KR101162846B1 - muli-typed LED lamp - Google Patents

Abstract

The present invention allows the light to be evenly distributed through the cover to a wide range in the form of a date in the interior space, while controlling the brightness of the LED light source of the LED module as needed and can control the lighting of the LED module light source sequentially or selectively It relates to a type of LED lighting fixture. The LED lighting device includes an LED unit having a plurality of LED light sources, a heat sink fixed at the bottom of the LED unit to cool heat generated from the LED unit, a base accommodating the heat sink and the LED unit as its rectangular space portion, and a space portion thereof. And a semicircular cover coupled to the base to surround the LED unit and the heat sink, and a pair of cover sockets surrounding the ends of the semicircular cover to seal the LED unit and the heat sink.
According to the LED lighting device, the luminance of the light can be increased and the light source can be efficiently used and heat-radiated cooling can be performed more efficiently than when the entire LED module light source is sealed with a translucent cover for light transmission.

Description

LED lighting fixture of multi-type {muli-typed LED lamp}

The present invention relates to an LED luminaire using an LED module as a light source, and in particular, a multi-type that enables a range of light divergence to be expanded by using a plurality of LED module light sources so as to uniformly irradiate a wider space in a straight shape. It's about LED lighting fixtures.

Conventionally, incandescent lamps or fluorescent lamps have been mainly used as lighting fixtures to produce an interior decoration or a cozy atmosphere. Incandescent lamps are inexpensive to manufacture, but they have been used lately because they generate a lot of heat in converting electrical energy into light energy. There is a problem that is short and lifespan.

 On the other hand, LED lighting fixtures are in the spotlight as lighting fixtures because they have about 10-15% lower power consumption, more than 100,000 hours of semi-permanent lifespan, and environmentally friendly characteristics compared to conventional incandescent or fluorescent lamps.

In the selection of lighting fixtures, conventional lighting fixtures such as incandescent lamps, tungsten halogen lamps, and fluorescent lamps have been eliminated, so that LED lighting fixtures are often used as lighting fixtures.

LED luminaires have the advantages of low power consumption, low operating costs, low maintenance costs, long life, and high light efficiency compared to conventional light fixtures. In addition, the LED luminaire does not require a choke sensor, is stable in operation, easy to install, and has excellent stability. Therefore, the research and development of LED lighting fixtures that illuminate the interior space of general buildings is proceeding in consideration of two aspects of energy efficiency and satisfying the needs of consumers.

In general, LEDs are used to create a minority carrier injected using a pn junction structure of a semiconductor, and emit light by recombination. The light emitted from these LEDs has a strong straightness and is suitable for use as a general lighting device. Did not do it. In recent years, however, LEDs have been developed to overcome the straightness of light due to the advantages of LEDs. One of them is a technology related to an LED fluorescent lamp disclosed in Korean Patent Registration No. 10-0784886 (hereinafter, referred to simply as "prior art document"). The prior art document also relates to a technique for increasing the light transmittance by uniformly irradiating a wide space by providing a vitreous tube coated with a fluorescent material in order to compensate for the disadvantage of the straightness of the light. However, the prior art document may not be suitable for use as an indoor light because the light transmission amount is different according to the fluorescent material and the light propagation distance due to the diffuse reflection is relatively short, so that a large space cannot be evenly distributed.

The present invention has been invented to compensate for the above-mentioned disadvantages, and an object of the present invention is to use a LED module light source as a multi-type while allowing light to be evenly distributed through a cover to a wide range in the form of a date in an indoor space. Accordingly, it is to provide a multi-type LED lighting device that can adjust the brightness of the LED module light source and sequentially or selectively control the lighting of the LED module light source.

In order to achieve the above object, a multi-type LED lighting apparatus according to the present invention includes an LED unit having a plurality of LED light sources, a base accommodating the LED unit as its rectangular space portion, and a plurality of LED units at four inner edges of each end thereof. Receiving protrusions and a plurality of engaging grooves are formed, the semicircular cover having a space thereof and engaging the base to surround the LED unit, and the semicircular cover has a plurality of receiving projections and a plurality of engaging grooves formed at both ends thereof; It consists of a pair of hemispherical caps each having, so that the receiving protrusions of the hemispherical caps are inserted into the coupling grooves of the base and the receiving protrusions of the base are inserted into the coupling grooves of the hemispherical caps so that the base and the semicircular cover are fixedly coupled. To enclose and seal both ends of semi-circular cover One pair consists of the widely investigated to give uniformly dispersed by the light emanating from the LED light source of the LED unit through the semi-circular portion of the semi-circular cover the space portion and semi-circular cover of the space into a date type comprising a socket cover.

Each of the cover sockets includes a semicircular planar step and a plurality of through holes formed in the central portion of the end of the cover socket, so that the connector of the LED unit passes through the through holes of the cover sockets, respectively. Push it further towards the center to seal both openings of the semicircular cover. Each of the cover sockets includes a heat sink that has a flat top surface and a bottom surface, a hemispherical side surface, and is positioned between the LED unit and the square space of the base to cool the heat generated from the LED unit.

According to the LED lighting apparatus of the multi-type according to the present invention, the luminance of the light can be increased and the light source can be efficiently used and heat-dissipated and cooled more efficiently than when the entire LED module light source is sealed with a translucent cover for light transmission.

1 is an exploded perspective view of a multi-type LED lighting device according to the present invention.
2 is a combined perspective view of the LED lighting fixture of the multi-type according to the present invention.

Multi-type LED bulb lighting fixture according to the present invention is fixed to the LED unit having a plurality of LED light source, the LED unit is fixed to the heat sink, heat sink and LED unit to cool the heat generated from the LED unit to accommodate the rectangular space portion Through the semi-circular part of the cover and the cover, including a base, a semi-circular cover coupled with the base to enclose the LED unit and the heat sink, and a pair of cover sockets for enclosing both ends of the semi-circular cover to seal the LED unit and the heat sink. The light emitted from the LED light sources of the LED units is uniformly distributed and distributed in the space in the form of a straight line, and is configured to more efficiently cool the heat generated by the LED unit through the space portion and the heat sink.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the LED lighting fixture of the multi-type according to the present invention and the action exerted by the configuration.

1 is an exploded perspective view of a multi-type LED lighting device according to the present invention.

The multi-type LED lighting device according to the present invention includes a semicircular cover 30 having a space portion as can be seen in FIG. The semicircular cover has a space portion 23 at the central portion of the semicircular shape and consists of a pair of hemispherical caps 20 and a base 10. Each hemispherical cap 20 has receiving projections 22, 22 ', 24, 24' and engaging grooves 21, 21 ', 25, 25' formed at both ends.
The base 10 has a top surface and a bottom surface in a planar shape, a side surface in a hemispherical shape, and has a space portion 13 on an inner surface thereof. In addition, the receiving protrusions and the coupling grooves are formed on the inner surfaces of both ends of the base, that is, the four corner portions. In FIG. 1, only the receiving protrusion 11 and the coupling groove 12 of one of the four corners of the base 10 are illustrated. Hemispherical caps 20 couple to the base 10.

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The receiving protrusions 22, 22 ′, 24, 24 ′ of the hemispherical caps 20 are inserted into the engaging grooves of the base 10 and the receiving protrusions of the base 10 are hemispherical caps 20. The hemispherical caps 20 and the base 10 are joined in such a manner that they are inserted into the coupling grooves 21, 21 ′, 25, 25 ′ of the spool. In other words, as shown in FIG. 1, the receiving protrusion 22 of the hemispherical cap 20 is inserted into the engaging groove 12 of the base 10, and the receiving protrusion 11 of the base 10 is shaped. The hemispherical cap 20 and the base 10 are inserted into the coupling groove 21 of the cap 20 on the hemisphere.

Before coupling the semi-circular cover made of hemispherical caps 20 to the base 10, the heat sink 80 is first inserted into the space 13 of the base 10. Then, the LED unit 40 is placed on the heat sink 10. The LED unit 40 includes an LED module having a plurality of LEDs, a circuit board having a plurality of LED modules arranged therein, a current conversion mechanism for converting AC into direct current, and a plurality of connectors electrically coupled to the circuit board ( 41, 42, 43, 44). The heat sink 80 serves to dissipate and cool the heat generated from the LED unit 40 having the above configuration. In addition, since the light is reflected by the surface of the heat sink 80, it is possible to prevent the loss of light and to efficiently use the light.

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Each of the cover sockets 50 and 60 has a plurality of through holes 51, 52, 62, 63 formed at semi-circular planar steps 53 and 63 and a central portion of the end of the cover socket. It is included. Each of the cover sockets 50 and 60 has a flat top portion and a bottom half surface and a hemispherical side surface.

As described above, the semi-circular cover made of the hemispherical caps 20 is covered with the heat sink 80 and the LED unit 40 in the rectangular space 13 of the base 10 to cover the base 10 and the base 10. Join the hemispherical caps 20. Then, both ends of the semicircular cover are inserted into the cover sockets 50 and 60. At this time, the connectors 41, 42, 43, 44 of the LED unit 40 are penetrated into the through holes 51, 52, 62, 63 of the cover sockets 50, 60, respectively, and then the cover. The sockets 50 and 60 are further pushed toward the center of the semicircular cover to seal both openings of the semicircular cover. Then as shown in FIG. 2 is a combined perspective view of the LED lighting fixture of the multi-type according to the present invention.

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As can be seen in Figure 2, the LED lighting fixture of the multi-type according to the present invention is a semi-circular cover 30, cover sockets 50, 60, space 23, a plurality of connectors 41, 42, 43, 44). The connectors 41, 42, 43 and 44 of the multi-type LED luminaire of the present invention are respectively inserted into and coupled to outlets of a fluorescent lamp shade (not shown).

When the user presses the power switch terminal to turn on the LED lighting fixture of the multi-type of the present invention, power is supplied to the circuit board of the LED unit 40 through the connectors 41, 42, 43, 44 and then the LEDs. The light sources emit light so that the LED lighting device is turned on. The LED light sources of the LED unit 40 can irradiate the semi-circular cover 30 with the refracted light and the direct light through the rectangular space portion 13 of the semi-circular cover 30 to a wide range in the form of a straight line in the indoor space. Through the semi-circular cover 30 can be evenly irradiated with light, it is possible to increase the brightness of the light.

In this state, when the user operates the switch or the connecting weight, the plurality of LED units 40 sequentially light up. For example, the LED unit 40 on the left side lights up from the LED unit 40 on the right side or vice versa. Control of such lighting of the plurality of LED units 40 is performed by a controller (not shown) located between the LED unit 40 and the heat sink 80. The LED unit 40 and the controller are electrically connected to each other. Further, by selectively operating an input device (not shown), the user can turn on the LED unit 40 of the required portion of the plurality of LED units 40 in the space. This lighting control is also performed by the controller. Furthermore, the controller has a dimmer function to adjust the brightness of the LED light source of the LED unit 40 that is turned on. Since these functions of the controller are controlled by the state of the built-in program, and these functions are general technology, detailed description thereof is not provided.

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Thus, the user may weaken the brightness of the light source of the LED unit 40 in the portion that does not need light and make the brightness of the light source of the LED unit 40 in the required portion hard so that the required amount of light may be emitted. By doing so, the user can emit as much light as necessary, and at the same time, the unnecessary parts can emit light or a small amount of light to reduce power consumption.

10: base 11, 22, 24: receiving protrusion
20: cap 12, 21, 25: coupling groove
30: cover 13, 23: space part
40: LED unit 41, 42, 43, 44: connector
50, 60: cover socket 51, 61: step
52, 53, 62, 63: through hole 80: heat sink

Claims (5)

A base for accommodating the LED unit 40 having a plurality of LED light sources and the LED unit 40 as a rectangular space portion 13, and having a plurality of receiving protrusions and a plurality of coupling grooves formed at four corners on both inner surfaces thereof. 10, a semicircular cover 30 coupled to the base 10 to surround the LED unit 40, and a pair of cover sockets 50 and 60 for wrapping and sealing both ends of the semicircular cover. The semi-circular cover 30 is a pair of hemispherical caps having a plurality of receiving protrusions 22, 22 ', 24 and 24' and coupling grooves 21, 21 ', 25 and 25'. And a plurality of connectors 41, 42, 43, and 44 electrically connected to circuit boards at both ends of the LED unit 40 to be inserted into the through holes of the cover socket. In the led lighting fixtures,
The semi-circular cover 30 is the semi-circular cover and the base as fixed to the base 10 in the state interposed through the LED unit 40 and the heat sink 80 by perforating the space 23 in the center portion The light of the LED unit is irradiated in both directions of the, but induces the refractive divergence of the light transmitted from the LED unit through the space portion 23 of the semi-circular cover on one side, and to the other side the square space 13 of the base Multi-type LED lighting fixture, characterized in that configured to be guided through the direct divergence of light. delete delete delete delete

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