CN202048509U - Energy saving illumination apparatus - Google Patents

Abstract

The utility model relates to an energy saving illumination apparatus, comprising an optical fiber, a light guide cylindrical shell and a radiating member, wherein light is completely gathered in the light guide cylindrical shell through the optical fiber, the inner surface of the light guide cylindrical shell is protrudingly provided with a protruding rib, when the light is radiated on the surface of the protruding rib the light is radiated out by multi-angle and in multi-direction, there is provided the radiating member opposite the opening of the optical fiber, to uniformly disperse the light inside of the light guide cylindrical shell, and the surface of the light guide cylindrical shell is communicated with more than one light guide holes to radiate the gathered light out from each light guide hole in a multi-opening manner. The energy saving illumination apparatus can be mounted on buildings with different heights, and can effectively utilize the light resource through radiating light to different positions to illuminate via each light guide hole.

Description

Energy-conservation illumination apparatus

Technical field

The utility model relates to a kind of lighting device, particularly relates to a kind ofly utilizing the leaded light post to compile light and the energy-conservation illumination apparatus that element is dispersed to light diverse location is dispersed in utilization.

Background technology

Existing lighting apparatus is directly supplied luminous lighting with electric energy mostly, or collect solar energy and convert electric energy to and use for luminous lighting again, places such as general family or public place, required lighting apparatus sets up and is scattered in different floors, most lighting devices need be set just can shine in the zone that each is different fully, but most lighting apparatus also are set because of need, need expend more equipment cost and consume more electric energy, more do not have an economic worth;

In addition, general employed lighting apparatus is directly with electric energy or supply this lighting apparatus luminous use with solar energy indirectly, unavoidable energy loss in the middle of energy sources conversion, and cause energy waste; And general lighting apparatus may be arranged on some fixed point to the greatest extent, the regional extent of being thrown light on is limited, and can't will should zone integral body illuminate fully, should zone integral body illuminate if need, may need to set up most lighting devices as previously mentioned and just can shine fully the position that each is different, and waste more equipment cost and electric energy.

The utility model content

For solving existing lighting device relevant for can't extensively being arranged on each different position to reach the function of illumination fully, and not enough and restriction with the more equipment cost of waste and energy, main purpose of the present utility model is to provide a kind of energy-conservation illumination apparatus, it is by an optical fiber, one leaded light cylindrical shell and one is dispersed element, this optical fiber is collected into light in this leaded light cylindrical shell fully, by the fin in this leaded light cylindrical shell, with light with multi-angle, multi-direction light is scattered out, and in the opposite of the opening of this optical fiber this is set and disperses element, light is evenly disperseed, the surface of this leaded light cylindrical shell is communicated with more than one light-conductive hole, can be with the form of many openings with collected light of going into, light is exhaled from each light-conductive hole, energy-conservation illumination apparatus of the present utility model, can set up on the different floors, it is luminous by each light-conductive hole light to be distributed to diverse location, can effectively utilize light resources.

The purpose of this utility model is to adopt following technical scheme to realize.

Energy-conservation illumination apparatus according to the utility model proposes comprises:

One leaded light cylindrical shell, it is equipped with more than one light-conductive hole for transparent shell and inner surperficial around convexing with fin in the surface of this leaded light cylindrical shell;

One reflectance coating, it is arranged at the outer surface of this leaded light cylindrical shell;

One optical fiber, its in conjunction with and be communicated in this leaded light cylindrical shell; And

One disperses element, and it is arranged at this leaded light inner barrel and with respect to the opposite of the opening of this optical fiber.

Preferably, described fin is the surface, inside that is arranged at this leaded light cylindrical shell with spiral distribution, and this to disperse element be a prism.

The energy-conservation illumination apparatus that the utility model proposed, the beneficial effect that can obtain comprises:

1, optical fiber of the present utility model can be collected external light, with total reflection principle light is collected in this optical fiber fully, the fin that is convexly equipped with by the surface, inside of this leaded light cylindrical shell, the light that enters is beaten on this fin surface, can produce multi-angle remission light, with multi-direction light is scattered out, effectively utilize light energy source.

2, of the present utility modelly disperse the opposite that element is arranged at the opening of this optical fiber, the light of the inside of this leaded light cylindrical shell will directly be entered, can evenly spread to the left and right sides that this disperses element, and this fin of arranging in pairs or groups evenly spreads to the light that is entered all positions of the inside of this leaded light cylindrical shell together, complete with light towards scattering out from all directions, effectively utilize light energy source.

3, a majority of the present utility model light-conductive hole is communicated in the surface of this leaded light cylindrical shell, can be with the form of many openings with collected light of going into, divergent light source is to diverse location, energy-conservation illumination apparatus of the present utility model can set up on the different floors, used at home lamp can be saved according to electric energy, light resources can be effectively utilized.

Description of drawings

Fig. 1 is the structure configuration schematic diagram of the utility model preferred embodiment.

Fig. 2 is the cross-sectional view of the leaded light cylindrical shell of the utility model preferred embodiment.

Fig. 3 be the utility model preferred embodiment enforcement user mode schematic diagram.

The specific embodiment

Below cooperate preferred embodiment graphic and of the present utility model, further setting forth the utility model is to reach the technological means that predetermined utility model purpose is taked.

As shown in Figures 1 and 2, the utility model provides a kind of energy-conservation illumination apparatus, and it includes a leaded light cylindrical shell 10, a reflectance coating 20, an optical fiber 30 and one and disperses element 40; Wherein:

This leaded light cylindrical shell 10 is a transparent shell, and interior surface thereof convexes with fin 11, and this fin 11 forms a thread inner surface with the inside that spiral distribution is arranged at this leaded light cylindrical shell 10, and the surface of this leaded light cylindrical shell 10 is equipped with more than one light-conductive hole 12;

This reflectance coating 20 is an opaque coating, and its coating is arranged at the outer surface of this leaded light cylindrical shell 10, makes the surface of this leaded light cylindrical shell 10 present opaque aspect;

This optical fiber 30 is to be fiber optic fibers, plastic, the one end opening in conjunction with and be communicated with the inside of this leaded light cylindrical shell 10, other end opening is collected light from outside and is entered this optical fiber 30 inside, utilizes the light complete transmission of total reflection principle with these optical fiber 30 inside of enter;

This disperses element 40, and to be arranged at this leaded light cylindrical shell 10 inner and with respect to the opposite of the opening of this optical fiber 30, wherein this disperses that element 40 can be prism, has the specular thing of reflecting surface or concave-concave, plano-concave, convex-concave etc. disperse concavees lens, the light that is entered is got to this and is dispersed on the element 40, light can be scattered in equably this leaded light cylindrical shell 10 inside.

As shown in Figure 2, this leaded light cylindrical shell 10 is a transparent shell, its this reflectance coating 20 of surface coating, purpose is to allow the light of these leaded light cylindrical shell 10 inside that enter can not distributed by the transparent surface of this leaded light cylindrical shell 10, and the light that enters is got to directly these leaded light cylindrical shell 10 inside of reflected back of this reflectance coating 20, and, light is spread to equably all positions of these leaded light cylindrical shell 10 inside in the continuous light reflection of the unfolded surface of this fin 11.

As Fig. 1 and shown in Figure 3, the utility model is collected external light by this optical fiber 30, with total reflection principle light is collected in this optical fiber 30 fully, the light that enters is beaten on this fin 11 surfaces, produce multi-angle remission light, with multi-direction light is scattered out, and in the opposite of the opening of this optical fiber 30 this is set and disperses element 40, the utility model is to disperse element 40 with prism for this, can the light of the inside of this leaded light cylindrical shell 10 will be entered, can evenly spread to the left and right sides that this disperses element 40, the surface of this leaded light cylindrical shell 10 is communicated with more than one light-conductive hole 12, collected light of going into can be exhaled light from each light-conductive hole 12 with the form of many openings, by each light-conductive hole 12 light is distributed to diverse location, can effectively utilizes light resources.

Energy-conservation illumination apparatus of the present utility model, can set up on the different floors, collect external light by this optical fiber 30, complete arrives these leaded light cylindrical shell 10 inside with ray-collecting, and by more than one light-conductive hole 12, with collected light of going into, divergent light source is to diverse location, different at home zones can be arranged at and different floors can be arranged at, the foregoing leaded light cylindrical shell 10 that is arranged at zones of different and different floors communicates with each other, same light source enters this optical fiber 30 can be transferred to zones of different and different floor, can save used at home lamp according to electric energy, and the utility model can reduce institute's consuming electric power and effectively make full use of light resources.

The above only is a preferred embodiment of the present utility model; for the utility model only is illustrative; and it is nonrestrictive; in the spirit and scope that the utility model claim is limited; those skilled in the art can understand and the modification carried out or equivalence change, and all will belong to protection domain of the present utility model.

Claims (3)

1. energy-conservation illumination apparatus is characterized in that comprising:

One leaded light cylindrical shell, it is equipped with more than one light-conductive hole for transparent shell and inner surperficial around convexing with fin on the surface of this leaded light cylindrical shell;

One reflectance coating, it is arranged at the outer surface of this leaded light cylindrical shell;

One optical fiber, its in conjunction with and be communicated in this leaded light cylindrical shell; And

One disperses element, and it is arranged at this leaded light inner barrel and with respect to the opposite of the opening of this optical fiber.

2. energy-conservation illumination apparatus according to claim 1 is characterized in that: described fin is arranged at the surface, inside of described leaded light cylindrical shell with spiral distribution.

3. energy-conservation illumination apparatus according to claim 1 and 2 is characterized in that: the described element of dispersing is a prism.

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