KR100986201B1 - Lamp by light emitting diode of indirect illumination type - Google Patents

Abstract

The disclosed LED lamp may be mounted such that a groove is formed on an upper surface of a pole of the LED lamp so that the LED chip is concealed from the outside. An upper part of the pole may have a heat radiating part to radiate heat generated from the LED chip to the outside. A floodlight tube is coupled to an upper portion of the pole, and a reflector plate may be coupled to an upper portion of the floodlight tube to reflect light emitted from an LED chip to change a path of light. Phosphors may be applied to the floodlight tube and the reflecting plate so that light emitted from the LED chip is expressed as white light when it is emitted to the outside. According to this, since the LED chip is used as the light source, energy efficiency and lifespan can be improved, and environmental pollution during disposal can be reduced. In addition, the number of LED chips, the color emitted and the use of phosphors may emit light of various colors during external lighting.

Description

LAMP BY LIGHT EMITTING DIODE OF INDIRECT ILLUMINATION TYPE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to light emitting diode lamps, and more particularly, to light emitting diode lamps used as street lights or security lamps by indirect lighting.

In general, street lamps and security lights have a function to brighten the surroundings and to beautify the beauty of the street.

The street lamp or security lamp may be classified into a direct lighting type and an indirect lighting type according to an illumination method.

The direct illumination type is a method in which light is directly emitted to the outside by exposing the light source, and the indirect illumination type is for removing glare caused by the direct illumination type, and the light reflected by a reflector or the like while the light source is not exposed to the outside This is how it is emitted outside.

Mercury lamps, sodium lamps, and the like are generally used as light sources such as street lamps and security lamps, which have a problem in that energy consumption is large, and the lifespan is short, so that the amount of light rapidly decreases over time.

In particular, the mercury lamp or sodium lamp uses mercury gas, which may cause environmental pollution during disposal.

The present invention is to solve the above problems, an object of the present invention is to provide a light emitting diode lamp that is excellent in energy efficiency, long life, and can reduce the environmental pollution during disposal by preventing glare by the indirect lighting method. .

The LED lamp according to the present invention may be mounted such that the LED chip is concealed from the outside in a groove formed on the upper surface of the pole in order to prevent glare by an indirect illumination method.

An upper part of the pole may have a heat radiating part to radiate heat generated from the LED chip to the outside.

A floodlight tube is coupled to the upper portion of the pole, and a reflector may be coupled to the upper portion of the floodlight to reflect indirectly the light emitted from the LED chip to change the path of light.

Phosphors may be applied to the floodlight tube and the reflecting plate so that light emitted from the LED chip is expressed as white light when it is emitted to the outside.

According to the light emitting diode lamp according to the present invention, it is possible to prevent glare by using an indirect lighting method, to improve the energy efficiency and lifespan, etc. by using the LED chip as a light source, to reduce the environmental pollution during disposal have.

By the number of LED chips, the color emitted and the use of phosphors, various colors of light may be emitted during external lighting.

Hereinafter, an indirect illumination LED lamp according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a light emitting diode lamp according to an embodiment of the present invention, FIG. 2 is a side view showing the light emitting diode lamp of FIG. 1, and FIG. 3 is a schematic view showing a reflector of the light emitting diode lamp of FIG. 1. Side view.

1 to 3, the indirectly-illuminated LED lamp 100 of the present invention includes an LED chip 120, an electric pole 110, a floodlight tube 130, and a reflecting plate 140. It may include.

The LED chip 120 may be a red LED chip that emits red light, a green LED chip that emits green light, a blue LED chip that emits blue light may be selectively employed, or all three LED chips may be employed. Ultraviolet LED chips and the like can be employed.

The electric pole 110 has a groove 112 formed on an upper surface thereof, and the LED chip 120 is mounted in the groove 112 to have a horizontal position with the LED chip 120 and a lower position than the horizontal position. The LED chip 120 may be concealed at a position and a time at a position higher than the horizontal position.

A heat radiating part 111 may be formed at an upper portion of the electric pole 110 to radiate heat generated from the LED chip 120 to the outside, and the groove 112 is included in the heat radiating part 111. .

Of course, the entire electric pole 110 may function as the heat dissipation unit 111 to dissipate heat generated from the LED chip 120.

The heat dissipation unit 111 may be formed in the form of teeth or irregularities to increase the heat dissipation efficiency by increasing the contact area with the outside air.

The floodlight tube 130 has a hollow formed therein and has a pipe shape in which both ends are open to expose the hollow to the outside, and may be made of a glass material through which light can be transmitted.

The floodlight tube 130 may be coupled to the upper portion of the pole 110 through one side opening to accommodate the LED chip 120.

The reflection plate 140 may be coupled to the other opening of the floodlight tube 130 to seal the inner hollow of the floodlight tube 130 coupled to the electric pole 110 from the outside.

The reflector plate 140 is a component for the present invention to be an indirect illumination method, by reflecting the light emitted from the LED chip 120 to change the path of the light through the outside through the floodlight tube 130 Can emit light.

The surface of the reflective plate 140 facing the LED chip 120 may be formed in a wave shape 141 to diffusely reflect light emitted from the LED chip 120.

The LED lamp 100 having the structure as described above is emitted from the LED chip 120 after being reflected by the reflector 140 when emitting light in a state in which the LED chip 120 is accommodated and mounted in the groove 112 of the electric pole 110. Can be.

That is, the light emitting diode lamp 100 uses an indirect lighting method when external lighting.

In the indirect illumination LED lamp 100 as a modified example, by converting the wavelength of the light emitted by the wavelength is converted to the light emitted from the LED chip 120 is mixed with white light or other various colors of light Can emit light.

To this end, at least one of the floodlight tube 130 and the reflector plate 140 may be coated or contain a phosphor for converting the wavelength of light, the phosphor is a mixture of yellow or red, green, blue series May be in a state.

In the form as described above, the light emitted to the outside may be expressed in various colors as follows according to the color of the LED chip and the presence or absence of the phosphor.

First, when the phosphor is not applied or contained in the floodlight tube 130 and the reflector plate 140, the output light may be dependent on the color of the light emitted from the LED chip 120.

For example, when both the red LED chip 120, the green LED chip 120, and the blue LED chip 120 are mounted in the groove 112, white light and red light are applied when power is applied to the LED chip 120. , Green light and blue light may be emitted.

That is, when power is applied to all of the red, green, and blue LED chips 120, white light is emitted, and when power is independently applied, the color of the LED chip 120 to which power is applied is emitted.

Second, a yellow phosphor is contained or coated in at least one of the floodlight tube 130 and the reflector plate 140, and a blue LED chip 120 emitting blue light of the LED chip 120 is mounted. The light emitted from the light emitting diode lamp 100 to the outside may be represented by white light.

Third, an ultraviolet LED chip 120 containing or coated with red, green, and blue phosphors on at least one of the floodlight tube 130 and the reflector plate 140 to generate ultraviolet rays in the LED chip 120. In this case, the light emitted from the light emitting diode lamp 100 to the outside may be represented by white light.

According to the LED lamp 100 having the above structure, since the indirect illumination method can be used to reduce glare, and the LED chip 120 as a light source can be improved energy efficiency and life.

In addition, unlike the actual color of the light emitted from the LED chip 120 by applying or containing a phosphor in the light exit path, when it is emitted to the outside it can be emitted as white light or various other color light.

1 is a perspective view schematically showing a light emitting diode lamp according to an embodiment of the present invention.

FIG. 2 is a side view illustrating the light emitting diode lamp of FIG. 1. FIG.

FIG. 3 is a side view schematically showing a reflector of the light emitting diode lamp of FIG. 1. FIG.

<Description of the symbols for the main parts of the drawings>

100 ... LED lamp 110 ... Electric pole

111 ... heat sink 112 ... groove

120 ... LED chip 130 ... Floodlight

140 ... Reflector

Claims (6)

delete LED chip; A groove formed on an upper surface of the LED chip to receive and mount the LED chip, and a heat dissipation portion including a groove to form a heat dissipation portion for dissipating heat generated from the LED chip; A light transmitting tube coupled to an upper portion of the pole and having a light transmitting property; And a reflection plate coupled to an upper portion of the floodlight tube to reflect light emitted from the LED chip. At least one of the floodlight tube and the reflector includes a phosphor for converting a wavelength of light emitted from the LED chip, so that the light whose wavelength is converted by the phosphor and the light emitted from the LED chip are mixed to the outside. A light emitting diode lamp, characterized in that the white light is emitted. The method according to claim 2, The phosphor is a yellow phosphor, and the LED chip emits blue light. The method according to claim 2, The phosphor is a phosphor containing red, green, blue, and the LED chip is an ultraviolet LED chip that emits ultraviolet light. delete delete

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