KR101095520B1 - The apparatus of led lighting with two face irradiate - Google Patents

Abstract

"형상의 양팔 반사판으로 일체형으로 형성되고, 양팔 반사판의 제1 반사날개와 제2 반사날개 위에 LED 모듈이 일자형으로 길게 설치되어, 대각선 사선방향으로 서로 교차하면서 확산시트의 좌·우측면에 조사시키도록 구성됨으로서, LED를 조사하는 각도를 대각선 사선방향으로 조사시키고, 전면부의 확산판까지의 비거리를 최대한 길게 구성할 수 있어, LED 등기구의 두께를 줄이면서도 빛의 쏠림현상(음영현상)을 최소화할 수 있고, 무엇보다 기존의 LED 등기구보다 방열을 90%로 향상시킬 수 있는 대각선 조사각도를 갖는 양면 조사형 LED 등기구를 제공하는데 그 목적이 있다.According to the present invention, since the conventional LED lighting fixture is made of a direct light irradiation method, the thickness of the lighting fixture needs to be thickened in order to avoid the phenomenon of light dropping. To improve the problem that a lot of light is generated on the reflected sheet surface is formed, the base plate and the reflector "

It is formed integrally with the shape of both arms reflector, and the LED module is installed in a straight line on the first and second reflecting wings of both arms reflecting plate so as to irradiate the left and right sides of the diffusion sheet while crossing each other in diagonal diagonal directions. By being configured, the angle of irradiation of the LED can be irradiated diagonally diagonally, and the distance to the diffuser plate at the front side can be configured as long as possible, thereby minimizing the tendency of light (shading) while reducing the thickness of the LED luminaire. In addition, the object of the present invention is to provide a double-sided irradiation-type LED luminaire having a diagonal irradiation angle that can improve heat dissipation to 90% than conventional LED luminaires.

Description

Two-sided illuminated LED luminaires with diagonal irradiation angles {THE APPARATUS OF LED LIGHTING WITH TWO FACE IRRADIATE}

The present invention relates to a double-sided irradiation LED luminaire having a diagonal irradiation angle.

The LED light source has a point light source shape due to the characteristics of the semiconductor device, and its luminance is very high.

In order to use this as a light source, the light source should be made in the form of a surface light source, and it has a characteristic of minimizing the solip phenomenon of light generated at this time.

Existing luminaires generally adopt the BLU (Back Light Unit) technology used in LCD displays or adopt a direct light type method that directly irradiates the diffuser plate at right angles.

Here, the BLU method is a method of irradiating light to the side of the light guide plate, so there is a lot of light leakage, and the direct light irradiation method has to be thicker in order to avoid the soliness of light. .

In addition, the existing LED luminaire for replacing the fluorescent lamp is currently in the form of a flat plate, it is less than the conventional fluorescent lamp in terms of brightness and efficiency.

This is because the efficiency of the LED light source is comparable to the efficiency of the fluorescent lamp, but the original brightness is greatly reduced while using auxiliary devices to take the form of a surface light source such as a fluorescent lamp.

In addition, a device for irradiating by installing a plurality of LEDs on the reflector has been developed, but this is due to the straightness of the LED light overlapping interference with each other, the light transmission efficiency is reduced, and most of all the heat is generated so that the residue or projection on the surface There was a problem that a lot of light shading occurs on the formed and reflected sheet surface.

In order to solve the above problems, in the present invention, the angle of irradiation of the LED can be irradiated diagonally diagonally, and the flying distance to the diffuser plate at the front side can be configured as long as possible, thereby reducing the thickness of the LED luminaire, while also causing light emission (shading). It is an object of the present invention to provide a double-sided irradiation type LED luminaire having a diagonal irradiation angle that can minimize the phenomenon, and above all, improve heat dissipation more efficiently than conventional LED luminaires.

In order to achieve the above object, the double-sided irradiation type LED luminaire having a diagonal irradiation angle according to the present invention is

It consists of an LED luminaire 1 consisting of a base plate 11, a reflector 12, an LED module 20, a diffusion sheet 30,

"형상의 양팔 반사판(10)으로 일체형으로 형성되고, 양팔 반사판의 제1 반사날개(10a)와 제2 반사날개(10b) 위에 LED 모듈(20)이 일자형으로 길게 설치되어, 대각선 사선방향으로 서로 교차하면서 확산시트(30)의 좌·우측면에 조사시킴으로서 달성된다.
The LED lamp (1) is the base plate 11 and the reflector 12 is "

It is formed integrally with the "shaped two-arm reflecting plate 10, and the LED module 20 is installed on the first reflecting blade 10a and the second reflecting blade 10b of the two-arm reflecting plate in a straight line, and diagonally diagonal to each other. This is achieved by irradiating the left and right sides of the diffusion sheet 30 while crossing each other.

As described above, in the present invention, there is no need to use an opaque cover, there is no illuminance attenuation, and there is no waste of power consumption to increase the illuminance. The angle can be irradiated diagonally and the distance to the diffuser on the front side can be configured to be as long as possible, which reduces the thickness of the LED luminaire while minimizing light dropout. It has a good effect of improving heat dissipation by 90% than luminaires.

"형상의 양팔 반사판(10)을 정면에서 바라본 상태에서의 정단면도,
도 4는 본 발명에 따른 양팔 반사판(10)의 제1 반사날개와 제2 반사날개에 설치되는 LED 모듈을 통해 비추고자 하는 변의 상대비에 따른 조사각도(θ)가 5°~85°를 이루며 대각선 사선방향으로 서로 교차하면서 확산시트(30)의 좌·우측면에 조사시키는 것을 도시한 정단면도,
도 5는 도 1은 본 발명에 따른 대각선 조사각도를 갖는 양면 조사형 LED 등기구가 대각선 사선방향으로 서로 교차하면서 확산시트(30)의 좌·우측면에 조사시키는 것을 도시한 일실시예도.
1 is a perspective view showing the components of a double-sided irradiation type LED luminaire having a diagonal irradiation angle according to the present invention,
Figure 2 is an exploded perspective view showing the components of the double-sided irradiation type LED luminaire having a diagonal irradiation angle according to the present invention,
3 is "in accordance with the present invention "

"Front sectional view in a state where the front view of both arms reflector 10 in shape,
4 is an irradiation angle θ of 5 ° to 85 ° according to the relative ratio of the sides to be reflected through the LED module installed on the first and second reflecting wings of both arms reflector 10 according to the present invention. Front sectional view showing the irradiation on the left and right sides of the diffusion sheet 30 while crossing each other in a diagonal diagonal direction,
Figure 5 is an embodiment showing that the two-sided irradiation type LED luminaire having a diagonal irradiation angle according to the present invention irradiates the left and right sides of the diffusion sheet 30 while crossing each other in a diagonal diagonal direction.

The bending angle θ ₁ described in the present invention refers to an angle at which the first reflective blade 10a is bent and formed inward from 5 ° to 85 ° from the horizontal reference line on the left side.

In addition, the irradiation angle θ refers to the angle at which the LED is irradiated diagonally in a diagonal direction in a state in which the LED module is mounted on the first and second reflecting wings of both arms reflector 10.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing the components of the double-sided irradiation type LED luminaire having a diagonal irradiation angle according to the present invention, Figure 2 shows the components of the double-sided irradiation type LED luminaire having a diagonal irradiation angle according to the present invention. The present invention relates to an exploded perspective view, which is composed of a base plate 11, a reflection shade 12, an LED module 20, and a diffusion sheet 30.

"형상의 양팔 반사판으로 일체형으로 형성되고, 양팔 반사판(10)의 제1 반사날개(10a)와 제2 반사날개(10b) 위에 LED 모듈이 일자형으로 길게 설치되어, 대각선 사선방향으로 서로 교차하면서 확산시트의 좌·우측면에 조사시키도록 구성된다.
LED luminaire 1 according to the invention is the base plate and the reflector shade "

It is formed integrally with the two-shaped reflecting plate of the shape, and the LED module is installed on the first reflecting blade 10a and the second reflecting blade 10b of the two-arm reflecting plate 10 in a straight line, and spreads while crossing each other in diagonal diagonal directions. It is configured to irradiate the left and right sides of the sheet.

As shown in FIG. 2, the two-armed reflector 10 is formed by bending the first reflective blade 10a at a bending angle of 5 ° to 85 ° from the horizontal reference line on the left side, and the second reflective wing on the right side. 10b is formed to bend at a bending angle of 5 ° to 85 ° from the horizontal reference line.

Here, when the first reflecting wing and the second reflecting wing is formed at 5 ° or less from the horizontal reference line, the light emitted from the LED module installed on the first reflecting wing and the second reflecting wing does not overlap diagonally diagonally, and is diffusely reflected so that light If the first reflecting wing and the second reflecting wing is formed at 85 ° or more from the horizontal reference line, there is a problem that the efficiency is lowered. It is most preferable that it is bent and formed to form a bending angle of ° ~ 85 °.

Both arms reflector 10 according to the present invention is a reflective film is formed on the inner surface along the bent portion adjacent to the first and second reflective wings.

Here, the reflective film is formed along the bent portion adjacent to the first and second reflecting wings, thereby eliminating the agglomeration of light due to reflection, refraction and overlapping of the light between the LED arrays on both sides. Diffuse reflection of light can be induced to a position higher than the height of the LED array.

The LED module 20 is a place where a plurality of LED chips are arranged in a row to generate light, which is formed in a rectangular tape measure, and the module substrate is formed of a metal PCB substrate.

Here, the metal PCB substrate is formed with a glass epoxy (GE) PCB with the insertion hole so that the LED chip is inserted into the front surface.

In addition, a rubber insulating pad is formed at the bottom of the GE (Glass Epoxy) PCB, and an aluminum heat sink is formed at the bottom of the insulating pad.

As such, since the metal PCB is formed with an insulating pad made of rubber and an aluminum heat sink on the bottom of the existing PCB, it is possible to extend the life of the LED, which is weak in thermal characteristics, and prevent malfunction of the device due to heat.

And, to increase the heat dissipation in the rear of the metal PCB is configured to maximize the heat dissipation effect using a heat conductive tape or heat conductive grease.

In this way, by using a heat-conducting tape or heat-conductive grease on the bottom of the existing PCB and using the reflector itself as an aluminum heat sink, it is possible to extend the life of the LED, which is weak in thermal characteristics, and prevent malfunction of the device due to heat.

In addition, the two-arm reflector 10 according to the present invention corresponds to a metal PCB that serves as an internal heat sink to serve as an aluminum heat sink on the outer surface.

In other words, the surface of the reflector covers the entire luminaire and plays a big role in dissipating heat from the LED module.

In addition, in the present invention, the LED luminaire main body is formed as an iron structure in connection with an aluminum reflector, and the pores are formed for the thermodynamic air flow in the frame, thereby maximizing the effect of natural air cooling.

The diffusion sheet 30 is located at the top of the structure to uniformly diffuse the light emitted from the diffusion sheet, which is composed of an embossed product.

Here, the embossing product forms a random uneven | corrugated shape on the surface of a diffused sheet, and is obtained by making the uneven | corrugated irregularities the roll surface used at the time of roll crimping at the time of sheet shaping of the polycarbonate amorphous resin.

The diffusion sheet made of embossed foam has a good diffusion rate and can be manufactured in a small process.

Hereinafter, a detailed design process of the double-sided irradiation type LED luminaire having a diagonal irradiation angle according to the present invention will be described.

"형상의 양팔 반사판(10)을 정면에서 바라본 상태에서의 정단면도에 관한 것으로, 이는 역사다리꼴 형상으로 형성된다.3 is "in accordance with the present invention "

"On the front cross-sectional view in the state where the shape of both arms reflector 10 is seen from the front, it is formed in an inverted trapezoidal shape.

In the two-arm reflector 10 according to the present invention, the first reflecting blade 10a is bent and formed inward to form a bending angle θ ₁ of 5 ° to 85 ° from the horizontal reference line on the left side, and the second side on the right side. Reflective wings 10b are bent and formed inwardly at a bending angle θ ₁ of 5 ° to 85 ° from the horizontal reference line, and are irradiated to the left and right sides of the diffusion sheet 30 while crossing each other in a diagonal diagonal direction. .

The first reflective wing 10a is bent to form a bending angle θ of 5 ° to 85 ° from the horizontal reference line, and the second reflective wing 10b is formed of a bending angle of 5 ° to 85 ° from the horizontal reference line. The process of bending and forming by using a trigonometric function is as follows.

First, as shown in FIGS. 3 and 4, the total length of the side to be illuminated is set to 'x', the thickness of both arms reflector is set to 'y', and the relative ratio of the side to be illuminated is' n / m. ', The relative distance (a) of the side to be reflected is set to' (n / m) * x = a ', and the irradiation angle according to the relative ratio of the side to be reflected (= first reflecting wing and second reflection The irradiation angle of the blade) is set to 'θ', and the irradiation length from the first reflecting wing and the second reflecting wing to the side to be illuminated through the LED module installed is set to 'b = a'.

In addition, 'm' represents the length (m) of the side to be reflected, 'n' represents the position (n) to be directly irradiated by the light is reflected.

That is, to assume a relative ratio consisting of 'n / m', and as described in the following equation, if 'm' is a relative value of the length of the side to be illuminated, 'n' is a relative value of the length of the directly irradiated position. . Therefore, n / m can be regarded as a / x, and the reason for setting it as an arbitrary variable is to find the angle by substituting a relative value of n or m to a desired value.

For example, if the length of the total outgoing edge is 80mm and the place where light is directly irradiated is 60mm, n / m is 3/4 according to the following equation.

In addition, the irradiation angle (= irradiation angle of the first and second reflecting blades) according to the relative ratio of the sides to be reflected is inclined by giving an angle to the LED module to uniformly light the sides of a specific length. It refers to the irradiation angle according to the position so that light is irradiated to a specific position.

As shown in Fig. 3 and Fig. 4, an inclination line is drawn to the point '(n / m) * x', which is the relative distance of the side to be projected from the lower left point of the inverted trapezoidal arms.

At this time, draw a vertical line to be perpendicular to the left side.

At this time, using the cosine law of the trigonometric function in the upper left triangle, b, the irradiation length b from the first reflecting wing and the second reflecting wing to the side to be illuminated through the LED module, is expressed as in Equation (2) Can be represented.

이 되고, 이를 (1) 식에 대입하면,By the cosine law

If you substitute this into (1),

.................(2)을 얻을 수가 있다.

... (2) can be obtained.

Subsequently, when the irradiation length (b) from the first reflecting wing and the second reflecting wing to the side to be illuminated through the installed LED module and the vertical line from the intersection of the upper side of the inverted trapezoid to the lower side of the inverted trapezoid are drawn, By using the ratio, it can be expressed as in Equation (2).

로 표현하고,

로 표현하면,

Expressed as

In terms of

......................(1)로 표현된다.By the law of sin

It is expressed by (1).

이므로, At this time,

Because of,

Subsequently, substituting Equation (2) in Equation 2 into Equation (2) in Equation 2 can be expressed as Equation 3.

Subsequently, by dividing by nx / m on both sides of the equation (3), it can be expressed as shown in the equation (4).

을 적용하면, 수학식 5와 같이 나타낼 수가 있다.
Subsequently, the sine double angle formula

By applying this, it can be expressed as in Equation 5.

Then, by multiplying Equation 5 by 2, it can be expressed as in Equation 6.

Subsequently, if the inverse of the sine is taken in both terms of the equation (6), it can be expressed as shown in the equation (7).

Subsequently, when Equation 7 is divided by 2, as shown in Equation 8, the irradiation angle (= irradiation angle of the first and second reflecting wings) θ according to the relative ratio of the sides to be reflected can be expressed.

Here, inputting the total length (x) of the side to be reflected, the thickness (y) of the two-armed reflecting plate, and the relative ratio (n / m) of the side to be illuminated, the irradiation angle according to the relative ratio of the side to be reflected (= first reflection By calculating the irradiation angle? Of the wing and the second reflecting blade), it is possible to design a double-sided irradiation type LED luminaire having a diagonal irradiation angle according to the present invention.

1: LED luminaire 10: both arms reflector
10a: first reflective wing 10b: second reflective wing
11: base plate 12: reflection shade
20: LED module 30: diffusion sheet

Claims (5)

It consists of an LED luminaire 1 consisting of a base plate 11, a reflector 12, an LED module 20, a diffusion sheet 30,
The LED lamp (1) is the base plate 11 and the reflector 12 is "

It is formed integrally with the "shaped two-arm reflecting plate 10, and the LED module 20 is installed on the first reflecting blade 10a and the second reflecting blade 10b of the two-arm reflecting plate in a straight line, and diagonally diagonal to each other. In the two-arm irradiation type LED luminaire having a diagonal irradiation angle to irradiate the left and right sides of the diffusion sheet 30 while crossing,
The two-armed reflector 10 has a first reflecting blade 10a formed at a left side of the first reflecting blade 10a at a bending angle θ ₁ of 5 ° to 85 ° from the horizontal reference line, and is bent and formed inward, and a second reflecting blade 10 formed at a right side thereof. 10b) forms a bending angle (θ ₁ ) of 5 ° to 85 ° from the horizontal reference line and is bent and formed inward, so that the irradiation angle (θ) according to the relative ratio of the side to be projected through the LED module is 5 ° to 85 °. A two-arm irradiation type LED luminaire having a diagonal irradiation angle characterized in that irradiating to the left and right sides of the diffusion sheet 30 while crossing each other in diagonal diagonal directions. delete delete delete delete

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