CN108870284A - A kind of LED structure for light compensating lamp - Google Patents

Abstract

The present invention provides a kind of LED structures for light compensating lamp, it is used for the light filling in growing process, including transparent conductive substrate, solar battery part, LED luminous component and control section, solar cell portions set up the top for being placed in transparent conductive substrate separately, the LED luminous component is formed in the downside of transparent conductive substrate, the control section connection surface transparent electrode layer, conductor wire and transparent conductive substrate, wherein public electrode of the transparent conductive substrate as solar battery part and LED luminous component, solves the problems, such as current solar battery greenhouse component separation, close solar battery and LED junction, one component is realized while realizing solar battery conversion carries out light filling by LED, the convenience of setting is realized while reducing cost.

Description

A kind of LED structure for light compensating lamp

Technical field

The invention belongs to energy-saving lamp technical field more particularly to a kind of LED structures for light compensating lamp.

Background technique

The irradiation that plant requires sunlight could grow more luxuriant.Light is to promote leaves of plants to the effect of plant growth The green element nutrients such as absorbing carbon dioxide and water, synthetic carbohydrate.But modern science can allow plant on the ground of the not sun Side is preferably grown, and people have grasped the inner principle that plant needs the sun, are exactly the photosynthesis of blade, in leaf photosynthesis The excitation ability achievable entire photosynthetic process of extraneous photon is needed when effect, sunray is exactly that a mistake of photon excitation energized Journey.Artificial creation light source can similarly allow plant to complete photosynthetic process, all combine in modern horticultural or plant factor Light filling technology or complete artificial light technology.

Thin-film photovoltaic solar greenhouse is to have just emerged in recent years by modern installations agricultural greenhouse, too by film photovoltaic Sun can generate electricity and LED illumination combines, and it is normal can nor affect on crops in greenhouse with farmland directly low cost power generation Growth a kind of Novel installment agriculture greenhouse, open low-carbon agriculture development new model, it is with good economic efficiency and Ecological benefits have vast potential for future development.With the fast development of solar battery manufacturing technology, make big on agricultural greenhouse Sizable application is possibly realized, and, not only for generating electricity for irradiating crops, can meet crops effectively by light reasonable distribution Energy-saving and emission-reduction are realized while growth again, but solar battery and LED matrix are separately positioned at present, which not only adds Manufacturing cost also adds complexity when setting.

Summary of the invention

In order to solve the problems, such as current solar battery greenhouse component separation, close solar battery and LED junction, a group Part is realized while realizing solar battery conversion carries out light filling by LED, and the convenience of setting is realized while reducing cost, The present invention provides a kind of LED structure for light compensating lamp, the light filling being used in growing process, including electrically conducting transparent base Plate, solar battery part, LED luminous component and control section, wherein：

Solar cell portions set up the top for being placed in transparent conductive substrate separately, and solar cell portions are divided into thin film solar electricity Pond, lower surface electrode of the transparent conductive substrate as the thin-film solar cells, forms light on transparent conductive substrate Absorbed layer, light absorbing layer convert the solar into electric energy as solar energy conversion portion, and setting surface is saturating on the light absorbing layer Prescribed electrode layer, the surface transparent electrode layer are connected to control section；

The LED luminous component is formed in the downside of transparent conductive substrate, and wherein transparent conductive substrate is as LED illumination region The lower electrode divided, the main body of the LED luminous component are the circular configuration of stacking, and each LED luminous component is spaced apart arrangement, The region not covered by the main body of LED luminous component on the downside of transparent conductive substrate forms transparent insulating layer, the transparent insulation Layer is consistent with LED luminous component height, and exposure LED luminous component main body, and conductor wire is formed on transparent insulating layer, described to lead Electric wire is separately connected the LED luminous component main body outermost, and conductor wire is respectively connected to control section；

The control section connection surface transparent electrode layer, conductor wire and transparent conductive substrate, wherein transparent conductive substrate As the public electrode of solar battery part and LED luminous component, control section further comprises processor and battery, institute Processor connection solar battery part, LED luminous component and battery are stated, controls solar battery part to LED illumination region Point or storage battery power supply, and control battery to LED luminous component power.

Further, the absorptance for the light absorbing layer that the thin-film solar cells uses is between 35%-65%.

Further, part of the thin-film solar cells on transparent conductive substrate forms strip by scribing line, The surface transparent electrode layer of the thin-film solar cells of each strip is passed through metal electrode parallel connection by side.

It further, further include insulating regions in the transparent conductive substrate, the insulating regions are by transparent conductive substrate It is divided into different zones.

Further, the solar battery part further include between transparent conductive substrate and absorbed layer buffer layer and Transition zone.

Further, the absorbed layer of thin-film solar cells is formed by amorphous silicon material, and the buffer layer is magnesium zinc, Transition zone is sodium fluoride.

Further, the control section further includes external power supply part, and the external power supply part is for connecting outside Power supply is powered by external power supply to LED luminous component.

The beneficial effects of the invention are as follows：The present invention provides a kind of LED structures for light compensating lamp, are used for plant growth Light filling in the process, including transparent conductive substrate, solar battery part, LED luminous component and control section, solar-electricity Pond part is set to the top of transparent conductive substrate, and the LED luminous component is formed in the downside of transparent conductive substrate, the control Part connection surface transparent electrode layer, conductor wire and transparent conductive substrate processed, wherein transparent conductive substrate is as solar battery The public electrode of part and LED luminous component solves the problems, such as current solar battery greenhouse component separation, makes solar-electricity Pond and LED junction close, and a component is realized while realizing solar battery conversion carries out light filling by LED, reduce the same of cost The convenience of Shi Shixian setting.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the LED structure for light compensating lamp of the invention.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give preferred embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, purpose of providing these embodiments is keeps the understanding to the disclosure more saturating It is thorough comprehensive.

Invention is further described in detail below in conjunction with the accompanying drawings and the specific embodiments.

It is the structural schematic diagram of the LED structure for light compensating lamp of the invention referring to Fig. 1, Fig. 1, one kind of the invention is used for The LED structure of light compensating lamp, the light filling being used in growing process, including transparent conductive substrate 1, solar battery part 2, LED luminous component 3 and control section (not shown), wherein：

Solar battery part 2 is set to the top of transparent conductive substrate 1, and solar battery part 2 is thin film solar Battery, lower surface electrode of the transparent conductive substrate 1 as the thin-film solar cells, the shape on transparent conductive substrate 1 At light absorbing layer (in figure not specifically illustrated), light absorbing layer converts the solar into electric energy as solar energy conversion portion, described Surface transparent electrode layer is set on light absorbing layer, and the surface transparent electrode layer is connected to control section；

The LED luminous component 3 is formed in the downside of transparent conductive substrate 1, and wherein transparent conductive substrate 1 is sent out as LED The lower electrode of light part 3, the main body of the LED luminous component 3 are the circular configuration of stacking, each interval point of LED luminous component 3 Cloth arrangement forms transparent insulating layer 4, institute in the region that 1 downside of transparent conductive substrate is not covered by the main body of LED luminous component 3 It states transparent insulating layer 4 and 3 height of LED luminous component is consistent, and exposure 3 main body of LED luminous component, the shape on transparent insulating layer 4 At conductor wire, the conductor wire is separately connected the 3 main body outermost of LED luminous component, and conductor wire is respectively connected to control unit Point；

The control section connection surface transparent electrode layer, conductor wire and transparent conductive substrate 1, wherein transparent conductive substrate 1 public electrode as solar battery part 2 and LED luminous component 3, control section further comprise processor and electric power storage Pond, processor connection solar battery part 2, LED luminous component 3 and battery, control solar battery part 2 to LED luminous component 3 or storage battery power supply, and control battery and power to LED luminous component 3.

Further, the absorptance for the light absorbing layer that the thin-film solar cells uses is between 35%-65%.

Further, part of the thin-film solar cells on transparent conductive substrate 1 forms strip (figure by scribing line In it is not specifically illustrated), side by the surface transparent electrode layer of the thin-film solar cells of each strip by metal electrode simultaneously Connection.

It further, further include insulating regions in the transparent conductive substrate 1, the insulating regions are by transparent conductive substrate 1 is divided into different zones (not specifically illustrated in figure).

Further, the solar battery part 2 further include buffer layer between transparent conductive substrate 1 and absorbed layer with And transition zone (not specifically illustrated in figure).

Further, the absorbed layer of thin-film solar cells is formed by amorphous silicon material, and the buffer layer is magnesium zinc, Transition zone is sodium fluoride.

Further, the control section further includes external power supply part, and the external power supply part is for connecting outside Power supply is powered by external power supply to LED luminous component 3.

The present invention provides a kind of LED structure for light compensating lamp, the light filling being used in growing process, including it is saturating Bright electrically-conductive backing plate, solar battery part, LED luminous component and control section, solar cell portions, which set up separately, is placed in transparent lead The top of electric substrate, the LED luminous component are formed in the downside of transparent conductive substrate, and the control section connection surface is transparent Electrode layer, conductor wire and transparent conductive substrate, wherein transparent conductive substrate is as solar battery part and LED luminous component Public electrode solves the problems, such as current solar battery greenhouse component separation, closes solar battery and LED junction, a group Part is realized while realizing solar battery conversion carries out light filling by LED, and the convenience of setting is realized while reducing cost.

Described in attached drawing relationship for only for illustration, should not be understood as the limitation to this patent, it is clear that this The above embodiment is merely an example for clearly illustrating the present invention for invention, and is not to embodiments of the present invention Restriction.For those of ordinary skill in the art, other not similar shapes can also be made on the basis of the above description The variation or variation of formula.There is no necessity and possibility to exhaust all the enbodiments.It is all in the spirit and principles in the present invention Within made any modifications, equivalent replacements, and improvements etc., should all be included in the scope of protection of the claims of the present invention.

Claims (7)

1. a kind of LED structure for light compensating lamp, the light filling being used in growing process, including transparent conductive substrate, too Positive energy battery portion, LED luminous component and control section, which is characterized in that wherein：

Solar cell portions set up the top for being placed in transparent conductive substrate separately, and solar cell portions are divided into thin-film solar cells, institute Lower surface electrode of the transparent conductive substrate as the thin-film solar cells is stated, forms light absorption on transparent conductive substrate Layer, light absorbing layer convert the solar into electric energy as solar energy conversion portion, the transparent electricity in surface are arranged on the light absorbing layer Pole layer, the surface transparent electrode layer are connected to control section；

The LED luminous component is formed in the downside of transparent conductive substrate, and wherein transparent conductive substrate is as LED luminous component Lower electrode, the main body of the LED luminous component are the circular configuration of stacking, and each LED luminous component is spaced apart arrangement, saturating The region not covered by the main body of LED luminous component on the downside of bright electrically-conductive backing plate forms transparent insulating layer, the transparent insulating layer with LED luminous component height is consistent, and exposure LED luminous component main body, and conductor wire, the conductor wire are formed on transparent insulating layer It is separately connected the LED luminous component main body outermost, conductor wire is respectively connected to control section；

The control section connection surface transparent electrode layer, conductor wire and transparent conductive substrate, wherein transparent conductive substrate conduct The public electrode of solar battery part and LED luminous component, control section further comprise processor and battery, the place Manage device connection solar battery part, LED luminous component and battery, control solar battery part to LED luminous component or Storage battery power supply, and control battery and power to LED luminous component.

2. the LED structure according to claim 1 for light compensating lamp, which is characterized in that the thin-film solar cells is adopted The absorptance of light absorbing layer is between 35%-65%.

3. the LED structure according to claim 1 or 2 for light compensating lamp, which is characterized in that the thin-film solar cells Part on transparent conductive substrate forms strip by scribing line, in side by the surface of the thin-film solar cells of each strip Transparent electrode layer passes through metal electrode parallel connection.

4. the LED structure according to claim 3 for light compensating lamp, which is characterized in that in the transparent conductive substrate also Including insulating regions, transparent conductive substrate is divided into different zones by the insulating regions.

5. the LED structure according to claim 1 for light compensating lamp, which is characterized in that the solar battery part exists It further include buffer layer and transition zone between transparent conductive substrate and absorbed layer.

6. the LED structure according to claim 5 for light compensating lamp, which is characterized in that the absorption of thin-film solar cells Layer is formed by amorphous silicon material, and the buffer layer is magnesium zinc, and transition zone is sodium fluoride.

7. the LED structure according to claim 1 for light compensating lamp, which is characterized in that the control section further includes outer Power unit is connect, the external power supply part powers for connecting external power supply, by external power supply to LED luminous component.