CN103807785A

CN103807785A - Solar lighting system

Info

Publication number: CN103807785A
Application number: CN201210442659.3A
Authority: CN
Inventors: 简达益; 许海音; 陈冠宇; 胡芬绫; 李伟裕; 李昆益; 林晏瑞; 陈建君; 高千勋; 林旻翰; 郭佳瑜; 曾诗涵; 张勤煜
Original assignee: Foshan Lattice Energy Technology Corp
Current assignee: Foshan Lattice Energy Technology Corp
Priority date: 2012-11-08
Filing date: 2012-11-08
Publication date: 2014-05-21
Anticipated expiration: 2032-11-08
Also published as: CN103807785B

Abstract

The invention discloses a solar lighting system, which is used for providing light rays to a specified place, and comprises at least one light collector, a light guide module, at least one light releasing unit, at least one solar film cell, at least one piece of control and electricity storage and discharge equipment and at least one light emitting unit, wherein the light collector is arranged outside the specific place for receiving outside light rays, the light guide module is connected with the light collector for guiding to transmit the received light rays, the light releasing unit is connected with the light guide module and is arranged inside the specific place for releasing the light rays conducted by the light guide module, the solar film cell is arranged below the light collector for receiving light rays transmitting the light collector, converting the light rays into electricity energy and storing the electricity energy in the control and electricity storage and discharge equipment, and the light emitting device is arranged above the light collector for providing light rays to the light collector through conversion of the electricity when external light rays are insufficient. After the solar lighting system is adopted, natural light of sun can be utilized for providing lighting to the needed specified place, so that the electricity energy is saved.

Description

A kind of solar illuminating system

Technical field

The present invention relates to technical field of solar, particularly a kind of solar illuminating system.

Background technology

Observing at present all place illuminations, comprise tunnel, parking lot, room lighting, horticultural lighting etc., is all to use electric energy to convert light to, so that required illumination to be provided.These modes all need to expend suitable electric energy, although lighting apparatus constantly improve, to save the electric energy of consumption.But, be still to keep away and unavoidably need to consume electric energy.

In view of this, can the improving of inventor's thoughts the problems referred to above, is concentrate on studies and coordinate the utilization of scientific principle, and proposes the present invention.

Summary of the invention

Technical problem to be solved by this invention, is to provide a kind of solar illuminating system, the natural daylight of the application sun, and guiding to needed place, can not need to consume electric energy, to reach the environmental protection trend of carbon reduction with illumination.

In order to solve the technical problem, a kind of scheme wherein according to the present invention, provides a kind of solar illuminating system, in order to light to one particular place to be provided.Described solar illuminating system comprises at least one optical collector, is placed in outside described particular place, in order to receive extraneous light; One light guide module, connects described at least one optical collector, the light being received by described at least one optical collector in order to guiding; At least one unit of giving out light, connects described light guide module and is placed in described particular place, in order to emit the light being conducted by described light guide module; At least one solar film battery, is placed in the below of described at least one optical collector, sees through the light of described at least one optical collector and converts electric energy to and be stored at least one control and storage discharge equipment in order to receive; And at least one light-emitting device, be arranged at the top of described at least one optical collector, be matched with extraneous light when not enough, provide light to described at least one optical collector by described electric energy.

Implement the present invention, there is following beneficial effect:

The present invention can be directed to natural daylight the particular place that needs illumination.In the ordinary course of things, do not need consume electric power, meet the trend of energy-conserving and environment-protective.Even, the in the situation that of natural daylight deficiency, can utilize the brightness of solar energy automatic makeup charging and lighting, therefore more can reach the object of carbon reduction.

Accompanying drawing explanation

Fig. 1 is the side schematic view of solar illuminating system of the present invention.

Fig. 2 is the local enlarged diagram of the part of A shown in Fig. 1.

Fig. 3 is the block diagram of solar illuminating system of the present invention.

The specific embodiment

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, the present invention is described in further detail.

Please refer to Fig. 1, is the side schematic view of solar illuminating system of the present invention.A kind of solar illuminating system 100 of the present invention, in order to light to one particular place 200 to be provided, described solar illuminating system 100 comprises at least one optical collector 10, a light guide module 20, at least one unit 30 of giving out light, at least one solar film battery 40 and at least one light-emitting device 50.

Light guide module 20 connects described at least one optical collector 10, the light being received by described at least one optical collector 10 in order to guiding.Described at least one unit 30 of giving out light connects described light guide module 20 and is placed in described particular place, in order to emit the light being conducted by described light guide module 20.Described at least one solar film battery 40 is placed in the below of described at least one optical collector 10, controls and storage discharge equipment to receive to see through the light of described at least one optical collector 10 and convert electric energy to and be stored in.Described at least one light-emitting device 50 is arranged at the top of described at least one optical collector 10, while being matched with extraneous light deficiency, provides light to described at least one optical collector 10 by described electric energy.

The particular place of the present embodiment is to be example take tunnel, but the present invention can be applicable to any occasion that needs illumination, and such as basement, household, greenhouse, pit etc., as limit.

Referring to Fig. 2, is the local enlarged diagram of the A part of Fig. 1.Described at least one optical collector 10 is placed in outside described particular place 100, in order to receive extraneous light, described at least one optical collector 10 comprises the optical unit 11,12 of multiple prisms or lens or merging, and each optical unit 11,12 comprises that an incidence surface 111,121 is to receive light, a plane of refraction 112,122 to reflect the light of described reception and an exiting surface 113,124 the light after described refraction is derived to described optical unit 11,12.Optical unit 11,12 is concentrated to light the predefined specific portion of described optical unit 11,12 and conducts to described light guide module 20, and described specific portion can be middle part as illustrated in the present embodiment.But being not restricted to this, specific portion can be the side of optical collector 10, is mainly the design in optometry path and determining.

Optical unit 11 described in the present embodiment, the 12nd, arranges according to optical path, and wherein said at least one optical collector 10 is assembled with serial connection or array mode, and runs through with bearing or similar structures, is non-horizontal and arranges.But be not restricted to this, can be for example be arranged in parallel, annular arrangement, palisade arrange or multiple square type arrangement etc.Optical unit 11,12 is concentrated to exiting surface 124 by light and conducts to described light guide module 20.Described optical unit 11,12 can be local connected with each other by connecting portion 13, but connecting portion 13 can be abridged.Described optical unit 11,12 is placed in the end face of described at least one solar film battery 40.

It should be noted that, the exiting surface of described optical unit 11,12 also can be provided in a side of the side of optical unit, and light is derived by the side of optical unit.

As shown in Figure 1, wherein said light guide module 20 can be optical fiber, optical thin film or liquid optical material, and has multiple leaded light micro-structurals 22 to derive the light in described light guide module 20.Preferably, described light guide module 20 is optical fiber, and has multiple leaded light micro-structurals 22 to derive the light in optical fiber, and described leaded light micro-structural 22 is contacted with described at least one unit 30 of giving out light.Leaded light micro-structural 22 is for example dimpling grain, micro-pits, make light in described place total reflection and the being guided unit 30 of giving out light described in entering through optical fiber surface no longer.Described light guide module 20 can be connected in optical unit 11,12 by least one extension 21, or directly forms the plane of incidence for light incident.But be not restricted to this.

At least one unit 30 of giving out light described in the present embodiment comprises that a contact site 31 that is connected in described light guide module 20 is for supplying with light coupling and an optics portion 32 of being extended by described contact site 31, and described optics portion 32 exposes to described particular place to focus on or diffusing light.

Please refer to Fig. 1 and Fig. 3, the present embodiment further comprises at least one optical sensor 60 in described particular place 200 and control and a storage discharge equipment 70 that is electrically connected described solar film battery 40, and optical sensor 60 is in order to respond to the brightness of illumination of described particular place 200 and to transmit a sensing signal to described control and storage discharge equipment 70.When the brightness that senses particular place 200 is during lower than a default value, start light-emitting device 50 by controlling and store up discharge equipment 70.Light-emitting device 50 can be the light sources such as LED lamp.The present embodiment also can connect civil power certainly in controlling and storage discharge equipment 70, with in response in the hypodynamic situation of solar-electricity, provides electric power in light-emitting device 50.

In sum, solar illuminating system of the present invention, has feature described as follows and function:

One, the present invention can be directed to natural daylight the place that needs illumination.In the ordinary course of things, do not need consume electric power, meet the trend of energy-conserving and environment-protective.

Two, the present invention, the in the situation that of natural daylight deficiency, can utilize the brightness of solar energy automatic makeup charging and lighting, object that therefore more can carbon reduction.

Above disclosed is only the preferred embodiments of the present invention, certainly can not limit with this interest field of the present invention, and the equivalent variations of therefore doing according to the present patent application the scope of the claims, still belongs to the scope that the present invention is contained.

Claims

1. a solar illuminating system, in order to light to one particular place to be provided, is characterized in that, comprising:

At least one optical collector, is placed in outside described particular place, in order to receive extraneous light;

One light guide module, connects described at least one optical collector, the light being received by described at least one optical collector in order to guiding;

At least one unit of giving out light, connects described light guide module and is placed in described particular place, in order to emit the light being conducted by described light guide module;

At least one solar film battery, is placed in the below of described at least one optical collector, sees through the light of described at least one optical collector and converts electric energy in order to receive;

At least one control and storage discharge equipment, be electrically connected described solar film battery, in order to store or to discharge described electric energy; And

At least one light-emitting device, is arranged at the top of described at least one optical collector, is matched with extraneous light when not enough, provides light to described at least one optical collector by described electric energy.

2. solar illuminating system as claimed in claim 1, it is characterized in that, described at least one optical collector comprises the optical unit of multiple prisms or lens or merging, and each optical unit comprises that an incidence surface is to receive light, a plane of refraction to reflect the light of described reception and an exiting surface so that the light after described refraction is derived to described optical unit.

3. solar illuminating system as claimed in claim 1, is characterized in that, described at least one optical collector is assembled with serial connection or array mode.

4. solar illuminating system as claimed in claim 3, is characterized in that, described at least one optical collector runs through with bearing.

5. solar illuminating system as claimed in claim 4, is characterized in that, described at least one optical collector is non-horizontal and arranges.

6. solar illuminating system as claimed in claim 2, is characterized in that, described optical unit is arranged according to optical path, and light is concentrated to the predefined specific portion of described optical unit and conducts to described light guide module.

7. solar illuminating system as claimed in claim 1, is characterized in that, described light guide module is optical fiber, optical thin film or liquid optical material, and has multiple leaded light micro-structurals to derive the light in described light guide module.

8. solar illuminating system as claimed in claim 1, is characterized in that, described in the unit of giving out light comprise that one is connected in the contact site of described light guide module, described contact site is used for supplying with light coupling; And an optics portion of being extended by described contact site, described optics portion exposes to described particular place.

9. solar illuminating system as claimed in claim 1, it is characterized in that, further comprise that at least one optical sensor is placed in described particular place, the brightness of illumination of particular place transmit a sensing signal to described control and storage discharge equipment described in described photosensor senses.