CN205824856U - Energy-conservation optical fiber illuminating system - Google Patents

Abstract

A kind of energy-conservation optical fiber illuminating system, including light source, one-level concavees lens, one-level fixed structure, one-level lighting fiber and two grades of concavees lens, light source is arranged on the side of one-level concavees lens, one-level fixed structure is arranged on the opposite side of one-level concavees lens, one-level fixed structure arranges one-level fixing hole, one end of one-level lighting fiber is fixed in one-level fixing hole, is provided with two grades of concavees lens on the other end of each one-level lighting fiber；The light that light source sends, after one-level concavees lens one-level dissipates, enters into one-level lighting fiber from one end of one-level lighting fiber, and penetrates from the other end of one-level lighting fiber, and the light of injection dissipates through two grades of concavees lens two grades again.In this utility model, a light source can realize the purpose that many places illuminate；During using, it is not necessary to buy conductor cable and illuminating lamp, will not leak electricity and also will not cause fire, have that power consumption is low, economize on resources, without advantages such as wiring, easy to maintenance, simple in construction and potential safety hazard are low.

Description

Energy-conservation optical fiber illuminating system

Technical field

This utility model relates to optical fibre illumination technical field, especially relates 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 people Indispensable equipment, 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, in peak times of power consumption Summer and winter, the increase of people's power consumption, cause a lot of local or city to there will be the phenomenon of electricity shortage, Jin Erying Ring daily life and study.

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

Utility model content

In order to overcome the problems referred to above, this utility model provides a kind of simple in construction, the saving energy, potential safety hazard low to society With energy-conservation optical fiber illuminating system easy to maintenance.

The technical solution of the utility model is: provide a kind of energy-conservation optical fiber illuminating system, including light source, 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, described light source is arranged on described The side of one-level concavees lens, described one-level fixed structure is arranged on the opposite side of described one-level concavees lens, fixes in described one-level Be provided with more than one one-level fixing hole in structure, one end of the described one-level lighting fiber of more than be fixed on one with On described one-level fixing hole in, the other end of each described one-level lighting fiber is provided with one described two grades recessed Mirror；The light that described light source sends, after described one-level concavees lens one-level dissipates, enters from one end of described one-level lighting fiber In described one-level lighting fiber, and penetrating from the other end of described one-level lighting fiber, the light of injection is again through described two grades Concavees lens two grades dissipate.

As to improvement of the present utility model, the sidewall of described one-level lighting fiber is provided with the first reflector layer, light Propagate in described one-level lighting fiber after described first reflector layer reflection.

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

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

As to improvement of the present utility model, also including supply module, described supply module gives described LED and/or institute State laser aid and electric energy is provided.

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

As to improvement of the present utility model, described LED is by the LED luminescence core of three kinds of colors red, green, blue Sheet forms.

As to improvement of the present utility model, also include that optically focused optical fiber, one end of described optically focused optical fiber are arranged on described poly- Electro-optical device go out light end, the other end of described optically focused optical fiber is arranged on the side of described one-level concavees lens.

As to improvement of the present utility model, also include control module, described control module respectively with described LED, institute State laser aid and/or described beam condensing unit to connect, described control module be used 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 institute State LED, described laser aid and/or the work of described beam condensing unit.

As to improvement of the present utility model, also include more than one two grades of fixed structures, two grades of photographs of more than Fine and the more than one three grades of concavees lens in Mingguang City, more than one described two grades of fixed structures are arranged on more than one described two The light emission side of level concavees lens, is provided with more than one two grades of fixing holes, the institute of more than on described two grades of fixed structures The one end stating two grades of lighting fibers is fixed in more than one described two grades of fixing holes, at each described two grades of lighting fibers The other end on described three grades of concavees lens are installed.

This utility model due to 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, after one-level concavees lens one-level dissipates, shines to the one-level of more than Mingguang City's fibre provides light, and one-level diverging light enters in one-level lighting fiber, penetrates from the other end of one-level lighting fiber, injection Light carries out two grades through two grades of concavees lens again and dissipates, and two grades of diverging lights can be used directly to illumination, has reached a light source permissible Realize the purpose of many places illumination；During using, it is not necessary to buy conductor cable and illuminating lamp, it is not required that arrange conduction Cable, after one-level lighting fiber is aging, will not leak electricity and also will not cause fire, and people can be easy to look for according to light leak position To the one-level lighting fiber damaged, have that power consumption is low, economize on resources, low cost, without wiring, easy to maintenance, simple in construction With the advantage such as potential safety hazard is low.

Accompanying drawing explanation

Fig. 1 is partial schematic sectional view of the present utility model.

Wherein: 11.LED lamp；12. beam condensing units；13. optically focused optical fiber；14. reflection shields；15. bases；16. bases are fixed Set；21. one-level concavees lens；22. one-level fixed structures；23. one-level lighting fibers；24. first reflector layers；25. one-level optical fiber are solid Fixed set；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 are fine Fixed cover；41. 3 grades of concavees lens.

Detailed description of the invention

In description of the present utility model, it is to be understood that " " center ", " on ", D score in term, "front", "rear", Orientation or the position relationship of the instruction such as "left", "right" are based on orientation shown in the drawings or position relationship, are for only for ease of and retouch State this utility model and simplifying describe rather than instruction or the hint device of indication or element must have specific orientation, with Specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " first ", " second " It is only used for describing purpose, and it is not intended that indicate or hint relative importance.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, term " peace Dress ", should be interpreted broadly " connection ", " being connected ", connect for example, it may be fixing, it is also possible to be to dismantle connection, or connect integratedly Connect；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, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Language is at concrete meaning of the present utility model.Additionally, in description of the present utility model, except as otherwise noted, " multiple ", " some " It is meant that two or more.

Referring to disclosed in Fig. 1, Fig. 1 is a kind of energy-conservation optical fiber illuminating system, including light source, one-level concavees lens 21, The one-level lighting fiber 23 of level fixed structure more than 22, 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, in institute State and on one-level fixed structure 22, be provided with more than one one-level fixing hole (mark), the described one-level illumination light of more than One end of fine 23 is fixed in more than one described one-level fixing hole, at the other end of each described one-level lighting fiber 23 On described two grades of concavees lens 31 are installed；The light that described light source sends after described one-level concavees lens 21 one-level dissipates, Enter into described one-level lighting fiber 23 from one end of described one-level lighting fiber 23, and from described one-level lighting fiber 23 The other end penetrates, and the light of injection dissipates through described two grades of concavees lens 31 2 grades again, described one-level concavees lens 21 and described two grades 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 Device and/or beam condensing unit 12, the most described light source be LED 11, laser aid, the one of which of beam condensing unit 12 or Multiple.Also including supply module (invisible in figure), described supply module carries to described LED 11 and/or described laser aid For electric energy, described supply module is civil power, lithium battery, accumulator and/or aneroid battery, described LED 11 be by red, green, The LED luminescence chip composition of blue three kinds of colors, 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 include that optically focused optical fiber 13, one end of described optically focused optical fiber 13 are arranged on described beam condensing unit 12 Go 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 When outdoor available light is more sufficient, described beam condensing unit 12 carries out optically focused to the natural light received, and optically focused first from The light end-fire that goes out of described beam condensing unit 12 goes out, then the one end from described optically focused light enters into described optically focused optical fiber 13, After penetrate from the other end of described optically focused optical fiber 13, thus provide light for described optical fiber illuminating system.Use described beam condensing unit The benefit of 12 is, the most described LED 11 and/or described laser aid can be not used to when described light source uses, i.e. in vain It directly can provide light by described optically focused optical fiber 13 and described beam condensing unit 12, in other words, uses nature light by day As the light source of described optical fiber illuminating system, 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 through described optical fiber Propagate in described one-level lighting fiber 23 after reflector layer reflection.Described optical fiber reflector layer is reflective membrane, is formed by glass microballoon Reflecting layer, hydrargyrum, silver or aluminum film, 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 include base 15, described light source is arranged on described base 15, and the other end of the most described LED 11 and described optically focused optical fiber 13 is arranged on described On base 15, described reflection shield 14 is also disposed on described base 15.Also include base fixed cover 16, described base fixed cover 16 One end be arranged on described base 15, the other end of described base fixed cover 16 is set in the sidewall of described one-level concavees lens 21 On.Being provided with one-level lens retroreflective layer (invisible in figure) on the sidewall of described one-level concavees lens 21, light is through described one-level Propagating in described one-level concavees lens 21 after the reflection of lens retroreflective layer, described one-level lens retroreflective layer is reflective membrane, micro-by glass Reflecting layer, hydrargyrum, silver or the aluminum film that pearl is formed.

In the present embodiment, also include control module (invisible in figure), described control module respectively with described LED 11, Described laser aid and/or described beam condensing unit 12 connect, and described control module is used for controlling described LED 11, described laser Device and/or the work of described beam condensing unit 12.Also including remote controller (picture), described remote controller is joined with described control module Close, 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, institute The other end stating one-level fixed structure 22 is positioned at the opposite side of described one-level concavees lens 21, another at described one-level fixed structure 22 Being provided with more than one described one-level fixing hole (mark) on one end, described one-level fixing hole becomes array arrangement or non-battle array Row arrangement.Inwall at described one-level fixed structure 22 is also equipped with one-level reflector layer (invisible in figure), and described one-level is reflective Layer is reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film.

In the present embodiment, being provided with the first reflector layer 24 on the sidewall of described one-level lighting fiber 23, light is through described Propagating in described one-level lighting fiber 23 after first reflector layer 24 reflection, described first reflector layer 24 is reflective membrane, by glass Reflecting layer, hydrargyrum, silver or the aluminum film that microballon is formed, described first reflector layer 24 can be effectively prevented light loss.Also include First class of protection layer (is not drawn), and described first class of protection layer is set in the outside of described first reflector layer 24, described first class of protection layer Being made up of acrylate, silicone rubber and/or nylon material, 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 arranged Have the first perforation (mark), the other end of described one-level lighting fiber 23 be fixed on described first perforation in, described two grades recessed 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 arranged Have two grades of lens retroreflective layers (invisible in figure), light after described two grades of lens retroreflective layers reflection at described two grades of concavees lens 31 Middle propagation, 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 two grades of lighting fiber 33 and of more than one two grades of fixed structures more than 32, More than one three grades of concavees lens 41, more than one described two grades of fixed structures 32 be arranged on more than one described two grades recessed The light emission side of lens 31, is provided with more than one two grades of fixing holes (mark) on described two grades of fixed structures 32, one One end of above described two grades of lighting fibers 33 is fixed in more than one described two grades of fixing holes, at each described two Being provided with described three grades of concavees lens 41 on the other end of level lighting fiber 33, described three grades of concavees lens 41 can be that concave-concave is saturating Mirror, 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, consolidates for described two grades The other end of fixed structure 32 is positioned at the opposite side of described two grades of concavees lens 31, sets on the other end of described two grades of fixed structures 32 Being equipped with more than one described two grades of fixing holes (mark), 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), described solid The one end determining body is set on the sidewall of described one-level optical fiber fixed cover 25, and described cover cap is combined in opening of described fixing body On mouth end (other end), described lid is provided with more than one described two grades of fixing holes, and at described fixing body Inwall be also equipped with two grades of reflector layers (mark), described two grades of reflector layers are reflective membrane, the reflection formed by glass microballoon Layer, 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 one end of described two grades of lighting fibers 33 When being fixed in described two grades of fixing holes, then the most described cover cap is combined on the opening of described fixing body.

Being provided with the second reflector layer 34 on the sidewall of described two grades of lighting fibers 33, light is through described second reflector layer 34 After reflection in described two grades of lighting fibers 33 propagate, described second reflector layer 34 be reflective membrane, by glass microballoon formed anti- Penetrating layer, hydrargyrum, silver or aluminum film, described second reflector layer 34 can be effectively prevented light loss.Also include second class protection layer (not Draw), described second class protection layer is set in the outside of described second reflector layer 34, described second class protection layer be by acrylate, Silicone rubber and/or nylon material are made, 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 be positioned in light path.The sidewall of described three grades of concavees lens 41 is provided with three step lens Reflector layer (does not identifies), and light is propagated after described three step lens reflector layer reflects in described three grades of concavees lens 41, and described three Level lens retroreflective layer is reflective membrane, the glass microballoon reflecting layer formed, hydrargyrum, silver or aluminum film, and described three step lens is reflective Layer can be effectively prevented light loss.

Only achieving two grades of illuminations in the accompanying drawing 1 of the present embodiment, user can make described optical fiber shine according to the needs of self Bright system realizes multistage illumination, and such as three grades of illuminations, level Four illumination or Pyatyi illumination etc., in other words, user can be according to need Extend the illumination length of described optical fiber illuminating system.When needs realize three grades of illuminations, it is also possible to include more than one three Level fixed structure (picture), three grades of lighting fibers (picture) of more than and more than one level Four concavees lens (are not drawn Figure), described three grades of fixed structures, described three grades of lighting fibers and the structure of described level Four concavees lens and connected mode, with described Two grades of fixed structures 32, described two grades of lighting fibers 33 are identical with connected mode, at this with the structure of described three grades of concavees lens 41 In be not repeated introduce.The most no longer three grades of illuminations, level Four illumination and/or Pyatyi illumination are described in detail, its structure Identical with two grades of illuminations with principle.

Operation principle of the present utility model is, described light source can be described LED 11, described laser aid and/or institute State the light that beam condensing unit 12 sends, 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 the illumination of described one-level from one end of described one-level lighting fiber 23 In optical fiber 23, and penetrating from the other end of described one-level lighting fiber 23, the light of injection is again through described two grades of concavees lens 31 Two grades dissipate.In numerous one-level diverging lights, a portion can be used directly to illuminate, and another part one-level diverging light Then entering in described two grades of fixed structures 32, two grades of diverging lights enter into described two from one end of described two grades of lighting fibers 33 In level lighting fiber 33, and penetrate from the other end of described two grades of lighting fibers 33, the light of injection again through described three grades recessed Three grades of mirror 41 dissipate, and in three grades of numerous diverging lights, a portion can be used directly to illuminate, and another part three grades Diverging light can proceed level Four and dissipate.

This utility model is owing to have employed the institute of described one-level concavees lens 21, described one-level fixed structure more than 22, Stating one-level lighting fiber 23 and more than one described two grades of concavees lens 31, the light that described light source sends is recessed through described one-level After mirror 21 one-level dissipates, light, one-level diverging light is provided to enter into described one-level to the described one-level lighting fiber 23 of more than In lighting fiber 23, penetrating from the other end of described one-level lighting fiber 23, the light of injection is again through described two grades of concavees lens 31 Carrying out two grades to dissipate, two grades of diverging lights can be used directly to illumination, has reached a described light source and can realize many places illumination Purpose；During using, it is not necessary to buy conductor cable and illuminating lamp, it is not required that arrange conductor cable, when described one After level lighting fiber 23 is aging, will not leak electricity and also will not cause fire, people can be easily found damage according to light leak position Described one-level lighting fiber 23, have that power consumption is low, economize on resources, low cost, without wiring, easy to maintenance, simple in construction With the advantage such as potential safety hazard is low.

Claims (10)

1. an energy-conservation optical fiber illuminating system, it is characterised in that: include light source, one-level concavees lens, one-level fixed structure, one with On one-level lighting fiber and more than one two grades of concavees lens, described light source is arranged on the side of described one-level concavees lens, institute State one-level fixed structure and be 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 on more than one described one-level fixing hole In, the other end of each described one-level lighting fiber is provided with described two grades of concavees lens；Described light source sends Light, after described one-level concavees lens one-level dissipates, enters into described one-level lighting fiber from one end of described one-level lighting fiber In, 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: at the sidewall of described one-level lighting fiber On be provided with the first reflector layer, light through described first reflector layer reflection after in described one-level lighting fiber propagate.

Energy-conservation optical fiber illuminating system the most according to claim 2, it is characterised in that: also include first class of protection layer, described one Level protective layer is 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 Device and/or beam condensing unit.

Energy-conservation optical fiber illuminating system the most according to claim 4, it is characterised in that: also include supply module, described power 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 electricity Pond, accumulator and/or aneroid battery.

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

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

Energy-conservation optical fiber illuminating system the most according to claim 4, it is characterised 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 used for controlling institute State LED, described laser aid and/or the work of described beam condensing unit；Also include remote controller, described remote controller and described control Module coordinates, 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 characterised in that: also include more than one two grades Fixed structure, two grades of lighting fibers of more than and more than one three grades of concavees lens, fix for more than one described two grades Structure is arranged on the light emission side of more than one described two grades of concavees lens, is provided with more than one on described two grades of fixed structures Two grades of fixing holes, one end of described two grades of lighting fibers of more than is fixed on more than one described two grades of fixing holes In, the other end of each described two grades of lighting fibers is provided with described three grades of concavees lens.