further, according to the present invention, it is possible to provide a protection device for a wind turbine having a simple structure, a low facility cost, a small number of regular maintenance operations for securing a braking function, and a long maintenance cycle.
また、 ファンのファン特性を利用して、 蓄電池、 発電機、 インバー 夕、 制御機器等から発生する発熱を支持パイプの中空構造と連結して 排気する効果も有している。 産業上の利用可能性  It also has the effect of utilizing the fan characteristics of the fan to connect the hollow structure of the support pipe to the heat generated by the storage battery, generator, inverter, control equipment, etc., and exhausting it. Industrial applicability
本発明は、 簡単で確実かつ安価で、 しかもメンテサイクルの長い風 車の保護装置を有する風力発電装置を提供する。 本発明は、 自然風を 受けた場合の風車の羽根の保護や、 水流またはその他の流体により回 転するものの保護にも適用できる。 The present invention is simple, reliable and inexpensive, and has a long maintenance cycle. A wind power generator having a car protection device is provided. The present invention can be applied to protection of the blades of a windmill when receiving a natural wind, and protection of a windmill or other fluid that is rotated by a fluid.

Claims

請求の範囲 The scope of the claims
1 . 自然風を捉えて回転する風車と、 その回転エネルギーを電気工 ネルギ一に変換して蓄える蓄電池とを備えた風力発電装置において、 前記風車の回転軸と同軸に併設された遠心羽根車を具備し、 前記遠心羽根車は自然風を捉えないケ一シングを有したファン を形成する風力発電装置。 1. In a wind turbine that has a wind turbine that catches natural wind and rotates, and a storage battery that converts the rotation energy into electric energy and stores it, a centrifugal impeller provided coaxially with the rotation axis of the wind turbine is used. A wind power generator, wherein the centrifugal impeller forms a fan having casing that does not catch natural wind.
2 . 前記ファンは、 前記遠心羽根車と舌部とケーシングを有し、 前記舌部の形状が変化する請求項 1記載の風力発電装置。 2. The wind power generator according to claim 1, wherein the fan has the centrifugal impeller, a tongue, and a casing, and the shape of the tongue changes.
3 . 前記遠心羽根車と前記舌部の間隙は、 風車の発電風速域までは 舌部形状をなさず、 発電風速域に入るとケーシング内に舌部形状をな す舌部形成手段を有する請求項 2記載の風力発電装置。 3. The gap between the centrifugal impeller and the tongue portion does not have a tongue shape up to the power generation wind speed region of the wind turbine, and has a tongue portion forming means in the casing when entering the power generation wind speed region. Item 2. The wind power generator according to Item 2.
4 . 前記ケーシングの内部に位置し、 前記遠心羽根車の吐出口近傍 の通風路に前記風車のベアリングが配置され、 4. The bearing of the windmill is disposed in the ventilation passage near the discharge port of the centrifugal impeller, which is located inside the casing,
前記べァリングは前記ファンの吐出流によって冷却される請求 項 1記載の風力発電装置。  The wind power generator according to claim 1, wherein the bearing is cooled by a discharge flow of the fan.
5 . 前記遠心羽根車の回転方向は、 前記風車が自然風を受けて回転 する方向に対して、 前記遠心羽根車のブレード方向が前向きに配設さ れる請求項 1記載の風力発電装置。 5. The wind turbine generator according to claim 1, wherein the direction of rotation of the centrifugal impeller is such that a blade direction of the centrifugal impeller is disposed forward with respect to a direction in which the windmill rotates by receiving natural wind.
6 . 前記遠心羽根車の材質はアルミニウムである請求項 1記載の風 力発電装置。 6. The wind power generator according to claim 1, wherein a material of the centrifugal impeller is aluminum.
7 · 前記遠心羽根車は多翼型羽根車である請求項 1から請求項 6の いずれかに記載の風力発電装置。 7. The wind turbine generator according to any one of claims 1 to 6, wherein the centrifugal impeller is a multi-blade impeller.
8 . 前記蓄電池、 インバータ、 発電機および制御機器等の発熱体と、 前記風車および前記発熱体を保持する連結ポールを具備し、 8. A heating element such as the storage battery, the inverter, the generator and the control device, and a connection pole for holding the windmill and the heating element,
前記連結ポールは中空構造で前記発熱体を連通する通風路を形 成し、 前記通風路を前記ファンの吸込口に連結し、 前期発熱体の発熱 を前記ファンから排気する構成である請求項 1記載の風力発電装置。  2. The connecting pole has a hollow structure, forms a ventilation path communicating with the heating element, connects the ventilation path to a suction port of the fan, and exhausts heat generated by the heating element from the fan. A wind power generator as described.
PCT/JP2004/019816 2003-12-26 2004-12-27 Wind turbine device WO2005064153A1 (en)

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