CN202403159U - Wind and solar energy mutual-complementing hybrid power supply intelligent-control LED (light-emitting diode) illumination system for underground garage - Google Patents

Abstract

The utility model discloses a wind and solar energy mutual-complementing hybrid power supply intelligent-control LED (light-emitting diode) illumination system for an underground garage. A solar energy battery pack (2) is mounted on the outer surface of a building in the form of a building material, a wind driven generator (4) is placed at a smooth ventilated place of the building, the solar energy battery pack (2) and the wind driven generator (4) are connected with a controller (3) through leads respectively, a mains supply system (1) is connected with the controller (3) through a voltage reducing rectifier, the controller (3) is connected with a storage battery (6) and is connected with a monitoring system (4) through a communication bus (15) at the same time, and the controller (3) is connected with automatic control switches (8 and 11) through a trunk line (7) respectively. The wind and solar energy mutual-complementing hybrid power supply intelligent-control LED illumination system for the underground garage is efficient and energy-saving, and adopts the hybrid power supply from the solar energy, the wind energy and the mains supply.

Description

Wind light mutual complementing hybrid power supply underground garage intelligent control LED illuminator

[technical field]

The utility model relates to the utilization of solar energy and wind energy, relates to the solar energy power generating using electricity system and the wind power generation using electricity system that directly are transformed into light radiation electric energy, is specifically related to a kind of wind light mutual complementing hybrid power supply underground garage intelligent control LED illuminator.

[background technology]

1, the illumination of existing garage is adopted is that civil power drives common fluorescent lamp lighting system, belongs to the system of altar lamp and needs illumination in 24 hours, and power consumption is than great, and maintenance cost height, difficulty are big.Run into the power failure fault, can cause the garage illumination to interrupt, can cause very large potential safety hazard.And the illumination of the underground garage of highly energy-consuming has had a strong impact on the supply of electric power in city.

2, at present the load light fixture carries the garage illuminator of gauge tap, exists car to walk the back light fixture and just can light, and perhaps light fixture is lighted unevenly, and does not reach the effect of real vehicling lighting, brings potential safety hazard to the car owner.

3, existing solar energy using electricity system exists night, the generating of overcast and rainy photovoltaic electric power to bring system's fluctuation of service phenomenon inadequately.

[summary of the invention]

The purpose of the problem the utility model that exists to said lighting system is the wind light mutual complementing hybrid power supply underground garage intelligent control LED illuminator that proposes a kind of energy-efficient solar energy, wind energy, civil power hybrid power supply electricity consumption.

The utility model solves the technical scheme that its technical problem adopted: comprise solar photovoltaic battery component, controller, wind-driven generator, battery, some automatic control switch, mains system, monitoring system and first group of LED lighting; Solar module is installed on external surface of buildings; Wind-driven generator is positioned over the smooth place of constructure ventilation, is connected with controller through lead respectively, and mains system is connected with controller through the over commutation dropping equipment; Controller is connected with battery; Also be connected with monitoring system through communication bus simultaneously, realize the real-time remote monitoring management, controller is connected with automatic control switch respectively through backbone.

Said automatic control switch can be that light-operated, microwave control, human heat are released a kind of in the infrared induction control form, realize car, that the people touches automatic control switch is open-minded, first group of LED lighting connected and lighted.Car is walked, the people walks automatic control switch and turn-offs, and first group of LED lighting breaks off and extinguishing.

Further; Also comprise sequence circuit; Control unlatching and the shutoff of second group of LED lighting in different time sections through programming, the second group of LED lighting of control that can program in real time according to the need for electricity of client's different time sections lighted the time, to realize the monitoring, illumination demand.

Said first group of LED lighting, second group of LED lighting, automatic control switch and program switch all adopt low-voltage DC supply; Power supply voltage range DC20V-DC60V; First group of LED lighting, second group of LED lighting and automatic control switch are placed each position respectively according to the garage field condition; Light to reach people's LED lighting of sending a car, the people goes car to go the LED lighting to extinguish, the purpose of unmanned no car monitoring, illumination.Maximization improves solar photovoltaic electric power, the efficient and rational utilization of wind-power electricity generation electric power.

The beneficial effect of the utility model is:

1, owing to adopt new forms of energy, practices thrift conventional energy resource, reduced carbon emission, reduced whole solitary building electrical load simultaneously.

2, owing to adopted solar energy and wind energy complementary power supply, it is not enough to have solved overcast and rainy solar electrical energy generation, problems such as calm weather blower fan generation deficiency, the stability of assurance system power supply

3, because solar module is installed in the building with the construction material form, reduce the routine building consumptive material, improved the building image simultaneously.

4, the electric power transmitted in packets owing to electric power that solar module is sent and wind energy generation arrives each controller, has reduced the power loss of transmission, has improved the stability of system.

5, owing to adopted the LED lighting, increase various control modes simultaneously, improved the energy-saving efficiency of system greatly, strengthened the management of power use.

6, owing to adopt the low-voltage LED lighting, light fixture itself is not set up condenser type or inductance type rectification circuit, so the distinctive stroboscopic characteristics of LED prolong life-span of LED lighting greatly.

7, since adopt car, the people comes the LED lighting to light; The intelligent management mode that car goes, the people goes the LED lighting to extinguish; Solved the LED lighting and lighted for a long time, the shortcoming of rising light fixture easy ageing on the temperature, the service life of having improved the LED lighting greatly.

8, because the external battery of system makes system increase emergency function, not influenced by external outage.

9, because whole garage adopts the control of a plurality of systems, and each system keeps independence, increased the stability and the reliability of whole garage illumination.

10, owing to adopted data collecting system, realized the real-time monitoring and the intelligent management of garage illumination.

[description of drawings]

Below in conjunction with accompanying drawing the utility model is done further to describe.

Accompanying drawing is the electrical structure sketch map of the utility model.

Among the figure: 1 is that mains system, 2 is that solar photovoltaic battery component, 3 is that controller, 4 is that wind-driven generator, 5 is that monitoring system, 6 is that battery, 7 is that backbone, 8,11 is that automatic control switch, 9,10,13,14 is that LED lighting, 12 is that program switch, 15 is a communication bus.

[specific embodiment]

Referring to accompanying drawing; The utility model comprises solar photovoltaic battery component 2, controller 3, wind-driven generator 4, battery 6, some automatic control switch 8,11, mains system 1, monitoring system 5 and first group of LED lighting 9,10; Solar module 2 is installed on external surface of buildings; Wind-driven generator 4 is positioned over the smooth place of constructure ventilation, is connected with controller 3 through lead respectively, and mains system 1 is connected with controller 3 through the over commutation dropping equipment; Controller 3 is connected with battery 6; Also be connected with monitoring system 4 through communication bus 15 simultaneously, realize the real-time remote monitoring management, controller 3 is connected with automatic control switch 8,11 respectively through backbone 7.

In the embodiment of the utility model, automatic control switch 8,11 is released a kind of in the infrared induction control form for light-operated, microwave control, human heat, realize car, that the people touches automatic control switch 8,11 is open-minded, first group of LED lighting 9,10 connected and lighted.Car is walked, the people walks automatic control switch 8,11 and turn-offs, and first group of LED lighting breaks off and extinguishing.

In the embodiment of the utility model; Also comprise sequence circuit; A program switch 12 is arranged, and second group of LED lighting 13,14 of program switch 12 controls can be provided with second group of LED lighting 13,14 according to the need for electricity of client's different time sections and light the time.

In the embodiment of the utility model, 9,10, second groups of LED lightings 13,14 of first group of LED lighting, automatic control switch 8,11 and program switch 12 all adopt low-voltage DC supply, power supply voltage range DC20V-DC60V.9,10, second groups of LED lightings 13,14 of first group of LED lighting and automatic control switch 8,11; Place each position respectively according to the garage field condition; Light to reach people's LED lighting of sending a car, the people goes car to go the LED lighting to light, the purpose of unmanned no car monitoring, illumination.Maximization improves solar photovoltaic electric power, the efficient and rational utilization of wind-power electricity generation electric power.

Claims (4)

1. wind light mutual complementing hybrid power supply underground garage intelligent control LED illuminator; It is characterized in that: comprise solar photovoltaic battery component (2), controller (3), wind-driven generator (4), battery (6), some automatic control switch (8,11), mains system (1), monitoring system (5) and first group of LED lighting (9,10); Solar module (2) is installed on external surface of buildings; Wind-driven generator (4) is positioned over the smooth place of constructure ventilation; Be connected with controller (3) through lead respectively, mains system (1) is connected with controller (3) through the over commutation dropping equipment, and controller (3) is connected with battery (6); Also be connected with monitoring system (4) through communication bus (15) simultaneously, controller (3) is connected with automatic control switch (8,11) respectively through backbone (7).

2. wind light mutual complementing hybrid power supply underground garage intelligent control LED illuminator according to claim 1 is characterized in that: automatic control switch (8,11) is released a kind of in the infrared induction control form for light-operated, microwave control, human heat.

3. wind light mutual complementing hybrid power supply underground garage intelligent control LED illuminator according to claim 1 and 2; It is characterized in that: also comprise sequence circuit; A program switch (12) is arranged, program switch (12) control second group of LED lighting (13,14).

4. wind light mutual complementing hybrid power supply underground garage intelligent control LED illuminator according to claim 3; It is characterized in that: first group of LED lighting (9,10), second group of LED lighting (13,14), automatic control switch (8,11) and program switch (12) all adopt low-voltage DC supply, power supply voltage range DC20V-DC60V.

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