KR101137298B1 - Reflector for high illuminance lighting protected against dust and lighting thereof - Google Patents

Abstract

PURPOSE: An auxiliary device for reflection and a lighting apparatus are provided to maintain a lighting apparatus to be clean by enhancing reflectivity corresponding to a shape of a lighting apparatus and preventing dust from being adsorbed. CONSTITUTION: A frame(21) forms a main body of a lighting apparatus. A reflective sheet(24) is inserted into the inside of the lighting apparatus, reflects the light of a power source. An optical catalyst for preventing dust adsorption is spread on a surface of the reflective sheet reflecting the light of the light source. A light through sheet is combined with the reflective sheet and penetrates the light. The optical catalyst for preventing the dust adsorption is spread on the surface of the light through sheet. The optical catalyst is spread on the reflective sheet and the light through sheet by spreading and drying a binder or a solution on the surfaces of the reflective sheet and the light through sheet. A fixing holder(47) for a holding stand(41) is formed along a flat and doughnut shaped circumference of the holding stand. A fixing protrusion part(48) is inserted into the fixing holder for the holding stand so that a lamp shade(20) is fixed to the holding stand.

Description

Reflection aids and lighting fixtures with anti-dust adsorption

TECHNICAL FIELD The present invention relates to lighting fixtures, and more particularly to reflection aids and lighting fixtures.

The lighting fixture is an apparatus for efficiently irradiating light emitted by a light source such as a light bulb indoors or outdoors. In general, the efficiency of the lighting fixture is greatly changed by the reflection efficiency of the lampshade.

In the luminaire using the fluorescent lamp according to the prior art, the light emitted from the light source located in the lampshade is directly or reflected to the lampshade to be irradiated to the outside. In this case, the light irradiated directly from the light source and the light reflected from the lampshade are significantly different, so that the glare is severe and the light toward the side is small, so that light distribution is narrow. In addition, according to the prior art, the light emitted from the light source is multi-reflected from the lampshade, the remarkable light loss occurs, and because the light source itself obstructs the path of light, the absolute amount of illumination per each position is low. In addition, the glare of the user is severe due to the exposure of the light source, the light distribution is narrow due to the narrow reflection width as described above, since the lampshade is generally formed of a metal, there is a serious problem of glare of the metal reflection.

In addition, according to the prior art, as a lot of dust is adsorbed on the inner surface of the lampshade, it does not look clean in appearance, which adds to the user's cleaning burden and damages aesthetics by staining, and also decreases the reflection efficiency to lower the illuminance of the lighting fixture. There is this.

The above-described background technology is technical information that the inventor holds for the derivation of the present invention or acquired in the process of deriving the present invention, and can not necessarily be a known technology disclosed to the general public prior to the filing of the present invention.

An object of the present invention is to provide a reflection assisting device and a lighting device capable of keeping the lighting device clean as well as having excellent durability, high illumination and no dust adsorbed.

The present invention is to provide a reflection aids and lighting fixtures that can be manufactured to correspond to the shape of various kinds of lighting fixtures to increase the reflectance and prevent dust adsorption.

The technical problems other than the present invention can be easily understood from the following description.

According to an aspect of the present invention, in the reflection aids coupled to the downlight-type lighting fixture reflects the light of the light source, reflecting the light of the light source, coupled to the shape of a truncated conical cone open on both sides inside the lighting fixture And a reflection sheet coated with a photocatalyst for preventing dust adsorption on a surface reflecting light of the light source.

In addition, according to another aspect of the invention, in the reflection aids coupled to the lighting fixture to reflect the light of the light source, reflecting the light of the light source, coupled to the inside of the lighting fixture, reflecting the light of the light source Reflective sheet coated with a photocatalyst to prevent dust adsorption on the surface; And a light transmitting sheet coupled with the reflective sheet in a direction in which the light reflected from the reflective sheet is emitted and transmitting the emitted light, and a photocatalyst coated with a photocatalyst to prevent adsorption of dust on a surface thereof.

Here, the reflective sheet and the transparent sheet may be combined to form a semi-cylindrical shape or a polygonal column shape in which both side surfaces are open.

Here, the photocatalyst is titanium dioxide (TiO2), the photocatalyst is applied to the reflective sheet by the binder or solution containing the photocatalyst is applied to the surface of the reflective sheet and dried, the binder or solution containing the photocatalyst after drying The thickness may be 0.05 μm to 20 μm.

In addition, the photocatalyst may be applied to the surface of the reflective sheet by any one of a screen printing method, a gravure printing method, a spray method and a roll brush method after spraying, the photocatalyst may be acetone or alcohol It may be applied after washing with.

Here, the particle diameter of the photocatalyst may be 5nm to 900nm, the reflective sheet, the base film; And a reflective coating layer formed of any one or more of silver nano, aluminum nano, and a bonding material thereof coated on one surface of the base film, wherein the photocatalyst may be applied to the other surface of the reflective coating layer or the base film.

According to still another aspect of the present invention, there is provided a lighting apparatus including a reflection aid reflecting light of a light source, the apparatus comprising: a frame forming a main body of the lighting apparatus; A lampshade coupled to the frame to reflect light from the light source; And a reflection sheet coupled to the inside of the lampshade and reflecting light of the light source and coated with a photocatalyst to prevent dust adsorption on a surface reflecting light of the light source.

In addition, the embodiment is coupled to one end of the frame, and further includes a cradle for supporting the reflection sheet and the lampshade, the lighting fixture is a downlight type lighting fixture, the reflective sheet reflects the light of the light source And a photocatalyst for preventing dust adsorption on a surface reflecting light of the light source, and the lampshade may be interposed between the frame and the reflective sheet. Can be.

In addition, the present embodiment includes a fixing protrusion formed to protrude outward along the outer peripheral portion of the open surface of the lampshade to the light; And a holder for fixing the holder formed on one surface of the holder such that the fixing protrusion is inserted so that the holder is coupled to the lampshade.

In addition, the present embodiment further includes a light-transmitting sheet is combined with the reflective sheet in the direction in which the light reflected from the reflective sheet is emitted and transmits the emitted light, the photocatalyst is coated on the surface to prevent adsorption of dust, The lighting fixture is a linear lighting fixture, the reflective sheet is coupled to the inside of the linear lighting fixture, a photocatalyst for preventing dust adsorption may be applied to the surface reflecting the light of the light source.

Here, the reflective sheet and the light-transmitting sheet are combined to form a semi-cylindrical shape or a polygonal column shape in which both side surfaces are open, but in this embodiment, the side covers both the open side surfaces and one end of the light source is inserted. It may further include a side cover formed with a hole.

Other aspects, features, and advantages will become apparent from the following drawings, claims, and detailed description of the invention.

The reflection aid and the lighting apparatus according to the present invention have no effect of adsorbing dust, and thus have excellent durability, high illuminance, and an effect of keeping the lighting apparatus clean.

1 is a perspective view of a light fixture having a reflection aid according to an embodiment of the present invention.
2 is a partial perspective view of a lighting fixture equipped with a reflection aid according to an embodiment of the present invention.
3 is an exploded view of a reflection aid according to an embodiment of the present invention.
4 is a perspective view of a reflection aid according to an embodiment of the present invention.
5 is a perspective view of a lighting device equipped with a reflection aid according to another embodiment of the present invention.
6 is a perspective view of a lighting fixture equipped with a reflection aid according to another embodiment of the present invention.
7 is a view showing a reflection assistive device coupled to a light fixture according to another embodiment of the present invention.
8 is an experimental photograph of a lighting fixture equipped with a reflection aid according to an embodiment of the present invention.
Figure 9 is a comparison of the light emission distribution of the lighting fixture with a reflection aid according to an embodiment of the present invention.
10 is an exploded perspective view of a lighting fixture equipped with a reflection aid according to another embodiment of the present invention.
11 is an exploded perspective view of a lighting fixture equipped with a reflection aid according to another embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms including ordinal numbers such as first and second may be used to describe various components, but the components are not limited by the terms. The terms are used only for the purpose of distinguishing one component from another. When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. As used herein, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described on the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof. In addition, terms, such as "... part", "... module", "... means", etc. described in the specification mean a unit which processes at least one function or operation.

In the following description of the present invention with reference to the accompanying drawings, the same components are denoted by the same reference numerals regardless of the reference numerals, and redundant explanations thereof will be omitted. In the following description of the present invention, if it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view of a lighting device equipped with a reflection aid according to an embodiment of the present invention. Referring to FIG. 2, which is a perspective view of a portion of FIGS. 1 and 1, the lampshade 20, the frame 21, the lampshade fixing holder 23, the reflective sheet 24, the holder 41, and the holder for fixing the cradle 47, a fixing projection 48 is shown.

The reflection aid according to the present embodiment is implemented in the form of a sheet that can be attached to the lighting fixture in a state where the photocatalyst is applied and dustproof so as to increase the illuminance and maintain the clean state, so that the user who is the buyer can directly change the lighting fixture of various sizes. It is characterized by having a structure that can be fastened to. That is, the reflection aid according to the present embodiment is characterized in that the dust is not adsorbed on the surface by applying a photocatalyst, and has a high illuminance because it has a higher efficiency of reflecting and diffusing light of the light source than the conventional lampshade.

The reflective sheet 24 reflects the light of the light source, is combined in a truncated conical shape on both sides of the inside of the lighting fixture, and a photocatalyst is applied to the surface that reflects the light of the light source to prevent adsorption of dust.

The photocatalyst may be titanium dioxide (TiO ₂ ) or titanium nitride (TiON), and may be coated hydrophilically using fine particles. The particle diameter of the photocatalyst may be several nm to several hundred nm. For example, the particle diameter of the photocatalyst may be 5 nm to 900 nm.

In addition, the photocatalyst is applied to the reflective sheet 24 by applying a binder or a solution containing a photocatalyst to the surface of the reflective sheet 24 and drying, and the binder or solution containing the photocatalyst may have a thickness of 0.05 μm to 20 μm after drying. Can be.

Here, the electrical properties of titanium dioxide (TiO ₂ ) exhibits semiconductor properties, and when ultraviolet rays below a short wavelength (380 nm) are irradiated, they become excited and exhibit strong oxidizing power and are chemically stable materials. That is, when titanium dioxide (TiO ₂ ) absorbs ultraviolet rays, electrons and holes are generated on the surface, and the generated electrons and holes play a role of decomposing most harmful substances.

In addition, such a photocatalyst has a hydrophilic effect, and thus has a dustproof effect. That is, when water is sprayed on the surface of the photocatalyst coating, the contact angle between the sprayed water droplets and the surface of the substrate becomes smaller, resulting in a hydrophilic effect on the surface, and according to this property, there is an effect of preventing dust adsorption on the surface. In addition, the photocatalyst has the ability to oxidize and decompose various organic substances (carbon compounds), and by this function, odor-causing substances such as ammonia, hydrogen sulfide, acetaldehyde, trimethylamine, methyl mercap acid, methyl sulfide, methyl disulfide, styrene, etc. Decomposition also has effects such as odor removal, air purification, and sterilization / antibacterial.

In this embodiment, the photocatalyst may be applied by spraying the liquid on the surface of the reflective sheet 24. That is, the user can apply the photocatalyst to the surface of the reflective sheet 24 simply by spraying a liquid photocatalyst on the surface of the reflective sheet 24 using a spray mechanism.

In addition, the photocatalyst may be applied to the surface of the reflective sheet 24 in a screen printing method, a gravure printing method, a spray method, and a roll brush method after spraying. Screen printing is a printing method in which a liquid phase containing a photocatalyst is uniformly applied through a fine mesh formed on a printing screen, and gravure printing is a printing method in which a liquid including a photocatalyst buried in a concave roller is applied to a surface of a reflective sheet. The spray method is a method of spraying a liquid phase containing a photocatalyst on the surface, and the rollbrush method after spraying is a method of uniformly rubbing with a roll brush after spraying a liquid phase containing the photocatalyst on the surface. According to the present embodiment, there is an advantage that the photocatalyst can be efficiently applied to a large amount of the reflective sheet 24 by this printing method.

In addition, the organic or inorganic solvent may be pretreated before applying the photocatalyst. That is, the organic-inorganic contaminants may be cleaned on the surface of the reflective sheet 24 with an organic or inorganic solvent, and then a photocatalyst may be applied thereon. Here, the organic or inorganic solvent may be an alkaline chemical solution such as acetone or alcohol and a neutral detergent.

In addition, the present embodiment may form a coating layer formed of silver nano or aluminum nano on the surface of the reflective sheet 24 and then apply a photocatalyst thereon. The silver nano or aluminum coating layer has an advantage of improving the reflection efficiency of the reflection aid.

In addition, the photocatalyst may further include an additive for adjusting the viscosity.

The fixing protrusion 48 formed to protrude on one end of the lampshade 20 may be inserted into the holder fixing holder 47 so that the holder 41 may be fixed to the lampshade 20. The fixing protrusion 48 may protrude outward along an outer circumference of the open surface (lower surface) of the lampshade 20 from which light is emitted.

The holder 41 has a flat donut shape, and a holder fixing holder 47 may be formed on a surface of the holder 41 opposite to the lampshade 20. The holder fixing holder 47 is a holder formed in a structure bent by a letter 'A', and the fixing protrusion 48 may be inserted into the holder fixing holder 47.

In addition, the holder fixing holder 47 may be formed to extend along the flat donut-shaped circumference formed by the holder 41, and in this case, the fixing protrusion 48 is inserted into the holder fixing holder 47 The lampshade 20 may be fixed to the holder 41.

3 is an exploded view of the reflection aid according to the embodiment of the present invention, and FIG. 4 is a perspective view of the reflection aid shown in FIG. 3. 3 and 4, a reflective sheet 24, a first arc 34a, and a second arc 34b forming a reflection aid body portion are shown.

The reflective sheet 24 forming the reflection aid body portion may be fan-shaped as a whole, and in particular, may be fan-shaped without a small fan near the center (O). Therefore, four sides are largely formed in the reflective sheet 24. For example, the 1st circular arc 34a near the center O, the 2nd circular arc 34b far from the center O, and the 1st circular arc 34a, Both sides connecting the second arc 34b may be formed in the reflective sheet 24. When the reflective sheet 24 is rolled in one direction, the reflective sheet 24 may have a truncated cone shape.

W1 is the length of one side of the insertion hole 32, W2 is the length of the other side. This length can be the length of the busbar of the truncated cone formed when rolling, which can be 20mm to 450mm.

In addition, the center angle θ2 of the center O where both sides of the reflective sheet 24 extend and may be 25 degrees to 275 degrees. The size of this center angle may be determined corresponding to the shape and size of the lighting fixture.

Here, the size of the center angle θ2, that is, the size of the central angle θ2 of the fan shape formed when the reflective sheet 24 is unfolded may be (360 / n) degrees, where n is a natural number. In this case, the plurality of reflective sheets 24 may be connected to each other to form a circular reflective plate. For example, when n is 3, the three reflective sheets 24 may be connected to form a donut-shaped reflector as a whole. Such a circular reflector may be applied to a circular fluorescent lamp. That is, in order to illuminate the illuminance of the circular fluorescent lamp, the user may attach the circular reflector formed by connecting the plurality of reflective sheets 24 to the lighting fixture of the circular fluorescent lamp. The circular reflector may be attached to the lighting apparatus by using a predetermined coupling member between the lighting apparatus and the circular fluorescent lamp to reflect and diffuse light, thereby increasing the illuminance of the lighting apparatus.

In addition, the angle of the acute angle formed by the bus bar of the tapered cross section formed by the reflective sheet 24 and the normal line of the open surface of the lighting fixture may be 10 degrees to 60 degrees. That is, when considering the side view of the tapered shape formed by the reflective sheet 24, the angle formed by the side oblique line may be 30 to 80 degrees (90 degrees-the acute angle θ1). When the reflective sheet 24 forms such a maximum illuminance angle, the lighting fixture according to the present embodiment may implement the maximum illuminance. This angle is selected in consideration of the size of the vertical illuminance and the wide light distribution, and in order to realize the maximization of the vertical illuminance, the above angle may be near 45 degrees, that is, 35 degrees to 55 degrees.

In this case, the length of the reflective sheet 24 with respect to the normal direction of the open surface of the lighting fixture may be 5mm to 720mm. This value can be a value for the reflecting sheet 24 to diffuse and reflect light efficiently while receiving the light source.

When the reflective sheet 24 is formed in a tapered shape to accommodate the light source therein, the overlapping distance between the reflective sheet 24 and the light source may be 0 cm to 45 cm. In addition, when the reflective sheet 24 does not receive the light source, the distance between the reflective sheet 24 and the light source may be 0 cm to 5 cm so that the light of the light source may be efficiently diffused and reflected from the reflective sheet 24.

The reflective sheet 24 may largely include a resin layer, a foam or filler (diffusing agent), a metal layer, and a protective layer. For example, the resin layer is formed of a material such as PE, PET, PC, PV, PP, and the like, and may include a foamed or organic / inorganic filler such as barium sulfate or potassium carbonate therein. A metal layer such as aluminum nano, silver nano, or a bonding material thereof is formed on one surface of the resin layer serving as the base film, and a protective layer for protecting the reflective sheet 24 is formed on one surface of the metal layer.

Inorganic fillers for enhancing reflectance include barium sulfate (BaSO ₄ ), calcium sulfate (CaSO ₄ ), magnesium sulfate (MgSO ₄ ), barium carbonate (BaCO ₃ ), calcium carbonate (CaCO ₃ ), potassium carbonate (K ₂ CO ₃ ), Magnesium chloride (MgCl ₂ ), aluminum hydroxide (Al (OH) ₃ ), magnesium hydroxide (Mg (OH) ₂ ), calcium hydroxide (Ca (OH) ₂ ), titanium dioxide (TiO ₂ ), alumina (Al ₂ O ₃ ), silica (SiO ₂ ), talc (H ₂ Mg ₃ (SiO ₃ ) ₄ or Mg ₃ Si ₄ O ₁₀ (OH) ₂ ), zeolites, and the like. In addition, the reflective sheet 24 may not include a metal layer, and further, an ultraviolet absorbing layer (deterioration preventing layer) may be further included on one surface of the resin layer or inside the resin layer.

The thickness of the reflective sheet 24 including these various layers may be 0.015 mm to 15 mm, and the reflectivity may be 60% to 99.8%. Further, according to another embodiment, the reflective sheet 24 does not include a diffusion pattern or a filler, and may be a sheet having a very high reflectivity. In this case, since the reflectivity of the reflective sheet 24 is high, there is little light lost, and as a result, the irradiation amount of the emitted light can be increased.

The reflective sheet 24 can be manufactured by winding a flat sheet prepared in advance. The reflective sheet 24 may also be a foamed reflector molded by the stretching method. For example, the filler is filled with a plastic resin to form a sheet through a casting process, and the sheet is then MD-stretched or TD-stretched to form fine pores connected three-dimensionally as the interface between the finely spread filler particles and the plastic resin opens. Can be foamed.

A predetermined coupling member (not shown) for coupling the reflective sheet 24 to the lighting fixture may be provided on the second circular arc 34b side. The coupling member may have various shapes, for example, may be formed of a double-sided tape to couple the reflective sheet 24 and the lighting fixture to each other.

5 is a perspective view of a lighting apparatus provided with a reflection aid according to another embodiment of the present invention, Figure 6 is a perspective view of a lighting apparatus provided with a reflection aid according to another embodiment of the present invention. 5 and 6, the lampshade 20, the frame 21, the lampshade fixing holder 23, the reflective sheet 24, the holder 41, and the fixing extension 46 are illustrated. Hereinafter, the differences from the above description will be mainly described.

In this embodiment, the reflection sheet 24 is coupled to the frame 21 using the holder 41 without the lampshade 20 (FIG. 5), and the reflection sheet 24 and the lampshade 20 are holders 41. It can be implemented in various forms, such as the form (FIG. 6) coupled to the frame 21 by using.

As shown in FIG. 6, the holder 41 may support not only the reflective sheet 24 but also the lampshade 20 which is formed in the same or similar shape as the reflective sheet 24 and is in close contact with the reflective sheet 24. . In this case, in the side view of the tapered (conical) shape formed by the lampshade 20 as described above, the angle formed by the side oblique line may be 30 degrees to 80 degrees.

Referring to FIG. 7, the truncated cone shaped reflective sheet 24 is inserted into the lampshade 20. Since the reflective sheet 24, which was initially planar, is bent and coupled to the lampshade 20, the reflective sheet 24 has a force in the direction of the arrow to expand out of the truncated cone, which causes friction to cause the reflective sheet ( 24 may be stably coupled to the inside of the lampshade (20).

FIG. 8 is a photograph of the reflection assistive device according to an embodiment of the present invention attached to an actual lighting device for 7 days in an underground parking lot. FIG. 8A is a photograph in which the reflective sheet 24 without applying the photocatalyst is attached to a lighting apparatus and used. FIG. 14B shows the untreated region 91 without applying the photocatalyst to the reflective sheet 24. FIG. And a photographed process area 92 coated with a photocatalyst are attached to a lighting apparatus, and FIG. 14C is a photograph attached with a reflecting sheet 24 coated with a photocatalyst to a lighting apparatus.

According to the comparative picture, the reflective sheet 24 coated with the photocatalyst does not adsorb dust, and thus has excellent durability, high illuminance, and an advantage of keeping the lighting fixture clean.

9 is a comparison diagram of the light emission distribution of the lighting fixture with a reflection aid according to an embodiment of the present invention. Referring to FIG. 9, a graph comparing the illuminance A of the lighting apparatus to which the photocatalyst is applied (FIG. 8C) and the illuminance B of the lighting apparatus to which the photocatalyst is not applied (FIG. Shown. The measurement distance is 1m away from the lighting fixture, the unit of the x-axis is cm, and the unit of the y-axis is lux. According to these observations, the maximum illuminance of the luminaire with the photocatalyst-reflective aid is formed at around 270 lux, while the maximum illuminance of the luminaire with the photocatalyst is not formed at 240 lux. It can be seen that the illuminance is different. Therefore, according to this embodiment, there is an advantage that can implement a light fixture about 10% brighter than the light fixture according to the prior art.

10 is an exploded perspective view of a lighting fixture equipped with a reflection aid according to another embodiment of the present invention. Referring to FIG. 10, the reflective sheet 11, the light transmitting sheet 12, the side cover 13, the side hole 14, the lamp 15, the lampshade 16, the electrode unit 17, and the frame 18 are shown. , A photocatalyst 19 is shown.

The present embodiment is characterized by preventing dust adsorption and increasing illuminance by applying the above-described reflective sheet to various kinds of lighting fixtures used in general homes. That is, the present embodiment has a feature that can produce a reflective sheet having a dustproof effect corresponding to the shape of the lighting fixture and reflect the light of the lamp through the reflective sheet.

The reflective sheet 11 may be determined in shape corresponding to the frame of the lighting fixture. For example, if the luminaire is shaped such that the straight lamp 15 is fitted as shown, the reflective sheet 11 may extend in the longitudinal direction in which the luminaire is extended. For example, the reflective sheet 11 may reflect the light of the lamp 15, which is a light source, may be bent into a semi-cylindrical shape inside the straight light fixture, and the reflective sheet 11 may be coupled to the light of the lamp 15. A photocatalyst 19 for preventing dust adsorption may be applied to a surface reflecting the light.

Here, the straight lamp 15 may be a lamp manufactured by various techniques, such as a straight fluorescent lamp, a straight LED lamp, a straight halogen lamp.

In addition, the light transmitting sheet 12 is combined with the reflecting sheet 11 in the direction in which the light reflected from the reflecting sheet 11 is emitted, transmits the emitted light, and a photocatalyst 19 is applied to prevent the adsorption of dust on the surface. Can be. The reflective sheet 11 and the transparent sheet 12 may be combined to form a semi-cylindrical shape in which both side surfaces are open as shown.

The side cover 13 covers both open side surfaces of the semi-cylindrical column formed by the reflective sheet 11 and the transparent sheet 12, and side holes are formed in which one end of the lamp 15 is inserted. The straight lamp 15 is accommodated in the semi-cylindrical cylinder, both ends of the protruding side hole 14 may be electrically coupled to the electrode portion 17 coupled to the frame 18.

The lampshade 16 may be coupled to both sides of the frame 18 as a means of covering the light of the straight lamp 15 to reflect the light of the straight lamp 15 to adjust the lighter or brighter. The frame 18 forms a body of the lighting apparatus, and wires, printed circuit boards, and start light sources connected to the electrode units 17 may be coupled therein. The side cover 13 may be coupled to one end of the lamp 15, and the lamp 15 may be inserted into a side hole 14 formed in the side cover 13 and connected to the electrode unit 17.

11 is an exploded perspective view of a lighting device equipped with a reflection aid according to another embodiment of the present invention. Referring to FIG. 11, the reflective sheet 11, the light transmitting sheet 12, the side cover 13, the side hole 14, the lamp 15, the lampshade 16, the electrode unit 17, and the frame 18 are shown. , A photocatalyst 19 is shown. The differences from the above will be explained mainly.

The reflective sheet 11 and the transparent sheet 12 are joined to each other to form a polygonal column shape in which both side surfaces are open. Referring to FIG. 11, the reflective sheet 11 and the transparent sheet 12 may be coupled to each other to have a trapezoidal pillar shape in which both side surfaces thereof are open. In this case, the light of the lamp 15 is reflected by the reflective sheet 11 and emitted in the direction of the transparent sheet 12. According to this embodiment, as described above, even in a linear lighting device, by applying the reflective sheet to which the photocatalyst 19 is applied, there is an advantage in that high illumination lighting in which dust adsorption is prevented can be realized.

In addition, in the above-described embodiment, the lighting apparatus is described as having a straight shape, but the present invention is not limited thereto, and may be in the shape of a polygon such as a circle, a square, and the like, and the reflective sheet may be adapted to the shape of the lighting apparatus. Of course, it can be produced.

In addition, in the above, the reflection aid and the lighting apparatus according to the embodiment of the present invention described the photocatalyst, the reflective sheet and the coupling structure according to one embodiment, but are not necessarily limited thereto, and In addition, even if the shape of the reflective sheet is different or the coupling structure thereof is different, if there is no difference in the overall operation and effect, such other configuration may be included in the scope of the present invention, and each component and / or described in each embodiment Functions may be implemented in combination with each other.

Those skilled in the art will appreciate that various modifications and changes can be made in the present invention without departing from the spirit and scope of the invention as set forth in the claims below.

11: reflective sheet 12: transparent sheet
13: side cover 14: side hole
15 lamp 16 lampshade
17 electrode part 18 frame
20: lampshade 21: frame
22: light source 23: lampshade holder
24: reflective sheet 25: light source body
34a: first arc 34b: second arc
46: fixing extension part 47: holder for fixing the holder
48: fixing protrusion 91: untreated area
92: processing area

Claims (14)

A lighting fixture comprising a reflection aid for reflecting light of a light source,
A frame forming a body of the lighting fixture;
A reflection sheet inserted and coupled to the inside of the luminaire, and having a photocatalyst coated thereon to reflect light from the light source and prevent dust adsorption onto a surface reflecting light from the light source; And
And a light-transmitting sheet coated with a photocatalyst, which is combined with the reflective sheet in a direction in which the light reflected from the reflective sheet is emitted, transmits the emitted light, and prevents adsorption of dust on a surface thereof.
The photocatalyst is applied to the reflective sheet and the transparent sheet by applying a binder or a solution including the photocatalyst on the surface of the reflective sheet and the transparent sheet and dried,
The binder or solution containing the photocatalyst is characterized in that the thickness of 0.05㎛ to 20㎛ after drying. delete delete The method of claim 1,
The photocatalyst is a light fixture, characterized in that titanium dioxide (TiO ₂ ) or titanium nitride (TiON). delete The method of claim 1,
The photocatalyst is applied to the surface of the reflective sheet and the light-transmitting sheet in any one of a screen printing method, gravure printing method, the spray method and the roll brush method after spraying. The method of claim 1,
The photocatalyst is applied after cleaning the surface of the reflective sheet with acetone or alcohol. The method of claim 1,
The particle size of the photocatalyst is characterized in that the 5nm to 900nm. The method of claim 1,
The reflective sheet,
Base film; And
It includes a reflective coating layer formed of any one or more of silver nano, aluminum nano and a combination thereof coated on one surface of the base film,
The photocatalyst is applied to the other surface of the reflective coating layer or the base film. delete The method of claim 1,
A lampshade coupled to the frame to reflect light from the light source; And
It is coupled to one end of the frame, further comprising a cradle for supporting the reflection sheet and the lampshade,
The lighting fixture is a downlight type lighting fixture,
The reflective sheet is combined in the shape of a truncated cone open both sides inside the lampshade,
The lamp shade is interposed between the frame and the reflective sheet. The method of claim 11,
A fixing protrusion formed to protrude outward along an outer circumference of the open surface of the lampshade from which the light is emitted; And
Lighting fixture further comprises a holder for fixing the holder is formed on one surface of the holder so that the fixing protrusion is inserted into the holder.
The method of claim 1,
The lighting fixture is a straight light fixture,
The reflective sheet is coupled to one side of the linear light fixture, the lighting fixture, characterized in that the photocatalyst is applied to the surface of the light reflecting light of the light source to prevent the adsorption of dust. The method of claim 13,
The reflective sheet and the light-transmitting sheet are combined to form a semi-cylindrical or polygonal column shape with both side surfaces open,
And a side cover covering both of the open side surfaces and having a side hole into which one end of the light source is inserted.

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