CN102364235B - Wind energy and light energy complementary self-generating light-emitting diode (LED) streetlamp system - Google Patents

Wind energy and light energy complementary self-generating light-emitting diode (LED) streetlamp system Download PDF

Info

Publication number
CN102364235B
CN102364235B CN 201110361369 CN201110361369A CN102364235B CN 102364235 B CN102364235 B CN 102364235B CN 201110361369 CN201110361369 CN 201110361369 CN 201110361369 A CN201110361369 A CN 201110361369A CN 102364235 B CN102364235 B CN 102364235B
Authority
CN
China
Prior art keywords
wind
bearing
serpentine
energy
light
Prior art date
Legal status (The legal status 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 status listed.)
Expired - Fee Related
Application number
CN 201110361369
Other languages
Chinese (zh)
Other versions
CN102364235A (en
Inventor
吴永新
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
XINJIANG SHANGNENG SOLAR ENERGY TECHNOLOGY Co Ltd
Original Assignee
XINJIANG SHANGNENG SOLAR ENERGY TECHNOLOGY 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 XINJIANG SHANGNENG SOLAR ENERGY TECHNOLOGY Co Ltd filed Critical XINJIANG SHANGNENG SOLAR ENERGY TECHNOLOGY Co Ltd
Priority to CN 201110361369 priority Critical patent/CN102364235B/en
Publication of CN102364235A publication Critical patent/CN102364235A/en
Application granted granted Critical
Publication of CN102364235B publication Critical patent/CN102364235B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • 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
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/72Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps in street lighting

Abstract

The invention discloses a wind energy and light energy complementary self-generating light-emitting diode (LED) streetlamp system, which comprises a lamppost positioned on the ground and an energy storage device positioned underground, wherein a vertical-axis cylinder type magnetic suspension direct-drive fan is arranged at the top end of the lamppost; a wire mounting port and a mounting cavity are formed at the bottom end of the lamppost; a CIGS thin film photovoltaic battery pack, a rotatable battery board bracket, an LED lamp and a lamp cap outrigger are arranged on the lamppost from top to bottom in turn in a matching way; a wind-light complementary charging and discharging controller and a constant current voltage stabilizing LED light source driver which are connected with the LED lamp in turn are arranged in the mounting cavity; and the vertical-axis cylinder type magnetic suspension direct-drive fan, the CIGS thin film photovoltaic battery pack and the energy storage device are electrically connected with the wind-light complementary charging and discharging controller. By the invention, defects that a wind-light complementary power generation system has low reliability, is unfavorable for promotion and application and the like under the conditions of light wind and weak light are overcome, and the wind energy and light energy complementary self-generating LED streetlamp system has the advantages of high reliability, wide application area, and contribution to promotion and application.

Description

A kind of wind energy and light energy complementary type self-power generation type LED road lamp system
Technical field
The present invention relates to the wind light mutual complementing power generation lighting engineering, particularly, relate to a kind of wind energy and light energy complementary type self-power generation type LED road lamp system.
Background technology
At present, the growth momentum of wind light mutual complementing lighting engineering grows to even greater heights, and the scope that its product is used is more and more wider, and function is more and more.But also have some problems anxious to be resolved, distribution of solar energy is extensive, grows on trees, and certain rule is arranged, but skewness.Although the distribution of wind energy also has certain rule, it is not extensive to distribute, and the wind speed in area is very low especially mostly, limits to a great extent the range of application of wind energy.
In general, daytime, solar radiation was strong, and wind is fewer, and overcast and rainy, night, dry monsoon are more, and summer, electric power was had a surplus, winter the electric power wretched insufficiency because road lamp system should not be installed large-area photovoltaic cell, and economy is very poor, without dissemination.Therefore, market is in the urgent need to a kind of solar energy, wind energy impregnable wind and solar hybrid generating system in the distribution in time and space.
The defectives such as in realizing process of the present invention, the inventor finds to exist at least in the prior art natural energy resources under light breeze, low light condition, and the wind and solar hybrid generating system power supply reliability is poor, energy-saving effect is not good and be unfavorable for applying.
Summary of the invention
The object of the invention is to, for the problems referred to above, propose a kind of wind energy and light energy complementary type self-power generation type LED road lamp system, to realize that the natural energy resources power supply reliability is good, good energy-conserving effect uses regional with expansion and to be beneficial to the advantage of applying.
For achieving the above object, the technical solution used in the present invention is: a kind of wind energy and light energy complementary type self-power generation type LED road lamp system, comprise the lamp stand that rest on the ground and be positioned at underground energy storage device, be arranged on the straight drive blower of vertical axis cartridge type magnetic suspension on described lamp stand top, be arranged on the remittance line installing port and installation cavity of described lamp stand bottom, on described lamp stand, from up to down cooperate successively and be provided with CIGS film photovoltaic cell assembly, rotatable battery board bracket, LED lamp and lamp holder cantilever shalving are provided with the complementary charging-discharging controller of the wind that is connected with the LED lamp successively-light and constant-current voltage-stabilizing led light source driver in described installation inside cavity;
The straight drive blower of described vertical axis cartridge type magnetic suspension, CIGS film photovoltaic cell assembly and energy storage device are electrically connected with the complementary charging-discharging controller of wind-light respectively; CIGS film photovoltaic cell assembly is installed on the rotatable battery board bracket, and the LED lamp is installed on the lamp holder cantilever shalving.
Further, above-described wind energy and light energy complementary type self-power generation type LED road lamp system also comprise luminous intensity distribution shape led light source; Described constant-current voltage-stabilizing led light source driver, luminous intensity distribution shape led light source are electrically connected successively with the LED lamp.
Further, the straight drive blower of described vertical axis cartridge type magnetic suspension comprise vertically disposed main shaft from up to down successively engage sleeves be located at top in shape blade assembly on the described main shaft, magnetic suspension shaft bearing assembly, the two wind wheel organizations of reverse serpentine cartridge type and wind-driven generator.Here, described magnetic suspension shaft bearing assembly, the two wind wheel organizations of reverse serpentine cartridge type and wind-driven generator, from up to down engage sleeves is located on the main shaft successively, and is arranged in the inner chamber that described top in shape blade assembly forms.
Further, described top in shape blade assembly, comprise and rotate around the spindle the multi-disc top in shape flexible bar type bent blades that forms without the moment of flexure stress curve, three-jaw flange on the top in shape blade that is socketed on the described main shaft and is connected with multi-disc top in shape flexible bar type bent blades top, and be socketed on the described main shaft and the top in shape blade that is connected with multi-disc top in shape flexible bar type bent blades bottom under the three-jaw flange; Above three-jaw flange on the described top in shape blade, also cooperate to be provided with main shaft upper end clamp nut and the plain cushion that from up to down is set in successively on the main shaft.
Further, described magnetic suspension shaft bearing assembly, comprise between the two wind wheel organizations of three-jaw flange on the described top in shape blade and reverse serpentine cartridge type and from up to down successively engage sleeves be located at magnetic suspension bearing counter flange, upper bearing (metal), magnetic suspension bearing and lower bearing on the main shaft.
Further, the two wind wheel organizations of described reverse serpentine cartridge type, comprise between described lower bearing and the wind-driven generator and from up to down successively engage sleeves be located at wind wheel flange seat, magnetic suspension bearing, magnetic suspension bearing flange seat and serpentine leeward cartridge module on serpentine windward cartridge module on the main shaft, the serpentine; Described wind-driven generator is socketed on the main shaft, and cooperates and to be installed under the serpentine under the air duct and top in shape blade between the three-jaw flange.
Further, described serpentine windward cartridge module comprises air duct on the serpentine that opening is all arranged up and down that at least two semicircle sheet metals of employing make, and cooperates wind wheel on the serpentine that is installed in air duct bottom inside on the serpentine; Described serpentine leeward cartridge module comprises air duct under the serpentine that opening is all arranged up and down that at least two semicircle sheet metals of employing make, and cooperates wind wheel under the serpentine that is installed in air duct bottom inside under the serpentine.
Further, between described top in shape blade assembly and magnetic suspension shaft bearing assembly, be provided with the radial ball assembly; Described radial ball bearing assembly, comprise under the described top in shape blade between three-jaw flange and the load-bearing bearing and from up to down successively engage sleeves be located at upper bearing (metal) gland on the main shaft, on radial ball bearing, shell type bearing block, lower radial ball bearing and lower bearing gland; Between described lower bearing gland and load-bearing bearing, also cooperate to be provided with lower shaft end plain cushion, lower shaft end bullet pad and the lower shaft end locking nut that from up to down is set in successively on the main shaft.
Further, described energy storage device comprises energy-storage battery.
Further, be provided with lightning rod on the top of described main shaft, be provided with the lamp stand adpting flange in the bottom of described main shaft.
The wind energy of various embodiments of the present invention and light energy complementary type self-power generation type LED road lamp system, owing to comprise lamp stand and energy storage device, be provided with the straight drive blower of vertical axis cartridge type magnetic suspension on the lamp stand top, be provided with remittance line installing port in the lamp stand bottom and cavity is installed, on lamp stand, from up to down cooperate successively to be provided with CIGS film photovoltaic cell assembly, rotatable battery board bracket, lamp holder cantilever shalving and LED lamp, be provided with the wind that is connected with the LED lamp successively-light complementation charging-discharging controller and constant-current voltage-stabilizing led light source driver in that inside cavity is installed; The straight drive blower of vertical axis cartridge type magnetic suspension, CIGS film photovoltaic cell assembly and energy storage device are electrically connected with the complementary charging-discharging controller of wind-light respectively; Can have light breeze low light level power generation characteristics, be conducive to solve other wind-light complementary road lamp system to luminous energy and the unsettled problem of wind collecting, improve the stability of a system; Adopt magnetic suspension bearing, can reduce staring torque, give full play to the double dominant of wind energy and optical energy power; Thereby can overcome in the prior art natural energy resources under light breeze, low light condition, the wind and solar hybrid generating system power supply reliability is poor, energy-saving effect is not good be unfavorable for the defective applied, to realize that the natural energy resources power supply reliability is good, good energy-conserving effect uses regional with expansion and to be beneficial to the advantage of applying.
Other features and advantages of the present invention will be set forth in the following description, and, partly from specification, become apparent, perhaps understand by implementing the present invention.Purpose of the present invention and other advantages can realize and obtain by specifically noted structure in the specification of writing, claims and accompanying drawing.
Below by drawings and Examples, technical scheme of the present invention is described in further detail.
Description of drawings
Accompanying drawing is used to provide a further understanding of the present invention, and consists of the part of specification, is used for together with embodiments of the present invention explaining the present invention, is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 is the structural representation of wind energy and light energy complementary type self-power generation type LED road lamp system according to the present invention;
Fig. 2 is the operation principle block diagram of wind energy and light energy complementary type self-power generation type LED road lamp system according to the present invention.
By reference to the accompanying drawings, Reference numeral is as follows in the embodiment of the invention:
The 1-lightning rod; 2-top in shape flexible bar type bent blades; Wind wheel on the 3-serpentine; Wind wheel under the 4-serpentine; The 5-magnetic suspension bearing; 6-lamp stand adpting flange; 7-CIGS (CIGS) film photovoltaic cell assembly; The rotatable battery board bracket of 8-; 9-lamp holder cantilever shalving; The 10-LED lamp; The 11-lamp stand; 12-remittance line installing port; 13-installs cavity; The 14-energy storage device; The 15-main shaft.
The specific embodiment
Below in conjunction with accompanying drawing the preferred embodiments of the present invention are described, should be appreciated that preferred embodiment described herein only is used for description and interpretation the present invention, is not intended to limit the present invention.
According to the embodiment of the invention, a kind of wind energy and light energy complementary type self-power generation type LED road lamp system are provided.As depicted in figs. 1 and 2, present embodiment comprises the lamp stand 11 that rest on the ground and is positioned at underground energy storage device 14, be arranged on the straight drive blower of vertical axis cartridge type magnetic suspension on lamp stand 11 tops, be arranged on the remittance line installing port 12 and installation cavity 13 of lamp stand 11 bottoms, from up to down be equipped with successively CIGS film photovoltaic cell assembly 7, rotatable battery board bracket 8, lamp holder cantilever shalving 9, luminous intensity distribution shape led light source and LED lamp 10 on lamp stand 11, and be arranged on wind that the cavity 13 inside are installed-complementary charging-discharging controller of light and constant-current voltage-stabilizing led light source driver.Energy storage device 14 comprises efficient energy-storage battery, but the complementary charging-discharging controller of wind-light has from boosting and the illumination regulatory function.
Wherein, in the above-described embodiments, the straight drive blower of vertical axis cartridge type magnetic suspension, CIGS (CIGS) film photovoltaic cell assembly 7 and energy storage device 14, be electrically connected with the complementary charging-discharging controller of wind-light respectively, the complementary charging-discharging controller of wind-light, constant-current voltage-stabilizing led light source driver and LED lamp 10 are electrically connected successively; CIGS film photovoltaic cell assembly 7 is installed on the rotatable battery board bracket 8, and LED lamp 10 is installed on the lamp holder cantilever shalving 9; Constant-current voltage-stabilizing led light source driver, luminous intensity distribution shape led light source and LED lamp 10 are electrically connected successively.
Here, photoelectricity partly is to utilize photocell to convert solar energy to electric energy, then passes through the complementary charging-discharging controller of wind-light to charge in batteries, by the complementary charging-discharging controller of wind-light power load is powered at last; Wind-powered electricity generation partly is to utilize magnetic suspending wind turbine generator, converts wind energy to electric energy, yet by the complementary charging-discharging controller of wind-light energy-storage battery is charged, and by the complementary charging-discharging controller of wind-light power load is powered at last; Therefore wind-powered electricity generation part and photoelectricity part all must, reasonably carry out the coupling of wind-powered electricity generation, photoelectricity and load by energy-storage battery accumulation of energy ability stable power-supplying, complementary from utilizing technical utilization, improve utilization ratio.
Particularly, in the above-described embodiments, the straight drive blower of above-mentioned vertical axis cartridge type magnetic suspension comprises vertically disposed main shaft 15, be located at the lightning rod 1 on main shaft 15 tops, be located at lamp stand 11 adpting flanges 6 of main shaft 15 bottoms, from up to down engage sleeves is located at top in shape blade assembly and radial ball bearing assembly on the main shaft 15 successively, and be arranged in inner chamber that the top in shape blade assembly forms and from up to down successively engage sleeves be located at the magnetic suspension shaft bearing assembly on the main shaft 15, the two wind wheel organizations of reverse serpentine cartridge type and wind-driven generator.
Above-mentioned top in shape blade assembly, comprise around the multi-disc top in shape flexible bar type bent blades (such as top in shape flexible bar type bent blades 2) of main shaft 15 rotation formation without the moment of flexure stress curve, three-jaw flange on the top in shape blade that is socketed on the main shaft 15 and is connected with multi-disc top in shape flexible bar type bent blades top, and be socketed on the main shaft 15 and the top in shape blade that is connected with multi-disc top in shape flexible bar type bent blades bottom under the three-jaw flange; On lightning rod 1 and the top in shape blade between the three-jaw flange, also cooperate to be provided with main shaft 15 upper end clamp nut and the plain cushions that from up to down are set in successively on the main shaft 15.
Above-mentioned magnetic suspension shaft bearing assembly, comprise between the two wind wheel organizations of three-jaw flange on the top in shape blade and reverse serpentine cartridge type and from up to down successively engage sleeves be located at magnetic suspension bearing counter flange, upper bearing (metal), magnetic suspension bearing 5 and lower bearing on the main shaft 15.
The two wind wheel organizations of above-mentioned reverse serpentine cartridge type, comprise between lower bearing and the wind-driven generator and from up to down successively engage sleeves be located at wind wheel 3 flange seats, magnetic suspension bearing, magnetic suspension bearing flange seat and serpentine leeward cartridge module on serpentine windward cartridge module on the main shaft 15, the serpentine; Wind-driven generator is socketed on the main shaft 15, and cooperates and to be installed under the serpentine under the air duct and top in shape blade between the three-jaw flange.
Here, serpentine windward cartridge module comprises air duct on the serpentine that opening is all arranged up and down that at least two semicircle sheet metals of employing make, and cooperates wind wheel 3 on the serpentine that is installed in air duct bottom inside on the serpentine; Serpentine leeward cartridge module comprises air duct under the serpentine that opening is all arranged up and down that at least two semicircle sheet metals of employing make, and cooperates wind wheel 4 under the serpentine that is installed in air duct bottom inside under the serpentine.
Above-mentioned radial ball bearing assembly, comprise between three-jaw flange under the top in shape blade and the load-bearing bearing and from up to down successively engage sleeves be located at upper bearing (metal) gland on the main shaft 15, on radial ball bearing, shell type bearing block, lower radial ball bearing and lower bearing gland; Between lower bearing gland and load-bearing bearing, also cooperate to be provided with lower shaft end plain cushion, lower shaft end bullet pad and the lower shaft end locking nut that from up to down is set in successively on the main shaft 15.
In the above-described embodiments, wind energy and light energy complementary type self-power generation type LED road lamp system, adopt the magnetic suspension wind generation technology, make wind-driven generator realize " light breeze startup, breeze wind ", namely under the faint wind speed of 1.5 meter per seconds, just can start, 2.5 the wind speed of meter per second just can generate electricity, wind surface by wind wheel 4 under wind wheel on the serpentine 3 and the serpentine makes the blower fan rotation, when the blower fan unitary rotation, the thrust of the wind surface of top in shape flexible bar type bent blades and begin to rotate, and drive whole Fans and rotate; When whole Fans turns to certain rotation, namely form the strength that rises, and make simultaneously the slow-roll stabilization of whole Fans, convert wind energy to electric energy, Simultaneous Stabilization output current voltage; Then by the complementary charging-discharging controller of wind-light and constant-current voltage-stabilizing led light source driver, to the energy-storage battery charging, by the complementary charging-discharging controller of wind-light the power loads such as LED lamp 10 are powered at last.
CIGS (CIGS) film photovoltaic cell assembly 7 photoelectric transformation efficiencies occupy first of the various thin-film solar cells, utilize light to convert solar energy to electric energy by CIGS (CIGS) film photovoltaic cell assembly 7, Simultaneous Stabilization output current voltage; Then by the complementary charging-discharging controller of wind-light, to the energy-storage battery charging, by the complementary charging-discharging controller of wind-light and constant-current voltage-stabilizing led light source driver the power loads such as LED lamp 10 are powered at last.Wherein, magnetic suspending wind turbine generator, CIGS (CIGS) film photovoltaic cell assembly 7 can be worked simultaneously according to field condition and also can separately be worked, and are not subjected to the restriction in time and space.
In the above-described embodiments, wind energy and light energy complementary type self-power generation type LED road lamp system adopt magnetic suspension bearing 5, can reduce staring torque, have light breeze and start low light level power generation characteristics, give full play to the double dominant of wind energy and optical energy power; Be conducive to solve other wind-solar complementary street lamp systems to luminous energy and the unsettled problem of wind collecting, improve the stability of a system; Wind energy and solar energy are inexhaustible regenerative resources, but solar energy and wind energy all have intermittence, unsettled characteristics, affected greatly by natural climate condition; By reasonable disposition and the optimal design to each parts, can guarantee the characteristics such as the generating of gentle breeze, the low light level, reliable and stable, economy, long-life, and be not subjected to the illuminator of the wind light mutual complementing of seasonal effect, effectively solved " have wind unglazed ", " have light calm " or the energy resource collecting difficult problem under low wind speed and low light condition; Range of application can expand from existing 7% zone 70% zone to, and the future market prospect is very optimistic.
In sum, the wind energy of various embodiments of the present invention and light energy complementary type self-power generation type LED road lamp system, owing to comprise lamp stand and energy storage device, be provided with the straight drive blower of vertical axis cartridge type magnetic suspension on the lamp stand top, be provided with remittance line installing port in the lamp stand bottom and cavity is installed, on lamp stand, from up to down cooperate successively to be provided with CIGS film photovoltaic cell assembly, rotatable battery board bracket, lamp holder cantilever shalving and LED lamp, be provided with the wind that is connected with the LED lamp successively-light complementation charging-discharging controller and constant-current voltage-stabilizing led light source driver in that inside cavity is installed; The straight drive blower of vertical axis cartridge type magnetic suspension, CIGS film photovoltaic cell assembly and energy storage device are electrically connected with the complementary charging-discharging controller of wind-light respectively; Can have light breeze low light level power generation characteristics, be conducive to solve other wind-light complementary road lamp system to luminous energy and the unsettled problem of wind collecting, improve the stability of a system; Adopt magnetic suspension bearing, can reduce staring torque, give full play to the double dominant of wind energy and optical energy power; Thereby can overcome in the prior art natural energy resources under light breeze, low light condition, the wind and solar hybrid generating system power supply reliability is poor, energy-saving effect is not good be unfavorable for the defective applied, to realize that the natural energy resources power supply reliability is good, good energy-conserving effect uses regional with expansion and to be beneficial to the advantage of applying.
It should be noted that at last: the above only is the preferred embodiments of the present invention, be not limited to the present invention, although with reference to previous embodiment the present invention is had been described in detail, for a person skilled in the art, it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps part technical characterictic wherein is equal to replacement.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (3)

1. a wind energy and light energy complementary type self-power generation type LED road lamp system, it is characterized in that, comprise the lamp stand that rest on the ground and be positioned at underground energy storage device, be arranged on the straight drive blower of vertical axis cartridge type magnetic suspension on described lamp stand top, be arranged on the remittance line installing port and installation cavity of described lamp stand bottom, on described lamp stand, from up to down cooperate successively and be provided with CIGS film photovoltaic cell assembly, rotatable battery board bracket, LED lamp and lamp holder cantilever shalving are provided with the complementary charging-discharging controller of the wind that is connected with the LED lamp successively-light and constant-current voltage-stabilizing led light source driver in described installation inside cavity;
The straight drive blower of described vertical axis cartridge type magnetic suspension, CIGS film photovoltaic cell assembly and energy storage device are electrically connected with the complementary charging-discharging controller of wind-light respectively; CIGS film photovoltaic cell assembly is installed on the rotatable battery board bracket, and the LED lamp is installed on the lamp holder cantilever shalving;
Also comprise luminous intensity distribution shape led light source; Described constant-current voltage-stabilizing led light source driver, luminous intensity distribution shape led light source are electrically connected successively with the LED lamp;
The straight drive blower of described vertical axis cartridge type magnetic suspension comprise vertically disposed main shaft from up to down successively engage sleeves be located at top in shape blade assembly on the described main shaft, magnetic suspension shaft bearing assembly, the two wind wheel organizations of reverse serpentine cartridge type and wind-driven generator;
Described top in shape blade assembly, comprise and rotate around the spindle the multi-disc top in shape flexible bar type bent blades that forms without the moment of flexure stress curve, three-jaw flange on the top in shape blade that is socketed on the described main shaft and is connected with multi-disc top in shape flexible bar type bent blades top, and be socketed on the described main shaft and the top in shape blade that is connected with multi-disc top in shape flexible bar type bent blades bottom under the three-jaw flange;
Above three-jaw flange on the described top in shape blade, also cooperate to be provided with main shaft upper end clamp nut and the plain cushion that from up to down is set in successively on the main shaft;
Described magnetic suspension shaft bearing assembly, comprise between the two wind wheel organizations of three-jaw flange on the described top in shape blade and reverse serpentine cartridge type and from up to down successively engage sleeves be located at magnetic suspension bearing counter flange, upper bearing (metal), magnetic suspension bearing and lower bearing on the main shaft;
The two wind wheel organizations of described reverse serpentine cartridge type, comprise between described lower bearing and the wind-driven generator and from up to down successively engage sleeves be located at wind wheel flange seat, magnetic suspension bearing, magnetic suspension bearing flange seat and serpentine leeward cartridge module on serpentine windward cartridge module on the main shaft, the serpentine; Described wind-driven generator is socketed on the main shaft, and cooperates and to be installed under the serpentine under the air duct and top in shape blade between the three-jaw flange;
Described serpentine windward cartridge module comprises air duct on the serpentine that opening is all arranged up and down that at least two semicircle sheet metals of employing make, and cooperates wind wheel on the serpentine that is installed in air duct bottom inside on the serpentine; Described serpentine leeward cartridge module comprises air duct under the serpentine that opening is all arranged up and down that at least two semicircle sheet metals of employing make, and cooperates wind wheel under the serpentine that is installed in air duct bottom inside under the serpentine; Between described top in shape blade assembly and magnetic suspension shaft bearing assembly, be provided with the radial ball assembly; Described radial ball bearing assembly, comprise under the described top in shape blade between three-jaw flange and the load-bearing bearing and from up to down successively engage sleeves be located at upper bearing (metal) gland on the main shaft, on radial ball bearing, shell type bearing block, lower radial ball bearing and lower bearing gland;
Between described lower bearing gland and load-bearing bearing, also cooperate to be provided with lower shaft end plain cushion, lower shaft end bullet pad and the lower shaft end locking nut that from up to down is set in successively on the main shaft.
2. wind energy according to claim 1 and light energy complementary type self-power generation type LED road lamp system is characterized in that described energy storage device comprises energy-storage battery.
3. wind energy according to claim 1 and 2 and light energy complementary type self-power generation type LED road lamp system is characterized in that, are provided with lightning rod on the top of described main shaft, are provided with the lamp stand adpting flange in the bottom of described main shaft.
CN 201110361369 2011-11-15 2011-11-15 Wind energy and light energy complementary self-generating light-emitting diode (LED) streetlamp system Expired - Fee Related CN102364235B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201110361369 CN102364235B (en) 2011-11-15 2011-11-15 Wind energy and light energy complementary self-generating light-emitting diode (LED) streetlamp system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201110361369 CN102364235B (en) 2011-11-15 2011-11-15 Wind energy and light energy complementary self-generating light-emitting diode (LED) streetlamp system

Publications (2)

Publication Number Publication Date
CN102364235A CN102364235A (en) 2012-02-29
CN102364235B true CN102364235B (en) 2013-04-10

Family

ID=45690816

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201110361369 Expired - Fee Related CN102364235B (en) 2011-11-15 2011-11-15 Wind energy and light energy complementary self-generating light-emitting diode (LED) streetlamp system

Country Status (1)

Country Link
CN (1) CN102364235B (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102980131A (en) * 2012-10-29 2013-03-20 宋小卫 Improved wind energy street lamp
CN107664287A (en) * 2016-07-27 2018-02-06 江苏绿扬光伏科技有限公司 A kind of wind energy, the system of light energy complementary and lighting device

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN200986132Y (en) * 2006-11-08 2007-12-05 湖南中科恒源风电产业科技有限公司 Magnetic suspension type wind energy and solar complementary lighting road lamp
CN101649986B (en) * 2009-09-07 2011-01-19 南通大学 Intelligent magnetic suspension vertical turbine generator led street lamp
CN202327971U (en) * 2011-11-15 2012-07-11 新疆尚能太阳能科技有限公司 Wind energy and light energy complementary type spontaneous LED (Light-emitting Diode) street lamp system

Also Published As

Publication number Publication date
CN102364235A (en) 2012-02-29

Similar Documents

Publication Publication Date Title
CN101709845B (en) Self-powered environmental-friendly street lamp and square lamp
CN201606803U (en) Wind and light complementary solar energy street lamp
CN202484846U (en) Solar-and-light complementation type solar street lamp
CN201764392U (en) LED street lamp with wind energy and solar energy complementation
CN202955607U (en) Street lamp capable of generating power by using upflow and flywheel battery
CN201273507Y (en) Open illumination device with wind-light complementing power generation cooperated with high-efficiency electric light source
CN202955615U (en) Self-generating street lamp capable of generating power by using pressure difference
CN102364235B (en) Wind energy and light energy complementary self-generating light-emitting diode (LED) streetlamp system
CN205261410U (en) Pier is with honourable complementary landscape lamp
CN202209624U (en) Multipath electric energy complementation large-power LED street lamp
CN202327971U (en) Wind energy and light energy complementary type spontaneous LED (Light-emitting Diode) street lamp system
CN201251081Y (en) Wind and light complementary lighting device for high-profile billboard
CN202132852U (en) Solar energy and wind energy LED road lamp
CN204187504U (en) A kind of solar-wind energy-optical energy streetlamp
CN201043708Y (en) Solar generating and wind generating road lamp
CN110107855A (en) A kind of wind and light complementary road lamp based on vertical axis windmill and lithium battery
CN203489160U (en) Wind-solar complementary solar street lamp
CN201696224U (en) Wind and solar complementary power supply device
CN201368395Y (en) Optically-controlled wind-light supplementary courtyard lamp
CN2911400Y (en) Mutually compensating power supplying road lamp utilizing windpower and light power
CN202171204U (en) Air and light complementation street lamp set
CN201166295Y (en) Universal wind power solar energy complementary road lamp
CN202171203U (en) Solar and wind-energy street lamp
CN104100458A (en) Solar energy and wind energy magnetic levitation generator
CN201368394Y (en) LED lamp electrified by wind energy and solar energy

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20130410

Termination date: 20171115