CN202419242U - Efficient reflection energy-saving lamp - Google Patents

Abstract

The utility model relates to an energy-saving lamp technology, in particular to an efficient reflection energy-saving lamp which comprises a lamp cap which is externally connected with a power supply, a shell and an energy-saving tube, wherein the lamp cap is installed at the top of the shell, the energy-saving tube is installed at the bottom of the shell, the efficient reflection energy-saving lamp also comprises a glass nano coating reflection lampshade, the inner wall of the glass nano coating reflection lampshade is coated with a nano reflection coating, and the glass nano coating reflection lampshade is buckled with the outer part of the bottom of the shell and covers the periphery of the energy-saving tube. The inner wall of the glass nano coating reflection lampshade is coated with the nano reflection coating, and the nano reflection coating has the total refletivity of above 99% and the diffused reflectance of 96%, so the reflection effect of the glass nano coating reflection lampshade is improved, the emitted light of the energy-saving tube can be completely utilized, and accordingly, the lighting effect of the whole energy-saving tube is improved.

Description

A kind of efficient reflective energy-saving lamp

Technical field

The utility model relates to the electricity-saving lamp technology, relates in particular to a kind of efficient reflective energy-saving lamp.

Background technology

About about every watt 10 lumen, the life-span, about about 1000 hours, its operation principle was the light efficiency of ordinary incandescent lamp greatly: in the lamp place in circuit greatly; Electric current flows through filament, and the fuel factor of electric current makes incandescent lamp send continuous visible light and infrared ray; Because the filament temperature during work is very high, most energy has slatterned with the form of infra-red radiation, because filament temperature is very high; Evaporate also very soon,, approximately have only about 1000 hours so the life-span has also shortened greatly.

Electricity-saving lamp mainly is to heat to tube filament through ballast, and when the 1160K temperature, filament just begins to launch electronics (because on filament, being coated with some electronics powder) greatly; The electron collision ar atmo produces inelastic collision, has obtained energy after the ar atmo collision and has clashed into mercury atom again, and mercury atom transition after absorbing energy produces ionization; Send the ultraviolet ray of 253.7nm, ultraviolet ray excited light-emitting phosphor, the temperature of filament is about 1160K during owing to electricity-saving lamp work; Temperature 2200K-2700K than incandescent lamp work is much lower, so the also big raising of its life-span reached more than 5000 hours; Because there is not the such heating effect of current of incandescent lamp in it; The energy conversion efficiency of fluorescent material is also very high, reaches more than every watt 50 lumen, and brightness is with more than 5 times of the incandescent lamp of power; The electricity-saving lamp that particularly adopts high light efficiency fluorescent material to make, brightness is taller.

But; The lampshade of electricity-saving lamp is the lampshade of simple structure in the prior art, and this lampshade is just at the common reflector layer of inner-wall spraying one deck, so reflecting effect is relatively poor; The light that causes the power saving fluorescent lamps of electricity-saving lamp to send can not be fully utilized, and then makes the light efficiency of whole electricity-saving lamp not high.

The utility model content

The purpose of the utility model is that providing a kind of to the deficiency of prior art increases the efficient reflective energy-saving lamp of light efficiency through glass nano coating lampshade is set.

The purpose of the utility model realizes through following technical measures: a kind of efficient reflective energy-saving lamp; It includes lamp holder, housing, the power saving fluorescent lamps that is used for external power supply; Said lamp holder is installed on the top of housing; Said power saving fluorescent lamps is installed on the bottom of housing, and said efficient reflective energy-saving lamp also includes glass nano coating lampshade, and the inwall of said glass nano coating lampshade scribbles the nanometer reflecting coating; Said glass nano coating lampshade is buckled in the outside of housing bottom, and glass nano coating lampshade is the periphery that covers in power saving fluorescent lamps.

Preferably, the bottom of said housing is provided with the light source reflector plate, and the bottom surface of light source reflector plate scribbles minute surface nanoscale reflecting coating.

Preferably, the central authorities of said light source reflector plate offer the groove position, are set with inverted reflective cone in the groove position, and the surface of reflective cone scribbles minute surface nanoscale reflecting coating.

Preferably, the central authorities of said power saving fluorescent lamps are provided with the disposal area that is used to place reflective cone.

Preferably, said glass nano coating lampshade is the concavo-convex inserted outside that is buckled in housing bottom.

Preferably, said housing comprises upper shell, lower house, the mutual snapping of upper shell and lower house and form housing.

Preferably, said lamp holder is E14 lamp holder or E27 lamp holder.

The utility model beneficial effect is: the utility model includes lamp holder, housing, the power saving fluorescent lamps that is used for external power supply; Lamp holder is installed on the top of housing; Power saving fluorescent lamps is installed on the bottom of housing, and efficient reflective energy-saving lamp also includes glass nano coating lampshade, and the inwall of glass nano coating lampshade scribbles the nanometer reflecting coating; Glass nano coating lampshade is buckled in the outside of housing bottom, and glass nano coating lampshade is the periphery that covers in power saving fluorescent lamps.Because the inwall of the utility model glass nano coating lampshade scribbles the nanometer reflecting coating; And the nanometer reflecting coating has total reflectivity and 96% diffuse reflectance more than 99%; The reflecting effect of glass nano coating lampshade is improved; And the light that power saving fluorescent lamps is sent is fully utilized, thereby the light efficiency of whole electricity-saving lamp is improved.

Description of drawings

Utilize accompanying drawing to come the utility model is further described below, but the embodiment in the accompanying drawing does not constitute any restriction to the utility model.

Fig. 1 is the decomposing schematic representation of a kind of efficient reflective energy-saving lamp of the utility model.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is further described.

As shown in Figure 1; A kind of efficient reflective energy-saving lamp of the utility model; It includes lamp holder 1, housing, the power saving fluorescent lamps 3 that is used for external power supply, and said lamp holder 1 is installed on the top of housing, and said power saving fluorescent lamps 3 is installed on the bottom of housing; Said efficient reflective energy-saving lamp also includes glass nano coating lampshade 4; The inwall of said glass nano coating lampshade 4 scribbles the nanometer reflecting coating, and said glass nano coating lampshade 4 is buckled in the outside of housing bottom, and glass nano coating lampshade 4 is for covering in the periphery of power saving fluorescent lamps 3.

The preferably; The bottom of said housing is provided with light source reflector plate 23; The bottom surface of light source reflector plate 23 scribbles minute surface nanoscale reflecting coating, and this minute surface nanoscale reflecting coating has total reflectivity and 96% the diffuse reflectance more than 99%, thus can with power saving fluorescent lamps 3 upwards the surplus light of irradiation reflect downwards through light source reflector plate 23; Become effective sunlight, further improved the light efficiency of whole electricity-saving lamp.

The preferably; The central authorities of said light source reflector plate 23 offer the groove position, are set with inverted reflective cone 24 in the groove position, and the surface of reflective cone 24 scribbles minute surface nanoscale reflecting coating; This minute surface nanoscale reflecting coating has total reflectivity and 96% the diffuse reflectance more than 99%; Thereby can reflection and the refraction of the surplus light that interfere with each other in the power saving fluorescent lamps 3 and make progress through inverted reflective cone 24 be formed downward light, and effectively utilize; Become effective sunlight, further improved the light efficiency of whole electricity-saving lamp.Wherein, the central authorities of said power saving fluorescent lamps 3 are provided with the disposal area that is used to place reflective cone 24.

The preferably, said glass nano coating lampshade 4 is the concavo-convex inserted outside that is buckled in housing bottom, and is convenient and simple quick with what realize installing, dismantling.

The preferably, said housing comprises upper shell 21, lower house 22, upper shell 21 forms housing with lower house 22 mutual snappings, makes housing can place parts such as power supply circuit board.

In the present embodiment,, said lamp holder 1 is E14 lamp holder or E27 lamp holder, to mate external lamp socket, certainly, said lamp holder 11 also can be the lamp holder of other type, is not limited only to be E14 lamp holder or E27 lamp holder, as long as it can mate external lamp socket.

In sum; The inwall of the utility model glass nano coating lampshade 4 scribbles the nanometer reflecting coating; And the nanometer reflecting coating has total reflectivity and 96% diffuse reflectance more than 99%; The reflecting effect of glass nano coating lampshade 4 is improved, and the light that power saving fluorescent lamps 3 is sent is fully utilized, thereby the light efficiency of whole electricity-saving lamp is improved; And; The utility model through glass nano coating lampshade 4 and light source reflector plate 23, reach cooperating of reflective cone 24; Realize the effects such as reflection, refraction and optically focused of light; The light that power saving fluorescent lamps 3 is sent is utilized more fully, with the light efficiency of the whole electricity-saving lamp of further raising, forms efficient reflective energy-saving lamp.

Should be noted that at last; Above embodiment is only in order to explain the technical scheme of the utility model; But not to the restriction of the utility model protection domain, although with reference to preferred embodiment the utility model has been done explanation at length, those of ordinary skill in the art is to be understood that; Can make amendment or be equal to replacement the technical scheme of the utility model, and not break away from the essence and the scope of the utility model technical scheme.

Claims (7)

1. efficient reflective energy-saving lamp; Include the lamp holder, housing, the power saving fluorescent lamps that are used for external power supply, said lamp holder is installed on the top of housing, and said power saving fluorescent lamps is installed on the bottom of housing; It is characterized in that: also include glass nano coating lampshade; The inwall of said glass nano coating lampshade scribbles the nanometer reflecting coating, and said glass nano coating lampshade is buckled in the outside of housing bottom, and glass nano coating lampshade is the periphery that covers in power saving fluorescent lamps.

2. efficient reflective energy-saving lamp according to claim 1, it is characterized in that: the bottom of said housing is provided with the light source reflector plate, and the bottom surface of light source reflector plate scribbles minute surface nanoscale reflecting coating.

3. efficient reflective energy-saving lamp according to claim 2, it is characterized in that: the central authorities of said light source reflector plate offer the groove position, are set with inverted reflective cone in the groove position, and the surface of reflective cone scribbles minute surface nanoscale reflecting coating.

4. efficient reflective energy-saving lamp according to claim 3, it is characterized in that: the central authorities of said power saving fluorescent lamps are provided with the disposal area that is used to place reflective cone.

5. efficient reflective energy-saving lamp according to claim 1 is characterized in that: said glass nano coating lampshade is the concavo-convex inserted outside that is buckled in housing bottom.

6. efficient reflective energy-saving lamp according to claim 1, it is characterized in that: said housing comprises upper shell, lower house, the mutual snapping of upper shell and lower house and form housing.

7. according to any described efficient reflective energy-saving lamp of claim 1 to 6, it is characterized in that: said lamp holder is E14 lamp holder or E27 lamp holder.