CN206018501U - A kind of photoelectric mixing energy lamp system - Google Patents
A kind of photoelectric mixing energy lamp system Download PDFInfo
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- CN206018501U CN206018501U CN201621037567.7U CN201621037567U CN206018501U CN 206018501 U CN206018501 U CN 206018501U CN 201621037567 U CN201621037567 U CN 201621037567U CN 206018501 U CN206018501 U CN 206018501U
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Abstract
This utility model is related to field of lighting devices, more specifically, is related to a kind of compact structure, easy to use, brightness stability, the day high photoelectric mixing energy lamp system of light utilization efficiency, is made up of following part:Several daylightings and daylight tracking module;Several LED modules;Light modulation system by the fine end of some Shu Caiguang optical fiber and some beam LED lights be aligned several collecting lenses or side to several pellicle mirrors while;The another side of each collecting lens is just to a terminal fiber optic;Every one side side of each pellicle mirror is to a terminal fiber optic;Except a terminal fiber optic connection photoelectricity electrical storage device, remaining each terminal fiber optic connects a light fixture;Photoelectricity electrical storage device directly provides electric energy to light modulation system by electric power storage line.
Description
Technical field
This utility model is related to field of lighting devices, more specifically, is related to a kind of compact structure, easy to use, brightness
Stably, the high photoelectric mixing energy lamp system of day light utilization efficiency.
Background technology
Solar energy has the advantages that inexhaustible, nexhaustible, green non-pollution as a kind of new forms of energy.With optical fiber
The development of technology, directly has obtained developing faster using the optical fiber illuminating system that daylight is illuminated.Its main application places
Including warehouse, underground parking etc..The safety problem of traditional circuit illumination is avoided when illumination is provided.
The maximum shortcoming of daylight optical fiber illuminating system is the unstable of the daylight that weather causes in itself, therefore, merely directly
Connecing to be illuminated by daylight to cause the brightness of light fixture unstable.Prior art improve lamp brightness stability when, generally
Take following scheme:Illumination be more than some strength when, directly using daylighting or convert light energy into electric energy savings;Illumination is little
When the intensity, if will illuminate, LED is started using the electric energy and main power supply that saves, luminous energy is supplemented.
In study, life and production process, usually occurring can be by the occasion of center switch light fixture, such as:In cell
Street lamp can be opened and closed simultaneously by central authorities' control;During school's self-study at night, the light in classroom of the same grade is almost opened and closed simultaneously, Ke Yiyou
Central authorities control its opening/closing time respectively;In factory, work at night or the workshop of evening overtime work needs to turn on light.In this case,
If using the illuminator of one group of photoelectric energy simple superposition mentioned above, then be likely to occur such case:Sunshine is strong
Degree is low, few where needing to illuminate, and total luminous energy of collection is more than the total luminous energy for needing illumination, but each light fixture of unlatching is remained a need for
LED additional illuminations.This is because lacking the scheduling of luminous energy and the day light utilization efficiency that causes is low.
In sum, prior art is difficult to provide a kind of compact structure, easy to use, brightness stability, day light utilization efficiency height
Light fixture product.
Content of the invention
The purpose of this utility model is:
The problem that this utility model is present for existing technology, there is provided a kind of compact structure, easy to use, brightness
Stably, the high photoelectric mixing energy lamp system of day light utilization efficiency.
This utility model adopt scheme be:
Photoelectric mixing energy lamp system is made up of following part:
Several daylightings and daylight tracking module, the module tracks daylight are simultaneously input to daylight in daylighting optical fiber, daylighting
The optical fiber other end is connected to light modulation system;Several LED modules, each LED module have a LED power transmission line, and LED is sent out
The light for going out is input in corresponding LED light fibre, and LED light is fine and the LED power transmission line other ends are connected to light modulation system;Light modulation system
The startup and closing that unites by LED transmission of electricity line traffic control LED modules;Light modulation system is also by some Shu Caiguang optical fiber and some beams
The fine end of LED light be aligned several collecting lenses or side to several pellicle mirrors while;Each collecting lens
Another side is just to a terminal fiber optic;Every one side side of each pellicle mirror is to a terminal fiber optic;Except a terminal fiber optic
Connection photoelectricity electrical storage device, remaining each terminal fiber optic connect a light fixture;Photoelectricity electrical storage device is by electric power storage line directly to light
Scheduling system provides electric energy.
When not illuminating:All LED modules are closed, and under the control of light modulation system, all daylighting optical fiber are just poly- to one
Optical lens, the daylight of all collections are input in a terminal fiber optic by the collecting lenses, and finally enter photoelectricity electric power storage
In device, electric energy savings are converted into.
When sunshine is appropriate:All LED modules are closed, under the control of light modulation system, the light fixture of each work luminous
Come from a corresponding terminal fiber optic, just to collecting lenses, the collecting lenses are just to a daylighting light for the terminal fiber optic
Fine;The daylight of collection is input into by the collecting lenses by all daylighting optical fiber not used for illumination just to collecting lenses
To in a terminal fiber optic, and finally enter in photoelectricity electrical storage device, be converted into electric energy savings.
When sunshine is faint:Under the control of light modulation system, the luminous of light fixture of each work comes from corresponding one
Terminal fiber optic, just to collecting lenses, the collecting lenses are just to several daylighting optical fiber for the terminal fiber optic;If daylighting optical fiber
Luminous energy be not enough to the light fixture for being supplied to all working, then, under the control of light modulation system, enable some LED modules, and
By corresponding LED light fibre just to corresponding collecting lenses, to supply the luminous energy needed for light fixture;If the luminous energy of daylighting optical fiber be enough to
Be supplied to the light fixture of all working, and also daylighting optical fiber need not be used for the illumination of light fixture, then, by all not used for
The daylight of collection just to collecting lenses, is input to a terminal fiber optic by the collecting lenses by the daylighting optical fiber of illumination
In, and finally enter in photoelectricity electrical storage device, it is converted into electric energy savings.
When sunshine is too strong:All LED modules are closed, under the control of light modulation system, the light fixture of each work luminous
Come from a corresponding terminal fiber optic, the input light of the terminal fiber optic comes from the reflected light of pellicle mirror, the reflected light from
In with the pellicle mirror side pair a daylighting optical fiber, daylighting optical fiber enters another terminal fiber optic by the refraction light of pellicle mirror,
And enter in photoelectricity dotted line device, it is converted into electric energy savings;All daylighting optical fiber not used for illumination are just saturating to an optically focused
Mirror, the daylight of collection is input in a terminal fiber optic by the collecting lenses, and is finally entered in photoelectricity electrical storage device,
It is also converted to electric energy savings.
The beneficial effects of the utility model are:
1st, can conduct and a series of places are illuminated using daylight.2nd, when not illuminating, by light modulation system, by luminous energy
Save as electric energy, day light utilization efficiency high.3rd, when sunny, by light modulation system, in addition to daylighting is provided, will also
Daylighting savings more than needed are electric energy, day light utilization efficiency high.4th, when sunlight is faint, by light modulation system, except providing daylight
Illumination is outer, also by daylighting reasonably light fixture of the centralized distribution to work, the use of minimizing LED, or even also has daylighting storage more than needed
Store for electric energy, day light utilization efficiency high.5th, when sunlight is too strong, by light modulation system, in addition to daylighting is provided, moreover it is possible to will
Daylighting savings more than needed for electric energy rather than shielding or are reflected away, day light utilization efficiency high.6th, structure is uncomplicated, is easy to produce
And use.
This utility model provides a kind of brightness stability, the day high photoelectric mixing energy lamp system of light utilization efficiency, the light
Electric energy mix lamp system structure is uncomplicated, easy to use, it is easy to production and use, therefore possesses industrial probability.
Description of the drawings
Fig. 1 is half-section diagram of the present utility model.
In figure:1, daylighting and daylight tracking module;11, daylighting optical fiber;2, LED module;21, LED light is fine;22, LED transmissions of electricity
Line;3, light modulation system;411, collecting lenses;412, pellicle mirror;42, lighting fiber;43, light fixture;5, photoelectricity electrical storage device;
51, electric power storage line.
Specific embodiment
Specific embodiment of the utility model is the following is, referring to the drawings scheme of the present utility model is further retouched
State, but this utility model is not limited to these embodiments.
Photoelectric mixing energy lamp system is made up of following part:
Several daylightings and daylight tracking module 1, the module tracks daylight are simultaneously input to daylight in daylighting optical fiber 11, adopt
11 other end of light optical fiber is connected to light modulation system 3;Several LED modules 2, each LED module 2 have a LED power transmission line 22,
And the light for sending LED is input in corresponding LED light fibre 21, LED light fibre 21 and LED power transmission line, 22 other end is connected to light tune
Degree system 3;Light modulation system 3 controls the startup and closing of LED module 2 by LED power transmission lines 22;If light modulation system 3 will also
The end of dry Shu Caiguang optical fiber 11 and some beam LED light fibres 21 is directed at the one side of several collecting lenses 411 or side to several
The one side of pellicle mirror 412;The another side of each collecting lens 411 is just to a terminal fiber optic 42;Each pellicle mirror 412 each
Face all sides are to a terminal fiber optic 42;Except the connection photoelectricity of terminal fiber optic 42 electrical storage device 5, remaining each terminal fiber optic 42
One light fixture 43 of connection;Photoelectricity electrical storage device 5 directly provides electric energy to light modulation system 3 by electric power storage line 51.
When not illuminating:All LED modules 2 are closed, and under the control of light modulation system 3, all daylighting optical fiber 11 are just to one
Individual collecting lenses 411, the daylight of all collections are input in a terminal fiber optic 42 by the collecting lenses 411, and finally defeated
Enter in photoelectricity electrical storage device 5, be converted into electric energy savings.
When sunshine is appropriate:All LED modules 2 are closed, under the control of light modulation system 3, the light fixture 43 of each work
Luminous come from a corresponding terminal fiber optic 42, the terminal fiber optic 42 just to collecting lenses 411, the collecting lenses 411
Just to a daylighting optical fiber 11;All daylighting optical fiber 11 not used for illumination are just to collecting lenses 411, the day that will be gathered
Light is input in a terminal fiber optic 42 by the collecting lenses 411, and is finally entered in photoelectricity electrical storage device 5, is converted into
Electric energy is saved.
When sunshine is faint:Under the control of light modulation system 3, the luminous of light fixture 43 of each work comes from corresponding one
Individual terminal fiber optic 42, just to collecting lenses 411, the collecting lenses 411 are just to several daylighting optical fiber for the terminal fiber optic 42
11;If the luminous energy of daylighting optical fiber 11 is not enough to the light fixture 43 for being supplied to all working, then, in the control of light modulation system 3
Under, some LED modules 2 are enabled, and by corresponding LED light fibre 21 just to corresponding collecting lenses 411, to supply needed for light fixture 43
Luminous energy;If the luminous energy of daylighting optical fiber 11 be enough to the light fixture 43 for being supplied to all working, and also daylighting optical fiber 11 is not required to
The illumination of light fixture to be used for 43, then, by all daylighting optical fiber 11 not used for illumination just to collecting lenses 411, will
The daylight of collection is input in a terminal fiber optic 42 by the collecting lenses 411, and finally enters photoelectricity electrical storage device 5
In, it is converted into electric energy savings.
When sunshine is too strong:All LED modules 2 are closed, under the control of light modulation system 3, the light fixture 43 of each work
Light and come from a corresponding terminal fiber optic 42, the input light of the terminal fiber optic 42 comes from the reflected light of pellicle mirror 412, should
Reflected light comes from a daylighting optical fiber 11 with 412 side pair of the pellicle mirror, and daylighting optical fiber 11 is entered by the refraction light of pellicle mirror
Enter another terminal fiber optic 42, and enter in photoelectricity dotted line device 5, be converted into electric energy savings;All adopting not used for illumination
The daylight of collection just to collecting lenses 411, is input to a terminal fiber optic 42 by the collecting lenses 411 by light optical fiber 11
In, and finally enter in photoelectricity electrical storage device 5, it is also converted to electric energy savings.
In the above description, this utility model is illustrated by specific embodiment, but it should be understood by those skilled in the art that
Various transformations and deformation can be carried out in the thought of utility model and field in without departing from right.
Claims (1)
1. a kind of photoelectric mixing energy lamp system, it is characterised in that be made up of following part:Several daylightings and daylight tracking
Module(1), daylight is simultaneously input to daylighting optical fiber by the module tracks daylight(11)In, daylighting optical fiber(11)The other end is connected to light
Scheduling system(3);Several LED modules(2), each LED module(2)There is a LED power transmission line(22), and LED is sent
It is fine that light is input to corresponding LED light(21)In, LED light is fine(21)With LED power transmission lines(22)The other end is connected to light modulation system
(3);Light modulation system(3)By LED power transmission lines(22)Control LED module(2)Startup and closing;Light modulation system(3)Also
By some Shu Caiguang optical fiber(11)Fine with some beam LED lights(21)End be directed at several collecting lenses(411)One side or
Side is to several pellicle mirrors(412)One side;Each collecting lens(411)Another side just to a terminal fiber optic(42);Per
Individual pellicle mirror(412)Per one side all sides to a terminal fiber optic(42);Except a terminal fiber optic(42)Connection photoelectricity electric power storage
Device(5), remaining each terminal fiber optic(42)One light fixture of connection(43);Photoelectricity electrical storage device(5)By electric power storage line(51)Directly
Connect to light modulation system(3)Electric energy is provided.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621037567.7U CN206018501U (en) | 2016-09-05 | 2016-09-05 | A kind of photoelectric mixing energy lamp system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621037567.7U CN206018501U (en) | 2016-09-05 | 2016-09-05 | A kind of photoelectric mixing energy lamp system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206018501U true CN206018501U (en) | 2017-03-15 |
Family
ID=58258740
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621037567.7U Expired - Fee Related CN206018501U (en) | 2016-09-05 | 2016-09-05 | A kind of photoelectric mixing energy lamp system |
Country Status (1)
Country | Link |
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CN (1) | CN206018501U (en) |
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2016
- 2016-09-05 CN CN201621037567.7U patent/CN206018501U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170315 Termination date: 20170905 |
|
CF01 | Termination of patent right due to non-payment of annual fee |