KR101961764B1 - LED down light with soft light output - Google Patents

Abstract

The present invention relates to an LED embedding system having a soft light output, an annular case having upper and lower openings, an annular step formed at an inner lower portion thereof, and an annular case embedded in the ceiling, A plurality of LED elements formed at intervals in a circumferential direction of the case, a light source for emitting light from the LED device to the center of the case, And a light emitting unit which is formed on the upper surface of the dispersion panel and has a height equal to or higher than a height of the LED element so that a light source output from the light emitting unit is introduced into the light emitting unit, The output light source is distributed flexibly so that the light source output from the light emitting unit is not concentrated to any one place, An annular bending panel guided to be uniformly irradiated by the light emitting unit and positioned to be parallel to a direction of a light source irradiated by the light emitting unit; and a light source, which is printed on the upper portion of the bending panel and flows into the bending panel, A case which is disposed at an upper portion of the case and closes an upper portion of the case; and an elastic binding member which is rotatably installed at both sides of the case to guide the case to be easily installed on a ceiling And a second electrode,
The LED element of the light emitting portion is disposed on the inner side surface of the case so that the light source of the LED element is irradiated to the center of the case and the irradiated light source is continuously dispersed and bended while being passed through the bending panel to be uniformly irradiated onto the entire region of the dispersion panel, A soft and bright light source is dispersed throughout the dispersion panel to easily prevent the user's glare and the light source of the light emitting portion is widely dispersed and diffused through the bending panel and the dispersion panel to apply the embedding to various places So that it is possible to enhance the versatility of use such as landfill.
Further, since the LED element of the light emitting portion irradiates the light source with the bending panel from the side surface of the case, the light source introduced into the bending panel is dispersed and bent while passing through a distance as long as the diameter of the bending panel to induce efficient dispersion and bending of the light source So that a smoother light source can be output through the dispersion panel.
In addition, a cellophane of a desired color can be arranged between the upper and lower panels of the bending panel, thereby guiding the light source passing through the bending panel to be output as the color of the cellophane, It is effective.

Description

(LED down light with soft light output)

The present invention relates to an LED embedding system having a soft light output, and more particularly, to an LED element of a light emitting unit disposed on an inner surface of a case so that a light source of the LED unit is irradiated to a center of a case, So that the user can be easily prevented from glare and the light source of the light emitting part can be prevented from being reflected by the bending panel and the light emitting part, The present invention relates to an LED landfill having a soft light output that can be widely dispersed and diffused through a dispersion panel to facilitate application of the landfill or the like to various places, thereby enhancing the versatility of use such as landfill.

In general, DOWN LIGHT is the most widely used illumination method that constructs a small hole in a ceiling and embeds a light source in it.

Such a landfill is a structure embedded in a ceiling, and there is an advantage that a ceiling scene is arranged because there is almost no exposure of a lighting apparatus. Moreover, the ceiling scene is characterized by darkness, which is a suitable way to produce an atmospheric indoor space.

Recently, a light emitting diode (Light Emitting Diode) (hereinafter referred to as "LED ") which can maximize a lighting effect with a variety of illumination light and high visibility, Has been developed and widely used.

However, in the conventional LED embedding and the like, since the light source of the LED is vertically irradiated in the downward direction from the upper side, there is a problem that the user passing through the bottom of the embedding, etc. causes a glare phenomenon.

Although a dispersion panel for dispersing a light source of an LED is used to solve the above problems, there is a limit to prevent glare by dispersing a light source with such a dispersion panel.

Also, since the LED light source is illuminated from the upper side to the lower side and is condensed as described above, it is difficult to apply it to a place where soft and bright illumination should be used as a whole.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve all of the above problems, and an object of the present invention is to arrange an LED element of a light emitting portion on the inner side of a case so that a light source of the LED element is irradiated to the center of a case, The light is uniformly dispersed and bent while being passed through the panel so as to be uniformly irradiated to the entire area of the dispersion panel so that a smooth and bright light source is dispersed throughout the dispersion panel to easily prevent the user's glare, And LED landfill having soft light output that can be widely used and diffused through a panel and a dispersion panel to facilitate application of the landfill to various places and to enhance general versatility such as landfill.

Further, since the LED element of the light emitting portion irradiates the light source with the bending panel from the side surface of the case, the light source introduced into the bending panel is dispersed and bent while passing through a distance as long as the diameter of the bending panel to induce efficient dispersion and bending of the light source And an LED embedding having a soft light output that can induce a more smooth light source to be outputted through the dispersion panel.

In addition, a cellophane of a desired color can be arranged between the upper and lower panels of the bending panel, thereby guiding the light source passing through the bending panel to be output as the color of the cellophane, And LED buried with a soft light output.

According to an aspect of the present invention, there is provided an LED buried light with soft light output, the LED buried light having an annular shape having an annular step formed at an upper portion and a lower portion thereof, A plurality of LED elements formed at regular intervals on an inner surface of the case, the light source being configured to emit light toward a center of the case; The light emitting device according to any one of claims 1 to 3, further comprising: an annular dispersion panel disposed at a lower position to disperse and transmit the light source of the light emitting unit; The light source output from the light emitting unit is flexibly scattered so that the light source output from the light emitting unit is not concentrated in any one place An annular bending panel that is guided to be uniformly irradiated to the entire dispersion panel and is positioned to be parallel to a direction of a light source irradiated by the light emitting unit; and a light source, which is printed on an upper portion of the bending panel and flows into the bending panel, A cover which is disposed on the upper portion of the case and closes the upper portion of the case; a rotatably installed on both sides of the upper portion of the case so that the case can be easily installed on the ceiling; And an elastic binding member for guiding the elastic binding member,
The bending panel is formed of a transparent material,
The lower panel is stacked on the upper part of the dispersion panel, and the upper part is formed with a rugged curvature to effectively bend the light source. The lower panel is stacked on the upper part of the lower panel, Wherein the lower panel and the upper panel are brought into close contact with each other so that the light source that is introduced into the bending panel effectively induces dispersion bending in various directions by the bending,
A cellophane having a color between the lower panel and the upper panel is positioned to guide a light source having passed through the bending panel to a color of the cellophane,
And an annular light shielding sheet adhered to the upper portion of the bending panel to prevent the light source from being transmitted to the upper portion of the bending panel like the printing unit, The entire top of the bending panel is covered with the light shielding paper,
And a plurality of heat dissipating vanes protruding outward from the outer surface of the case to dissipate heat radiated from the light emitting portion to the outside.

delete

delete

delete

delete

delete

As described above, according to the present invention, the LED element of the light emitting portion is disposed on the inner side of the case so that the light source of the LED element is irradiated to the center of the case, So that the user can be easily prevented from glare and the light source of the light emitting part can be prevented from being reflected by the bending panel and the light emitting part, It is widely dispersed and diffused through the dispersion panel, so that it is easy to apply the embedding and the like to various places, and it is possible to enhance the general versatility of the embedding and the like.

Further, since the LED element of the light emitting portion irradiates the light source with the bending panel from the side surface of the case, the light source introduced into the bending panel is dispersed and bent while passing through a distance as long as the diameter of the bending panel to induce efficient dispersion and bending of the light source So that a smoother light source can be output through the dispersion panel.

In addition, a cellophane of a desired color can be arranged between the upper and lower panels of the bending panel, thereby guiding the light source passing through the bending panel to be output as the color of the cellophane, It is effective.

FIG. 1 is a perspective view of an LED embedding and the like having a soft optical output according to an embodiment of the present invention.
2 is an exploded perspective view of the LED buried light having the soft light output shown in FIG.
FIG. 3 is a cross-sectional view taken along line AA in FIG. 1,
Fig. 4 is a diagram showing the state of use of the LED buried light with soft output shown in Fig. 1

LED embedding with soft optical output according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

FIG. 1 is a perspective view of an LED embedding and the like having a soft optical output according to an embodiment of the present invention, and FIG. 2 is a perspective view of the LED embedding and the like having a soft light output according to an embodiment of the present invention. 3 is an AA cross-sectional view of an LED buried or the like having a soft light output shown in FIG. 1, and FIG. 4 is a cross-sectional view of a soft light LED embedding with output, and the like.

As shown in the figure, an LED embedded light 100 having a soft light output according to an embodiment of the present invention includes a case 10, a light emitting portion 20, a dispersion panel 30, 40, a printing section 50, a lid 60, and an elastic binding port 70. [

As shown in FIGS. 1 to 3, the case 10 is embedded in a ceiling, and is formed in an annular shape so that upper and lower portions thereof are opened, and an annular step 11 is formed inside the lower portion thereof .

2 and 3, the light emitting unit 20 includes a plurality of LED devices 21 formed at regular intervals on the inner side surface of the case 10, Is irradiated to the center of the case (10).

4B and 4C, the light source output from the LED element 21 of the light emitting unit 20 is not directly irradiated to the user, but is dispersed and bent through the bending panel 40 to be hugged, (Uniformly) irradiated to the dispersion panel 30, the user's glare felt by the light source passing through the dispersion panel 30 can be reduced or prevented.

1 to 3, the dispersion panel 30 is formed in an annular shape and is stacked and fixed on the step 1 inside the case 10, and is disposed at a position lower than the light emitting portion 20 So that the light source of the light emitting unit 20 is dispersed and transmitted.

Here, as shown in FIG. 4C, the dispersion panel 30 dispersively transmits the light source primarily dispersed while passing through the bending panel 40, thereby guiding the user to irradiate a very smooth light source.

If the height of the dispersion panel 30 is higher than that of the LED elements 21 of the light emitting part 20, the light emitted from the LED elements 21 may be blocked by the light path of the light emitting part 20 The height of the dispersion panel 30 is formed to be lower than the height of the LED element 21 as described above.

2 and 3, the bending panel 40 is stacked on the upper surface of the dispersion panel 30 so that the light emitted from the light emitting unit 20 is guided to the LED element 21, So that the light source output from the light emitting unit 20 is flexibly dispersed so that the light source output from the light emitting unit 20 is not concentrated in any one place and the entirety of the dispersion panel 30 And is positioned to be parallel to the direction of the light source irradiated by the light emitting unit 20,

A lower panel 41 which is laminated on the upper surface of the dispersion panel 30 and has a transparent material and has a rugged curvature 41a for effectively bending the light source, And an upper panel 42 made of a transparent material having a curved portion 42a formed at a lower portion thereof to be engaged with the curved portion 41a of the lower panel 41.

4b, the light source, which is introduced into the bending panel in which the bending portions 41a and 42a of the lower panel 41 and the upper panel 42 are in close contact with each other, includes a plurality of bends 41a and 42a, And is guided to be uniformly irradiated to the dispersion panel 30 while being bent in various directions.

Therefore, since the light sources output from the light emitting unit 20 are primarily dispersed through the bending panel 40, and are transmitted through the dispersion panel 30 and are secondarily dispersed and irradiated, It is not concentrated in one place but spreads evenly and is gently irradiated so as to easily prevent the glare of a person.

The reason why the bending panel 40 is positioned horizontally with respect to the light source output from the light emitting unit 20 is that the light source output from the light emitting unit 20 passes through a distance longer than the diameter of the bending panel 40 To be effectively contact-dispersed and bent to the curves 41a and 42a.

That is, the light source of the light emitting unit 20 guides the bending panel 40 through the bending panel 40 for efficient dispersion and bending of the light source through the bending panel 40, So that a smoother light source is output.

As shown in FIGS. 2 and 3, the printing unit 50 prints on the upper portion of the bending panel 40, minimizing waste of the light transmitted through the bending panel 40 .

4B, the printing unit 50 is formed on the upper surface of the upper panel 42 of the bending panel 40 so that the light source is prevented from being transmitted to the upper panel 42, All of which are output to the lower side of the bending panel 40 and guided to the outside through the dispersion panel 30 to prevent loss of the light source.

Here, as shown in FIG. 2 and FIG. 3, an annular-shaped (not shown) laminated on the upper portion of the bending panel 40 to prevent the light source from being transmitted to the upper portion of the bending panel 40 A light shield 90 may be used,

In the case of using the light shielding paper 90, it is preferable to minimize the printing area of the printing unit 50 to reduce the cost of materials (ink, etc.) usable for printing the printing unit 50.

The light shielding sheet 90 may be formed to have the same size as that of the bending panel 40 so that the entire upper surface of the bending panel 40 is covered with the light shielding sheet 90.

As shown in FIGS. 2 and 3, the lid 60 is located above the case 10 to close the upper portion of the case 10.

A cushioning material 1 is provided on the lower surface of the lid 60 so as to smoothly press and fix the light shielding paper 90, the bending panel 40 and the dispersion panel 30 on the cushioning material 1. [ Of course, to enhance safety.

1 to 3, the elastic binding member 70 is rotatably installed on both sides of the upper portion of the case 10 to guide the case 10 to be easily installed on the ceiling.

Here, the elastic binding member 70 has the same function as the elastic binding device provided for convenient embedding in ordinary embedding and the like, and a detailed description thereof will be omitted.

2 and 3, a cellophane 80 having a color is positioned between the lower panel 41 and the upper panel 42, and a light source, which has passed through the bending panel 40, 80) so as to be output,

As shown in FIG. 4D, the user can variously control the color of the light source output through the LED embedding lamp 100 having the soft light output of the present invention, and thus, .

As shown in FIGS. 1 to 3 and 4B, a plurality of heat dissipating vanes 110 protruding outward from the outer surface of the case 10 to radiate heat radiated from the light emitting unit 20 to the outside, ) To prevent the problem that the light emitting unit 20 is overheated and the output performance of the LED device 21 is degraded or broken down.

The LED embedding lamp 100 having the soft optical output according to the present invention having the above-described components disposes the LED element 21 of the light emitting portion 20 on the inner side of the case 10, 21 is irradiated to the center of the case 10 so that the irradiated light is continuously and uniformly dispersed while being passed through the bending panel 40 so as to be uniformly irradiated onto the entire area of the dispersion panel 30, A light source of the light emitting unit 20 is disposed between the bending panel 40 and the dispersion panel 30 so as to prevent the user from glare. So that it is easy to apply and use the landfill to various places, so that the general use of the landfill and the like can be enhanced.

Further, the LED element 21 of the light emitting unit 20 irradiates the light source to the bending panel 40 from the side of the case 10, so that the light source, which flows into the bending panel 40, 40, the light source can be efficiently dispersed and bent so that a smoother light source can be output through the dispersion panel 30.

The LED embedding lamp 100 having the above-described structure and having a smooth optical output according to the embodiment of the present invention operates as follows.

First, as shown in FIG. 4A, the LED embedding lamp 100 having the soft light output of the present invention is easily installed and fixed on the ceiling by using the elastic binding port 70.

4B, when power is supplied to the light emitting unit 20 and the light source is outputted from the LED device 21, the light source enters the curved panel 40 that is on the same line as the LED device 21 The light source is irradiated to the dispersion panel 30, which is dispersed in a large amount by bending of the bending panel 40 and bent in various directions, and is positioned below the bending panel 40.

The light source introduced into the bending panel 40 due to the printing unit 50 formed on the upper surface of the bending panel 40 and the light shielding sheet 90 stacked on the upper surface of the bending panel 40, Transmission loss is prevented so that the light source output from the light emitting unit 20 is dispersed after being transmitted through the bending panel 40 and guided to be supplied to the dispersion panel 30 effectively.

Then, as shown in FIG. 4C, the light source passing through the dispersion panel 30 is dispersed again and irradiated with a very soft light source, so that a person is placed under the LED embedding lamp 100 having the soft light output of the present invention Even if it is located, the glare can be stably prevented.

That is, the light source of the light emitting unit 30 is irradiated in the horizontal direction without being directly irradiated vertically, and is firstly scattered and bent through the bending panel 40 to be irradiated to the dispersion panel 30, And is dispersed through the dispersion panel 30 to be vertically irradiated, it is possible to effectively prevent the glare of the LED light source.

4D, when the cellophane 80 is disposed between the lower panel 41 and the upper panel 42 constituting the bending panel 40, Since the light is transmitted through the bending panel 40 and is output as the color having the cellophane 80, it is possible to produce a light source that is aesthetically pleasing depending on the user's taste.

Here, when the cellophane 80 is used, a white light source is output from the LED device 21 to illuminate the light source with the color of the cellophane 80.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Cushioning material
10. Case 11. Step
20. Light emitting part 21. LED element
30. Dispersion panel 40. Flexible panel
41. Lower panel 41a, 42a. curve
42. Top panel 50. Printing section
60. Cover 70. Elastomeric bond
80. Cellophane 90. Light shield
110. Thermal wing
100. LED landfill light with soft light output

Claims (2)

An annular case (10) having upper and lower portions thereof opened, an annular step (11) formed inside the lower portion and embedded in the ceiling;
A plurality of LED elements 21 are formed at regular intervals on the inner side surface of the case 10 and the light source output from the LED element 21 is irradiated to the center of the case 10;
An annular dispersion panel 30 which is stacked and fixed on the step 1 inside the case 10 and is positioned lower than the light emitting part 20 so as to disperse and transmit the light source of the light emitting part 20;
The light emitting unit 20 is formed to have a height equal to or higher than the height of the LED device 21 so that a light source output from the light emitting unit 20 is introduced into the dispersion panel 30, The light source is irradiated by the light emitting unit 20 so that the light emitted from the light emitting unit 20 is uniformly irradiated to the entirety of the dispersion panel 30, An annular bend panel (40) positioned horizontally to the direction of the bend;
A printing unit 50 printed on the upper portion of the bending panel 40 to minimize the transmission of light to the upper portion of the bending panel 40 to be wasted;
A cover (60) located at an upper portion of the case (10) and closing the upper portion of the case (10); And
And elastic binding means 70 rotatably installed on both sides of the upper portion of the case 10 to guide the case 10 to be easily installed on the ceiling,
The bending panel 40 is formed of a transparent material,
A lower panel 41 which is stacked on the upper part of the dispersion panel 30 and has a rugged curvature 41a for effectively bending the light source at an upper part thereof and a lower panel 41 which is stacked on the lower part of the lower panel 41, And an upper panel (42) formed with a curvature (42a) to be engaged with a curvature (41a) of the lower panel (41)
The bending portions 41a and 42a of the lower panel 41 and the upper panel 42 are brought into intimate contact with each other so that the light source that is introduced into the bending panel 40 is effectively dispersed in various directions by the bending portions 41a and 42a. And,
A cellophane 80 having a color is positioned between the lower panel 41 and the upper panel 42 to guide a light source having passed through the bending panel 40 to output the color of the cellophane 80 ,
And an annular light shielding sheet 90 laminated on the upper portion of the bending panel 40 to prevent the light source from being transmitted to the upper portion of the bending panel 40 like the printing unit 50,
The light shielding paper 90 is formed to have the same size as that of the bending panel 40 so that the entire upper portion of the bending panel 40 is covered with the light shielding paper 90,
And a plurality of heat dissipating vanes (110) protruding outward from the outer surface of the case (10) to dissipate the heat radiated from the light emitting portion (20) to the outside. Such as LED landfills. delete

Images