CN105889844A - Energy-saving optical fiber lighting system - Google Patents

Abstract

An energy-saving optical fiber lighting system comprises a light source, a primary concave lens, a primary fixing structure, primary lighting optical fibers and secondary concave lenses; the light source is arranged on one side of the primary concave lens; the primary fixing structure is arranged on the other side of the primary concave lens; primary fixing holes are formed in the primary fixing structure; one ends of the primary lighting optical fibers are fixed in the primary fixing holes; a secondary concave lens is mounted at the other end of each primary lighting optical fiber; after primary divergence by the primary concave lens, light from the light source enters the primary lighting optical fibers from one ends of the primary lighting optical fibers and is ejected from the other ends of the primary lighting optical fibers, and then the light is subject to secondary divergence by the secondary concave lenses. The energy-saving optical fiber lighting system achieves the purpose of using one light source to provide lighting for multiple areas; when in use, conductive wire and illuminating lamp are not required, and neither electric leakage nor fire occurs; the advantages of low power consumption, resource conservation, no need for wiring, convenience in maintenance, simple structure, low risk of safety hazard and the like are achieved.

Description

Energy-conservation optical fiber illuminating system

Technical field

The present invention relates to optical fibre illumination technical field, especially relate to a kind of energy-conservation optical fiber illuminating system.

Background technology

Along with the development of science and technology, the life of people has obtained the change maked rapid progress, and electronic product has had become as the indispensable equipment of people, and daily life has be unable to do without electricity, and in daily life, people can use electricity.Supplying electricity to people and bring many convenience, electricity has also brought some puzzlements simultaneously, such as, summer and winter in peak times of power consumption, the increase of people's power consumption, causes a lot of place or city to there will be the phenomenon of electricity shortage, and then affects daily life and study.

In daily life, the most purposes of electricity is used to illumination.Therefore, in the room of each domestic household, the cable having a lot of illuminating lamps in room and being electrically connected with illuminating lamp can be found, it is intricate that these cables not only arrange, and after these cables are aging, cable is easy to electric leakage or spontaneous combustion, and then causes unsafe accident or fire, and life and property to people bring loss.And illuminating lamp is short for service life, it is easy to be burned out, which adds the living cost of people, cause the waste of resource.When illuminating lamp can not illuminate, need illuminating lamp and cable are investigated, particularly when cable damage, need rewiring, maintenance inconvenience.

Summary of the invention

In order to overcome the problems referred to above, the present invention provides a kind of simple in construction to society, saves the energy-conservation optical fiber illuminating system that the energy, potential safety hazard are low and easy to maintenance.

A kind of energy-conservation optical fiber illuminating system of offer is provided, including light source, one-level concavees lens, one-level fixed structure, the one-level lighting fiber of more than one and more than one two grades of concavees lens, described light source is arranged on the side of described one-level concavees lens, described one-level fixed structure is arranged on the opposite side of described one-level concavees lens, described one-level fixed structure is provided with more than one one-level fixing hole, one end of the described one-level lighting fiber of more than is fixed in more than one described one-level fixing hole, the other end of each described one-level lighting fiber is provided with described two grades of concavees lens；The light that described light source sends is after described one-level concavees lens one-level dissipates, enter into from one end of described one-level lighting fiber described one-level lighting fiber, and penetrate from the other end of described one-level lighting fiber, the light of injection dissipates through described two grades of concavees lens two grades again.

As improvement of the present invention, being provided with the first reflector layer on the sidewall of described one-level lighting fiber, light is propagated after described first reflector layer reflection in described one-level lighting fiber.

As improvement of the present invention, also include that first class of protection layer, described first class of protection layer are set in the outside of described first reflector layer.

As improvement of the present invention, described light source is LED, laser aid and/or beam condensing unit.

As improvement of the present invention, also including supply module, described supply module provides electric energy to described LED and/or described laser aid.

As improvement of the present invention, described supply module is civil power, lithium battery, accumulator and/or aneroid battery.

As improvement of the present invention, described LED is made up of the LED luminescence chip of three kinds of colors red, green, blue.

As improvement of the present invention, also including that what optically focused optical fiber, one end of described optically focused optical fiber was arranged on described beam condensing unit goes out light end, the other end of described optically focused optical fiber is arranged on the side of described one-level concavees lens.

As improvement of the present invention, also include control module, described control module is connected with described LED, described laser aid and/or described beam condensing unit respectively, and described control module is for controlling described LED, described laser aid and/or the work of described beam condensing unit；Also include that remote controller, described remote controller coordinate with described control module, for remotely controlling described LED, described laser aid and/or the work of described beam condensing unit.

As improvement of the present invention, also include more than one two grades of fixed structures, two grades of lighting fibers of more than and more than one three grades of concavees lens, more than one described two grades of fixed structures are arranged on the light emission side of more than one described two grades of concavees lens, described two grades of fixed structures are provided with more than one two grades of fixing holes, one end of described two grades of lighting fibers of more than is fixed in more than one described two grades of fixing holes, is provided with described three grades of concavees lens on the other end of each described two grades of lighting fibers.

Due to the fact that and have employed one-level concavees lens, one-level fixed structure, the one-level lighting fiber of more than and more than one two grades of concavees lens, the light that light source sends is after one-level concavees lens one-level dissipates, light is provided to the one-level lighting fiber of more than, one-level diverging light enters in one-level lighting fiber, penetrate from the other end of one-level lighting fiber, the light of injection carries out two grades through two grades of concavees lens again and dissipates, two grades of diverging lights can be used directly to illumination, has reached a light source and can realize the purpose of many places illumination；During using, need not buy conductor cable and illuminating lamp, also without arranging conductor cable, after one-level lighting fiber is aging, will not leak electricity and also will not cause fire, people can be easily found the one-level lighting fiber of damage according to light leak position, have that power consumption is low, economize on resources, low cost, without advantages such as wiring, easy to maintenance, simple in construction and potential safety hazard are low.

Accompanying drawing explanation

Fig. 1 is the partial schematic sectional view of the present invention.

Wherein: 11.LED lamp；12. beam condensing units；13. optically focused optical fiber；14. reflection shields；15. bases；16. base fixed covers；21. one-level concavees lens；22. one-level fixed structures；23. one-level lighting fibers；24. first reflector layers；25. one-level optical fiber fixed covers；31. 2 grades of concavees lens；32. 2 grades of fixed structures；33. 2 grades of lighting fibers；34. second reflector layers；35. secondary light fibre fixed covers；41. 3 grades of concavees lens.

Detailed description of the invention

In describing the invention, it will be appreciated that, in term, orientation or the position relationship of the instruction such as " " center ", " on ", D score, "front", "rear", "left", "right" be based on orientation shown in the drawings or position relationship; be for only for ease of the description present invention and simplifying and describe; rather than instruction or imply indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " is installed ", " connection ", " being connected " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to is that dismounting connects, or is integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be to be indirectly connected to by intermediary, can be the connection of two element internals.For the ordinary skill in the art, the above-mentioned term concrete meaning in the present invention can be understood with concrete condition.Additionally, in describing the invention, except as otherwise noted, " multiple ", " some " are meant that two or more.

Refer to Fig. 1, disclosed in Fig. 1 is a kind of energy-conservation optical fiber illuminating system, including light source, one-level concavees lens 21, one-level fixed structure 22, the one-level lighting fiber 23 of more than one and more than one two grades of concavees lens 31, described light source is arranged on the side of described one-level concavees lens 21, described one-level fixed structure 22 is arranged on the opposite side of described one-level concavees lens 21, described one-level fixed structure 22 is provided with more than one one-level fixing hole (mark), one end of the described one-level lighting fiber 23 of more than is fixed in more than one described one-level fixing hole, the other end of each described one-level lighting fiber 23 is provided with described two grades of concavees lens 31；The light that described light source sends is after described one-level concavees lens 21 one-level dissipates, enter into from one end of described one-level lighting fiber 23 described one-level lighting fiber 23, and penetrate from the other end of described one-level lighting fiber 23, the light of injection dissipates through described two grades of concavees lens 31 2 grades again, and described one-level concavees lens 21 and described two grades of concavees lens 31 can be biconcave lens, planoconcave lens and/or meniscus.

In the present embodiment, described light source is LED 11 and beam condensing unit 12, and described light source can also is that LED 11, laser aid and/or beam condensing unit 12, and the most described light source is LED 11, laser aid, the one or more of which of beam condensing unit 12.Also include supply module (invisible in figure), described supply module provides electric energy to described LED 11 and/or described laser aid, described supply module is civil power, lithium battery, accumulator and/or aneroid battery, described LED 11 is made up of the LED luminescence chip of three kinds of colors red, green, blue, so the benefit of design is that described LED 11 can be made as required to send the light of different colours.

In the present embodiment, also including that what optically focused optical fiber 13, one end of described optically focused optical fiber 13 was arranged on described beam condensing unit 12 goes out light end, the other end of described optically focused optical fiber 13 is arranged on the side of described one-level concavees lens 21.Described beam condensing unit 12 is prior art, the most no longer explains its structure.During use, described beam condensing unit 12 is placed on open air, when the available light of open air is more sufficient, described beam condensing unit 12 carries out optically focused to the natural light received, and first optically focused go out from the light end-fire that goes out of described beam condensing unit 12, then the one end from described optically focused light enters into described optically focused optical fiber 13, finally penetrate from the other end of described optically focused optical fiber 13, thus provide light for described optical fiber illuminating system.The benefit using described beam condensing unit 12 is, the most described LED 11 and/or described laser aid can be not used to when described light source uses, directly can provide light by described optically focused optical fiber 13 and described beam condensing unit 12 the most by day, in other words, use nature light as the light source of described optical fiber illuminating system by day, save the energy.

Being provided with one layer of optical fiber reflector layer (invisible in figure) on the sidewall of described optically focused light, light is propagated after described optical fiber reflector layer reflects in described one-level lighting fiber 23.Described optical fiber reflector layer is reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film, and described optical fiber reflector layer can be effectively prevented light loss.

In the present embodiment, also include that reflection shield 14, described LED 11 are arranged in described reflection shield 14.Also including that base 15, described light source are arranged on described base 15, the other end of the most described LED 11 and described optically focused optical fiber 13 is arranged on described base 15, and described reflection shield 14 is also disposed on described base 15.Also including that base fixed cover 16, one end of described base fixed cover 16 are arranged on described base 15, the other end of described base fixed cover 16 is set on the sidewall of described one-level concavees lens 21.The sidewall of described one-level concavees lens 21 is provided with one-level lens retroreflective layer (invisible in figure), light is propagated after described one-level lens retroreflective layer reflects in described one-level concavees lens 21, and described one-level lens retroreflective layer is reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film.

In the present embodiment, also include control module (invisible in figure), described control module is connected with described LED 11, described laser aid and/or described beam condensing unit 12 respectively, and described control module is for controlling described LED 11, described laser aid and/or the work of described beam condensing unit 12.Also including remote controller (picture), described remote controller coordinates with described control module, for remotely controlling described LED 11, described laser aid and/or the work of described beam condensing unit 12.

In the present embodiment, one end of described one-level fixed structure 22 is arranged on the sidewall of described one-level concavees lens 21, the other end of described one-level fixed structure 22 is positioned at the opposite side of described one-level concavees lens 21, being provided with more than one described one-level fixing hole (mark) on the other end of described one-level fixed structure 22, described one-level fixing hole becomes array arrangement or non-array arrangement.Inwall at described one-level fixed structure 22 is also equipped with one-level reflector layer (invisible in figure), and described one-level reflector layer is reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film.

In the present embodiment, the sidewall of described one-level lighting fiber 23 is provided with the first reflector layer 24, light is propagated after described first reflector layer 24 reflection in described one-level lighting fiber 23, described first reflector layer 24 is reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film, and described first reflector layer 24 can be effectively prevented light loss.Also including that first class of protection layer (picture), described first class of protection layer are set in the outside of described first reflector layer 24, described first class of protection layer is made up of acrylate, silicone rubber and/or nylon material, and described one-level lighting fiber 23 can also use ordinary optic fibre.

In the present embodiment, also include one-level optical fiber fixed cover 25, one end of described one-level optical fiber fixed cover 25 is provided with the first perforation (mark), the other end of described one-level lighting fiber 23 is fixed in described first perforation, and described two grades of concavees lens 31 are arranged in described one-level optical fiber fixed cover 25 and are positioned in light path.The sidewall of described two grades of concavees lens 31 is provided with two grades of lens retroreflective layers (invisible in figure), light is propagated after described two grades of lens retroreflective layers reflection in described two grades of concavees lens 31, and described two grades of lens retroreflective layers are reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film.

In the present embodiment, also include more than one two grades of fixed structures 32, two grades of lighting fibers 33 of more than one and more than one three grades of concavees lens 41, more than one described two grades of fixed structures 32 are arranged on the light emission side of more than one described two grades of concavees lens 31, described two grades of fixed structures 32 are provided with more than one two grades of fixing holes (mark), one end of described two grades of lighting fibers 33 of more than is fixed in more than one described two grades of fixing holes, the other end of each described two grades of lighting fibers 33 is provided with described three grades of concavees lens 41, described three grades of concavees lens 41 can be biconcave lens, planoconcave lens and/or meniscus.

One end of described two grades of fixed structures 32 is arranged on the sidewall of described one-level optical fiber fixed cover 25, the other end of described two grades of fixed structures 32 is positioned at the opposite side of described two grades of concavees lens 31, being provided with more than one described two grades of fixing holes (mark) on the other end of described two grades of fixed structures 32, described two grades of fixing holes become array arrangement or non-array arrangement.

The structure of described two grades of fixed structures 32 can include fixing body (mark) and lid (mark), one end of described fixing body is set on the sidewall of described one-level optical fiber fixed cover 25, described cover cap is combined on the opening (other end) of described fixing body, described lid is provided with more than one described two grades of fixing holes, and the inwall at described fixing body is also equipped with two grades of reflector layers (mark), described two grades of reflector layers are reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film.When needing to be fixed in described two grades of fixing holes one end of described two grades of lighting fibers 33, then described cover cap is combined on the opening of described fixing body, if need not be fixed in described two grades of fixing holes one end of described two grades of lighting fibers 33, then the most described cover cap is combined on the opening of described fixing body.

The sidewall of described two grades of lighting fibers 33 is provided with the second reflector layer 34, light is propagated after described second reflector layer 34 reflection in described two grades of lighting fibers 33, described second reflector layer 34 is reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film, and described second reflector layer 34 can be effectively prevented light loss.Also including that second class protection layer (picture), described second class protection layer are set in the outside of described second reflector layer 34, described second class protection layer is made up of acrylate, silicone rubber and/or nylon material, and described two grades of lighting fibers 33 can also use ordinary optic fibre.

Also include secondary light fibre fixed cover 35, one end of described secondary light fibre fixed cover 35 is provided with the second perforation (mark), the other end of described one-level lighting fiber 23 is fixed in described second perforation, and described three grades of concavees lens 41 are arranged in described secondary light fibre fixed cover 35 and are positioned in light path.The sidewall of described three grades of concavees lens 41 is provided with three step lens reflector layer (mark), light is propagated after described three step lens reflector layer reflects in described three grades of concavees lens 41, described three step lens reflector layer is reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film, and described three step lens reflector layer can be effectively prevented light loss.

The accompanying drawing 1 of the present embodiment only achieves two grades of illuminations, user can make described optical fiber illuminating system realize multistage illumination according to the needs of self, such as three grades of illuminations, level Four illumination or Pyatyi illumination etc., in other words, user can extend the illumination length of described optical fiber illuminating system as required.When needs realize three grades of illuminations, more than one three grades of fixed structures (picture), three grades of lighting fibers (picture) of more than and more than one level Four concavees lens (picture) can also be included, described three grades of fixed structures, described three grades of lighting fibers and the structure of described level Four concavees lens and connected mode, identical with described two grades of fixed structures 32, described two grades of lighting fibers 33 and the structure of described three grades of concavees lens 41 and connected mode, here it is not repeated to introduce.The most no longer describing three grades of illuminations, level Four illumination and/or Pyatyi illumination in detail, its structure is identical with two grades of illuminations with principle.

The operation principle of the present invention is, described light source can be the light that described LED 11, described laser aid and/or described beam condensing unit 12 send, after the light sent when described light source is dissipated by the one-level of described one-level concavees lens 21, enter in described one-level fixed structure 22, one-level diverging light enters into described one-level lighting fiber 23 from one end of described one-level lighting fiber 23, and penetrate from the other end of described one-level lighting fiber 23, the light of injection dissipates through two grades of described two grades of concavees lens 31 again.In numerous one-level diverging lights, a portion can be used directly to illumination, another part one-level diverging light then enters in described two grades of fixed structures 32, two grades of diverging lights enter into described two grades of lighting fibers 33 from one end of described two grades of lighting fibers 33, and penetrate from the other end of described two grades of lighting fibers 33, the light of injection dissipates through three grades of described three grades of concavees lens 41 again, in three grades of numerous diverging lights, a portion can be used directly to illumination, and three grades of diverging lights of another part can proceed level Four and dissipate.

Due to the fact that and have employed described one-level concavees lens 21, described one-level fixed structure 22, the described one-level lighting fiber 23 of more than one and more than one described two grades of concavees lens 31, the light that described light source sends is after described one-level concavees lens 21 one-level dissipates, described one-level lighting fiber 23 to more than one provides light, one-level diverging light enters in described one-level lighting fiber 23, penetrate from the other end of described one-level lighting fiber 23, the light of injection carries out two grades through described two grades of concavees lens 31 again and dissipates, two grades of diverging lights can be used directly to illumination, reach a described light source and can realize the purpose of many places illumination；During using, need not buy conductor cable and illuminating lamp, also without arranging conductor cable, after described one-level lighting fiber 23 is aging, will not leak electricity and also will not cause fire, people can be easily found the described one-level lighting fiber 23 of damage according to light leak position, have that power consumption is low, economize on resources, low cost, without advantages such as wiring, easy to maintenance, simple in construction and potential safety hazard are low.

Claims (10)

1. an energy-conservation optical fiber illuminating system, it is characterized in that: include light source, one-level concavees lens, one-level fixed structure, the one-level lighting fiber of more than one and more than one two grades of concavees lens, described light source is arranged on the side of described one-level concavees lens, described one-level fixed structure is arranged on the opposite side of described one-level concavees lens, described one-level fixed structure is provided with more than one one-level fixing hole, one end of the described one-level lighting fiber of more than is fixed in more than one described one-level fixing hole, the other end of each described one-level lighting fiber is provided with described two grades of concavees lens；The light that described light source sends is after described one-level concavees lens one-level dissipates, enter into from one end of described one-level lighting fiber described one-level lighting fiber, and penetrate from the other end of described one-level lighting fiber, the light of injection dissipates through described two grades of concavees lens two grades again.

Energy-conservation optical fiber illuminating system the most according to claim 1, it is characterised in that: being provided with the first reflector layer on the sidewall of described one-level lighting fiber, light is propagated after described first reflector layer reflection in described one-level lighting fiber.

Energy-conservation optical fiber illuminating system the most according to claim 2, it is characterised in that: also include that first class of protection layer, described first class of protection layer are set in the outside of described first reflector layer.

Energy-conservation optical fiber illuminating system the most according to claim 1 and 2, it is characterised in that: described light source is LED, laser aid and/or beam condensing unit.

Energy-conservation optical fiber illuminating system the most according to claim 4, it is characterised in that: also including supply module, described supply module provides electric energy to described LED and/or described laser aid.

Energy-conservation optical fiber illuminating system the most according to claim 5, it is characterised in that: described supply module is civil power, lithium battery, accumulator and/or aneroid battery.

Energy-conservation optical fiber illuminating system the most according to claim 4, it is characterised in that: described LED is made up of the LED luminescence chip of three kinds of colors red, green, blue.

Energy-conservation optical fiber illuminating system the most according to claim 4, it is characterised in that: also including that what optically focused optical fiber, one end of described optically focused optical fiber was arranged on described beam condensing unit goes out light end, the other end of described optically focused optical fiber is arranged on the side of described one-level concavees lens.

Energy-conservation optical fiber illuminating system the most according to claim 4, it is characterized in that: also include control module, described control module is connected with described LED, described laser aid and/or described beam condensing unit respectively, and described control module is for controlling described LED, described laser aid and/or the work of described beam condensing unit；Also include that remote controller, described remote controller coordinate with described control module, for remotely controlling described LED, described laser aid and/or the work of described beam condensing unit.

Energy-conservation optical fiber illuminating system the most according to claim 1 and 2, it is characterized in that: also include more than one two grades of fixed structures, two grades of lighting fibers of more than one and more than one three grades of concavees lens, more than one described two grades of fixed structures are arranged on the light emission side of more than one described two grades of concavees lens, described two grades of fixed structures are provided with more than one two grades of fixing holes, one end of described two grades of lighting fibers of more than is fixed in more than one described two grades of fixing holes, the other end of each described two grades of lighting fibers is provided with described three grades of concavees lens.