KR20140052800A - Diffusion distribution type led lamp - Google Patents

Abstract

The present invention relates to a diffusion and distribution type indoor LED lamp which is installed at a ceiling of a house or an office, and, more specifically, to a diffusion and distribution type indoor LED lamp capable of providing a uniform intensity of luminance to both of close and distant ranges in a wide place such as a house or an office, in which multiple LEDs are mounted in a lattice shape on a substrate, and a reflector capable of reflecting light from LEDs arranged at the edge thereof, or from some or all of the multiple LEDs in a long distance direction, so that the light irradiated from the multiple LEDs can be diffused and distributed at various angles, whereby energy sources can be used efficiently by reducing the number of required LEDs. The diffusion and distribution type indoor LED lamp according to the present invention, which has an LED substrate where multiple LEDs are arranged and is installed at a ceiling, comprises: a reflector for reflecting light in a side down direction, which is irradiated from outer LEDs arranged at the edge of the LED substrate from among the multiple LEDs; and a diffusion cover for changing point-like light from the multiple LEDs including the outer LEDs into flat light sources.

Description

DIFFUSION DISTRIBUTION TYPE LED LAMP}

The present invention relates to a diffusion light distribution type LED indoor light installed in a ceiling of a home or an office or the like, in which a plurality of LEDs are arranged in a lattice form on an LED substrate, and a plurality of LEDs or a plurality of LEDs A reflection plate capable of reflecting light in a remote direction of a side surface can be used to diffuse and distribute light emitted from a plurality of LEDs in various angles, thereby reducing the number of LEDs used, thereby enabling an energy source to operate at high efficiency, And more particularly, to a LED light of a diffusion light distribution type capable of providing a uniform illuminance both at a short distance and at a long distance in a wide place.

Generally, a halogen lamp having a tungsten wire enclosed with a halogen gas is provided in a quartz tube. Such a halogen lamp is used for displaying pictures or photographs or for lighting in a commercial district. However, And it is disadvantageous in that the color of the reflection surface object is discolored due to heat or the indoor temperature is increased in the summer so that the power consumption is increased and various colors can not be obtained.

Accordingly, the use of lamps using LEDs (Light Emitting Diodes) has been rapidly increasing. Such a light emitting diode is a photoelectric conversion semiconductor device having a structure in which an N-type semiconductor crystal in which a plurality of carriers are electrons and a P-type semiconductor crystal in which a plurality of carriers are holes are bonded to each other, And is a semiconductor light emitting device using spontaneous emission light generated when recombining.

The above-described LED has advantages such as long life and low power consumption as compared with other bulbs, but the brightness of each LED is low and the straightness of light is strong, which is insufficient to have desired illuminance over a wide range. In addition, when the LED, which is a point light source, is used as illumination, a plurality of LEDs must be provided in order to improve the illumination efficiency.

Accordingly, a reflector is required to improve the straightness and obtain a wide range of illuminance, and as the application range increases, research is underway to change the shape of the reflector to make a light source of a line shape as a surface light source.

Conventionally, a light guide plate having a plurality of light sources and scattering light in various angles is used to emit incident light sources in the form of a plane in a conventional manner. However, this causes only a disadvantage that the manufacturing cost is increased and the structure is complicated, There is a problem that uniform illuminance can not be provided at both the near and far parts of the installed part.

In the prior art, the reflection plate or the optical hole is provided for each LED to diffuse the light and improve the illuminance. However, since the light is not fused to each other and exhibits the characteristics of each, The LEDs are not uniformly distributed over the entire area, and light and dark areas alternate with each other depending on the position of the LEDs, resulting in unevenness of light.

In addition, in order to solve the problem that the light is not diffused evenly throughout, the conventional LED lighting uses a lens to diffuse light, but in this case, there is a problem that the illuminance is reduced. In addition, since the number and size of the LEDs must be separately manufactured according to the area to be irradiated, there is a problem that the manufacturing cost is increased.

For example, as described above, in order to utilize the refraction effect of a lens as described above, a conventional technique disclosed in Korean Utility Model Registration No. 20- 0402510, " a reflector of an illumination lamp having a three-dimensional reflection angle " (2) is mounted on the lower part of the reflector (2), a fine reflection part (3) with glass particles thermally fused is formed on one side of the reflection plate (2) The lens reflector (4) is arranged such that the lens reflector (4) is arranged in such a manner that the lens is repeatedly arranged. The reflex mirror (3) directs the lamp fastened to the inside of the lamp body Refracted and diffracted light are reflected through the fine reflecting portion 3 irregularly and the diffused light is concentrated in the lens reflecting portion 4 so as to be reflected at various angles The light from the reflection and To spread. Such a technique is shown in Fig.

In the conventional technology disclosed in Korean Patent Registration No. 10- 1095520, 'a double-sided illumination type LED lamp having a diagonal irradiation angle', a base plate and a reflector are sloped outwardly so as to open in one direction, And the LED module is installed on the first reflection blade and the second reflection blade of the both arm reflectors so that the LED modules are long and straight and intersect with each other in the diagonal diagonal direction and have diagonal irradiation angles irradiated to the left and right surfaces of the diffusion sheet, And the distance to the diffusion plate of the front part can be made as long as possible.

However, in the first prior art, all of the light irradiated from the LED is diffused and refracted while being diffused through the lens reflecting portion 4, so that the illuminance of the light irradiated from the LED is considerably attenuated, and in the irregular direction It is advantageous to produce a brilliant aesthetic sense for decorative use because it is limited in the extent that it can be strongly investigated because it spreads. However, it is a technology that has an inefficient structure in order to be used versatile in a wide range of living rooms or offices of a home will be.

In addition, in the above-described second prior art, the LED modules are arranged long in a straight shape on the first reflection blade and the second reflection blade of the both arm reflectors so that light is diagonally diagonally emitted from each other. However, The far distance of the light is increased, so that the light is diffused far away, so that the light emitted from the base plate of the LED luminaire, which is perpendicular to the vertical direction, is unstable and shading occurs. It is the technology that I have.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a method of manufacturing a light emitting device, in which a plurality of LEDs are arranged in a lattice form on an LED substrate to reflect a part or all of a plurality of LEDs The reflector reflects a part of the light emitted from the plurality of LEDs in order to improve the shortcomings of the LED due to the strong directivity of the light, It is possible to operate the energy source with high efficiency by reducing the number of LED usage, and it can be operated at a wide range of places such as home and office, And to provide a diffusion light-distribution-type LED indoor light capable of providing uniform illumination to all of the LEDs.

In order to achieve the above object, the LED light of the diffusion light distribution type LED according to the present invention includes an LED substrate on which a plurality of LEDs are arranged and is installed on a ceiling, And a diffusing cover for irradiating a point-shaped light beam irradiated from a plurality of LEDs including the outer LEDs into a light source of a planar shape so as to be illuminated, .

Also, in the LED light of the diffusion light distribution type according to the present invention, the reflection plate is inclined obliquely toward the inner direction of the LED substrate so that the light rays irradiated from the outer LED are reflected in the downward slanting direction.

Also, in the LED light of the diffusion light distribution type according to the present invention, the reflection plate is inclined obliquely toward the outer edge direction of the LED substrate so that the light ray irradiated from the outer LED is reflected in a downward slanting direction.

In the LED light of the diffusion light distribution type according to the present invention, the reflection plate is provided on a part or all of a plurality of LEDs arranged on the LED substrate, and the reflection plate reflects only a part of the light rays irradiated from each of the plurality of LEDs, In a direction perpendicular to the optical axis direction.

According to the above-described structure, a plurality of LEDs are arranged in a lattice pattern on an LED substrate, a plurality of LEDs arranged on the edges thereof, a part or all of the plurality of LEDs are arranged in the far- It is possible to diffuse the light emitted from a plurality of LEDs in multiple angles, thereby reducing the number of LEDs used. Thus, it is possible to operate the energy source with high efficiency, It is possible to provide a uniform illuminance at a long distance.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating an installation state of an illumination lamp according to an embodiment of the present invention; FIG.
2 is an exploded perspective view showing an LED indoor light according to an embodiment of the present invention;
3 is a cross-sectional view conceptually showing a reflector structure of an LED interior light according to an embodiment of the present invention.
FIG. 4 and FIG. 5 are cross-sectional diagrams conceptually illustrating a reflector structure of an LED interior light according to another embodiment of the present invention. FIG.
6 is an exploded perspective view illustrating an LED indoor light according to another embodiment of the present invention.
7 is a cross-sectional view conceptually showing a reflector structure of a LED interior light according to another embodiment of the present invention.
8 is a cross-sectional view illustrating another example of installation of a reflector of an LED interior light according to another embodiment of the present invention.
9 is a plan view showing a first embodiment of a reflector fixing frame of the LED interior light of the present invention.
10 is a plan view showing a second embodiment of the reflector fixing frame of the LED interior light of the present invention.
11 is a plan view showing a third embodiment of the reflector fixing frame of the LED interior light of the present invention.
12 is a plan view showing a fourth embodiment of the reflector fixing frame of the LED interior light of the present invention.

Hereinafter, a diffusion light distribution type LED indoor light (hereinafter referred to as "LED indoor light") according to the present invention will be described in more detail with reference to embodiments shown in the drawings.

FIG. 2 is an exploded perspective view illustrating an LED indoor light according to an embodiment of the present invention, FIG. 3 is a sectional view conceptually showing a reflector structure of an LED indoor light according to an embodiment of the present invention, and FIGS. 4 and 5 FIG. 6 is an exploded perspective view illustrating a LED indoor light according to another embodiment of the present invention, and FIG. 7 is an exploded perspective view of the LED indoor light according to another embodiment of the present invention. FIG. 8 is a cross-sectional view illustrating another exemplary installation of a reflector of a LED interior light according to another embodiment of the present invention. FIG. 8 is a cross-sectional view conceptually illustrating a reflector structure of an LED interior light according to another embodiment.

Referring to the drawings, an LED indoor light according to an embodiment of the present invention is related to an LED indoor light having an LED substrate 11 on which a plurality of LEDs 15 are arranged and is installed on a ceiling W, ), An LED substrate 11, a reflection plate 20, a reflector fixing frame 25, and a diffusion cover 30.

The case 10 is provided to fix the LED substrate 11 on which a plurality of LEDs 15 are arranged and is formed with a flat bottom 10a to be attached to the ceiling W, Side walls 10b having a predetermined height are formed along the circumferential portions of the side walls 10a. Therefore, the case 10 protects the LED substrate 11 provided inside from the outside through the side wall 10b. The side wall 10b may be formed of a material capable of transmitting light rays emitted from a plurality of LEDs 15 arranged on the LED substrate 11.

The LED substrate 11 serves to support the plurality of LEDs 15. The LED substrate 11 is made of a conventional PCB substrate and has a length corresponding to the case 10 to replace a conventional fluorescent lamp, And a plurality of LEDs 15 are mounted on the front surface. The LED substrate 11 may be attached to the case 10 with an adhesive or may be bolted to the case 10 by forming a screw groove at a predetermined interval of the substrate 10, And the LED substrate 11 may be formed with protrusions and grooves at the edge of the LED substrate 11, respectively. In addition, any structure can be applied as long as it is a fastening means that can be firmly detachably attached or coupled to the case 10 such as a double-faced tape, a fixing clip, or a riveting connection.

The plurality of LEDs 15 are mounted on the front surface of the LED substrate 11 at predetermined intervals so as to emit light by being supplied with power. In the present invention, the plurality of LEDs 15 are largely divided, And an LED 15a and an inner LED 15b positioned inside the LED 15a and the outer LED 15a and the inner LED 15b are arranged in a lattice shape on the LED substrate 11 . The reason why the plurality of LEDs 15 are arranged in a lattice-like manner will be described in more detail through the configuration of the reflection plate 20 to be described later.

The reflection plate 20 has a structure for reflecting the light rays irradiated in a downward direction from a plurality of outer LEDs 15a arranged at the edge of the LED substrate 11 among the plurality of LEDs 15, The LED interior light according to an embodiment of the present invention is arranged such that the reflection plate 20 is arranged to face the inside direction Ir of the LED substrate 11 such that the light rays irradiated from the outer LEDs 15a are reflected in a downward slanting direction And is inclined obliquely.

2 and 3, the reflector 20 includes an outer LED 15a positioned at an edge of the plurality of LEDs 15 and an inner LED 15b positioned inside thereof, as described above, The plurality of LEDs 15 may be disposed under the plurality of outer LEDs 15a disposed at the edge of the LED substrate 11 to form a plurality of outer sides So that the light emitted from the LED 15a is reflected to the side of the other side edge of the LED substrate 11 so as to be distantly irradiated.

The reflector 20 may include fixing means 20a for fixing the edge portion of the case 10 to the case 10 so that the LED substrate 11 can be coupled to the case 10 For example, a coupling means such as a screw groove and a bolt, a double-sided tape, a fixing clip, or a riveting coupling is fastened to be coupled to the case 10. The other side of the fixing portion 20a is formed with an inclined portion 20b inclined in an oblique direction from the bottom of the plurality of outer LEDs 15a toward the inner direction Ir of the LED substrate 11. [ 3, the reflection plate 20 may be formed in a bent shape so that the fixed portion 20a and the inclined portion 20b form at least an acute angle with respect to each other. At this time, the fixing portion 20a and the inclined portion 20b may be provided in a bent shape so as to form an obtuse angle, and a light source irradiated downward from the outer LED 15a through the inclined portion 20b, And is reflected downward in the inward direction (Ir) side of the substrate 11.

The outer LEDs 15a arranged at the edges of the LED substrate 11 are illuminated by the reflection plate 20 and the reflected light is uniformly irradiated over a wide range to the marginal direction of the room where the LED interior lamp of the present invention is installed The light sources irradiated from the plurality of inner LEDs 15b except for the outer LEDs 15a enter the downward direction of the LED indoor lamp according to the present invention, It is possible to solve the problems such as darkening of the marginal portion of the room, generation of shade, and the like.

Meanwhile, the LED indoor light according to the embodiment of the present invention is characterized in that the reflector 20 is a highly reflective reflector for LED.

Conventionally, a reflector has been provided as a means for simply reflecting a light source emitted from an LED lamp forward. However, in the conventional reflector of this type, the irradiation rate of the illumination lamp did not increase much due to the reflector, and the near-field illuminance was effective as the irradiation rate of the light source was partially blocked. However, in the living room or office of the indoor home, The amount of light can not be reduced and the effective illuminance range is lowered. In order to solve such a problem, conventionally, users of an interior lamp or a lighting lamp have adopted a high-power lamp having a high light amount to focus on improving the irradiation rate, which leads to unnecessary excessive power consumption, It was followed by a blind man.

Accordingly, the reflector 20 of the LED indoor lamp of the present invention is formed of a high-efficiency high-reflectivity reflector capable of amplifying the light source emitted from the plurality of LEDs 15 without loss to improve the irradiation rate of the LED indoor light, 15 and the light reflected by the reflection plate 20 is diffused to a wide range without loss, thereby improving the irradiation rate. In addition, it is possible to exhibit high efficiency performance by using the low power LED lamp will be.

Also, in the LED indoor light according to the embodiment of the present invention, the reflection plate 20 may be fixed to the edge of the LED substrate 11.

3, the fixing portion 20a of the reflection plate 20 is coupled to the edge of the case 10, but the fixing portion 20a of the reflection plate 20 may be fixed to the LED substrate 11, the LED substrate 11 and the reflector 20 can be modularly integrated so that the assembling process between the component parts is simplified, and the assembly and installation work is simplified, thereby shortening the working time The effect can be generated.

The LED indoor light according to an embodiment of the present invention is characterized in that the reflection plate 20 is integrally formed to extend along a plurality of outer LEDs 15a arranged in a lattice form on the LED substrate 11 .

2 and 3, the reflector 20 is disposed below the plurality of outer LEDs 15a such that the inclined portion 20b is disposed below the plurality of outer LEDs 15a so as to be inclined obliquely below the plurality of outer LEDs 15a. And may be integrally formed so as to be continuous.

That is, the reflector 20 may be separately provided at the lower portion of each of the plurality of outer LEDs 15a. However, in the present invention, it is easy to install and maintain the reflector 20, The light source is uniformly incident in the marginal direction and the downward direction of the room where the LED interior light of the present invention is installed as described above. As a result, the light source is concentrated only around the lower side of the interior light, And the like can be solved. In other words, in order to irradiate the light emitted from the plurality of outer LEDs 15a provided at one side edge of the LED substrate 11 at a long distance in the vicinity of the room lamp 11, The same effect as that of reflecting the light toward the lower side of the direction is generated.

The diffusion cover 30 functions as a diffusion plate so that the point-shaped light beams irradiated from the plurality of LEDs 15 including the outer LED 15a and the inner LED 15b are converted into surface light sources . The diffusion cover 30 is integrally coupled with the case 10 to seal the LED substrate 11 and the reflection plate 20 received in the case 10 from the outside. Therefore, it is preferable that the diffusion cover 30 is configured to be easily detachable and attachable so as to facilitate the maintenance of the LED substrate 11, and it is preferable that an external foreign substance such as dust or an object of metal is a conductor Preventing the LED 11 from being easily in contact with the LED 11, and preventing glare caused by the light source of the high-brightness LED.

Meanwhile, in the LED indoor light according to another embodiment of the present invention, the reflection plate 20 is arranged such that the light emitted from the outer LED 15a is reflected in a downward sloping direction, And is inclined in an oblique direction. The reflector 20 may be installed on part or all of the plurality of LEDs 15 arranged on the LED substrate 11.

4, in another embodiment of the present invention, the reflector 20 includes an outer reflector 21 disposed under the outer LED 15a arranged along the edge of the LED substrate 11, And an inner reflector 22 disposed under the plurality of inner LEDs 15b arranged at the outermost edges of the plurality of inner LEDs 15b arranged in the inner direction Ir of the inner LEDs 15a. 4, the reflector 20 is mounted on a part of the plurality of LEDs 15 arranged on the LED substrate 11, and the reflector 20 is mounted on the outer reflector 21 and the inner reflector 22 As shown in Fig. At this time, the outer reflector 21 and the inner reflector 22 are installed obliquely in a diagonal direction toward the outer edge of the LED substrate 11 in a state where the fixing portions 21a and 22a are fixed to the LED substrate 11 And the inclined portion 22b of the inner reflector 22 is formed to extend downward by a predetermined length from the inclined portion 21b of the outer reflector 21 so that the inner reflector 22 is irradiated from the inner LED 15b, It is possible to prevent the light reflected by the outer reflector 21 from being refracted downward from the side surface of the outer reflector 22.

Accordingly, in the LED indoor light according to another embodiment of the present invention, the light emitted from the plurality of outer LEDs 15a provided in the edge direction of the LED substrate 11 passes through the outer reflector 21, And the light emitted through the inner LED 15b is reflected by the inner reflector 22 so as to be reflected by the side wall 10b of the case 10 or the diffusion So that a larger amount of light source than the LED indoor lamp of the above embodiment can be incident at the periphery of the room, that is, at a long distance. Accordingly, various arrangements such as the above-described reflector 20, that is, the outside reflector 21 and the inside reflector 22 are applied according to the area of the place where the LED indoor lamp of the present invention is installed, So that uniform illumination can be provided to the entire portion in the circumferential direction. Therefore, the same structure as the other embodiments of the present invention can provide a very efficient illumination by allowing the light source to extend to the marginal portion of the far distance when the indoor space is installed in a living room or an office of a relatively large home.

5, the LED reflector 20 according to another embodiment of the present invention includes an outer reflector (not shown) disposed under the outer LED 15a arranged along the edge of the LED substrate 11, 21). The outer reflector 21 is obliquely inclined toward the outer edge of the LED substrate 11 so that the light emitted from the outer LED 15a is emitted outside the LED substrate 11, It is possible to transmit the reflected light to the edge direction. 3, the outer reflector 21 can transmit the reflected light in the opposite direction to each other. Therefore, the outer reflector 21 can transmit the reflected light in the opposite direction to the outer surface of the reflector 20, And substantially the same effects as those of the embodiment are exhibited.

The LED indoor light according to another embodiment of the present invention includes a reflector fixing frame 25 for fixing the reflector 20 below the plurality of LEDs 15.

6 and 7, the reflector fixing frame 25 includes a side wall 25a for fixing and fixing both side ends of the reflection plate 20 to a predetermined height, And the flange portion 25b is coupled to an edge of the case 10. The flange portion 25b is formed to be protruded from the flange portion 25b. This configuration can be realized through an organic coupling relationship with a configuration in which a plurality of LEDs 15 provided on the LED substrate 11 are arranged in a lattice form. As shown in FIG. 6, The reflector 20 is integrally formed under the plurality of LEDs 15 so that the reflector 20 does not need to be separately formed for each of the LEDs 15, It is possible to simplify the work of installing the interior light on the ceiling W as well as the assembly work of the LED interior light of the present invention, thereby solving troubles in the assembly and installation work by the complicated construction, So that the illuminance of the light source can be provided.

Meanwhile, in the LED indoor lamp according to another embodiment of the present invention, the reflector fixing frame 25 can be coupled to the edge of the LED substrate 11. [

7, the reflector fixing frame 25 is shown as being flanged to the edge of the case 10 by a flange portion 25b projecting outward from the upper end of the side wall 25a. However, the flange portion 25b The LED substrate 11 and the reflector plate fixing frame 25 can be modularly integrated with the LED substrate 11 and the LED substrate 11, As described above, the assembling process between the component parts is simplified, and the assembly and installation work is facilitated, so that the operation time can be shortened .

In the LED interior light according to another embodiment of the present invention, the reflection plate 20 may be installed on a part or all of a plurality of LEDs 15 arranged on the LED substrate 11. The reflector 20 may include a plurality of outer reflectors 21 disposed under the outer LEDs 15a and a plurality of inner reflectors 22 disposed under the inner LEDs 15b . That is, as described in the other embodiments, the reflector 20 may be installed on all or a part of the plurality of LEDs 15.

6 and 7, an embodiment in which the reflection plate 20, that is, the outer reflection plate 21 and the inner reflection plate 22 are installed on all the LEDs 15 is shown. In other exemplary embodiments of the present invention, the plurality of reflectors 20 may be disposed on the reflector fixing frame 25 at a predetermined interval so as to be installed below all the LEDs 15 arranged on the LED substrate 11 The light beams emitted from the respective LEDs 15 are reflected to the lower side of the LED substrate 11 through the reflection plate 20 and the light rays passing in the downward direction are uniformly irradiated, 30 so that the light source is concentrated in a narrower range than the LED indoor lamp of the other embodiments so that the light source can be provided very efficiently when the LED indoor light of the present invention is installed in a place such as a room with a relatively small room . 7, according to another embodiment of the present invention, the inclined portions 21b and 22b of the reflection plate 20, that is, the outer reflection plate 21 and the inner reflection plate 22, And is formed to have an acute angle toward the center direction C of the LED substrate 11.

According to another embodiment of the present invention, the LED reflector 20 is installed in a lattice pattern along the direction of a plurality of LEDs 11 arranged in a lattice pattern on the LED substrate 11 do.

Referring to FIGS. 6 and 7, as described above, the plurality of reflectors 20 are fixed to the side walls 25a of the reflector fixing frame 25 to be lattice-shaped by mutual coupling, The light rays are reflected at various angles under the respective LEDs 15 corresponding to the reflection plate 20 so that the illuminance of the room where the LED interior lamp of the present invention is installed is uniformly distributed. Such a configuration not only provides a convenient effect of assembling and installing, but also produces an effect that can provide a uniform light source in various directions in a room such as a home or an office.

The LED lamp according to another embodiment of the present invention is characterized in that the reflector 20 is radially installed along the direction of the plurality of LEDs 15 arranged in a lattice pattern on the LED substrate 11 .

That is, the reflection plate 20 is formed in the shape of a quadrangular-shaped perimeter and has a plurality of rectangular reflection plates 20 whose inner diameters gradually become smaller, 15 are fixed to the front surface of the LED substrate 11 so that the light rays are reflected in various directions under the respective LEDs 15 provided with the reflection plate 20, .

In the LED interior light according to the present invention, the reflection plate 20 is installed at a position where only a part of the light beams emitted from the respective LEDs 15 can be reflected in a downward slanting direction.

4 to 7, in another embodiment and another embodiment of the present invention, each of the plurality of reflection plates 20 reflects part of the light emitted from the plurality of LEDs 15, and the remaining part Is provided so as to pass through in a direction in which light is irradiated. 7, the plurality of reflection plates 20 fixed to the reflection plate fixing frame 25 are respectively fixed to the respective reflection plates 20, Half of the vertical direction of the body of the LED 15 is arranged to cover the upper part of the reflector 20 so that only a part of the light beams irradiated from the light source 15 are reflected in the downward slanting direction. Therefore, approximately half of the light emitted from each LED 15 is irradiated in the downward direction, and the remaining half of the light is emitted toward the lower side by an angle corresponding to the inclination angle of the inclined portion 20b of the reflection plate 20 Reflection.

The inclination of the inclined portion 20b of the LED interior light according to another embodiment of the present invention is increased as the reflector 20 is moved outwardly from the center direction C of the LED substrate 11 It is characterized by being gentle.

Referring to FIG. 8, when the LED interior light of the present invention is installed in a horizontal direction on the ceiling W, the outer reflector 20 for reflecting the light rays emitted from the plurality of outer LEDs 15a arranged at the edge of the reflection plate 20, The inclination angle of the inclined portion 21b of the outer reflector 21 is set such that the first inclination angle? 1 in the gentle state with respect to the horizontal direction is Respectively. The inclined portion 22b of the inner reflector 22 gradually increases from the outer reflector 21 toward the inner reflector 22, that is, toward the inner direction Ir of the LED substrate 11, The slope is urgently installed. 8, the inclined portion 22b of the inner reflector 22 positioned at the fourth inward from the edge is shown to be inclined at an angle of the second inclination angle? 10, and when viewed from the vertical direction, The first inclination angle? 1 is set to be a gentle inclination than the second inclination angle? 10 so that the inclination of the reflection plate 20 from the outer edge portion of the LED substrate 11 toward the inner direction Ir 20b are installed promptly.

According to the above-described configuration, in the LED indoor light of the present invention, the plurality of inner reflection plates 22 are arranged in a direction close to the inner direction (Ir) of the LED substrate 11, The reflective plate 22 arranged in a direction close to the outer reflector 22, that is, in a direction close to the outer direction Or of the LED substrate 11, The reflection angle of the light source irradiated from the outer LED 15a is largely refracted and the reflected light is radiated farther downward of the other side so that the light source can be uniformly emitted from the room of the home or office to the periphery of the room lamp, So that highly efficient illumination becomes possible.

Meanwhile, in the LED indoor light of the present invention, the reflector fixing frame 25 may be formed in various forms. 9 to 13 illustrate various embodiments of the reflector fixing frame 25.

Referring to FIG. 9, the reflection plate fixing frame 251 according to the first embodiment may be formed so that the reflection plate 200 can be arranged in a lattice shape. That is, the reflector fixing frame 251 is formed in a rectangular shape similar to the reflector fixing frame 25 shown in FIG. 5, but the reflector fixing frame 25 is inclined toward the center direction C The fitting groove 251c for fitting and fixing the reflection plate 200 on the side wall 251a is inclined in one direction so that the reflection plate 200 is inclined only in one direction.

Referring to FIG. 10, the reflector plate fixing frame 252 according to the second embodiment may be formed such that the reflector plate 200 is disposed in a rectangular radial pattern. That is, the reflector fixing frame 252 has a square-shaped sidewall 252a like the reflector fixing frame 251 of the first embodiment, and a flange 252a for fixing the case 10 or the LED substrate 11 And a supporting portion 252b is formed. The reflector 200 is provided with a plurality of reflectors 200 so as to be wider in diameter from the center to the outer side of the reflector 200. The reflector 200 is connected to the edge of the reflector plate securing frame 252 to connect and support the corners of the reflector 200 And a support body 252c is further provided. At this time, the LEDs 15 may be installed between the reflector 200 to improve the illuminance, or may not be installed for energy efficiency. Therefore, in the reflector fixing frame 252 of the second embodiment, the multi-directional light beams including light rays in the downward direction from below the respective LEDs 15 provided with the reflection plate 200 are reflected through the reflection plate 200 The illuminance of the room where the LED indoor lamp of the present invention is installed is uniformly distributed.

Referring to FIG. 11, the reflection plate fixing frame 253 according to the third embodiment is formed so that the reflection plate 200 can be arranged in a circular radial pattern. That is, the reflector fixing frame 253 has a side wall 253a and a flange portion 253b, which are the same as the reflector fixing frame 252 of the second embodiment, and a supporting piece 253c connecting the reflecting plates 200, Can be formed. 11, the support member 253c may include at least one or more support members 253c in the centrifugal direction of the reflection plate 200 so as not to block the light sources irradiated from the LEDs 15, will be.

Referring to FIG. 12, the reflector plate fixing frame 254 according to the fourth embodiment is formed so that the reflector 200 can be disposed in a spiral shape. That is, when the plurality of LEDs 15 are arranged as in the third embodiment shown in FIG. 11, the reflector fixing frame 254 is installed below the LEDs 15, A circular sidewall 254a and a flange portion 254b are formed so as to reflect the light ray in a downward slanting direction and allow the remaining light rays to pass in a downward direction, ) Can be installed.

Referring to FIG. 12, the reflector fixing frame 255 may be configured such that the amount of light irradiated in the direction of the plurality of LEDs 15 is further increased. 12, the number of reflectors 200 provided in the form of spokes is limited to three or four, so that the reflected light through the reflector 200 of the plurality of LEDs 15 is reduced, It is possible to concentrate the amount of light to the periphery of the lower portion where the LED interior light of the present invention is installed.

The LED light of the diffusion light distribution type shown in the drawings and described in the drawings is only one embodiment for carrying out the present invention and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the following claims, and the embodiments improved and changed without departing from the gist of the present invention are obvious to those having ordinary skill in the art to which the present invention belongs It will be understood that the invention is not limited thereto.

<Brief Description of Main Drawings>
10 Case 10a bottom
11 LED board 15 LED
15a outer LED 15b inner LED
20 reflector 20a fixing portion
20b inclined portion 21 outer reflector
22 Inner reflector 25 Reflector retainer
25a side wall 25b flange portion
30 spread cover

Claims (4)

1. An LED indoor light having an LED substrate on which a plurality of LEDs are arranged,
A reflector for reflecting a light beam irradiated from a plurality of outer LEDs arranged on an edge of the LED substrate downward,
And a diffusing cover for irradiating the dot-shaped light beams irradiated from the plurality of LEDs including the outer LEDs with a light source of a planar shape to be illuminated. The method according to claim 1,
Wherein the reflection plate is installed obliquely in an oblique direction toward an inner direction of the LED substrate so that a light ray irradiated from the outer LED is reflected in a downward slanting direction. The method according to claim 1,
Wherein the reflection plate is installed obliquely obliquely toward the outer edge of the LED substrate so that the light rays emitted from the outer LED are reflected in a downward slanting direction. 4. The method according to any one of claims 1 to 3,
Wherein the reflector is installed on part or all of a plurality of LEDs arranged on the LED substrate,
Wherein the reflection plate is installed at a position where only a part of the light emitted from each of the plurality of LEDs can be reflected in a downward slanting direction.

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