KR101537751B1 - Illumination apparatus - Google Patents

Abstract

According to one embodiment of the present invention, a lighting apparatus includes a housing which includes an inner installation space and a lower side which is opened, a heat sink which is installed on the inner installation space and has a circumference corresponding to the inner side of the housing, a substrate which is located on the inner installation space, is connected to the lower side of the heat sink, and mounts a plurality of light sources on the lower side thereof, a lens member which is installed on the inner installation space, is located on the lower side of the heat sink and is arranged on a position corresponding to the each light source, and a lifting member which is connected to the substrate, lifts the substrate, and controls a distance between the light sources and the lens member.

Description

ILLUMINATION APPARATUS

The present invention relates to a lighting apparatus, and more particularly, to an illumination apparatus capable of effectively radiating heat generated from an LED illumination and adjusting an irradiation angle of light emitted from the LED illumination.

Generally, bulbs or fluorescent lamps are widely used as indoor or outdoor lighting lamps, but these bulbs and fluorescent lamps have a short life span and should be frequently replaced. In addition, the conventional fluorescent lamp has a problem that the illuminance gradually decreases due to deterioration over time of its use.

In order to solve such a problem, a lighting apparatus using an LED having a fast response speed, a high electro-optical conversion efficiency, a long lifetime, a low power consumption, a high luminance and an easy controllability has been developed.

Recently, a lighting apparatus using a high output LED is being developed. Such a lighting apparatus using a high output LED can satisfy the illuminance in an illumination space, but since a high temperature is generated from the LED, a complicated heat radiation apparatus The cost of the product has increased and the electric efficiency has been lowered.

In addition, since the light emitted from each LED is directly diffused from the LED to the illumination space, the light is attenuated on the diffusion path, and in the indoor and outdoor spaces requiring normal illumination, There was a limit that the illumination could not be secured sufficiently.

That is, LEDs have various advantages such as high electro-optical conversion efficiency, long lifetime, low power consumption and high luminance, but since the output of the LED is weak, the reach distance of light is short so that it is satisfactory in a desired illumination space indoors or outdoors There was a problem that I was not able to obtain enough illumination.

Korean Patent Registration No. 10-0955037. 2010. 04. 28.

An object of the present invention is to provide an illumination device capable of adjusting the irradiation angle of a light source.

Another object of the present invention is to provide an illumination device capable of effectively dissipating heat generated from a light source.

Other objects of the present invention will become more apparent from the following detailed description and drawings.

According to an embodiment of the present invention, an illumination device includes: a housing having an interior space and a bottom open; A heat sink installed in the internal installation space and having a circumference corresponding to the inner surface of the housing; A substrate disposed in the internal space and connected to a lower portion of the heat sink, and having a plurality of light sources mounted on a lower surface thereof; A lens member disposed in the internal space and located at a lower portion of the substrate and disposed at a position corresponding to each of the light emitting diodes; And an elevating member connected to the substrate to elevate the substrate and adjust a distance between the light source and the lens member.

The lens member having cylindrical lens holders having an outer diameter larger than that of each of the light sources and having upper and lower openings; Lenses inserted and fixed in the lens holders, respectively; And a lens fixing plate having support holes through which the lens holders are inserted and supported, the lens fixing plate being installed at a lower portion of the substrate.

When the light source is moved away from the lens by raising the substrate, an irradiation angle of the light emitted from the light emitting diode may be reduced.

The housing includes a hood having upper and lower openings, respectively, and having upper through-holes formed through the side surfaces; And a body connected to a lower portion of the hood and having upper and lower openings, respectively, and having lower through holes formed through the side surfaces thereof.

The lighting apparatus further includes an upper cover installed on the upper portion of the hood to close the opened upper portion of the hood and having a lift hole formed on an inner surface thereof in a vertical direction, An elevating shaft inserted into the upper portion of the cover, the lower portion of the elevating shaft being inserted into a screw hole formed in the substrate to vertically move the substrate by rotation; And an adjusting dial provided at an upper end of the elevating shaft and rotating the elevating shaft.

The elevating shafts are provided in plural along the edge of the substrate, and the elevating member includes a driving pulley installed on the elevating shaft, respectively; And a power transmitting member connected to each of the drive pulleys to transmit a driving force of the drive pulley.

The drive pulley is a timing gear, and the power transmitting member may be a timing belt having equally spaced grooves corresponding to the timing gear.

The hood includes: a cylindrical upper hood having the upper through-hole; And a lower hood connected to a lower portion of the upper hood, the lower hood having a larger cross sectional area than the upper end.

The body includes: a cylindrical upper body connected to a lower end of the lower hood and having the lower through holes; And a cylindrical lower body disposed at a lower portion of the upper body and concentric with the upper body and having a larger radius than the upper body, wherein the lower body forms the internal space.

The lighting device may further include a cooling fan disposed inside the lower hood and discharging air introduced from the upper through hole to the lower through hole.

The illumination device includes a transparent cover which is disposed at a lower portion of the lens fixing plate and is fixed to a lower end of the body and blocks the opened lower portion of the body from the outside; And a filter member installed along the periphery of the hood and the body to prevent foreign matter from flowing through the upper and lower through holes.

According to an embodiment of the present invention, the air introduced through the cooling fan absorbs the heat of the heat sink by passing air through the heat dissipating piece and the heat dissipating protrusion, and the heated air is discharged to the lower through hole and cooled in a natural air- . Further, by adjusting the distance from the lens to the LED, which is the light source, it is advantageous not only to change the irradiation angle but also to contribute to the improvement of the luminance of the irradiation area.

FIG. 1 is an explanatory view showing illuminance and light distribution characteristics in a general illumination device.
2 is a schematic view of a lighting apparatus according to an embodiment of the present invention.
3 is a cross-sectional view of the illumination device shown in Fig.
4 is a rear view of the illumination device shown in Fig.
5 is an exploded perspective view of the illumination device shown in Fig.
6 is a view showing a cooling process of the lighting apparatus according to driving the cooling fan.
Figs. 7 and 8 are views showing changes in the irradiation angle in accordance with the rotation of the elevation member. Fig.

In order to facilitate understanding of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below will be described on the basis of the embodiments best suited to understand the technical characteristics of the present invention and the technical features of the present invention are not limited by the embodiments described, Illustrate that the present invention may be implemented as embodiments.

Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. In order to facilitate the understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, among the constituent elements that perform the same function in the respective embodiments, the related constituent elements are indicated by the same or an extension line number.

Hereinafter, the light source will be exemplified as an LED, but the light source may be replaced by any one or more of various light sources such as a filament lamp, a halogen lamp, a fluorescent light source, a phosphorescent light source, a rare gas, and a light emitting polymer. In addition, "LEDs" may include, but are not limited to, various semiconductor based structures that emit light in response to current, light emitting polymers, organic light emitting diodes (OLEDs), electroluminescent strips, and the like.

In general, the irradiation angle of illumination is used for a small number of irradiation angles, for example, 15 degrees, 30 degrees, 45 degrees, and 60 degrees. , A searchlight, a sports complex, a port, an airport, a pier, a cargo terminal, and the like.

Further, in order to obtain the angle of inclination of the illumination, there is a disadvantage that the thickness and the volume of the lens must be increased. Since a large area of the substrate must be secured, the weight of the lens is increased due to the large quantity and weight thereof, In addition to this, the structure also becomes complicated. Therefore, there is a great difficulty in improving the quality of the product, and it is necessary to produce a practical product at a price desired by the consumer.

FIG. 1 is an explanatory view showing illuminance and light distribution characteristics in a general illumination device. As shown in Fig. 1, the illumination device 100 diffuses light emitted from each LED 10 directly from the LED 10 to the irradiation area, resulting in light attenuation on the diffusion path, There is a problem that sufficient illumination can not be ensured in a required indoor or outdoor space. In particular, the LED 10 has a fixed angle (e.g., 60 degrees) of irradiation angle, which makes it difficult to convert the irradiation area.

That is, the LED 10 has various advantages such as high electric-light conversion efficiency, long lifetime, low power consumption and high luminance. However, since the output of the LED 10 is weak, the reach distance of the light is short, There is a disadvantage in that satisfactory illumination can not be obtained in a desired irradiation area. In addition, since the light emitted from each of the LEDs 10 goes straight in the lighting apparatus 100 using the conventional LED 10, the light distribution characteristic of illuminating the periphery of the lighting apparatus is very poor, It was difficult to apply it to illumination.

FIG. 2 is a schematic view of a lighting apparatus according to an embodiment of the present invention, and FIG. 3 is a sectional view of the lighting apparatus shown in FIG. Fig. 4 is a rear view of the illumination device shown in Fig. 2, and Fig. 5 is an exploded perspective view of the illumination device shown in Fig. 2 to 5, the lighting apparatus 100 includes a housing 20 having an internal installation space, a substrate 20 on which a plurality of LEDs 10 are arranged and a dedicated drive circuit for driving the LED 10 A heat sink 30 which abuts against the upper surface of the substrate 11 to dissipate heat generated from the substrate 11 and the LED 10 and a plurality of lenses that correspond to the lower portion of the LED 10 And a lens member 50.

The housing 20 has a hood 15 having a lower open shape and a body 25 disposed under the hood 15 and engageable with a lower portion of the hood 15, The apparatus 100 may be made of synthetic resin and a thin metal plate to reduce the weight. Further, the lighting apparatus 100 may include a bracket 92 and a fixing member 94 that are fixed to the housing so as to be fixed to the structure or the frame.

The hood 15 has a cylindrical upper hood 13 having upper through holes 17 formed in parallel to each other along the side surface and a lower hood 13 connected to a lower portion of the upper hood 13, 14). An LED stabilizer (LED SMPS) 19 is fixedly mounted on the upper hood 13 and can supply current to the substrate 11 through the LED ballast.

The body 25 is coupled to a lower end of the lower hood 14 and is disposed at a lower portion of the upper body 23 and a cylindrical upper body 23 having lower through holes 27 formed in a side- And a lower body (24) concentric with the upper body (23). The lower body 24 has a larger radius than the upper body 23, and an internal space is formed in the lower body 24. The upper body 23 and the lower body 24 may be connected to each other through a connecting portion 22. The body 25 may have a bottom opened shape.

An opening 21 is formed in the center of the upper surface of the upper body 23 and a cooling fan 60 is installed on the opening 21. The cooling fan 60 supplies the air introduced from the upper through hole 17 to the interior of the body 25 to take the heat generated from the substrate 11 and the LED 10 and discharge the heat through the lower through hole 27 have. An upper cover 5 may be provided on the upper portion of the upper hood 13. [ On the inner surface of the upper cover 5, there are elevating holes 7 formed in the vertical direction and the elevating holes 7 can be formed on the edge of the upper cover 5.

A circular substrate 11 is provided in the inner installation space 29 and a plurality of LEDs 10 are provided on the lower surface of the substrate 11. An LED (Light Emitting Diode) 10 is a light emitting diode device that uses a phenomenon in which light is generated when a current flows through a PN junction of a compound semiconductor such as GaP or GaAs. The LED 10 has a reaction time that is faster than that of a general light bulb and a power consumption of 20% of that of an incandescent lamp. Especially, power consumption is relatively low but brightness is very bright.

A heat radiating plate 30 is closely attached to the upper surface of the substrate 11, and the heat radiating plate 30 is preferably made of a material having high thermal conductivity so as to increase the conductivity of the heat and rapidly discharge the heat. For example, it is good in workability and may be light aluminum (Al) or alloy material based on it.

The heat dissipating plate 30 may have a structure in which a plurality of heat dissipating protrusions 35 are formed and the thin and long heat dissipating pieces (not shown) are fixed between the respective heat dissipating protrusions 35 to maximize the surface area. The heat dissipation protrusions 35 may be arranged linearly or radially, and the air introduced through the cooling fan 60 takes heat of the heat dissipating plate 30 by passing air through the heat dissipating protrusions 35, Discharged and cooled.

The lens fixing plate 51 is disposed at a predetermined interval at a lower portion of the substrate 11, and is installed in an internal installation space. A support hole 53 is formed on the lens fixing plate 51 so as to extend along the vertical direction. The lens holder 57 may have a cylindrical shape with open top and bottom. The lens 55 is inserted and fixed in the lens holder 57 and the lens 55 fixed to the lens holder is inserted and supported in the support hole 53. The lens 55 and the lens holder 57 are disposed at positions corresponding to the respective LEDs 10, respectively. The lens 55 may be an optical lens, and may be composed of a combination of optical glasses having different refractive indexes and dispersion ratios and lenses having different spherical curvatures.

The elevating shaft 70 is inserted into the elevating holes 7 formed in the upper cover, and the adjusting dial 72 is connected to the upper end of each elevating shaft 70. A drive pulley 77 is provided on each of the lift axles 70 and a power transmission member 75 is connected to each of the drive pulleys 77. For example, the lifting shaft 70 may be disposed on a vertex of a quadrangle, and a driving pulley 77 is provided on each lifting shaft 70. [ The driving pulley 77 is connected to the lifting shaft 70 and rotates together with the lifting shaft, and the respective driving pulleys 77 are arranged in parallel to each other in a straight line. The drive pulley 77 may be a timing gear having teeth cog.

The power transmitting member 75 may be a timing belt in which teeth are formed to engage with the respective drive pulleys 77. Therefore, when rotating the adjustment dial 72 connected to the upper part of the one lifting shaft 70, the rotational force is transmitted by the driving pulley 77 and the power transmitting member 75, and the entire lifting shaft 70 is rotatable .

Each of the elevating shafts 70 can be formed with a thread under the driving pulley 77 and inserted into the screw holes 37 of the screw holder 38 fixed to the heat sink 30, And penetrates through the substrate 11. For example, the lifting shaft 70 is inserted into the lifting hole 7, passes through the heat sink 30 and the substrate 11, and the lower end of the lifting shaft 70 is supported on the lower surface of the lens fixing plate 51 And is rotatably connected to the lens fixing plate 51 separately.

That is, when one adjustment dial 72 is rotated, a rotational force is applied through the driving pulley 77 and the power transmitting member 75 so that the respective lifting shafts 70 rotate simultaneously, (11) can be raised and lowered along the elevation shaft (70) while maintaining a horizontal state.

Accordingly, when the adjusting dial 72 is rotated, the heat sink 30 and the substrate 11 can adjust the distance between the LED 10 and the lens 55 mounted on the substrate 11 as they ascend and descend. On the other hand, a retainer (or a sealing cover) (not shown) may be installed to be waterproof between the screw holder 38 and the heat sink 30 so that water (rain) does not flow from the outside through the upper through- have.

A transparent cover 80 is provided below the lens fixing plate 51 and a transparent cover 80 is fixed to the lower end of the body 25 to block the opened lower portion of the body 25 from the outside. A flange 85 is provided at a lower portion of the body 80 to fasten the body 25 and the transparent cover 80. The illumination device 100 may be provided with a mesh network 90 to prevent foreign matter such as insects or dust from entering the illumination device 100 through the upper and lower through holes 17 and 27.

The inner installation space 29 is provided with a heat sink 30, a substrate 11, a lens fixing plate 51 and a transparent cover 80. The inner installation space 29 includes a heat sink 30, ), The lens fixing plate 51, and the transparent cover 80, as shown in Fig. Therefore, the heat sink 30 and the substrate 11 can be raised and lowered in the internal space 29, so that the LED 10 mounted on the substrate 11 is spaced apart from the lens 55 held by the lens fixing plate 51 Can be easily controlled.

6 is a view showing a cooling process of the lighting apparatus according to driving the cooling fan. As described above, the LED 10 is small in size and can be used for a long time compared with other light sources, and has a merit that the electric energy is directly converted into light energy, so that the electric power is consumed low and the energy efficiency is excellent. However, if the heat is not generated smoothly due to a large amount of heat generated during lighting, the life of the LED 10 is shortened and the illuminance of the LED 10 is very low.

6, the lighting apparatus 100 of the present invention includes upper through holes 17 formed in the upper hood 13 and lower through holes 27 formed in the upper main body 23, The cooling fan 60 is installed on the upper surface of the main body 23 so that the air flows through the upper through hole 17 and is discharged through the lower through hole 27. The heat sink 30 is brought into intimate contact with and bonded to the upper surface of the substrate 11 and heat generated from the substrate 11 and the LED 10 is dissipated through the heat sink 30.

The top surface of the heat dissipating plate 30 has a structure that maximizes the surface area of the heat dissipating plate 30 by fixing a plurality of heat dissipating protrusions 35 protruding upward. Therefore, the air introduced through the cooling fan 60 takes the heat of the heat sink 30 by passing air through the heat dissipating protrusions 35, and the heated air is discharged to the lower through hole 27 and cooled, thereby improving the heat radiation efficiency .

Figs. 7 and 8 are views showing changes in the irradiation angle in accordance with the rotation of the elevation member. Fig. As described above, since the light emitted from each LED 10 is directly diffused and radiated to the irradiation area, light attenuation occurs on the diffusion path, and the illumination is sufficiently secured in the indoor or outdoor space requiring ordinary illumination There is a problem that can not be achieved. In addition, since the light emitted from the LED 10 goes straight, the light distribution characteristic of illuminating the periphery of the lighting apparatus 100 is very poor, and there is a limit to apply it for general illumination because of insufficient diffusion.

7, the user adjusts the adjustment dial 72 to have a wide illumination angle so as to irradiate the light to a large irradiation area, thereby minimizing the distance l ₁ between the LED 10 and the lens 55 . A ring-shaped circular ring 59 can be connected to the upper end of the holder 57. A circular groove 12 corresponding to the circular ring 59 is formed on the lower surface of the substrate 11, (ℓ ₁ ) between the LED 10 and the lens 55 when inserted into the groove 12. Therefore, the light emitted from the LED 10 has a large irradiation angle [theta] ₁ through the lens 55 and the lens holder 57, so that light can be irradiated to a wide irradiation area.

8, as the adjustment dial 72 is rotated in one direction to rotate the elevation shaft 70, the substrate 11 on which the LED 10 is mounted is rotated in the direction of the rotation of the elevation shaft 70 . As the substrate 11 rises, the LEDs 10 mounted on the substrate 11 rise together, and as the distance l ₂ between the LED 10 and the lens 55 increases, ([theta] ₂ ) can be reduced to narrow the irradiation area.

In other words, when the adjustment dial 72 is rotated in one direction so that the LED 10 is moved away from the lens 55, the irradiation area is reduced by the irradiation angle, but the illuminance is increased. Conversely, when the adjustment dial 72 is rotated in the reverse direction to move the LED 10 toward the lens 55, the irradiation area is increased by the irradiation angle, but the illumination is reduced. Accordingly, the adjustment dial 72 can be rotated to adjust the irradiation angle of the light externally, thereby providing convenience in use.

That is, the illumination apparatus 100 according to the present invention has an advantage of not only changing the irradiation angle by adjusting the distance from the lens 55 to the LED 10 as the light source, but also contributing to the improvement of the luminance of the irradiation region. Further, the irradiation angle can be adjusted to a fine unit (0.1 degree) as the control dial 72 is rotated, and it is possible to realize a narrow angle (inclination angle) of 5 degrees or less.

The illumination device described above can be applied to a configuration of the embodiments described above in a limited manner, but all or some of the embodiments may be selectively combined so that various modifications may be made to the embodiments.

5: Cover 10: LED
11: substrate 13: upper hood
14: lower hood 15: hood
19: LED SMPS 20: housing
21: opening 23: upper body
24: lower body 25: body
29: Internal installation space 30: Heat sink
35: radiating protrusion 37: screw holder
51: Lens fixing plate 55: Lens
57: Lens holder 60: Cooling fan
70: Lift shaft 72: Adjustment dial
75: power transmitting member 77: driving pulley
80: transparent cover 85: flange
100: Lighting device

Claims (11)

A housing having an interior space and an open bottom;
A heat sink installed in the internal installation space and having a circumference corresponding to the inner surface of the housing;
A substrate disposed in the internal space and connected to a lower portion of the heat sink, and having a plurality of light sources mounted on a lower surface thereof;
A lens member installed in the internal installation space and disposed at a lower portion of the substrate, the lens member being disposed at a position corresponding to the light sources;
A lifting member connected to the substrate and capable of lifting and lowering the substrate, the lifting member adjusting a distance between the light sources and the lens member; And
And an upper cover installed on the upper portion of the housing and having a lift hole penetratingly formed in a vertical direction,
Wherein the lens member comprises:
Cylindrical lens holders having an outer diameter greater than that of each of the light sources and open at the top and the bottom;
Lenses inserted and fixed in the lens holders, respectively; And
And a lens fixing plate provided at a lower portion of the substrate, the lens fixing plate having support holes into which the lenses are inserted and supported,
The elevating member
A screw holder fixedly mounted on an upper surface of the heat sink and having a screw hole penetrating the inner surface in a vertical direction;
Wherein the lens fixing plate is rotatably supported at its lower ends by penetrating through the heat radiating plate, the substrate and the lens fixing plate, respectively, inserted into the lift hole and the screw hole, shaft; And
And an adjusting dial provided at an upper end of the elevating shaft and rotating the elevating shaft. delete The method according to claim 1,
And the irradiation angle of the light irradiated from the light source is reduced when the light source is moved away from the lens by ascending the substrate. The method according to claim 1,
The housing includes:
A hood having a bottom open shape and having upper through holes formed through the side surface; And
And a body having lower through holes connected to an open lower portion of the hood and communicating with the inside of the hood, the lower through holes being formed through the side surface. 5. The method of claim 4,
And the upper cover is installed on the upper portion of the hood. 6. The method of claim 5,
The elevation shafts are provided along the edge of the substrate,
The elevating member
A drive pulley fixedly installed on the lifting shaft; And
And a power transmitting member connected to each of the drive pulleys for transmitting driving force of the drive pulley. The method according to claim 6,
Wherein the drive pulley is a timing gear, and the power transmitting member is a timing belt having equally spaced grooves corresponding to the timing gear. 5. The method of claim 4,
The hood,
A cylindrical upper hood having the upper through-hole; And
And a lower hood connected to a lower portion of the upper hood and having a lower end having a cross-sectional area larger than that of the upper end. 9. The method of claim 8,
The body,
A cylindrical upper body connected to a lower end of the lower hood and having the lower through holes; And
A cylindrical lower body disposed at a lower portion of the upper body and concentric with the upper body and having a larger radius than the upper body,
And the lower body forms the internal installation space. 10. The method of claim 9,
The illumination device includes:
And a cooling fan disposed on the opening formed in the upper surface of the upper body and discharging the air introduced from the upper through hole to the lower through hole. 5. The method of claim 4,
The illumination device includes:
A transparent cover disposed at a lower portion of the lens fixing plate and fixed to a lower end of the body to block an open lower portion of the body from the outside; And
And a filter member installed along the periphery of the hood and the body to prevent foreign matter from flowing through the upper and lower through holes.

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