CN102684286A - Single-tube tower-type wind-light complementary base station - Google Patents

Single-tube tower-type wind-light complementary base station Download PDF

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Publication number
CN102684286A
CN102684286A CN2012101644721A CN201210164472A CN102684286A CN 102684286 A CN102684286 A CN 102684286A CN 2012101644721 A CN2012101644721 A CN 2012101644721A CN 201210164472 A CN201210164472 A CN 201210164472A CN 102684286 A CN102684286 A CN 102684286A
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China
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wind
tower
base station
solar panel
driven generator
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CN2012101644721A
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Chinese (zh)
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CN102684286B (en
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徐华刚
江丽霞
陈建军
韩涛
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电联工程技术股份有限公司
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    • 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
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/30Wind power
    • 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
    • Y02E70/00Other energy conversion or management systems reducing GHG emissions
    • Y02E70/30Systems combining energy storage with energy generation of non-fossil origin

Abstract

The invention discloses a single-tube tower-type wind-light complementary base station, which comprises a wind driven generator, a wind driven generator controller, a solar panel, a solar panel controller, a wind-light-electricity complementary controller, an AC/DC (AC/Direct Current) converter, a fuel generator, an inverter, a DC converter, a dissipative load and a storage battery. The wind driven generator is connected with a wind-light-electricity complementary controller through the wind driven generator controller; the solar panel is connected with the wind-light-electricity complementary controller through the solar panel controller; the wind-light-electricity complementary controller is connected with the storage battery; electric energy converted and obtained by the wind driven generator and the solar panel is input into the storage battery; the dissipative load comprises a DC load and an AC load; the base station is a single-tube tower-type base station; the wind driven generator is fixed on the roof of a single-tube tower; the solar panel is fixed on the body of the single-tube tower; a plurality of solar panels are fixed on the body of the tower; and the wind-light-electricity complementary controller selectively controls power supplies. The single-tube tower-type wind-light complementary base station disclosed by the invention has the advantages of guarantee of stable power supply and low electricity cost without polluting the environment.

Description

The tower wind light mutual complementing of single tube base station

Technical field

The present invention relates to a kind of communication base station.

Background technology

Specially mentioned in the work thinking of energy-saving and emission-reduction according to country and to have applied green energy resource, various places ensure not enough area at ABUNDANT NATUREAL RESOURSES such as solar energy, wind energy, water ability and conventional electric power, strengthen the construction and the application dynamics of new forms of energy.Simultaneously, hold the opportune time that the solar energy price descends, enlarge construction scale from net type solar electric power supply system and light-electricity complementary electric power system.

The fast development of communication requires to have the wider network coverage, also requires to provide reliable, stable power supply simultaneously.But China is vast in territory, with a varied topography, and electrical network covers the supply of electric power requirement that can not satisfy communication equipment far away, even the area that covers much also is rural power grids or small power station's supply power mode, supply of electric power is very unstable, and the maintenance cost of circuit is very high.Therefore the areas without electricity communication power supply generally adopts diesel engine, but the long-time running of diesel engine and maintenance cost are all high, and diesel oil generation carbon dioxide pollution, is very big challenges so how to ensure these base station electricity consumptions that are in no electrical network covering area.If supply the base station electricity consumption through extending civil power, then electric cost is quite huge.

Summary of the invention

Much be arranged on no electrical network overlay area for overcoming existing communication base station; The cost of supply of electric power is high; And cause the shortcoming of environmental pollution, the invention provides and a kind ofly can ensure stable supply of electric power, the electric cost tower wind light mutual complementing of single tube base station low and free from environmental pollution.

The tower wind light mutual complementing of single tube base station comprises wind-driven generator, wind power generation machine controller, solar panel, solar panel controller, the electric complementary controller of scene, AC/DC transducer, fuel electric generator, inverter, DC converter, power consumption load and storage battery; Wind-driven generator is connected with the electric complementary controller of scene through the wind power generation machine controller; Solar panel is connected with the electric complementary controller of scene through the solar panel controller; The electric complementary controller of scene connects storage battery, and the electric energy that wind-driven generator and solar panel conversion are obtained is all imported in the storage battery;

The power consumption load comprises DC load and AC load;

It is characterized in that: described base station is the tower base station of single tube, and wind-driven generator is fixed in the cat head of single-pipe tower, and solar panel is fixed in the body of the tower of single-pipe tower, is fixed with a plurality of solar panels on the body of the tower;

Wind-driven generator and fuel electric generator the AC/DC transducer through separately respectively are connected with the electric complementary controller of scene; Solar panel is connected with the electric complementary controller of scene through the DC/DC transducer, and DC load, AC load and storage battery are connected with the input/output terminal of the electric complementary controller of scene respectively; Be provided with the DC/AC transducer between electric complementary controller of scene and the AC load;

The electric complementary controller of scene optionally is communicated with storage battery and solar panel or wind-driven generator or fuel electric generator;

The method that the electric complementary controller of scene is selected may further comprise the steps:

1), judges the current output voltage U of the electric complementary controller of scene 1Whether less than the upper voltage limit U of wind-driven generator 3max, then judge the current voltage U of storage battery if not 4Whether less than storage battery upper voltage limit U 4maxIf then open storage battery to charge in batteries; Then close storage battery, the electric complementary controller connection energy consumption load earial drainage of scene if not;

2), if the current output voltage U of the electric complementary controller of scene 1Upper voltage limit U less than wind-driven generator 3max, then judge the current output voltage U of the electric complementary controller of scene 1Whether greater than the lower voltage limit U of wind-driven generator 3min, if not, then start fuel electric generator the base station supplied power;

3), if the current output voltage U of the electric complementary controller of scene 1Be lower voltage limit U greater than wind-driven generator 3min, then judge the current output voltage U of wind-driven generator 3Whether greater than the upper voltage limit U of wind-driven generator 3maxIf,, then honourable electric complementary controller connects energy consumption load earial drainage;

4), if the current output voltage U of wind-driven generator 3Upper voltage limit U less than wind-driven generator 3max, then judge if the current output voltage U of wind-driven generator 3Whether less than the lower voltage limit U of wind-driven generator 3min, if not, then starting wind generator system is the base station power supply;

5), if the current output voltage U of wind-driven generator 3Lower voltage limit U less than wind-driven generator 3min, then judge the current output voltage U of solar panel 2Whether ration the power supply above that and press U 2mzxWith lower voltage limit U 2minBetween, if starting solar panel and solar panel controller is the base station power supply; If not, then close solar panel, judge the current voltage U of storage battery 4Whether be in its upper voltage limit U 4maxWith lower voltage limit U 4minBetween, if, then start storage battery the base station is supplied power, if not, then start fuel electric generator the base station is supplied power.

Further, when solar panel started power supply, whether solar panel controller self-checking system had fault, if fault-free is then supplied power to the base station; If fault is arranged, then close solar panel, judge the current voltage U of storage battery 4Whether be in its upper voltage limit U 4maxWith lower voltage limit U 4minBetween, if, then start storage battery the base station is supplied power, if not, then start fuel electric generator the base station is supplied power.

Further, the electric complementary controller of scene is connected with DC load; The complementary controller of scene point is connected with AC load through the DC/AC transducer.

Further, be provided with the power tracking device between wind-driven generator and the AC/DC transducer; Be provided with the power tracking device between solar panel and its DC/DC transducer.

Further, the body of the tower of single-pipe tower is provided with the power line routing hole of wind-driven generator and the generating power line routing hole of solar panel, and the generating power line of wind power generation power line and solar panel all is fixed on body of the tower inside.

Further, solar panel is fixed on the body of the tower through support, and support is fixedly welded on the body of the tower through seamless, and solar panel is fixed on the support through high-strength bolt.

Further, said single tubular tower is common single-pipe tower, golden wheel type view tower, ribbon type single-pipe tower.

Further, the machine room of the tower base station of single tube is the hidden machine room of civil engineering machine room, armor machine room, color steel machine room, polygon column type or artificial hillock type.

The present invention places wind-driven generator and solar panel on one's body the single-pipe tower; The vibrations that cause in the time of when design, will considering the power-driven generator leaf rotation; The windward side of solar panels is to the influence of tower body; Necessary through the proper mechanical structural design analysis, in strict accordance with industry standard and requirement, thus the safe, practical property of guarantee base station system.Simultaneously solar panels place on the body of the tower, and support adopts and seamlessly is welded in body of the tower, adopts high-strength bolt fixed solar board mount, this sound construction, safe, attractive in appearance simultaneously.

Tower body is made overall plans in this invention, and wind-force unit generation, communication support, the multiple action of solar panels carrier, and global design is succinct, generous, combines together with natural environment, has and beautifies effect preferably; Next adopts green energy resource, can realize energy-saving and emission-reduction truly better; Floor space is few, economizes the land resource.

It is higher that the tower wind light mutual complementing of single tube base station is generally built physical features in, do not have building, openr area on every side, can combine together well with naturally.

Beneficial effect of the present invention: the tower wind light mutual complementing of single tube base station is the carrier that integrates wind-force unit generation and the support of communicating by letter, solar panels carrier three big functions; Simple appearance; Compact; Practice thrift construction cost, land resource, and adopt green energy resource fully, can realize the effect of energy-saving and emission-reduction from a plurality of aspects.The base station is except that adopting the MPPT control technology simultaneously; Also adopt PLC system control technology; Can distribute, control the base station energy effectively; Simultaneously can peak efficiency ground be stably the required 48V direct current series power supply in base station the time with wind energy, transform light energy; Can realize the steady fusion and the seamless switching of the alternating current that wind-driven generator alternating current and solar cell alternating current and fuel electric generator send again, when avoiding the long-time floating charge of battery to cause the life-span to shorten effectively, the stability that has improved the entire system generating efficiency and ensured current/voltage.

Description of drawings

Fig. 1 is the structural representation that the present invention adopts golden wheel type single-pipe tower.

Fig. 2 is the structural representation of the solar panels support that adopts of the present invention.

Fig. 3 is the power pack of the present invention system electric structure chart of supplying power.

Fig. 4 is the control program flow chart that the electric complementary controller of scene is selected power supply.

Fig. 5 is the structural representation of base station equipment of the present invention.

Fig. 6 is the sketch map of the support of solar panel.

Embodiment

With reference to accompanying drawing, further specify the present invention:

The tower wind light mutual complementing of single tube base station comprises 7 groups on the electric complementary controller of wind-driven generator 1, wind power generation machine controller, solar panel 33, solar panel 3 controllers, scene 5, AC/DC transducer, fuel electric generator, inverter, DC converter, power consumption load and storage battery; Wind-driven generator 1 is connected with the electric complementary controller 5 of scene through the wind power generation machine controller; Solar panel 3 is connected with the electric complementary controller 5 of scene through solar panel 3 controllers; The electric complementary controller 5 of scene connects storage battery 7, and wind-driven generator 1 electric energy that 3 conversions are obtained with solar panel is all imported in the storage battery 7;

The power consumption load comprises DC load (DC load) and AC load (AC load);

Described base station is the tower base station of single tube, and wind-driven generator 1 is fixed in the cat head of single-pipe tower 2, and solar panel 33 is fixed in the body of the tower of single-pipe tower 2, is fixed with a plurality of solar panels 33 on the body of the tower;

Wind-driven generator 1 and fuel electric generator 4 the AC/DC transducer through separately respectively are connected with the electric complementary controller 5 of scene; Solar panel 3 is connected with the electric complementary controller 5 of scene through the DC/DC transducer, and DC load, AC load and storage battery 7 are connected with the input/output terminal of the electric complementary controller 5 of scene respectively; Be provided with the DC/AC transducer between electric complementary controller 5 of scene and the AC load;

The electric complementary controller 5 of scene optionally with storage battery 7 and solar panel 3 or wind-driven generator 1 perhaps fuel electric generator 4 be communicated with;

The method that the electric complementary controller 5 of scene is selected may further comprise the steps:

1), judges the current output voltage U of the electric complementary controller 5 of scene 1Whether less than the upper voltage limit U of wind-driven generator 1 3max, then judge the current voltage U of storage battery 7 if not 4Whether less than storage battery 7 upper voltage limit U 4maxIf then open 7 chargings of 7 pairs of storage batterys of storage battery; Then close storage battery 7, the electric complementary controller 5 connection energy consumption load earial drainages of scene if not;

2), if the current output voltage U of the electric complementary controller 5 of scene 1Upper voltage limit U less than wind-driven generator 1 3max, then judge the current output voltage U of the electric complementary controller 5 of scene 1Whether greater than the lower voltage limit U of wind-driven generator 1 3min, if not, then start 4 pairs of base station power supplies of fuel electric generator;

3), if the current output voltage U of the electric complementary controller 5 of scene 1Be lower voltage limit U greater than wind-driven generator 1 3min, then judge the current output voltage U of wind-driven generator 1 3Whether greater than the upper voltage limit U of wind-driven generator 1 3maxIf,, then honourable electric complementary controller 5 connects energy consumption load earial drainage;

4), if the current output voltage U of wind-driven generator 1 3Upper voltage limit U less than wind-driven generator 1 3max, then judge if the current output voltage U of wind-driven generator 1 3Whether less than the lower voltage limit U of wind-driven generator 1 3min, if not, then starting wind generator system is the base station power supply;

5), if the current output voltage U of wind-driven generator 1 3Lower voltage limit U less than wind-driven generator 1 3min, then judge the current output voltage U of solar panel 3 2Whether ration the power supply above that and press U 2mzxWith lower voltage limit U 2minBetween, if starting solar panel 3 is the base station power supply with solar panel 3 controllers; If not, then close solar panel 3, judge the current voltage U of storage battery 7 4Whether be in its upper voltage limit U 4maxWith lower voltage limit U 4minBetween, if, then start 7 pairs of base station power supplies of storage battery, if not, then start 4 pairs of base station power supplies of fuel electric generator.

When solar panel 3 started power supply, whether solar panel 3 controller self-checking systems had fault, if fault-free is then supplied power to the base station; If fault is arranged, then close solar panel 3, judge the current voltage U of storage battery 7 4Whether be in its upper voltage limit U 4maxWith lower voltage limit U 4minBetween, if, then start 7 pairs of base station power supplies of storage battery, if not, then start 4 pairs of base station power supplies of fuel electric generator.

With reference to Fig. 3, the electric complementary controller 5 of scene is connected with DC load; The complementary controller of scene point is connected with AC load through the DC/AC transducer.Be provided with the power tracking device between wind-driven generator 1 and the AC/DC transducer; Be provided with the power tracking device between solar panel 3 and its DC/DC transducer.

The body of the tower of single-pipe tower is provided with the power line routing hole of wind-driven generator 1 and the generating power line routing hole of solar panel 3, and the generating power line of wind power generation power line and solar panel 3 all is fixed on body of the tower inside.

Solar panel 3 is fixed on the body of the tower through support, and support is fixedly welded on the body of the tower through seamless, and solar panel 3 is fixed on the support 8 through high-strength bolt.Support 8 comprises the upper rack posts 81 and lower fulcrum bar 82 that is fixed on the body of the tower, and lower fulcrum bar 82 is an expansion link, is provided with connecting plate 83 between upper rack posts 81 and the lower fulcrum bar 82, and connecting plate 83 is hinged with upper rack posts 81 and lower fulcrum bar 82 respectively.Solar panel 3 is fixed on the connecting plate 83.Through the length of adjustment lower fulcrum bar 82, the angle that can regulate solar panel 2 makes solar panel 2 be in the direction of exposing to sunlight as much as possible during installation.

Said single tubular tower is common single-pipe tower, golden wheel type view tower, ribbon type single-pipe tower.

The machine room of the tower base station of single tube is the hidden machine room of civil engineering machine room, armor machine room, color steel machine room, polygon column type or artificial hillock type.

With reference to Fig. 5, base station equipment 6 comprises flush type switch power supply 61, transport module 62, fibre distribution frame 63, DDF 64, storage battery 765, radio frequency unit 66, baseband control unit 67, the electric complementary controller 568 of scene.Wherein honourable electric complementary controller 568 is the core point of whole invention; When adopting MPPT control technology (MPPT maximum power point tracking solar energy control technology); Adopt PLC system control technology; Optionally adopt 4 pairs of base station power supplies of wind-driven generator 1 or solar panel 3 or storage battery 7 or fuel electric generator, make the whole system power supply be in an optimized state.

The present invention places wind-driven generator 1 and solar panel 3 on one's body the single-pipe tower; The vibrations that cause when when design, combining the rotation of wind-driven generator 1 fan blade and the windward side of solar panels are to the influence of tower body; Must be through the mechanical structure design analysis; In strict accordance with industry standard and requirement, thus the safe, practical property of guarantee base station system.Simultaneously solar panels place on the body of the tower, and support adopts and seamlessly is welded in body of the tower, adopts high-strength bolt fixed solar board mount, this sound construction, safe, attractive in appearance simultaneously.

Tower body is made overall plans in this invention, and wind-force unit generation, communication support, the multiple action of solar panels carrier, and global design is succinct, generous, combines together with natural environment, has and beautifies effect preferably; Next adopts green energy resource, can realize energy-saving and emission-reduction truly better; Floor space is few, economizes the land resource.

It is higher that the tower wind light mutual complementing of single tube base station is generally built physical features in, do not have building, openr area on every side, can combine together well with naturally.

The present invention adopts PLC system control technology optionally to adopt wind-driven generator 1 or solar panel 3 or storage battery 7 or 4 pairs of base station power supplies of fuel electric generator; This system will judge whether which kind of energy of this employing according to real-time view energy source situation; And make fast being swift in motion and switch to corresponding power supply state; Be to realize that the energy distributes effectively, make whole electric power system be in optimum state.

After adopting the electric complementary controller 5 of scene; Realize the steady fusion and the seamless switching of the alternating current that wind-driven generator 1 alternating current and solar cell alternating current and fuel electric generator 4 send; When avoiding the long-time floating charge of battery to cause the life-span to shorten effectively, the stability that has improved the entire system generating efficiency and ensured current/voltage.

Beneficial effect of the present invention: the tower wind light mutual complementing of single tube base station is the carrier that integrates wind-force unit generation and the support of communicating by letter, solar panels carrier three big functions; Simple appearance; Compact; Practice thrift construction cost, land resource, and adopt green energy resource fully, can realize the effect of energy-saving and emission-reduction from a plurality of aspects.The base station is except that adopting the MPPT control technology simultaneously; Also adopt PLC system control technology; Can distribute, control the base station energy effectively; Simultaneously can peak efficiency ground be stably the required 48V direct current series power supply in base station the time with wind energy, transform light energy; Can realize the steady fusion and the seamless switching of the alternating current that wind-driven generator 1 alternating current and solar cell alternating current and fuel electric generator 4 send again, when avoiding the long-time floating charge of battery to cause the life-span to shorten effectively, the stability that has improved the entire system generating efficiency and ensured current/voltage.

The described content of this specification embodiment only is enumerating the way of realization of inventive concept; Protection scope of the present invention should not be regarded as and only limit to the concrete form that embodiment states, protection scope of the present invention also reach in those skilled in the art conceive according to the present invention the equivalent technologies means that can expect.

Claims (8)

1. the tower wind light mutual complementing of single tube base station comprises wind-driven generator, wind power generation machine controller, solar panel, solar panel controller, the electric complementary controller of scene, AC/DC transducer, fuel electric generator, inverter, DC converter, power consumption load and storage battery; Wind-driven generator is connected with the electric complementary controller of scene through the wind power generation machine controller; Solar panel is connected with the electric complementary controller of scene through the solar panel controller; The electric complementary controller of scene connects storage battery, and the electric energy that wind-driven generator and solar panel conversion are obtained is all imported in the storage battery;
The power consumption load comprises DC load and AC load;
It is characterized in that: described base station is the tower base station of single tube, and wind-driven generator is fixed in the cat head of single-pipe tower, and solar panel is fixed in the body of the tower of single-pipe tower, is fixed with a plurality of solar panels on the body of the tower;
Wind-driven generator and fuel electric generator the AC/DC transducer through separately respectively are connected with the electric complementary controller of scene; Solar panel is connected with the electric complementary controller of scene through the DC/DC transducer, and DC load, AC load and storage battery are connected with the input/output terminal of the electric complementary controller of scene respectively; Be provided with the DC/AC transducer between electric complementary controller of scene and the AC load;
The electric complementary controller of scene optionally is communicated with storage battery and solar panel or wind-driven generator or fuel electric generator;
The method that the electric complementary controller of scene is selected may further comprise the steps:
1), judges the current output voltage U of the electric complementary controller of scene 1Whether less than the upper voltage limit U of wind-driven generator 3max, then judge the current voltage U of storage battery if not 4Whether less than storage battery upper voltage limit U 4maxIf then open storage battery to charge in batteries; Then close storage battery, the electric complementary controller connection energy consumption load earial drainage of scene if not;
2), if the current output voltage U of the electric complementary controller of scene 1Upper voltage limit U less than wind-driven generator 3max, then judge the current output voltage U of the electric complementary controller of scene 1Whether greater than the lower voltage limit U of wind-driven generator 3min, if not, then start fuel electric generator the base station supplied power;
3), if the current output voltage U of the electric complementary controller of scene 1Be lower voltage limit U greater than wind-driven generator 3min, then judge the current output voltage U of wind-driven generator 3Whether greater than the upper voltage limit U of wind-driven generator 3maxIf,, then honourable electric complementary controller connects energy consumption load earial drainage;
4), if the current output voltage U of wind-driven generator 3Upper voltage limit U less than wind-driven generator 3max, then judge if the current output voltage U of wind-driven generator 3Whether less than the lower voltage limit U of wind-driven generator 3min, if not, then starting wind generator system is the base station power supply;
5), if the current output voltage U of wind-driven generator 3Lower voltage limit U less than wind-driven generator 3min, then judge the current output voltage U of solar panel 2Whether ration the power supply above that and press U 2mzxWith lower voltage limit U 2minBetween, if starting solar panel and solar panel controller is the base station power supply; If not, then close solar panel, judge the current voltage U of storage battery 4Whether be in its upper voltage limit U 4maxWith lower voltage limit U 4minBetween, if, then start storage battery the base station is supplied power, if not, then start fuel electric generator the base station is supplied power.
2. the tower wind light mutual complementing of single tube as claimed in claim 1 base station is characterized in that: when solar panel started power supply, whether solar panel controller self-checking system had fault, if fault-free is then supplied power to the base station; If fault is arranged, then close solar panel, judge the current voltage U of storage battery 4Whether be in its upper voltage limit U 4maxWith lower voltage limit U 4minBetween, if, then start storage battery the base station is supplied power, if not, then start fuel electric generator the base station is supplied power.
3. the tower wind light mutual complementing of single tube as claimed in claim 2 base station is characterized in that: the electric complementary controller of scene is connected with DC load; The complementary controller of scene point is connected with AC load through the DC/AC transducer.
4. the tower wind light mutual complementing of the single tube base station of stating like claim 3 is characterized in that: be provided with the power tracking device between wind-driven generator and the AC/DC transducer; Be provided with the power tracking device between solar panel and its DC/DC transducer.
5. like the tower wind light mutual complementing of the described single tube of one of claim 1-4 base station; It is characterized in that: the body of the tower of single-pipe tower is provided with the power line routing hole of wind-driven generator and the generating power line routing hole of solar panel, and the generating power line of wind power generation power line and solar panel all is fixed on body of the tower inside.
6. the tower wind light mutual complementing of single tube as claimed in claim 5 base station, it is characterized in that: solar panel is fixed on the body of the tower through support, and support is fixedly welded on the body of the tower through seamless, and solar panel is fixed on the support through high-strength bolt.
7. the tower wind light mutual complementing of single tube as claimed in claim 6 base station is characterized in that: said single tubular tower is common single-pipe tower, golden wheel type view tower, ribbon type single-pipe tower.
8. the tower wind light mutual complementing of single tube as claimed in claim 7 base station is characterized in that: the machine room of the tower base station of single tube is the hidden machine room of civil engineering machine room or armor machine room or color steel machine room or polygon column type or artificial hillock type.
CN201210164472.1A 2012-05-24 2012-05-24 Single-tube tower-type wind-light complementary base station CN102684286B (en)

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CN101841163A (en) * 2010-03-15 2010-09-22 三一电气有限责任公司 Grid-connected wind-light combined power generation system and power generation method thereof
CN101951014A (en) * 2010-10-29 2011-01-19 上海致远绿色能源有限公司 Wind-light-diesel commercial power integral power supply system
CN201937842U (en) * 2011-01-18 2011-08-17 电联工程技术有限公司 Wind, light and electricity complementing communication base station

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CN103676817A (en) * 2013-06-13 2014-03-26 奇瑞汽车股份有限公司 Communication base station photoelectric complementary power supply system and operation method thereof
CN103676817B (en) * 2013-06-13 2016-09-14 奇瑞新能源汽车技术有限公司 A kind of communication base station photoelectric complementary power-supply system and How It Works thereof
CN105846533A (en) * 2016-06-15 2016-08-10 湖南省湘电试验研究院有限公司 Power supply method and device for online monitoring system of power transmission line

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