CN221570325U

CN221570325U - Wind power assisted street lamp

Info

Publication number: CN221570325U
Application number: CN202323635309.1U
Authority: CN
Inventors: 刘漫; 刘冲; 胡柳
Original assignee: Xi'an Night Light Energy Technology Co ltd
Current assignee: Xi'an Night Light Energy Technology Co ltd
Priority date: 2023-12-29
Filing date: 2023-12-29
Publication date: 2024-08-20
Anticipated expiration: 2033-12-29

Abstract

The utility model relates to the technical field of lighting equipment, in particular to a street lamp for wind power auxiliary power generation; technical problems: the existing wind power generation street lamp captures high-altitude wind power through a single fan at the top of the street lamp to generate power, but ignores low-altitude wind power, has low conversion and utilization rate of wind power, and can lack power energy to convert power when the weather is clear and has no wind power, so that the energy consumption can be increased; the technical scheme is as follows: a street lamp for wind power assisted power generation comprises a base assembly, a ground power generation assembly, a street lamp assembly, a light energy power generation assembly, a low-altitude power generation assembly and a high-altitude power generation assembly; compared with the traditional wind power generation street lamp, the wind power generation street lamp has the advantages that wind energy in different horizontal planes is converted into electric energy by increasing the capture area of the wind energy, the utilization rate of the wind energy is increased, and when the weather is clear, the electric power is converted and stored by absorbing the solar energy, so that the phenomenon that the electric energy is not converted enough due to insufficient wind power is avoided, and the street lamp cannot provide illumination due to insufficient energy supply.

Description

Wind power assisted street lamp

Technical Field

The utility model relates to the technical field of lighting equipment, in particular to a street lamp for wind power auxiliary power generation.

Background

The street lamp is a lamp for providing illumination for the road, is an important infrastructure in daily life, is widely applied to both sides of the road, has an important effect on illumination at night, and the street lamp illumination needs to provide electric energy for the street lamp, because the street lamp has long use time and large power consumption, clean energy is needed to provide electric energy for the street lamp in order to save energy, wind power is a continuous clean energy, and the wind power generation device converts wind energy into mechanical energy, thereby drive the inside rotor of generator and rotate to with mechanical energy conversion electric energy, accomplish wind power generation's process, current wind power generation street lamp catches high altitude wind power through the single fan in street lamp top and generates electricity, but neglected low altitude wind energy, conversion utilization ratio to wind power is lower, and can lack the power energy and convert electric power when the weather is clear and not having wind energy, can increase the energy consumption.

Disclosure of utility model

In order to solve the problems that the existing wind power generation street lamp captures high-altitude wind power through a single fan at the top of the street lamp to generate electricity, but ignores low-altitude wind power, has low conversion and utilization rate of wind power, and can lack power energy to convert electric power when the weather is clear and has no wind power, so that energy consumption can be increased.

The technical scheme of the utility model is as follows: a street lamp for wind power assisted power generation comprises a base assembly, a ground power generation assembly, a street lamp assembly, a light energy power generation assembly, a low-altitude power generation assembly and a high-altitude power generation assembly; the top surface of base subassembly is provided with ground power generation component, and ground power generation component's top surface is provided with street lamp subassembly, and street lamp subassembly's top surface is provided with light energy power generation component, and light energy power generation component's top surface is provided with low altitude power generation component, and low altitude power generation component is provided with high altitude power generation component.

Preferably, the base assembly provides a supporting function for the whole device, the device is fixed, the ground power generation assembly utilizes vehicles on a road to generate power through the carried wind power, the street lamp assembly provides illumination at night, the light energy power generation assembly converts solar energy into electric energy, the low-altitude power generation assembly captures low-altitude wind power to generate power, and the high-altitude power generation assembly captures high-altitude wind power to generate power.

Preferably, the base assembly comprises a supporting base, a fixed bottom plate, a fixed hole, a fixed rod and a waterproof storage battery; the bottom surface of supporting base is provided with fixed bottom plate, and the fixed orifices has been seted up to fixed bottom plate's top surface, and four groups have been seted up to the fixed orifices, and the inside of fixed orifices is provided with the dead lever, and fixed bottom plate's bottom surface is provided with waterproof battery, utilizes fixed orifices and dead lever to fix fixed bottom plate subaerial, and waterproof battery stores the electric power of electricity generation, passes through the energy for the street lamp at night.

Preferably, the ground power generation assembly comprises a bottom power generation base, a dust cover, a rotating shaft and bottom fan blades; the top surface of supporting the base is provided with the bottom surface electricity generation base, and the top surface of bottom surface electricity generation base is provided with the dust cover, and the inside of dust cover is provided with the rotation axis, and the outside of rotation axis is provided with the bottom flabellum, and the wind-force that roadside vehicle walked the drive drives the bottom flabellum and rotates the conversion and store into the electric energy after the dust cover filters.

Preferably, the street lamp component comprises a street lamp post, a street lamp bracket, a connecting rod, a lamp shade and an illuminating lamp; the top surface of bottom surface electricity generation base is provided with the street lamp pole, and the top surface of street lamp pole is provided with the street lamp support, and the street lamp support is provided with two sets of, and the bottom surface of street lamp support is provided with the connecting rod, and the bottom surface of connecting rod is provided with the lamp shade, and the bottom surface of lamp shade is provided with the light, and the light provides the illumination when night, and the lamp shade provides the guard action for the light.

Preferably, the light energy power generation assembly comprises a light energy support rod, a light energy support plate, a light energy power generation plate and a protective shell; the top surface of street lamp pole is provided with light energy branch, and the outside of light energy branch is provided with light energy extension board, and light energy extension board is provided with two sets of, and the top surface of light energy extension board is provided with the light energy generating plate, and the outside of light energy generating plate is provided with protective housing, when the weather is clear and not having wind-force, utilizes light energy generating plate to catch solar energy and converts, stores the electric energy, and protective housing provides the guard action for light energy generating plate, increase life.

Preferably, the low-altitude power generation assembly comprises a wind force support rod, a protective sleeve, a lower wind force rotating shaft and lower fan blades; the top surface of light energy branch is provided with wind-force branch, and the outside of wind-force branch is provided with the lag, and the top surface of lag is provided with down wind-force pivot, and the outside of lower wind-force pivot is provided with down the flabellum, utilizes down the flabellum to catch the wind-force of low altitude process, makes down the flabellum rotate around lower wind-force pivot, converts wind-force into the electric energy and stores.

Preferably, the high-altitude power generation assembly comprises a generator, an upper wind power rotating shaft, a guide cover, upper fan blades, a tail wing and a steering shaft; the top surface of wind-force branch is provided with the steering spindle, the top surface of steering spindle is provided with the generator, one side of generator is provided with the wind-force pivot, the other end of going up the wind-force pivot is provided with the kuppe, the outside of kuppe is provided with the flabellum, the opposite side of generator is provided with the fin, when utilizing high altitude wind-force to pass through the device, wind-force passes through the kuppe and drives the flabellum and rotate around last wind-force pivot after the uniform wind flow, utilize the generator to convert wind-force into the electric energy and store, utilize the fin to rotate the generator around the steering spindle, make the flabellum just to wind direction, utilize the fin to make the generator deflect when wind-force is great, reduce the rotational speed of flabellum, protection device is not destroyed.

The utility model has the beneficial effects that:

1. Compared with the traditional wind driven generator, the wind driven generator has the advantages that high-altitude wind power is captured through the single fan at the top of the street lamp to generate electricity, but low-altitude wind power is ignored, the conversion utilization rate of wind power is low, power energy is lack to convert electricity when the weather is clear and no wind power exists, energy consumption is increased, wind power in inner spaces of different levels is converted into electricity through increasing the capturing area of the wind power, the utilization rate of the wind power is increased, and when the weather is clear, the electricity is converted and stored through absorbing the solar energy, so that the phenomenon that the electricity is not converted enough due to insufficient wind power is avoided, and the street lamp cannot provide illumination due to insufficient energy supply;

2. When the high-altitude wind power passes through the device, the wind power drives the upper fan blades to rotate around the upper wind power rotating shaft after the airflow uniformly flows through the air guide cover, the wind power is converted into electric energy by the generator, the lower fan blades capture the low-altitude wind power, the lower fan blades rotate around the lower wind power rotating shaft, the wind power is converted into electric energy, when the weather is clear and has no wind power, the solar energy is captured by the light energy generating panel to be converted, the converted electric energy is stored in the waterproof storage battery, and the electric energy is supplied to the street lamp when needed;

3. The wind power that drives is walked and passes through to drive the bottom flabellum and rotates after filtering impurity such as dust through the dust cover, turns into the electric energy with wind-force and stores, and when high altitude aerogenerator was worked, utilize the fin to rotate the generator around the steering spindle, make last flabellum just to the wind direction, increase the conversion utilization to wind energy, utilize the fin to make the generator deflect when wind-force is great, reduce the rotational speed of last flabellum, protection device is not destroyed.

Drawings

FIG. 1 shows a schematic perspective view of a street lamp for wind-assisted power generation according to the present utility model;

FIG. 2 shows a schematic perspective view of a street lamp ground power generation assembly for wind-assisted power generation according to the present utility model;

FIG. 3 is a schematic perspective view of a street lamp light energy power generation assembly for wind assisted power generation according to the present utility model;

FIG. 4 shows a schematic perspective view of a street lamp high-altitude power generation assembly for wind-assisted power generation according to the present utility model;

Reference numerals illustrate: 1. a base assembly; 2. a ground power generation assembly; 3. a street lamp assembly; 4. a light energy power generation assembly; 5. a low-altitude power generation assembly; 6. a high altitude power generation assembly; 101. a support base; 102. a fixed bottom plate; 103. a fixing hole; 104. a fixed rod; 105. a waterproof storage battery; 201. a bottom surface power generation base; 202. a dust cover; 203. a rotation shaft; 204. bottom fan blades; 301. a street lamp post; 302. a street lamp bracket; 303. a connecting rod; 304. a lamp shade; 305. a lighting lamp; 401. a light energy strut; 402. an optical energy support plate; 403. a light energy power generation plate; 404. a protective housing; 501. a wind force strut; 502. a protective sleeve; 503. a lower wind power rotating shaft; 504. a lower fan blade; 601. a generator; 602. a wind power rotating shaft is arranged on the upper part; 603. a guide cover; 604. an upper fan blade; 605. a tail wing; 606. and a steering shaft.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1, the present utility model provides an embodiment: a street lamp for wind power assisted power generation comprises a base component 1; the method is characterized in that: the street lamp power generation system also comprises a ground power generation assembly 2, a street lamp assembly 3, a light energy power generation assembly 4, a low-altitude power generation assembly 5 and a high-altitude power generation assembly 6; the top surface of base subassembly 1 is provided with ground power generation component 2, the top surface of ground power generation component 2 is provided with street lamp subassembly 3, the top surface of street lamp subassembly 3 is provided with light energy power generation component 4, the top surface of light energy power generation component 4 is provided with low altitude power generation component 5, low altitude power generation component 5 is provided with high altitude power generation component 6, base subassembly 1 provides the supporting role for whole device, and fix the device, ground power generation component 2 utilizes the wind power that the vehicle carried up on the street lamp subassembly 3 provides the illumination evening, light energy power generation component 4 converts solar energy into electric energy, low altitude power generation component 5 catches low altitude wind power and generates electricity, high altitude power generation component 6 catches high altitude wind power and generates electricity.

Referring to fig. 2 to 4, in the present embodiment, the base assembly 1 includes a supporting base 101, a fixing base 102, a fixing hole 103, a fixing rod 104 and a waterproof storage battery 105; the bottom surface of supporting base 101 is provided with fixed bottom plate 102, and fixed hole 103 has been seted up to the top surface of fixed bottom plate 102, and four groups have been seted up to fixed hole 103, and the inside of fixed hole 103 is provided with dead lever 104, and the bottom surface of fixed bottom plate 102 is provided with waterproof battery 105, utilizes fixed hole 103 and dead lever 104 to fix fixed bottom plate 102 subaerial, and waterproof battery 105 stores the electric power of generating electricity, passes through the energy for the street lamp at night.

Preferably, the ground power generation assembly 2 comprises a bottom power generation base 201, a dust cover 202, a rotating shaft 203 and bottom fan blades 204; the top surface of supporting base 101 is provided with bottom surface electricity generation base 201, and the top surface of bottom surface electricity generation base 201 is provided with dust cover 202, and the inside of dust cover 202 is provided with rotation axis 203, and the outside of rotation axis 203 is provided with bottom flabellum 204, and the wind-force that the roadside vehicle walked and drove drives bottom flabellum 204 and rotate the conversion and store into the electric energy after dust cover 202 filters.

Preferably, the street lamp assembly 3 comprises a street lamp post 301, a street lamp bracket 302, a connecting rod 303, a lamp shade 304 and an illuminating lamp 305; the top surface of bottom surface electricity generation base 201 is provided with street lamp pole 301, and the top surface of street lamp pole 301 is provided with street lamp support 302, and street lamp support 302 is provided with two sets of, and the bottom surface of street lamp support 302 is provided with connecting rod 303, and the bottom surface of connecting rod 303 is provided with lamp shade 304, and the bottom surface of lamp shade 304 is provided with light 305, and light 305 provides the illumination at night, and lamp shade 304 provides the guard action for light 305.

The light energy power generation assembly 4 comprises a light energy support rod 401, a light energy support plate 402, a light energy power generation plate 403 and a protective shell 404; the top surface of street lamp pole 301 is provided with light energy branch 401, and the outside of light energy branch 401 is provided with light energy extension board 402, and light energy extension board 402 is provided with two sets of, and the top surface of light energy extension board 402 is provided with light energy power generation board 403, and the outside of light energy power generation board 403 is provided with protective housing 404, when the weather is clear and not had wind-force, utilizes light energy power generation board 403 to catch solar energy and converts, stores the electric energy, and protective housing 404 provides the guard action for light energy power generation board 403, increase life.

Preferably, the low-altitude power generation assembly 5 comprises a wind pole 501, a protective sleeve 502, a lower wind rotating shaft 503 and a lower fan blade 504; the top surface of light energy branch 401 is provided with wind-force branch 501, and the outside of wind-force branch 501 is provided with lag 502, and the top surface of lag 502 is provided with lower wind-force pivot 503, and the outside of lower wind-force pivot 503 is provided with lower flabellum 504, utilizes lower flabellum 504 to catch the wind-force that passes in the low air, makes lower flabellum 504 rotate around lower wind-force pivot 503, converts wind-force into the electric energy and stores.

Preferably, the high-altitude power generation assembly 6 comprises a generator 601, an upper wind power rotating shaft 602, a guide cover 603, upper fan blades 604, a tail wing 605 and a steering shaft 606; the top surface of wind-force branch 501 is provided with steering shaft 606, the top surface of steering shaft 606 is provided with generator 601, one side of generator 601 is provided with upper wind-force pivot 602, the other end of upper wind-force pivot 602 is provided with kuppe 603, the outside of kuppe 603 is provided with upper flabellum 604, the opposite side of generator 601 is provided with fin 605, when the wind-force of utilizing the high altitude passes through the device, wind-force drives upper flabellum 604 and rotates around upper wind-force pivot 602 after evenly the wind-force flows through kuppe 603, use generator 601 to convert wind-force into electric energy and store, utilize fin 605 to rotate generator 601 around steering shaft 606, make upper flabellum 604 just face the wind-force, make generator 601 deflect by fin 605 when wind-force is great, reduce the rotational speed of upper flabellum 604, protection device is not destroyed.

When the wind power generation device works, the generator 601 is rotated around the steering shaft 606 by the tail wing 605 when high-altitude wind power passes through the device, so that the upper fan blade 604 faces the wind direction, the generator 601 is deflected by the tail wing 605 when the wind power is large, the rotating speed of the upper fan blade 604 is reduced, and the device is protected from being damaged;

The wind power drives the upper fan blades 604 to rotate around the upper wind power rotating shaft 602 after the air flow is uniform through the air guide cover 603, and the wind power is converted into electric energy by the generator 601 for storage;

Capturing wind power passing through the low air by using the lower fan blades 504, enabling the lower fan blades 504 to rotate around the lower wind power rotating shaft 503, and converting the wind power into electric energy for storage;

When the weather is clear and has no wind power, the solar energy is captured by the light energy generating plate 403 to be converted, the electric energy is stored, and the wind power driven by the passing of the vehicles on the road side is filtered by the dust cover 202 and then drives the bottom fan blades 204 to rotate to be converted into the electric energy for storage;

When the street lamp needs to be used, the waterproof storage battery 105 is used for conveying the electric energy stored in the street lamp to the illuminating lamp 305, so that the street lamp can illuminate.

Through the steps, the base assembly 1 provides a supporting function for the whole device, the device is fixed, when the weather is clear or the wind power is insufficient, the wind power brought up when a vehicle runs on a road is converted by the ground power generation assembly 2 and then stored, solar energy is converted into electric energy through the light energy power generation assembly 4, the low-altitude wind power is captured by the low-altitude power generation assembly 5 to generate electricity, the high-altitude wind power is captured by the high-altitude power generation assembly 6 to generate electricity, and the stored electric energy is transmitted to the street lamp assembly 3 to provide illumination at night.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims

1. A street lamp for wind power assisted power generation comprises a base component (1); the method is characterized in that: the street lamp power generation system also comprises a ground power generation assembly (2), a street lamp assembly (3), a light energy power generation assembly (4), a low-altitude power generation assembly (5) and a high-altitude power generation assembly (6); the top surface of base subassembly (1) is provided with ground power generation component (2), and the top surface of ground power generation component (2) is provided with street lamp subassembly (3), and the top surface of street lamp subassembly (3) is provided with light energy power generation component (4), and the top surface of light energy power generation component (4) is provided with low altitude power generation component (5), and low altitude power generation component (5) are provided with high altitude power generation component (6).

2. A wind assisted electricity generating street lamp as defined in claim 1, wherein: the base assembly (1) comprises a supporting base (101), a fixed bottom plate (102), a fixed hole (103), a fixed rod (104) and a waterproof storage battery (105); the bottom surface of supporting base (101) is provided with fixed bottom plate (102), and fixed orifices (103) have been seted up to the top surface of fixed bottom plate (102), and four groups have been seted up to fixed orifices (103), and the inside of fixed orifices (103) is provided with dead lever (104), and the bottom surface of fixed bottom plate (102) is provided with waterproof battery (105).

3. A wind assisted electricity generating street lamp according to claim 2, characterised in that: the ground power generation assembly (2) comprises a bottom power generation base (201), a dust cover (202), a rotating shaft (203) and bottom fan blades (204); the top surface of supporting base (101) is provided with bottom surface electricity generation base (201), and the top surface of bottom surface electricity generation base (201) is provided with dust cover (202), and the inside of dust cover (202) is provided with rotation axis (203), and the outside of rotation axis (203) is provided with bottom flabellum (204).

4. A wind assisted electricity generating street lamp as defined in claim 1, wherein: the street lamp assembly (3) comprises a street lamp post (301), a street lamp bracket (302), a connecting rod (303), a lamp shade (304) and an illuminating lamp (305); the top surface of bottom surface electricity generation base (201) is provided with street lamp pole (301), and the top surface of street lamp pole (301) is provided with street lamp support (302), and street lamp support (302) are provided with two sets of, and the bottom surface of street lamp support (302) is provided with connecting rod (303), and the bottom surface of connecting rod (303) is provided with lamp shade (304), and the bottom surface of lamp shade (304) is provided with light (305).

5. The wind-assisted power generation street lamp of claim 4, wherein: the light energy power generation assembly (4) comprises a light energy support rod (401), a light energy support plate (402), a light energy power generation plate (403) and a protective shell (404); the top surface of street lamp pole (301) is provided with light energy branch (401), and the outside of light energy branch (401) is provided with light energy extension board (402), and light energy extension board (402) are provided with two sets of, and the top surface of light energy extension board (402) is provided with light energy electricity generation board (403), and the outside of light energy electricity generation board (403) is provided with protective housing (404).

6. The wind-assisted power generation street lamp of claim 5, wherein: the low-altitude power generation assembly (5) comprises a wind force strut (501), a protective sleeve (502), a lower wind force rotating shaft (503) and lower fan blades (504); the top surface of light energy branch (401) is provided with wind-force branch (501), and the outside of wind-force branch (501) is provided with lag (502), and the top surface of lag (502) is provided with lower wind-force pivot (503), and the outside of lower wind-force pivot (503) is provided with lower flabellum (504).

7. The wind-assisted power generation street lamp of claim 6, wherein: the high-altitude power generation assembly (6) comprises a power generator (601), an upper wind power rotating shaft (602), a guide cover (603), upper fan blades (604), a tail wing (605) and a steering shaft (606); the top surface of wind-force branch (501) is provided with steering spindle (606), and the top surface of steering spindle (606) is provided with generator (601), and one side of generator (601) is provided with wind-force pivot (602), and the other end of going up wind-force pivot (602) is provided with kuppe (603), and the outside of kuppe (603) is provided with flabellum (604), and the opposite side of generator (601) is provided with fin (605).