KR100993016B1 - Led lighting stand controlling light for studying - Google Patents

Abstract

The present invention relates to a light control LED lighting stand for learning, which minimizes glare while minimizing glare while minimizing light loss in a wide range of LED lights to protect the eyes and at the same time, high efficiency with low power. In addition, as the production is very simple, it is to provide a light diffusion type learning lighting stand with excellent productivity and economy. To this end, the present invention, the light guide reflector plate 10; A light source unit 20 including one or more LEDs 21 having different colors and a driving circuit unit 22 for controlling the LEDs 21 and disposed on at least one side of both sides of the light guide reflecting plate 10; A plurality of U-shaped concave-convex portions 31 having an inclination angle of 45 degrees to 75 degrees are formed at an upper portion in the longitudinal direction to uniform the light reflected by the light guide reflector 10 and the light emitted from the light source unit 20. It is characterized in that it comprises a; light control unit 30 for transmitting light, it has the advantage of efficient irradiation of light and easy in manufacturing.

LED, lighting, stand, reflector, probe

Description

Light control LED lighting stands for learning {LED LIGHTING STAND CONTROLLING LIGHT FOR STUDYING}

The present invention relates to a light control LED lighting stand for learning, more specifically, to protect the eyes by preventing the occurrence of glare while effectively irradiating the LED light source in a wide area without loss, and to give high illumination at low power The present invention relates to a light control LED lighting stand for learning that can improve productivity while improving efficiency.

In recent years, LED lighting is rapidly developing compared to conventional fluorescent or incandescent lamps. It is not only compact and has a long lifespan, but also consumes less power and is more energy efficient. There is a great influence, and various lighting fixtures using this are being developed.

Existing lighting stand using this LED illuminates the desired area directly through the light source unit where the LED is installed on the PCB (Printed Circuit Board) at regular intervals. Since the illuminance is not significantly reduced in the part that is not achieved, eye fatigue increases as the uniform illuminance is not formed, and when necessary, the light source of the lighting stand is moved and irradiated to illuminate the human vision. The point light of the LED which generate | occur | produces enters, and it becomes a cause of weakening eyesight. In addition, in order to increase illuminance in a wide range, the power consumption of the LED must be increased. As a result, the energy efficiency is reduced and the heat generation of the LED is increased, which affects its lifespan. In order to prevent such a problem, when the LED is placed deep in the space inside the frame, the point light of the LED is not exposed, while the light is blocked in the frame, and thus the light irradiation area is limited to a narrow portion, resulting in a low illumination. Although the lens is mounted on the LED light source unit to widen the light irradiation range, there is still a problem that the glare that the light source directly enters through the eye cannot be removed.

In addition, even when using an opaque acrylic panel or a diffusion panel or a lined panel at regular intervals to remove the glare, the illumination intensity is significantly reduced, and eventually there is a problem that the power consumption must be increased to meet the illumination.

The present invention has been made to solve the above-described problems of the prior art, the eye area by minimizing the loss of light to a wide area (parts such as a desk or work table to irradiate light) to prevent glare while uniformly irradiating eyes Its purpose is to provide a light control LED light stand for learning that protects the system and makes the construction and assembly very simple, so that the productivity is long and the user does not have to replace the lamp for a long time.

In order to achieve the above object, the present invention, the lighting stand, and a light guide reflector; A light source unit comprising one or more LEDs having different colors and a driving circuit unit for controlling the LEDs and disposed on at least one side of both sides of the light guide reflecting plate; And a light control unit having a plurality of U-shaped concave-convex portions having an inclination angle of 45 degrees to 75 degrees along the longitudinal direction to uniformly transmit the light reflected by the light guide reflector and the light emitted from the light source unit. It features.

In addition, a through hole is formed in a central portion along the longitudinal direction, and a fastening groove is formed along the through hole, and an upper cover for fitting the protrusion formed along the circumference of the light control part into the fastening groove, the light guide reflector and the light source part. A lower cover which is inherently coupled to the upper cover is further included, and as the upper and lower covers are formed in a hemispherical shape, the light control unit has the same curvature as the upper cover, and the light source unit is disposed in the middle of the upper and lower covers. The light guide reflector is characterized by protruding convexly at the same curvature as the light control unit.

On the other hand, when the light source unit is installed on both sides of the light guide reflector plate, the light guide reflector plate has an inclined surface adjacent to the light control unit toward the center, or when the light source unit is installed on one side of the light guide reflector plate, the light guide reflector plate is The further away from the light source portion, the inclined surface adjacent to the light control unit is characterized in that.

In addition, the light control unit is characterized in that the overlapping so as to be arranged in the lattice shape of the X-shaped irregularities.

As described above, the learning light control LED lighting stand according to the present invention minimizes the loss of light to a wide area through the light guide reflector and the light control unit using the LED light source and at the same time irradiates the light source by the light control unit It can protect eyes by indirect irradiation of light, and its simple structure that light guide reflector plate, light source part and light control part are built in the upper and lower cover have high productivity and long life, so users can use it for a long time and existing fluorescent or incandescent lamp stand The power consumption efficiency is very good.

Hereinafter, a learning light control LED lighting stand according to the present invention will be described with reference to the drawings.

Figure 1 is an exploded perspective view showing the light control LED lighting stand for learning according to the present invention, Figure 2 is a cross-sectional view showing the light control LED lighting stand for learning according to the present invention, the light source is installed on both sides, Figure 3 is a light source unit on one side Is a cross-sectional view showing a learning light control LED lighting stand according to the present invention, Figure 4 is a cross-sectional view showing a learning light control LED lighting stand according to the invention made in a spherical shape.

The learning light control LED lighting stand according to the present invention is a light guide reflector 10 for reflecting light in a predetermined direction by changing a portion related to the light source in the existing stand, a light source unit 20 for generating light, The light guide unit 10 and the light control unit 30 for uniformly transmitting the light from the light source unit 20.

The light guide reflector 10 is for reflecting the light generated from the light source unit 20 toward the light control unit 30, and the panel, mirror, stainless steel, brass, aluminum, polyethylene terephthalate (PET) painted white Silvered panels on the base material can be used.

The light source unit 20 includes one or more LEDs 21 having different colors and a driving circuit unit 22 for controlling the LEDs 21 and disposed on at least one side of the light guide reflecting plate 10. When the light guide reflecting plate 10 is installed on both sides, the light from the light source unit 20 installed on both sides through the structure having the inclined surface so that the light guide reflecting plate 10 is adjacent to the light control unit 30 toward the center thereof. The light guide reflecting plate 10 is projected to the outside of the light control unit 30 by reflecting from the inclined surface while proceeding to the center of the light guide reflecting plate 10, and when the light source unit 20 is installed on one side of the light guide reflecting plate 10. When the light from the light source unit 20 installed on only one side is transmitted to the light guide plate 10 through a structure having an inclined surface adjacent to the light control unit 30 as it moves away from the light source unit 20 to the light control unit 30. Light can be projected uniformly. Existing fluorescent lamps, CCFL, EEFL, incandescent lamps can be used as the light emitting part, but unlike fluorescent lamps using mercury, it is eco-friendly and high efficiency, and it is possible to save energy. By using the LED having a large amount of light transmitted to the light control unit 30 by), even if the light is irradiated to the light control unit 30 can exhibit a high illuminance and the LED 21 having a Kelvin temperature of different bands, For example, using the 2000K band LED and 6500K, 8000K LED, three light sources can be controlled and combined by the driving circuit unit 22, so that different colors can be mixed and consequently can be combined and operated by RGB colors. There is an advantage that can be changed to suit. The light source unit 20 may be attached to the upper or lower cover 40, 50 described below with an adhesive, or may be attached to the light guide reflector 10 or the light control unit 30.

The light control unit 30 is the light from the light source unit 20 is directed to the light guide reflector 10, the total reflection at the interface of the light guide reflector 10 is transmitted to the light control unit 30 or the light oil from the light control unit 30 The light re-incident on the reflector plate 10 is transmitted back to the light control unit 30, and as a result, most of the light is projected to the outside, and the material is made of polycarbonate, acrylic, or the like having excellent light transmittance. It can be produced in the form of a film. On the other hand, a plurality of U-shaped uneven portions 31 having a constant angle between 45 degrees and 75 degrees are formed along the longitudinal direction in the upper portion of the light control unit 30, whereby the light from the light control unit 30 is refracted. The light control unit 30 may be overlapped so as to uniformly disperse the light in all directions through overscattering and the X-shaped concave-convex portion 31 is disposed in a lattice form. In FIGS. 2 and 3, the sidewalls are used to fix the light guide reflector 10, the light source 20, and the light control unit 30 to each other, and various materials such as metal and plastic may be used. 50 may replace the function of the side wall.

On the other hand, the light guide reflector 10, the light source unit 20 and the light control unit 30 as described above can be installed in the stand alone, but for the protection of the through hole is formed in the center along the longitudinal direction and the through hole The upper cover 40 and the light guide reflector plate 10 and the light source unit 20 are formed therein so that the fastening groove is formed so that the protrusion formed along the circumference of the light control unit 30 is fitted into the fastening groove. A lower cover 50 coupled to) may be further included in the lighting stand according to the present invention. The upper and lower covers 40 and 50 may be coupled as shown in FIG. 1 through the screw coupling portions formed in the respective grooves and the grooves or holes formed in the side surfaces thereof, where the upper and lower covers 40 and 50 are each formed in a hemispherical shape, the light control unit. The 30 is manufactured to have the same curvature as the upper cover 40 and is coupled to its through hole, and the light source unit 20 is fixed to the middle of the upper and lower covers 40 and 50 with an adhesive, and the light guide reflector 10 is light It protrudes convexly toward the light control unit 30 with the same curvature as the control unit 30 is fitted into the groove formed in the adhesive or lower cover 50 is fixed. The upper or lower cover (40, 50) is formed with a hole for drawing out the wiring of the light source unit 20 to the outside, the upper and lower cover (40, 50) is formed in the long hole along the circumference in either one and the other It may have a structure that is coupled to each other through a structure in which the elastic piece fitted in the long hole is installed.

1 is an exploded perspective view showing a light control LED lighting stand for learning according to the present invention.

Figure 2 is a cross-sectional view showing a light control LED lighting stand for learning according to the present invention, the light source is installed on both sides.

Figure 3 is a cross-sectional view showing a light control LED lighting stand for learning in accordance with the present invention the light source is installed on one side.

Figure 4 is a cross-sectional view showing a light control LED lighting stand for learning in accordance with the present invention made in a sphere.

Claims (6)

delete In the lighting stand, A light guide reflector 10; A light source unit 20 including one or more LEDs 21 having different colors and a driving circuit unit 22 for controlling the LEDs 21 and disposed on at least one side of both sides of the light guide reflecting plate 10; A plurality of U-shaped concave-convex portions 31 having an inclination angle of 45 degrees to 75 degrees are formed at an upper portion in the longitudinal direction to uniform the light reflected by the light guide reflector 10 and the light emitted from the light source unit 20. A light control unit 30 for transmitting light; An upper cover 40 having a through hole formed in a central portion thereof in a longitudinal direction and a fastening groove formed along the through hole such that a protrusion formed along a circumference of the light control unit 30 is fitted into the fastening groove; And a lower cover 50 in which the light guide reflector plate 10 and the light source unit 20 are inherently coupled to the upper cover 40. The method according to claim 2, As the upper and lower covers 40 and 50 are each formed in a hemispherical shape, the light control unit 30 has the same curvature as the upper cover 40, and the light source unit 20 is disposed in the middle of the upper and lower covers 40 and 50. Arranged, the light guide reflector plate 10 is a light control LED lighting stand for learning, characterized in that the convexly protruding with the same curvature as the light control unit (30). The method according to claim 2, When the light source unit 20 is installed on both sides of the light guide reflector 10, the light guide reflector 10 is characterized in that it has an inclined surface adjacent to the light control unit 30 toward the center of the learning light control LED lighting. stand. The method according to claim 2, When the light source unit 20 is installed on one side of the light guide reflecting plate 10, the light guide reflecting plate 10 has an inclined surface adjacent to the light control unit 30 as it moves away from the light source unit 20. Learning light control LED light stand. The method according to claim 4, Light control LED lighting stand for learning, characterized in that the light control unit 30 is overlapping so that the j-shaped concave-convex portion 31 is arranged in a lattice form.

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