CN201414250Y - BIPV micro-discharge digital control LED lighting power supply system - Google Patents

Abstract

The utility model discloses a BIPV micro-discharge digital control LED lighting power supply system, which comprises at least a solar controller, a lamp and at least an inductor, wherein the inductoris connected on the solar controller, the inductor is arranged corresponding to the lamp, and a program which drives the inductor to sense the running state of the lamp in time and environment brightand converse is solidified in the solar controller. The BIPV micro-discharge digital control LED lighting power supply system uses the inductor to circularly inquire the state of each lamp in real time and induce the light brightness condition of external environment and conserve to the solar controller, the solar controller controls when the lamp lights and when extinguishes according to the control condition which is preset by each lamp, thereby the BIPV micro-discharge digital control LED lighting power supply system can reduce the state that the lamp always keeps light and wastes energy.

Description

The little row's numerical control of BIPV LED lighting power supply system

Technical field

The utility model relates to a kind of lighting power supply system, particularly a kind of solar energy highly effective numerical control LED lighting power supply system.

Background technology

The energy is the material base of human society survival and development, the great variety of human life style and living standard all is based upon on the basis of a large amount of energy resource consumptions, since 20th century, be accompanied by the quickening of human society process of industrialization and the raising of degree, the demand of the energy just approached the limit of production of energy and deliverability under the prior art condition.Wherein, the illumination energy consumption is the important composition of building energy consumption.

In recent years, photovoltaic and application thereof become the focus and the main flow of green energy resource gradually as the pith of regenerative resource.For the building building lighting provides solar electric power and replaces civil power to be about to become main application direction.

Traditional solar illuminating system general is all only considered the electricity that how solar energy sent, converts the desired voltage of lighting or storage battery to; And do not have to consider how to reduce an energy dissipation of lighting, and light fixture situation about wasting energy is very many in practice, such as the underground garage illumination, is nobody's turnover basically to 6 of mornings a bit in morning, lamp is light yellow always, relatively wastes power supply.

Summary of the invention

The technical problem that the utility model mainly solves provides a kind of little row's numerical control LED of BIPV (architecture-integral or building combine with the photovoltaic device) lighting power supply system that can respond to light fixture luminance and light environment that has.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: the little row's numerical control of a kind of BIPV LED is provided lighting power supply system, comprise at least one controller for solar, light fixture and at least one inductor, described inductor is connected on the described controller for solar, the corresponding described light fixture setting of described inductor is solidified with the program that drives the described inductor timing described light fixture running status of sensing and ambient brightness and preservation in the described controller for solar.

Wherein, also comprise a computer, described computer control is connected on the described controller for solar.

Wherein, further comprise solar cell, described solar cell connects described controller for solar.

Wherein, further comprise storage battery, described storage battery connects described controller for solar.

Wherein, described controller for solar comprises the civil power switch unit, and described civil power switch unit connects electricity network.

Wherein, described controller for solar has some interfaces for external devices and communication interface, and described interfaces for external devices is connected with external equipment with communication interface.

Wherein, described communication interface is connected with a monitor.

Wherein, described inductor and described light fixture are one-body molded.

Wherein, described light fixture comprises HF lamp without electrodes.

The beneficial effects of the utility model are: be different from solar lighting electric power system of the prior art and lack the situation of controlling and wasting energy.The inductor of the little row's numerical control of the utility model BIPV LED lighting power supply system can regularly be inquired about the light luminance situation of the illumination condition of every light fixture and external environment condition and be saved in the controller for solar; Control the illumination condition of light fixture according to the pre-designed controlled condition of every light fixture by controller for solar; Thereby can reduce light fixture to be in the light yellow state always and waste energy.

Description of drawings

Fig. 1 is the little row's numerical control of a utility model BIPV LED lighting power supply system structural representation.

Fig. 2 is the structural representation that controller for solar is connected with other equipment among Fig. 1.Each description of reference numerals is as follows among the figure:

Light fixture 10 induction light fixtures 11

Inductor 20 controller for solar 30

Solar cell 301 storage batterys 302

Computer 40

Embodiment

By describing technology contents of the present utility model, structural feature in detail, realized purpose and effect, give explanation below in conjunction with execution mode and conjunction with figs. are detailed.

Please consult Fig. 1 and Fig. 2 together, the little row's numerical control of the utility model BIPV LED lighting power supply system is made up of a plurality of light fixtures 10, a plurality of inductor 20, a plurality of controller for solar 30 and a computer 40.

The a plurality of described light fixtures 10 of described inductor 20 may command, the described a plurality of inductors 20 of controller for solar 30 may command, described a plurality of controller for solar 30 all are connected on the described computer 40, and by described computer 40 controls.Described inductor 20 is described lamp luminescence state of sensing and ambient light environment regularly.

Have plurality of solar cells 301, storage battery 302 and a civil power switch unit (not shown) in the described controller for solar 30.Have some interfaces for external devices and a communication interface (not shown) on the described controller for solar 30, described interfaces for external devices can be connected with equipment such as direct-current LED lamp, direct current HF lamp without electrodes; The external monitor (not shown) of described communication interface, this monitor can monitor the ruuning situation of described external the said equipment, and the ruuning situation that is monitored is sent in the described controller for solar 30.Be solidified with the program that drives described inductor 20 timing described light fixture 10 luminances of sensing and light environment and preservation in the described controller for solar 30.

Described solar cell 301 absorbs fully solar energy when the sun is arranged, and is electric energy with the conversion of solar energy that absorbs, and an electric energy part that is transformed is used for to the external equipment power supply, and unnecessary electric energy then is stored in the described storage battery 302 in addition.Do not having the solar time, the little row's numerical control of described BIPV LED lighting power supply system can use up the electric energy in the storage battery 302 earlier, and after using up, the civil power switch unit of controller for solar 30 automatically switches on the electricity network, satisfies the power demands of load.

In the little row's numerical control of described BIPV LED lighting power supply system, the address that every light fixture 10 is corresponding unique, described inductor 20 ceaselessly the illumination condition of every light fixture of cyclic query 10 and external environment condition the light luminance situation and be saved in the controller for solar 30.Described controller for solar 30 is controlled the bright of light fixture 10 and is not worked according to the pre-designed controlled condition of every light fixture 10.

When light fixture 10 or other external equipments went wrong, controller for solar 30 also can give the alarm and notify the relevant personnel to overhaul, thus the good operation of the equipment of assurance.

Also can be by described computer 40 control controller for solar 30 by the ruuning situation of the little row's numerical control of the described whole BIPV of computer 40 telemonitorings LED lighting power supply system, the state of every the light fixture 10 in the real-time control system.

Described light fixture 10 and inductor 20 can one-body moldedly be an induction light fixture, such as having inductor on the light fixture.

In sum, the little row's numerical control of the utility model BIPV LED lighting power supply system by described inductor 20 periodically every light fixture of cyclic query state and the induction external environment condition the light luminance situation and be saved in the controller for solar 30; It is bright when that described controller for solar 30 is controlled light fixture 10 according to the pre-designed controlled condition of every light fixture 10, when do not work; Thereby can reduce light fixture to be in the light yellow state always and waste energy.

The above only is a kind of embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to be done; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims (9)

1. the little row's numerical control of BIPV LED lighting power supply system, it is characterized in that: comprise at least one controller for solar, light fixture and at least one inductor, described inductor is connected on the described controller for solar, the corresponding described light fixture setting of described inductor is solidified with the program that drives the described inductor timing described light fixture running status of sensing and ambient brightness and preservation in the described controller for solar.

2. the little row's numerical control of BIPV according to claim 1 LED lighting power supply system, it is characterized in that: also comprise a computer, described computer control is connected on the described controller for solar.

3. the little row's numerical control of BIPV according to claim 2 LED lighting power supply system, it is characterized in that: further comprise solar cell, described solar cell connects described controller for solar.

4. the little row's numerical control of BIPV according to claim 3 LED lighting power supply system, it is characterized in that: further comprise storage battery, described storage battery connects described controller for solar.

5. the little row's numerical control of BIPV according to claim 2 LED lighting power supply system, it is characterized in that: described controller for solar comprises the civil power switch unit, described civil power switch unit connects electricity network.

6. the little row's numerical control of BIPV according to claim 2 LED lighting power supply system, it is characterized in that: described controller for solar has some interfaces for external devices and communication interface, and described interfaces for external devices is connected with external equipment with communication interface.

7. the little row's numerical control of BIPV according to claim 6 LED lighting power supply system, it is characterized in that: described communication interface is connected with a monitor.

8. the little row's numerical control of BIPV according to claim 1 LED lighting power supply system, it is characterized in that: described inductor and described light fixture are one-body molded.

9. the little row's numerical control of BIPV according to claim 1 LED lighting power supply system, it is characterized in that: described light fixture comprises HF lamp without electrodes.

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