KR100990413B1 - LED illuminating systems where the color temperature is converted - Google Patents

Abstract

By installing a means to change the color temperature of the light emitted from the LED to the LED lighting equipment that emits a specific color, it is possible to implement the LED lighting of various color temperature based on the white light, thereby to color the interior and exterior lighting. The conversion can be performed more easily, the cost of replacing the light source due to color temperature conversion is reduced, and the interior lighting can be realized according to various tastes of users, and the long service life of the light source element applied by LED can be maintained. It relates to an LED lighting device in which one color temperature is converted.

To this end, the present invention, by arranging a plurality of LEDs so that the light is emitted to configure the lighting device, the color temperature conversion means for changing the color temperature of the light emitted from the LED is disposed in front of the light emitted from the LED is provided It is composed.

Color temperature, LED, lighting

Description

LED illuminating systems where the color temperature is converted}

The present invention relates to an LED lighting device that the color temperature is converted.

In detail, the present invention, by providing a means for changing the color temperature of the light emitted from the LED to the LED lighting device that emits a specific color to implement the LED lighting of various color temperature based on white light, In addition, it is possible to easily perform the color conversion of external lighting, reduce the cost of replacing the light source according to the color temperature conversion, and realize interior lighting according to various tastes of the user. The present invention relates to an LED lighting device in which a color temperature is converted to maintain a long service life.

In addition, the present invention is configured so that the LED lights can be driven directly coupled to the socket of a general fluorescent lamp or an incandescent lamp or a halogen lamp, so that the color temperature is converted so that the interior and exterior lighting can be replaced with the LED lighting without a separate reconstruction Present LED lighting device.

As the modern residential environment develops, the interior lighting is being advanced in the interior lighting by expressing the interior lighting color, that is, the color temperature, in various white light by the fluorescent lamp or the halogen lamp. In particular, efforts to apply a lighting device using a light emitting diode (LED) as a light source as the most representative lighting device of the advanced interior lighting has been steadily progressing.

For reference, the color temperature is a method of numerically displaying light of a light source. This color temperature is expressed as "Kelvin" (K) because the ideal black body is heated to dark red to orange, yellow, incandescent, and becomes blue as the temperature increases, and the hue of light can be expressed in units of absolute temperature.

In addition, the LED is a small size, high efficiency, and can emit light of vivid color. In addition, since it is a semiconductor device, there is little risk of damage, excellent initial driving characteristics and vibration resistance, and strong resistance to repetition such as ON / OFF lighting. For this reason, it is widely used for various indicators and various light sources, and ultra high brightness and high efficiency R, G, and B LEDs have been developed, and large LED displays using these LEDs have been commercialized.

The lighting device manufactured using the LED as described above is widely used as a main lamp for a room or an office, a table stand, and the like. In this embodiment, an illumination tile using a light guide plate may be exemplified.

Such a lighting device is configured by arranging a plurality of LED modules in which a plurality of LEDs are mounted in a specific arrangement, and installing the LED modules in a ceiling or a wall of a space.

The conventional LED lighting device as described above should be able to express white light similar to sunlight (5,400K at noon, 6500 ~ 7000K on a cloudy day) as the most basic color to be used as a main lamp or various lights. As such, it is well known that such white light cannot be obtained completely white light from the LED itself by the existing technology. As a result, in order to emit white light from the light source device, LEDs emitting incomplete white light (white light by a method of converting color or electrical characteristics in a device manufacturing process) or using different colors (R, G) are used. To obtain white light by combining a plurality of light source elements emitting light of B color).

At this time, the LED device that emits incomplete white light and a lighting device using a plurality of light source elements have a very high price, which causes a considerable economic burden to be applied to the main lighting of a general house or a shopping mall. In particular, the LED that emits incomplete white light has a problem in that the above-mentioned economic burden is further increased because its service life is very short.

In addition, since the LED lighting device is manufactured by arranging a plurality of LED modules, in order to apply the present lighting device to the current lighting device, the socket structure of the fluorescent lamp or the halogen lamp or the incandescent lamp is removed, and the reconstruction for installing the new LED module is performed. Since it must be performed, the work time for implementing the LED lighting is delayed, as well as a problem that further increases the economic burden of the user is exposed.

The present invention has been invented to solve the above problems.

Therefore, the present invention, by implementing a means for converting the color temperature in front of the light emitted from the low-cost LED expressing a specific color, rather than white light to implement the white light, more economical LED lighting to the indoor main light The purpose is to provide an LED lighting device that can be applied.

Another object of the present invention is to provide an LED lighting device that can be obtained by using the current socket configuration, such as fluorescent lamps, halogen lamps or incandescent lamps as it is, to obtain a time and economic benefit for reconstruction. .

In order to achieve the above object, the present invention has the following configuration.

The present invention constitutes an illumination device by arranging a plurality of LEDs so that light is emitted, and is disposed in front of the light emitted by the LED, and is provided with color temperature conversion means for changing the color temperature of the light emitted from the LED. .

At this time, the color temperature conversion means is formed by firing a resin mixed with a raw material having a light transmission characteristics and a fluorescent pigment for converting the light color of the LED and emitting light of the converted color to the outside. In particular, the color temperature conversion means is selectively used as a material having a light transmission characteristic of a single material of glass, silicon, PMMA, PC, PS, PET, SAN, PVC or a mixture of two or more. In addition, the color temperature conversion means is mixed by further adding a light diffusing agent for scattering and converting the incident light when mixing the raw material having light transmission characteristics and the fluorescent pigment.

In addition, the lighting device includes a base on which a plurality of LEDs are disposed; A transmission cover coupled to the base to receive and diffuse light emitted from the LED and to emit to the outside; And a color temperature converting means installed between the LED and the transmission cover to convert a color temperature of light emitted from the LED.

Here, the base is formed on the other side of the side coupled to the transparent cover is configured to emit heat generated from the LED through the heat radiating portion. In particular, the base is configured by filling a thermally conductive resin between the gap between the LED and the heat dissipation portion to increase the area where heat generated from the LED is transferred to the heat dissipation portion.

In order to achieve the above object, the present invention provides a plurality of LEDs by lengthening the base 20 to have a longitudinal direction corresponding to the length of the fluorescent lamp so that the lighting apparatus is mounted and driven in the socket 1 of the fluorescent lamp. L) disposed and configured, the transparent cover 30 is formed in a cylindrical shape having a length corresponding to the longitudinal direction of the base 20, and is electrically connected to the LED (L) on both sides of the transparent cover (30) It is configured by installing a terminal portion 40 for coupling to the socket () of the fluorescent lamp ().

Alternatively, the lighting apparatus is formed in a shape corresponding to the socket and the base, the LED is disposed in order to be mounted and driven in the socket of the halogen lamp or incandescent lamp, and the transmission cover in the form of a halogen lamp or incandescent lamp, A terminal portion for coupling to the socket is provided on the socket side of the base so that the terminal portion is electrically connected to the LED.

In particular, the present invention is a color temperature conversion means is disposed in front of the light emitted from the LED, the color temperature conversion means is formed by molding in the form of a resin in the front of the LED, or made in the form of a film inside the transparent cover to be bonded or Or, it is configured by selecting any one or more of the configuration is printed and applied to the inside of the transmission point or the point where the light of the LED is emitted.

In the above configuration, in order to drive the LED by an external AC power input, the LED is electrically connected to a circuit component, and the circuit component receives the LED by receiving AC power which is a driving source of the device. A bridge diode rectifying circuit unit which converts and outputs a power source for driving; In order to emit light by the power inputted through the bridge diode rectifier circuit portion, a specific number of LEDs are connected in series, the LED driver for receiving the desired voltage through the voltage drop of the input power to emit light.

In addition, the circuit configuration unit further comprises a constant current supply circuit unit for supplying the power rectified by the bridge diode rectifying circuit unit at a constant amount of current at all times.

As described above, the present invention implements LED lighting expressing white light using low-cost LEDs expressing light of a specific color rather than white, thereby lowering the manufacturing cost of the product and expressing more ideal white light. It has the effect of improving product satisfaction.

In addition, the present invention proposes a configuration that can be combined with a socket configuration of a fluorescent lamp, a halogen lamp or an incandescent lamp that is already installed, so that it is possible to implement the LED lighting without re-installing the existing luminaire, so that the cost of faster work and reconstruction This can be solved to obtain time and economic benefits.

Embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 is a perspective view of an LED lighting apparatus according to the present invention, Figure 2 is a plan view of the LED lighting apparatus according to the present invention, Figure 3 is an enlarged cross-sectional view of the LED lighting apparatus according to the present invention.

Referring to the drawings, the LED lighting apparatus according to the present invention forms a light source by mounting a circuit configuration (not shown) for driving a plurality of LED (L) and LED (L) on a printed circuit board (B) (B). And a color temperature converting means 10 for converting the color temperature of the light emitted from the LED L in front of the light emitted from the light source.

At this time, the configuration as described above is a configuration for converting the light of the LED (L) which emits a specific color to a color temperature, that is, white light similar to sunlight. Therefore, the LED (L) preferably employs a low-cost LED (L) that emits a constant color, most typically blue, red light, the color temperature conversion means 10 is the blue, red light It has a configuration made to convert to white light.

The color temperature converting means 10 for forming the white light is formed by mixing a water support material having a light transmission characteristic and a fluorescent pigment as a determinant material for converting the light color of the LED, and the color temperature converting means 10 formed as described above. The silver resin is formed by plastic working in a certain form.

At this time, the color temperature converting means 10 is glass, silicon, PMMA, PC, PS, PET, SAN, PVC resin is applied as a raw material having light transmission characteristics. In addition, such raw materials are comprised by mixing at least one or more things. In addition, the color temperature converting means 10 is mixed by the addition of a light diffusing agent for scattering and converting the light when the composition of the water support and the fluorescent pigment as described above.

The lighting device as described above is composed of the base 20, the transmission cover 30, the color temperature converting means 10 to be applied as a lighting fixture in the room. At this time, the lighting device is formed in the form of a fluorescent lamp to be mounted on the socket 1 of the fluorescent lamp.

The base 20 is formed to have a length corresponding to the longitudinal direction of the fluorescent lamp, the PCB (B) having a plurality of the above-described LED (L) is fitted to the inside so that light is emitted in one direction from the LED (L) It is for the configuration. The base 20 is configured such that the coupling groove 21 is formed inside the PCB (B) to be coupled to push the PCB (B).

The base 20 is configured to include a heat dissipation unit 22 for dissipating heat generated from the LED (L) to the outside. The heat dissipation unit 22 is formed on the rear surface of the side on which the LED (L) is disposed, and a plurality of heat dissipation fins 23 are formed to expand the heat dissipation area in order to improve heat dissipation efficiency. In particular, in order to perform the heat dissipation more efficiently, the base 20 is preferably made of a metal material having excellent thermal conductivity such as aluminum.

In addition, the base 20 forms a constant gap between the LED (L) and the heat dissipation unit 22 to perform more efficient heat dissipation, and the heat conductive resin 24 is filled between the gaps (LED). Heat generated in is configured to increase the area to be transmitted to the heat dissipation portion 22 to the maximum.

The transmission cover 30 is coupled to the base 20 is configured to receive and diffuse the light emitted from the LED (L) and to emit to the outside. At this time, the transmission cover 30 is a cylindrical configuration formed of a length corresponding to the length of the base 20.

Such a transparent cover 30 is a mixture of acrylic, or other light-transmissible resin, such as PC, PMMA, ABS, PS, and a light diffusing agent, the light emitted from the LED element (L) is transmitted and diffused in a wider section It is a configuration for implementing lighting over.

In the above configuration, the both sides of the transmission cover 30 is configured by installing a terminal portion 40 to be electrically connected to the LED (L) to be coupled to the socket (1) of the fluorescent lamp. Since the terminal portion 40 does not need to be closed and closed on both sides because the transparent cover 30 is not filled with a fluorescent material, such as a fluorescent lamp, the transparent cover 30 to maintain the bonding force more firmly. It is preferable that the both ends of the opening are closed.

As such, when the lighting device is configured in the form of a fluorescent lamp, the color temperature converting means 10 may be presented in the following several configurations.

First, the color temperature conversion means 10 has a basic configuration that is disposed in front of the light emitted from the LED (L), as described above,

1) is formed by molding in the form of a resin in front of the LED (L),

2) is produced in the form of a film bonded to the inside of the transparent cover 30, or

3) the point where the light of the LED (L) is applied and printed or

4) It may be applied and printed on the inner side of the transparent cover 30.

Such a configuration may be configured by at least one method, or by applying two or more methods simultaneously.

Particularly, the item 2) may be implemented by allowing the color temperature converting means 10 in the form of a film to be elastically in close contact with the inner circumferential surface of the transmission cover 30, and by changing the color temperature converting means 10. Color temperature light can be used as lighting.

<Other Embodiments>

4 is a cross-sectional view of another embodiment 1 of the present invention, and FIG. 5 is an enlarged cross-sectional view of another embodiment 1 of the present invention. At this time, the illumination device of the other embodiment is presented in the form of a halogen lamp or incandescent lamp unlike the original embodiment.

Referring to the drawings, the lighting apparatus has a basic configuration consisting of the base 50, the transmission cover 60, the color temperature conversion means 70 as in the configuration of the original embodiment. Here, the color temperature conversion means 70 is installed between the LED (L) and the transmission cover 60 of the base 50, the composition and shape for manufacturing the color temperature conversion means 70 is the same as in the original embodiment same.

The base 50 is formed while maintaining the size and shape corresponding to the socket 2 of the halogen lamp or incandescent lamp. This is because the base 50 is formed in the shape of a substantially square, equilateral triangle, circle, etc. in a planar shape rather than having the length direction shown in the original embodiment, and the inner diameter of the socket 2 to be coupled to the terminal portion 80 to be described later It is formed while maintaining an area of not excessively large. At this time, the heat dissipation part 51, the heat conductive resin 52, etc. are formed in the base 50, as in the original embodiment.

The transmissive cover 60 is formed in the form of a halogen lamp or incandescent lamp, in the figure is formed in a substantially spherical shape like an incandescent lamp, it is configured to maintain the upper portion coupled to the base 50 in the drawing.

 In the above configuration, the terminal portion 80 for coupling to the socket 2 is installed at the socket 2 side of the base 50. The terminal portion 80 is electrically connected to the LED (L), it is natural that the power supply is supplied to the LED (L) when the terminal portion 80 is coupled to the socket (2).

<Other Example 2>

6 is another exemplary embodiment of the present invention.

Referring to the drawings, the second embodiment is a modified form of the other embodiment 1 to form the above-described color temperature conversion means 70 to have the function of the transmission cover 60 of another embodiment to lower the manufacturing cost, heat dissipation The configuration of the unit 51 is changed to the heat dissipation hole 53 from the heat dissipation fin configuration of the above-described embodiment to present various embodiments of the heat dissipation unit 51.

That is, the other embodiment 2, the base 50 is formed with a plurality of heat dissipation holes 53 on the outer circumferential surface is provided with a plurality of LED (L) is installed to form a heat dissipation passage in the inner side, The base 50 is coupled to the side where the LED (L) is installed, the color temperature conversion means 70 of the similar, transmissive cover to transmit and change the color temperature of the light emitted from the LED (L) and the base ( The LED (L) of 50) is coupled to the other side of the installed side portion is configured to include a terminal portion 80 for coupling to the socket of the halogen lamp or incandescent lamp.

Here, the outside of the color temperature conversion means 70 may be configured by further disposing a separate transmission cover or the like to further diffuse the emitted light.

Additional Examples

7 is an exemplary view of a further embodiment of the present invention.

Referring to the drawings, a further embodiment shows a circuit arrangement 90 for driving the LED L by an alternating current power source. Such a circuit configuration unit 90 is commonly applied to the above-described original embodiment, another embodiment, and another embodiment 2, and this circuit configuration is a socket 2 of a fluorescent lamp, a halogen lamp, or an incandescent lamp to which power is input. And is electrically connected to the terminal portions 40, 80 adjacent thereto.

Referring to the drawings, the circuit configuration unit 90 is composed of a bridge diode rectifier circuit 91 for driving the LED (L), and the LED driver 92. In addition, the circuit configuration section 90 is configured by adding a constant current supply circuit section 93 to the configuration.

The bridge diode rectifying circuit unit 91 is configured to receive an AC power source that is a driving source of the device and convert it into a drive power source of the direct current type LED (L). The bridge diode rectifying circuit unit 91 may be provided in the form of an integrated chip of one chip.

The LED driver 92 is configured by connecting a certain number of LEDs (L) in series to emit light by the power input through the bridge diode rectifier circuit 91. That is, the specific number of LEDs (L) is configured to receive the desired voltage through the voltage drop of the power input through the bridge diode rectifier circuit 91 so that the LED (L) can be driven.

Specifically, since the LED (L) has a forward voltage of about 3.2V per unit, when the above-described LED (L) is connected in series of 60 to 72, about 192V ~ 230V is stepped down by the LED. Therefore, in this embodiment, 192 ~ 230V is removed from the rectified voltage of 220 ~ 300V and the remaining voltage is used for setting the current through a resistor (not shown, but mounted in series with the LED) to drive the LED (L) You will be able to.

The constant current supply circuit unit 93 is configured to supply the power rectified by the bridge diode rectifying circuit unit 91 at a constant amount of current at all times. The constant current supply circuit unit 93 may be configured in various circuit forms such as a transistor amplification circuit, an OP amplifier or a regulator circuit, and preferably may be a one-chip constant current IC.

1 is a perspective view of an LED lighting apparatus according to the present invention.

2 is a plan view of the LED lighting apparatus according to the present invention.

Figure 3 is an enlarged cross-sectional view of the LED lighting apparatus according to the present invention.

Figure 4 is a cross-sectional view of another embodiment 1 of the present invention.

5 is an enlarged cross-sectional view of another embodiment 1 of the present invention;

Figure 6 is another exemplary embodiment of the present invention.

Figure 7 illustrates a further embodiment of the present invention.

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

10, 70: color temperature conversion means 20, 50: base

22, 51: heat dissipation part 24, 52: heat conductive resin

30, 60: penetration cover 40, 80: terminal portion

L: LED B: PCB

Claims (12)

A base 20 and 50 in which a plurality of LEDs L are disposed; A transmission cover (30, 60) coupled to the base (20, 50) for receiving and diffusing light emitted from the LED (L); It is made up of the color temperature conversion means (10, 70) installed between the LED (L) and the transmission cover (30, 60) converts the color temperature of the light emitted from the LED (L) to white light, The color temperature converting means (10, 70) is formed by firing a resin mixed with a raw material having a light transmission characteristics, and a fluorescent pigment for converting the light color of the LED (L) and emitting light of the converted color to the outside, The bases 20 and 50 are provided with heat dissipation parts 22 and 51 on the other side of the side in which the transmission covers 30 and 60 are coupled to each other, and thus heat generated from the LED L may be transferred through the heat dissipation parts 22 and 51. And heat transfer resin 24 between the gap between the LED L and the heat dissipation portions 22 and 51 to increase the area where heat generated from the LED L is transferred to the heat dissipation portions 22 and 51. 52) LED lighting device is converted to a color temperature characterized in that the filling. delete The method of claim 1, wherein the color temperature conversion means (10, 70) The LED lighting device is a color temperature conversion, characterized in that it is selectively used as a single material or a mixture of two or more of glass, silicon, PMMA, PC, PS, PET, SAN, PVC as a raw material having light transmission characteristics. The method of claim 1, wherein the color temperature conversion means (10, 70) The LED lighting device is a color temperature conversion, characterized in that the composition is further mixed by adding a light diffusing agent for scattering and converting the incident light when mixing the fluorescent pigment. delete delete delete The method of claim 1, wherein the lighting device In order to be mounted and driven in the socket (1) of the fluorescent lamp, the base 20 is formed to have a lengthwise direction corresponding to the length of the fluorescent lamp to arrange a plurality of LEDs (L), and the transmission cover 30 is configured as a base. It is formed in a cylindrical shape of the length corresponding to the longitudinal direction of the (20), and the terminal portion 40 for being coupled to the socket (1) of the fluorescent lamp electrically connected to the LED (L) on both sides of the transmission cover (30) LED lighting device that is converted to a color temperature, characterized in that the installation. The method of claim 1, wherein the lighting device In order to be mounted and driven in the socket (2) of the halogen lamp or incandescent lamp, the base 50 on which the LED (L) is disposed is formed in a shape corresponding to the socket (2), and the transmission cover (60) is a halogen lamp or It is formed in the form of an incandescent lamp, the terminal portion 80 to be coupled to the socket 2 on the socket 2 side of the base 50 is configured so that the terminal portion 40 is electrically connected to the LED (L) LED lighting device is characterized in that the color temperature is converted. 10. The method according to claim 8 or 9, Color temperature converting means (10, 70) are disposed in front of the light emitted from the LED (L), The color temperature conversion means (10, 70) is formed by molding in the form of a resin in front of the LED (L), or is produced in the form of a film bonded to the inside of the transparent cover (30, 60), or the light of the LED (L) The LED lighting device is converted to a color temperature, characterized in that configured by selecting any one or more of the configuration is applied to the point of the discharge or the inside of the transmission cover (30, 60) printed. The method according to claim 1, 8, 9, In order to drive the LED (L) by an external AC power input, the LED (L) is electrically connected to the circuit configuration unit 90, The circuit configuration unit 90, A bridge diode rectifying circuit unit 91 which receives an AC power source that is a driving source of the device and converts the same into a power source for driving the LED L; In order to emit light by the power inputted through the bridge diode rectifier circuit 91, a specific number of LEDs L are connected in series to receive the desired voltage through the voltage drop of the inputted power, and emit LEDs 92. LED lighting device is converted to a color temperature, characterized in that it comprises a. The method of claim 11, wherein the circuit configuration unit 90 Color temperature is converted LED lighting device further comprises a constant current supply circuit unit 93 for supplying the power rectified by the bridge diode rectifying circuit unit 91 at a constant current at all times.

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