KR101057678B1 - Illumination apparatus - Google Patents

Abstract

PURPOSE: An illumination apparatus is provided to prevent a shadow area due to the shortage of the intensity of radiation under the illumination apparatus by guiding the light form a plurality of optical modules to both sides. CONSTITUTION: An illumination apparatus comprises a socket portion(10), a body portion, a capping part, a connection part, and an optical source section(50). The body portion is comprised of a hemispherical support connected to the socket and a cylindrical body(21). A driving circuit is mounted inside the body portion which has smaller diameter than the hemispherical support. The operation of a light source is controlled by supplying a certain power through a wire.

Description

Lighting apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting apparatus, and more particularly, to a lighting apparatus using a light emitting diode (LED) or an organic light emitting diode (OLED) as a light source.

In general, incandescent lamps or fluorescent lamps are widely used as indoor or outdoor lighting lamps. In addition, street lamps installed on the road are installed such that sodium lamps or ordinary metal lamps are regularly arranged at intervals of approximately 30M to 50M along the road. The incandescent lamp used as a light source of the illumination is less efficient by heating the filament to generate light, and the fluorescent lamp generates light by emitting a phosphor, which has less power consumption than the incandescent lamp, but has a phosphor inside. Hazardous mercury (Ag) is used. In addition, sodium and metal used as a light source of the street light also has the disadvantage of high power consumption and short life.

In recent years, lighting apparatuses using LEDs or OLEDs as light sources have been developed. In the above, LED or OLED has a long life and low power consumption. In particular, the lifespan is more than three times longer than general fluorescent lamps and has excellent performance as a lighting material because it has brightness equivalent to fluorescent lamps in brightness.

However, a light source using an LED or an OLED has excellent brightness but a small viewing angle, and there is a problem in that the light source is extremely limited due to the heat generation problem of the light source.

Therefore, the necessity of the development of a lighting device that solves the small viewing angle and the heat generation problem of the light source by using LED or OLED as a light source is increasing.

Lighting device according to the prior art for solving the above-mentioned problem is disclosed in Korean Patent No. 10-0996703 (name of the invention: lighting device) registered and filed by the present applicant.

The lighting apparatus according to the related art includes a socket part formed of a bolt socket, a body part including a hemispherical support having one side connected to the socket part, formed in a cylindrical shape, and having an internal space in which a driving circuit and an electric wire are embedded, and the body. A capping portion having a plurality of fastening members connected to the other side of the portion and having circumferential portions spaced apart at equal intervals, a hinge portion having a plurality of hinges rotatably fastened between the plurality of fastening members; A light source unit consisting of a plurality of optical modules arranged with a plurality of light emitting elements each of which is rotated in a first direction with the hinge part around the plurality of fastening members by means of two hinges; It includes a heat dissipation unit having a plurality of heat dissipation plate formed to contact.

The plurality of optical modules includes a cover that seals the lens covering the plurality of light emitting devices, the plurality of optical modules including the cover has a plurality of heat sinks constituting the heat dissipation portion and both ends of the first and second coupling member Is fastened by.

The plurality of optical modules rotate 180 ° in the first direction and 360 ° in the axial direction while the other end draws an arc while one end is fastened to each of the plurality of hinges constituting the hinge.

Therefore, the optical module constituting the light source unit may be used as a single product by controlling not only the indoor lighting but also the irradiation angle and the irradiation direction of light, as well as various products such as a decorative lamp or an indirect lighting lamp.

When the lighting apparatus according to the prior art is used as the indoor lighting, the plurality of optical modules are rotated about 90 ° in the first direction to intensively illuminate the immediate part of the lighting device or rotate the light by about 45 °. Illuminate the entire interior of the room, including the surrounding and immediate parts.

In addition, the body portion has a mounting groove in which the optical module is mounted.

However, the lighting apparatus according to the prior art is that the light is blocked from being irradiated to the outside in both directions of the optical module by the first and second coupling members formed at both ends of the plurality of optical modules when illuminating the entire interior of the room The direct portion of the lighting device has a problem that the shading occurs due to the lack of light. In addition, since the length of the body portion is constant, there was a problem that aesthetics is lowered when a plurality of optical modules are unfolded.

Accordingly, it is an object of the present invention to provide a lighting device that can prevent the shading caused by the lack of light in the portion directly under the lighting device when the entire interior lighting is illuminated.

Another object of the present invention is to provide a lighting device that can prevent the appearance of deterioration when unfolding a plurality of optical modules by adjusting the length of the body portion.

Lighting device according to an embodiment of the present invention for achieving the above object has a hemispherical support and a cylindrical body having a socket portion, one side is connected to the socket portion and the annular locking jaw is formed at the front end and the drive circuit and the wire It includes a body portion having an internal space therein, and a fastening member connected to the body portion and separated from the circumference at equal intervals, wherein the fastening member has a larger diameter than the cylindrical body with respect to the end. A connecting part including a capping part and a hinge and a guide rotatably connected between the fastening members, and rotated by a hinge of the connection part, rotated about the fastening member, and slidably moved in the longitudinal direction by the guide. A cover for sealing a plurality of light emitting elements and heat generated from the plurality of light emitting elements to the outside Shipment comprises a light source consisting of a plurality of the optical modules having a heat sink.

The body is formed with a seating groove is formed long in a semicircle in the longitudinal direction on the surface.

In the above, the body is formed of N pieces (N is a natural number) having different diameters in sequence, and the length is adjusted by folding.

The hinge further includes a rotating shaft having an upper surface contacted with a heat sink of the optical module and inserted into a recess formed in the fastening member at a lower portion thereof.

In the guide is formed to protrude to the upper surface of the hinge.

A plurality of light emitting elements constituting the optical module is formed of an LED or an OLED.

The plurality of optical modules further include a lens covering each of the plurality of light emitting devices.

In the heat sink is a guide groove in which the guide of the connecting portion is inserted is formed long in the longitudinal direction.

Thus, the present invention can prevent the light generated from the plurality of optical modules to be irradiated to the outside in both directions to prevent the shading due to the lack of light in the portion directly below the lighting device, and also to adjust the length of the body portion Therefore, when a plurality of optical modules are unfolded, there is an advantage to prevent the appearance of deterioration.

1 is a side view of a lighting apparatus according to the present invention.
Figure 2 is a side view showing an example of the unfolded light source unit of the lighting apparatus according to the present invention.
Figure 3 is a side view showing a state in which the light source portion of the lighting apparatus according to the present invention is expanded and the length of the body portion is reduced.
4 is a cross-sectional view taken along the line AA of FIG. 3.
5 is an enlarged cross-sectional view taken along line BB of FIG. 1 and enlarged.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a side view of a lighting apparatus according to the present invention, Figure 2 is a side view showing an example of an unfolded state of the light source of the lighting apparatus according to the invention, Figure 3 is an unfolding body of the light source of the lighting apparatus according to the invention It is a side view which shows the state which reduced the length of a part, and FIG. 4 is sectional drawing cut by the AA line of FIG.

The lighting apparatus according to the present invention includes a socket part 10, a body part 20, a capping part 30, a connection part 40, and a light source part 50.

In the above socket portion 10 is formed of a bolt socket coupled to the receiving socket (not shown) of the general lighting lamp.

The body portion 20 is formed of a hemispherical support 27 and a cylindrical body 21, one side of which is connected to the socket portion 10, and has an internal space in which a driving circuit (not shown) is built. The body 21 is formed to have a diameter smaller than the hemispherical support 27. From above

The driving circuit embedded in the internal space of the body portion 20 controls the operation of the light source unit 50 while power is input through the socket unit 10 to supply a constant power source to the light source unit 50 through a wire. . In addition, the body 21 has a seating groove 22 formed long in a semicircle in the longitudinal direction on the surface. In the seating groove 22, the optical module 52 constituting the light source unit 50 to be described later is seated, that is, the optical module 52 is fitted in the upper part, and the optical module 52 is fitted in the lower part. It is formed to have a space apart without being supported.

In addition, as shown in FIG. 4, the body 21 is N-stage (N is a natural number), for example, the first to third portions 21-1, 21-2, and 21-3. It may be formed of three parts having different diameters of and be adjusted in length by folding. In the above, the first to third portions 21-1, 21-2, and 21-3 constituting the body 21 are gradually moved from the first portion 21-1 to the third portion 21-3. The diameter is reduced. That is, the inner diameter of the first portion 21-1 is equal to the outer diameter of the second portion 21-2, and the inner diameter of the second portion 21-2 is the outer diameter of the third portion 21-3. It is formed to be equal in size. Therefore, the second portion 21-2 slides and overlaps in the first portion 21-1, and the third portion 21-3 slides and overlaps in the second portion 21-2 so that the body 21. Can reduce the length.

In the above, the first and second portions 21-1 and 21-2 have holes 23, respectively, and the second and third portions 21-2 and 21-3 have stoppers 25. . In the above, each of the holes 23 formed in the first and second portions 21-1 and 21-2 may include first to third portions 21-1 and 21-2 (that constitute the body 21). The stopper 25 formed in the second and third portions 21-2 and 21-3 is fitted when the 21-3) is slid to unfold or overlap the overlap to increase or decrease the length so that the first to the first The three parts 21-1, 21-2 and 21-3 are prevented from flowing.

The capping part 30 is formed to be connected to the other side of the body 21, that is, the third part 21-3. In the capping part 30 has a plurality of fastening members 32 separated by circumference parts at equal intervals. The capping part 30 is formed to protrude with a diameter larger than the body 21 based on the ends of the plurality of fastening members 32.

The connection part 40 includes a hinge 42 and a guide 46 and is rotatably connected between a plurality of separated fastening members 32 of the capping part 30. The connecting portion 40 is installed so that the rotating shaft 44 formed on the hinge 42 is inserted into the groove 33 formed in the plurality of fastening members 32 of the capping portion 30.

The light source unit 50 includes a plurality of optical modules 52 including a heat sink 62, and each of the plurality of optical modules 52 is rotated and slid by the connection unit 40 and is detachably connected. In the above, each of the plurality of optical modules 52 has a plurality of light emitting elements 56, preferably 1 ~ 24 light emitting elements 56 on the printed circuit board 54 formed in a narrow width 1 ~ 1 It is mounted in two rows. The plurality of light emitting elements 56 may be configured as LED or OLED. Since the light source unit 50 is formed of a plurality of optical modules 52 in the above, only a broken one of the plurality of optical modules can be replaced during repair, thereby reducing maintenance costs.

In the plurality of light emitting devices 56 constituting the plurality of optical modules 52, any one of the devices generating light of red (R), green (G), blue (B) and white (W) Is selected. In addition, the plurality of light emitting devices 56 constituting the plurality of optical modules 52 has the same printed circuit board as elements generating light of red (R), green (G), blue (B), and white (W). It may be mounted on 54.

The heat sink 62 is formed in a semi-cylindrical shape, and the plurality of heat sinks 62 are formed of copper, aluminum or magnesium, ceramics, or alloys thereof having excellent heat transfer characteristics to form a plurality of optical modules 52. The heat generated during the operation of the light emitting device 56 is discharged to the outside.

In addition, the heat sink 62 is formed with a guide groove 64 long in the longitudinal direction. The guide groove 64 is a guide 46 of the connecting portion 40 is inserted to guide the guide 46 when sliding the plurality of optical modules 52 in the longitudinal direction.

Each of the plurality of light emitting elements 56 constituting the plurality of optical modules 52 is sealed by the lens 58. Each of the lenses 58 is formed of a transparent synthetic resin by diffusing or concentrating light emitted from the plurality of light emitting devices 56. In addition, each of the lenses 58 may be formed of a translucent synthetic resin to prevent glare from light emitted from the plurality of light emitting elements 56.

In addition, each of the plurality of optical modules 52 is sealed by a cover (60). That is, the cover 60 is fastened to include the side surface of the heat sink 62 and sealed in a state of covering the plurality of light emitting elements 56 and the lens 58. The plurality of covers 60 are formed in a semi-cylindrical form of a transparent synthetic resin, the plurality of covers 60 also covers the side surface of the heat sink 62, so that the light generated from each light emitting device 56 is an optical module ( 52) to the outside through both sides.

Although each of the plurality of optical modules 52 has been described as including a lens 58 and a cover 60, the present invention may include only the cover 60 without including the lens 58. When each of the plurality of optical modules 52 does not include the lens 58, the cover 60 is formed of an opaque synthetic resin to diffuse the light generated by the light emitting device (56).

Accordingly, as shown in FIG. 2, the plurality of optical modules 52 are rotated using the hinges 42 and slide in the longitudinal direction so that each one end is collected at the lower portion of the capping part 30. When it is applied to illuminate, the light generated from the light source unit 50 is radiated to the outside through both sides as well as the front of the plurality of optical modules 52. Therefore, in this state, the lighting device according to the present invention is radiated through the front of the plurality of optical modules 52 and radiated to the outside through not only the periphery of the room but also the two sides, that is, one side corresponding to the capping part 30. It is also illuminated underneath the device. At this time, since the direct portion of the lighting device is radiated through the side of the plurality of optical modules 52, it is possible to prevent the shading caused by the lack of light.

FIG. 5 is an enlarged cross-sectional view enlarged by cutting the line B-B of FIG. 1 to illustrate the state in which the optical module 52 is connected to the connection part 40.

The connection part 40 includes a hinge 42 and a guide 46. The hinge 42 has the same curvature so that the upper surface is in contact with the heat sink 62 of the optical module 52 and the lower portion is inserted into the groove 33 formed in the plurality of fastening members 32 of the capping portion 30. It is formed in a generally 'T' shape having a rotating shaft 44.

In addition, the guide 46 is formed in a 'T' shape on the upper surface of the hinge 42 of the general 'T' shape. The guide 46 is fastened so that the guide groove 64 formed on the heat dissipation plate 62 is fitted to the optical module 52.

Therefore, the hinge 42 of the connecting portion 40 causes the optical module 52 to contact and be spaced apart from the body 21 by rotation, and the guide 46 is also coupled to the guide 46 to be coupled to the optical module 52. ) To slide in the longitudinal direction.

As described above, the present invention is only one embodiment, and the present invention is not limited to the above-described embodiments, and various modifications may be made by those skilled in the art within the technical spirit of the present invention. It is possible.

Claims (8)

With the socket part,
A body part having one side connected to the socket part and having a hemispherical support and a cylindrical body having an annular locking jaw formed at a distal end thereof, and having an internal space in which a driving circuit and an electric wire are embedded;
And a fastening member connected to the body portion and having a circumferential portion spaced apart at equal intervals, wherein the fastening member has a diameter larger than that of the cylindrical body with respect to the end;
A connection part including a hinge and a guide rotatably connected between the fastening members;
A cover for sealing a plurality of light emitting elements arranged and rotated by the hinge of the connecting portion, rotated about the fastening member and slidably moved in the longitudinal direction by a guide, and emits heat generated from the plurality of light emitting elements to the outside. Lighting device comprising a light source unit consisting of a plurality of optical modules having a heat sink.
The lighting apparatus according to claim 1, wherein the body has a seating groove formed on the surface of the body in a longitudinal direction in a semicircle.
The lighting apparatus of claim 1, wherein the body is formed of N pieces (N is a natural number) having sequentially different diameters, and the length of the body is foldable.
The lighting device of claim 1, wherein the hinge further comprises a rotating shaft having an upper surface contacted with a heat sink of the optical module and inserted into a recess formed in the fastening member at a lower portion thereof.
The lighting device of claim 4, wherein the guide protrudes from an upper surface of the hinge.
The lighting apparatus according to claim 1, wherein a plurality of light emitting elements constituting the optical module are formed of LEDs or OLEDs.
The lighting apparatus of claim 1, wherein the plurality of optical modules further include lenses respectively covering the plurality of light emitting devices. The lighting device according to claim 5, wherein the heat dissipation plate has a guide groove in which the guide of the connection part is inserted in a longitudinal direction.

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