CN205619164U - Illumination structure based on scene complementary technology - Google Patents
Illumination structure based on scene complementary technology Download PDFInfo
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- CN205619164U CN205619164U CN201620255846.4U CN201620255846U CN205619164U CN 205619164 U CN205619164 U CN 205619164U CN 201620255846 U CN201620255846 U CN 201620255846U CN 205619164 U CN205619164 U CN 205619164U
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Abstract
The utility model provides an illumination structure based on scene complementary technology, there are a H type vertical axis wind turbine and connecting piece (1), still include H type vertical axis wind turbine pivot (2), cooling fan (3), photovoltaic board or light battery case (4), generator (5), support piece (6) of illumination structure, lamp shade (7), LED lamp (8), LED lamp support (9), adiabatic part (10), battery (11), lamp shade (7) are hollow hemisphere casings, hemisphere casing medial surface (7 1 )The concave surface be covered with the spotlight reflector, medial surface (7 1 )The convex surface be covered with the reflector, hemisphere casing lateral surface (7 2 )It the printing opacity material, photovoltaic board or photocell are covered with the surface at the photovoltaic board of cylinder appearance or light battery case (4), H type vertical axis wind turbine and connecting piece (1) is being close to motor (5) end installation cooling fan (3), photovoltaic board or light battery case (4) are integrated in motor (5) periphery, and follow the motor shaft and rotate, use adiabatic part (10) to separate between casing and the motor, form cooling channel.
Description
Technical field
This utility model relates to lighting engineering, is related specifically to lighting technical field based on wind light mutual complementing structure.
Background technology
Lighting engineering is indispensable part in mankind's daily life.Along with the development of renewable and clean energy resource, the purpose utilizing wind energy and heliotechnics to reach illumination has been obtained for concern and the accreditation of society, in particular with wind light mutual complementing technology, and perfect demand in terms of street lamp, off-network type domestic lighting etc..In terms of utilizing wind light mutual complementing technology illumination, the most once there is the most outstanding Analyzing on Building A Planning Scheme, if patent CN102255566B and patent CN104089240A are a kind of by from the wind-solar hybrid device of motion tracking solar energy and efficient wind-solar hybrid device respectively.Design like this, solves the technical problem utilizing wind light mutual complementing to realize illumination well.But still have some deficits, be on the one hand that illuminating effect needs to be improved further;On the other hand it is that structure and the efficiency of wind light mutual complementing needs to be further improved.
Summary of the invention
The purpose of this utility model is to provide a kind of light structures based on wind light mutual complementing technology.
This utility model is a kind of light structures based on wind light mutual complementing technology, there is H type vertical axis windmill and a connector 1 thereof, also include H type vertical axis windmill rotating shaft 2, cooling fan 3, photovoltaic panel or light cell housing 4, electromotor 5, the support member 6 of light structures, lampshade 7, LED 8, LED lamp holder 9, heat insulating member 10, accumulator 11, lampshade 7 is the Loadings On Hemispherical Shell of a hollow, the concave surface of Loadings On Hemispherical Shell medial surface 7-1 is covered with light gathering reflector, and the convex surface of medial surface 7-1 is covered with illuminator;Loadings On Hemispherical Shell lateral surface 7-2 is light transmissive material;Photovoltaic panel or light cell are covered with at the photovoltaic panel of cylindrical shape or the outer surface of light cell housing 4;H type vertical axis windmill and connector 1 thereof are installing cooling fan 3 near motor 5 end;It is peripheral that photovoltaic panel or light cell housing 4 are integrated in motor 5, and rotates with motor shaft, uses heat insulating member 10 to separate, form cooling duct between housing and motor.
Of the present utility model have the beneficial effect that 1, lampshade is a hemispherical shell, and the concave surface inside Loadings On Hemispherical Shell has been covered with light gathering reflector, photovoltaic panel (light cell) is formed after-sun, and has light-focusing function, can increase photovoltaic panel (light cell) intensity of illumination;Convex surface inside Loadings On Hemispherical Shell is covered with illuminator, reflecting LED lamplight, this irradiated area that can increase LED and exposure rate, so both having improve illuminating effect, improve again wind light mutual complementing utilization rate.2, photovoltaic panel (light cell) housing is integrated in motor periphery, and rotates with motor shaft so that whole light structures is compact.3, H type vertical axis windmill near motor side with fan functionality, it is provided that cooling photovoltaic panel (light cell) and the air quantity of motor, another aspect is the most helpful to the self-starting of H type wind energy conversion system.
Accompanying drawing explanation
Fig. 1 is schematic front view of the present utility model, Fig. 2 is principle schematic of the present utility model, Fig. 3 is H type vertical axis windmill structural representation, Fig. 4 is Fig. 3 top view, Fig. 5 is lampshade schematic diagram, Fig. 6 is the top view of Fig. 5, and Fig. 7 is photovoltaic panel (light cell) body diagram, and Fig. 8 is Fig. 7 top view.Reference and correspondence are entitled: H type vertical axis windmill and connector 1 thereof, and H type vertical axis windmill rotating shaft 2 cools down fan 3, photovoltaic panel or light cell housing 4, electromotor 5, the support member 6 of light structures, lampshade 7, LED 8, LED lamp holder 9, heat insulating member 10, accumulator 11, incident sunray A, sunray A-A after reflection, LED light B, the LED light B-B after reflection, side 7-1 in bullet body, bullet outside 7-2.
Detailed description of the invention
The technical scheme taked the present invention for the technical problem realizing raising illuminating effect and wind light mutual complementing utilization rate below in conjunction with the accompanying drawings is described further, but they are not limitations of the present invention.
As shown in Figure 1, this utility model is a kind of light structures based on wind light mutual complementing technology, there is H type vertical axis windmill and a connector 1 thereof, also include H type vertical axis windmill rotating shaft 2, cooling fan 3, photovoltaic panel or light cell housing 4, electromotor 5, the support member 6 of light structures, lampshade 7, LED 8, LED lamp holder 9, heat insulating member 10, accumulator 11, lampshade 7 is the Loadings On Hemispherical Shell of a hollow, the concave surface of Loadings On Hemispherical Shell medial surface 7-1 is covered with light gathering reflector, and the convex surface of medial surface 7-1 is covered with illuminator;Loadings On Hemispherical Shell lateral surface 7-2 is light transmissive material;Photovoltaic panel or light cell are covered with at the photovoltaic panel of cylindrical shape or the outer surface of light cell housing 4;H type vertical axis windmill and connector 1 thereof are installing cooling fan 3 near motor 5 end;It is peripheral that photovoltaic panel or light cell housing 4 are integrated in motor 5, and rotates with motor shaft, uses heat insulating member 10 to separate, form cooling duct between housing and motor.
Light structures based on wind light mutual complementing technology in accordance with the above, H type vertical axis windmill and connector 1 thereof are arranged in the top of total.
Light structures based on wind light mutual complementing technology in accordance with the above, wind energy conversion system is resistance-type vertical axis wind turbine, or lift vertical shaft wind energy conversion system.
As it is shown in figure 5, the concave surface of Loadings On Hemispherical Shell medial surface 7-1 is covered with light gathering reflector, the convex surface of medial surface 7-1 is covered with illuminator;Loadings On Hemispherical Shell lateral surface 7-2 is common light transmissive material.Cylindrical photovoltaic panel or light cell case cover are on electromotor.Wind energy conversion system and connector thereof are arranged on the top of integral illumination structure.
As shown in Figure 5, inside Loadings On Hemispherical Shell, the concave surface of 7-1 has been covered with light gathering reflector, and function is to gather on photovoltaic panel or the photronic housing 4 of cylinder by sunlight reflection, forms secondary light and shines, while ensureing illuminating area, increase sunlight to photovoltaic panel or photronic intensity of illumination;Inside Loadings On Hemispherical Shell, the convex surface of 7-1 is covered with illuminator, and function is reflection LED lamplight, increases irradiated area and the exposure rate of LED lamplight;Photovoltaic panel or light cell cloth are on a face of cylinder, and function is without installing solar energy tracking device, just can ensure naturally irradiating and the secondary light photograph of light gathering reflector reflection of sunlight;H type vertical axis windmill and connector 1 thereof are near motor 5 end with fan 3, on the one hand function is, it is provided that cooling photovoltaic panel or light cell and the air quantity of motor, the most helpful to the self-starting of H type wind energy conversion system;It is peripheral that photovoltaic panel or light cell housing 4 are integrated in motor 5, and rotates with motor shaft, and function has been to ensure that photovoltaic panel or the uniform illumination of light cell, and makes whole light structures compact.
Work process of the present utility model is, as shown in Figure 2, when wind speed is between 2m/s ∽ 25m/s when, H type vertical axis windmill and connector 1 thereof start working (fan 3 contributes to self-starting), fan 3 is also with H type vertical axis windmill and connector 1 synchronous axial system thereof simultaneously, and due to the effect of fan, make wind by cooling import and cooling duct, finally flow out from coolant outlet, as indicated with 2, play cooling motor and cooling photovoltaic panel or photronic effect, simultaneously, it is integrated in the peripheral photovoltaic panel of motor or light cell housing 4 also with rotating together;If there being sunlight, mono-wind direct irradiation of sunray A is in photovoltaic panel or light cell housing 4, another part is then by the effect of the light gathering reflector on Loadings On Hemispherical Shell medial surface 7-1 concave surface, and the sunlight gathering of reflection is radiated on photovoltaic panel or light cell housing 4, forms after-sun.The utilization of power accumulator 11 produced by wind light mutual complementing is stored.When lightening LED lamp at night when, a light B part for LED is gone down by Loadings On Hemispherical Shell lateral surface 7-2 transparent material direct irradiation, the light B of LED is then reflected by another portion by the illuminator on Loadings On Hemispherical Shell medial surface 7-1 convex surface, form reflection light B-B to irradiate, owing to whole illuminator layout is on a convex spherical, the most not only add the area of the irradiation of LED, and intensity of illumination also can increase.Achieve that a kind of light structures based on wind light mutual complementing technology of the present invention by above-mentioned, both can improve illuminating effect, the utilization rate of wind light mutual complementing can be improved again.
Claims (3)
1. a light structures based on wind light mutual complementing technology, there are a H type vertical axis windmill and connector (1) thereof, characterized by further comprising H type vertical axis windmill rotating shaft (2), cooling fan (3), photovoltaic panel or light cell housing (4), electromotor (5), the support member (6) of light structures, lampshade (7), LED (8), LED lamp holder (9), heat insulating member (10), accumulator (11), lampshade (7) is the Loadings On Hemispherical Shell of a hollow, the concave surface of Loadings On Hemispherical Shell medial surface (7-1) is covered with light gathering reflector, the convex surface of medial surface (7-1) is covered with illuminator;Loadings On Hemispherical Shell lateral surface (7-2) is light transmissive material;Photovoltaic panel or light cell are covered with at the photovoltaic panel of cylindrical shape or the outer surface of light cell housing (4);H type vertical axis windmill and connector (1) thereof are installing cooling fan (3) near motor (5) end;It is peripheral that photovoltaic panel or light cell housing (4) are integrated in motor (5), and rotates with motor shaft, uses heat insulating member (10) to separate, form cooling duct between housing and motor.
Light structures based on wind light mutual complementing technology the most according to claim 1, it is characterised in that: H type vertical axis windmill and connector (1) thereof are arranged in the top of total.
Light structures based on wind light mutual complementing technology the most according to claim 1, it is characterised in that: wind energy conversion system is resistance-type vertical axis wind turbine, or lift vertical shaft wind energy conversion system.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620255846.4U CN205619164U (en) | 2016-03-30 | 2016-03-30 | Illumination structure based on scene complementary technology |
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CN201620255846.4U CN205619164U (en) | 2016-03-30 | 2016-03-30 | Illumination structure based on scene complementary technology |
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CN201620255846.4U Expired - Fee Related CN205619164U (en) | 2016-03-30 | 2016-03-30 | Illumination structure based on scene complementary technology |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109539109A (en) * | 2018-11-09 | 2019-03-29 | 贵州民族大学 | A kind of automatic control new energy photoelectricity street lamp |
-
2016
- 2016-03-30 CN CN201620255846.4U patent/CN205619164U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109539109A (en) * | 2018-11-09 | 2019-03-29 | 贵州民族大学 | A kind of automatic control new energy photoelectricity street lamp |
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Legal Events
Date | Code | Title | Description |
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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: 20161005 Termination date: 20170330 |