CN206802998U - A kind of multi-functional wind light mutual complementing illuminating lamp - Google Patents

Abstract

Technical field of lighting fixtures, more particularly to a kind of multi-functional wind light mutual complementing illuminating lamp are the utility model is related to, it includes lamppost, the base for being arranged on lamppost bottom and the wind light mutual complementing illuminator being arranged at the top of lamppost；Wind light mutual complementing illuminator includes housing, the wind-power electricity generation component for being arranged at the solar cell panel assembly of case top, being arranged in housing and the illuminating lamp for being arranged at housing bottom, solar cell panel assembly and is made up of multiple solar panels；Wind-power electricity generation component includes that number is equal with wind deflector and central point on top plate or bottom plate is respectively arranged at the fan blade between wind deflector, the wind-driven generator with fan blade rotation connection with being centrosymmetric；Solar cell panel assembly and wind-driven generator and the battery being arranged in lamppost are electrically connected with.Multi-functional wind light mutual complementing illuminating lamp provided by the utility model considerably increases intake by housing and wind deflector, so as to increase wind energy transformation rate, and it is handsome in appearance, service life greatly increases.

Description

Multifunctional wind-solar complementary illuminating lamp

Technical Field

The utility model relates to a lighting apparatus technical field especially relates to a complementary light of multi-functional scene.

Background

The wind-solar complementary illuminating lamp has the function of mutually compensating wind energy and solar energy, and has the advantages that the energy source is not single, so that the solar energy is utilized for generating and storing in clear weather, and the wind energy can be utilized for generating in cloudy days or at night, so that the generation of energy is greatly improved.

However, the existing wind-solar complementary illuminating lamp is provided with the fan blade and the wind driven generator for wind power generation simply on the common solar illuminating lamp, although a certain complementary effect can be achieved, the size of the fan blade cannot be too large due to practical limitation of the application environment of the illuminating lamp, so that the electric quantity of wind power generation is limited, and the fan blade is exposed, is easily damaged by wind, rain and influences on surrounding objects, does not have aesthetic feeling of the appearance of the illuminating lamp, and is not suitable for being used on urban roads or family courtyards.

Disclosure of Invention

The invention aims to provide a multifunctional wind-solar complementary illuminating lamp which has high energy conversion rate and attractive appearance and is suitable for being used on two sides of urban roads and in districts or courtyards.

In order to achieve the above object, the utility model discloses a concrete technical scheme who adopts is:

a multifunctional wind-solar complementary illuminating lamp comprises a lamp post, a base arranged at the bottom of the lamp post and a wind-solar complementary illuminating system arranged at the top of the lamp post; wherein,

the wind-solar complementary lighting system comprises a shell, a solar panel assembly arranged at the top of the shell, a wind power generation assembly arranged in the shell and a lighting lamp arranged at the bottom of the shell, wherein the shell comprises a top plate and a bottom plate which are arranged oppositely from top to bottom and are in a disc shape, at least 4 air deflectors are vertically arranged between the top plate and the bottom plate, and the air deflectors are in central symmetry with respect to the central point of the top plate or the bottom plate; the solar panel assembly consists of a plurality of solar panels, and the solar panels are assembled into an upward convex circular arch; the wind power generation assembly comprises a plurality of fan blades which are equal to the air deflectors in number and are respectively arranged between the air deflectors in a central symmetry manner relative to the central point of the top plate or the bottom plate, and a wind power generator rotationally connected with the fan blades;

the solar panel assembly and the wind driven generator are electrically connected with a storage battery arranged in the lamp post.

In a possible implementation manner, a plurality of first air guide strips and second air guide strips which are vertical to each other in guiding direction are vertically arranged in the air guide plate, the first guide strips are arranged in parallel with the fan blades on one side of the air guide plate, the second air guide strips are arranged in vertical to the fan blades on one side of the air guide plate, the first air guide strips are arranged at equal intervals, and the second air guide strips are respectively arranged between the two first air guide strips.

In one possible implementation manner, the fan blade is connected with a reduction gear through a fan blade shaft, the reduction gear is meshed with a reversing gear, and the reversing gear is connected with the wind driven generator through a rotating shaft.

In one possible implementation manner, an inverter is electrically connected between the solar panel assembly and the storage battery.

On the basis of the technical scheme, as the utility model discloses a further technical scheme, be provided with the dust screen between roof and the bottom plate, the dust screen surface is provided with the through-hole that is used for the fan blade axle to wear out, the dc-to-ac converter set up in the dust screen.

In one possible implementation, the fan blade is a wide blade type fan blade.

In one possible implementation, the top and bottom plate outer edges are provided with upper and lower flanges, respectively, which extend upwardly and downwardly, respectively, at an angle of 15-60 degrees from horizontal.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a complementary light structure of multi-functional scene is very novel, hold wind power generation set in inside through shell structure to utilize the aviation baffle to separate into the wind channel, set up the fan blade in every wind channel, the fan blade through not equidirectional absorbs external ventilation, makes this device can be fit for the wind that the equidirectional blowing comes, and increases air volume and wind-force through upper and lower flange and aviation baffle messenger blow the effectual back of concentrating of wind that comes, thereby increases wind power generation's efficiency.

2. Through setting up the dc-to-ac converter in the dust screen, through external ventilation, can effectively alleviate the high temperature that the dc-to-ac converter produced, avoided the airtight setting of dc-to-ac converter in the traditional complementary light to cause at the lamp body inside overheated.

3. The solar panel assembly is arranged in an arch shape, although the production cost is slightly increased, the arch-shaped solar panel assembly has the advantages that sunlight of any time period can be received, and a sun tracking device does not need to be arranged, so that the production cost is actually reduced, the arch-shaped solar panel assembly is called as the top of the device, the arch shape is favorable for flowing of rainwater, the rainwater is prevented from entering the shell, and the service life of the wind power generation assembly is prolonged.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is a front view of the internal structure of the present invention;

FIG. 3 is a top view of the internal structure of the present invention;

fig. 4 is a schematic structural view of the air deflector of the present invention;

fig. 5 is a schematic structural view of the dust cover of the present invention.

In the figure:

1. a lamp post; 101 a storage battery;

2. a base;

3. a housing; 301. a top plate; 3011. an upper flange; 302. a base plate; 3021. a lower flange; 303. an air deflector; 3031. a first guide bar; 3032. a second guide bar; 304. a dust screen; 3041. a through hole;

4. a solar panel assembly; 401. an inverter;

5. a wind power generation assembly; 501. a fan blade; 5011. a fan blade shaft; 5012. a reduction gear; 5013. a reversing gear; 502. a wind power generator;

6. an illuminating lamp.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific examples, which should be understood as being given solely for the purpose of illustration and not as a limitation of the invention in any way, i.e., not as being intended to limit the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, 2 and 3, the utility model discloses a multifunctional wind-solar complementary lighting lamp, which comprises a lamp post 1, a base 2 arranged at the bottom of the lamp post 1, and a wind-solar complementary lighting system arranged at the top of the lamp post 1;

the wind-solar complementary lighting system comprises a shell 3, a solar panel assembly 4 arranged at the top of the shell 3, a wind power generation assembly 5 arranged in the shell 3 and a lighting lamp 6 arranged at the bottom of the shell 3, wherein the shell 3 comprises a top plate 301 and a bottom plate 302 which are oppositely arranged up and down and are in a disc shape, 4 air deflectors 303 are vertically arranged between the top plate 301 and the bottom plate 302, and the air deflectors 303 are in central symmetry with respect to the central point of the top plate 301 or the bottom plate 302; the solar panel assembly 4 is composed of a plurality of solar panels, and is assembled into an upwardly convex circular arch shape through the plurality of solar panels; the wind power generation assembly 5 comprises fan blades 501 and wind power generators 502, wherein the number of the fan blades is equal to that of the air deflectors 303, the fan blades are arranged between the air deflectors 303 and are respectively arranged in a central symmetry mode about the central point of the top plate 301 or the bottom plate 302, and the wind power generators 502 are rotationally connected with the fan blades 501; preferably, the number of the wind deflectors 303 and the wind power generation assemblies 5 is specifically selected to be 4, and the corresponding directions are east, south, west and north, so that the wind in any direction can be utilized by the device, and the device achieves the purpose of arranging the wind power generation assemblies 5 inside through the specific arrangement of the shell 3, thereby protecting the wind power generation assemblies 5.

Specifically, as shown in fig. 2, specifically, an electrical structure inside the device is shown, and in order to implement the wind-solar hybrid function, the solar panel assembly 4 and the wind power generator 502 are electrically connected to the storage battery 101 disposed in the lamp post 1.

In one example, to improve the utilization rate of wind power, as shown in fig. 4, a plurality of first wind guide strips 3031 and second wind guide strips 3032 which are perpendicular to each other in a guiding direction are vertically arranged in the wind guiding plate 303, the first guide strips 3031 are arranged in parallel to the fan blades 501 on one side of the wind guiding plate 303, the second wind guide strips 3032 are arranged in perpendicular to the fan blades 501 on one side of the wind guiding plate 303, the first wind guide strips 3031 are arranged at equal intervals, and the second wind guide strips 3032 are respectively arranged between two first wind guide strips 3031. When wind comes in any direction, the wind blows towards the fan blade 501 opposite to the fan blade, and then enters the shell 3, is decomposed by the wind guide plate 303, blows towards the side of the other fan blade 501 adjacent to the fan blade along the wind guide strip, and can still drive the fan blade 501, so that the wind power is utilized to the maximum.

In order to fully disclose the utility model, as shown in fig. 3, the fan blade 501 is shown in the figure and is connected with reduction gear 5012 through fan blade axle 5011, reduction gear 5012 is connected with a reversing gear 5013 meshing, reversing gear 5013 through the pivot with aerogenerator 502 is connected.

Since the electric power generated by the solar panel assembly 4 is direct current, an inverter 401 is electrically connected between the solar panel assembly 4 and the storage battery 101 in order to convert the electric power into alternating current that can be used by the illumination lamp, as shown in fig. 2. Because the inverter 401 may generate a high temperature when in use, and an excessive temperature may affect the performance, as shown in fig. 5, preferably, a dust screen 304 is disposed between the top plate 301 and the bottom plate 302, a through hole 3041 for the shaft of the fan blade 501 to penetrate is disposed on the surface of the dust screen 304, on one hand, the dust screen 304 prevents contaminants such as dust from entering the inside of the apparatus to cause pollution, and also has a ventilation function for the inside, and when the inverter 401, which is likely to generate a high temperature when in use, is disposed in the dust screen 304, the inverter 401 may prevent the rainwater and the like from damaging the inverter 401 due to pollution, and may dissipate heat in time, and prevent the inverter from being damaged due to overheating.

In another example, in order to dispose the fan blade 501 in the housing 3 and reduce the volume and make the shape more beautiful and simple, the size of the fan blade is inevitably reduced, and the fan blade 501 is a wide blade type fan blade, which can increase the wind receiving area while reducing the size, and can utilize the side wind separated from the wind deflector 303, thereby improving the wind power conversion efficiency.

In the above-mentioned technical solutions of the embodiments, in order to improve the conversion efficiency of wind energy, another technical solution is further disclosed in the present embodiment, in order to increase the ventilation amount and increase the wind speed, an upper flange 3011 and a lower flange 3021 are respectively provided at the outer edges of the top plate 301 and the bottom plate 302, and the upper flange 3011 and the lower flange 3021 respectively extend upward and downward at an angle of 15 to 60 degrees from the horizontal direction. Thus, when wind blows, the wind enters between the top plate 301 and the bottom plate 302 through the upper flange 3011 and the lower flange 3021, the wind volume is increased, and the wind speed is increased.

The parts of the present invention not described in detail are the known techniques of those skilled in the art. Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (7)

1. The multifunctional wind-solar complementary illuminating lamp is characterized by comprising a lamp post, a base arranged at the bottom of the lamp post and a wind-solar complementary illuminating system arranged at the top of the lamp post; wherein,

the wind-solar hybrid lighting system comprises a shell, a solar panel assembly arranged at the top of the shell, a wind power generation assembly arranged in the shell and a lighting lamp arranged at the bottom of the shell;

the shell comprises a top plate and a bottom plate which are arranged oppositely up and down and are in a disc shape, at least 4 air deflectors are vertically arranged between the top plate and the bottom plate, and the air deflectors are in central symmetry with the center point of the top plate or the center point of the bottom plate;

the solar panel assembly consists of a plurality of solar panels, and the solar panels are assembled into an upward convex circular arch;

the wind power generation assembly comprises a plurality of fan blades which are equal to the air deflectors in number and are respectively arranged between the air deflectors in a central symmetry manner relative to the central point of the top plate or the bottom plate, and a wind power generator rotationally connected with the fan blades;

the solar panel assembly and the wind driven generator are electrically connected with a storage battery arranged in the lamp post.

2. The multifunctional wind-solar hybrid illuminating lamp is characterized in that a plurality of first wind guide strips and second wind guide strips which are vertical to each other in guiding direction are vertically arranged in the wind guide plate, the first wind guide strips are arranged in parallel with the fan blades on one side of the wind guide plate, the second wind guide strips are arranged in vertical to the fan blades on one side of the wind guide plate, the first wind guide strips are arranged at equal intervals, and the second wind guide strips are respectively arranged between the two first wind guide strips.

3. The multifunctional wind-solar hybrid illuminating lamp is characterized in that the fan blade is connected with a reduction gear through a fan blade shaft, the reduction gear is meshed with a reversing gear, and the reversing gear is connected with the wind driven generator through a rotating shaft.

4. The multifunctional wind-solar hybrid illuminating lamp according to claim 3, wherein an inverter is electrically connected between the solar panel assembly and the storage battery.

5. The multifunctional wind-solar hybrid illuminating lamp is characterized in that a dust screen is arranged between the top plate and the bottom plate, a through hole for a fan blade shaft to penetrate out is formed in the surface of the dust screen, and the inverter is arranged in the dust screen.

6. The multifunctional wind-solar hybrid illuminating lamp according to claim 1, wherein the fan blade is a wide-blade fan blade.

7. The multifunctional wind-solar hybrid illuminating lamp according to any one of claims 1 to 6, wherein the outer edges of the top plate and the bottom plate are respectively provided with an upper flange and a lower flange, and the upper flange and the lower flange respectively extend upwards and downwards at an angle of 15 to 60 degrees from the horizontal direction.