KR100984259B1 - Multi led street-lamp - Google Patents

Abstract

PURPOSE: A multifunction LED street light lamp is provided to safely supply power by converting solar energy into electric energy through a solar light collecting plate. CONSTITUTION: A lamp part(100) comprises a LED lighting part and a diffused light lens. The diffused light lens diffuses light which is emitted from the LED lighting part. The diffused light lens is made of an aspherical lens and a pyrex glass. A support stand(200) is combined under the lamp part in order to support the lamp part. A solar energy concentration part(300) is combined on the support stand. The solar energy concentration part changes the solar energy into the electrical energy in order to supply power to the lamp part. A fixture(400) is combined in the bottom of the support stand in order to clinch the support stand.

Description

Multi-functional LED Street Light {Multi LED Street-Lamp}

The present invention relates to a street lamp for illuminating a roadside or a road, and more particularly, it is possible to apply a scattering lens to a light emitting diode that is used as a light source for a wide range of irradiation, and to generate power by using a solar tracking light collecting plate. A multifunctional LED street light that is easy to reduce, install and fix.

In general, streetlights are installed on the roadside to ensure safety at night. In addition, security lights and security lights are installed in buildings and private lands to monitor the intrusion of outsiders at night. Therefore, the street light should be excellent in the brightness of the light enough to illuminate a large space. In addition, street lamps must have a long service life so that they are easy to maintain and inexpensive.

Most of the luminaires in use today emit mainly halogen, fluorescent and mercury lamps. However, such halogen lamps, fluorescent lamps, mercury lamps have a disadvantage in that they require a lot of repair costs because of their short lifespan. In addition, since the halogen lamp, fluorescent lamp, mercury lamp, power consumption is high, there are disadvantages such as high maintenance cost.

One of the ways to satisfy these conditions is to use a light-emitting diode, that is, LED lighting with excellent brightness of light while using less power consumption, for the street lamp. However, LED lighting has a problem in that the side roughness is weak because the light straightness is strong and the light diffusion characteristics are low.

Recently, solar light collecting panels are applied to street lamps to reduce power consumption of street lights, and solar heat is stored as electric energy during the day, and technologies are utilized at night. However, since the position of the sun changes periodically, There is a need for a technique to vary according to the position of. In addition, the configuration of the conventional sensor method is also complicated in tracking the position of the sun, there is a problem that the position tracking of the sun is not accurate when the sensitivity of the sensor is reduced.

Finally, in the installation of street lamps, the street lamps are installed on the concrete floor. When fixing the street lamps to concrete, in order to support the load of the solar structure, a plurality of anchors are embedded in the concrete during the curing of the concrete, The method of fixing the street light on top of the anchor is used. The above method has a long construction time due to the process of curing concrete, in particular, if the weather is not good, there is a problem that additional work is required to maintain the proper temperature and humidity required for concrete curing.

The present invention has been made to solve the above problems, the object of the present invention,

First, use LED lighting as the light source of the street light, but apply diffused lens to compensate for the decrease in side roughness of LED lighting.

Second, convert solar energy into electrical energy through solar collector panel and use it as a power source of street light, but apply solar collector plate equipped with solar tracking system that can track sunlight without using sensors.

Third, by providing a screw at the bottom of the support that can support the street lamp, regardless of the ground, to provide a multi-functional LED street light that can secure the support strength of the street lamp.

Multi-functional LED street light of the present invention, in the LED street light using a light emitting diode (LED) as a light source, the built-in LED lighting unit 110 and the scattering lens 120 for diffusing light generated from the LED lighting unit 110 Lamp unit having a; An upper side coupled to the lower side of the lamp unit 100 to support the lamp unit 100 at a predetermined distance from the ground to support it; A solar concentrator 300 having a lower side coupled to an upper side of the support 200 and including a solar light collecting plate 310 for supplying power to the lamp unit 100 by converting solar energy into electrical energy; Characterized in that comprises a.

In addition, the diffuse lens 120 is characterized in that it comprises an aspherical lens 121, one surface of which is stepped or serrated.

In addition, the scattering lens 120 is characterized in that the surface comprises a tempered glass 122 is laminated on the other surface of the aspherical lens 121.

In addition, the solar light collecting unit 300 is installed at the lower end of the solar light collecting plate 310, the driving unit 320 for driving the solar light collecting plate 310 so that the solar light collecting plate 310 is rotatable, and the sun It characterized in that it comprises a control unit 330 for controlling the drive unit 320 so that the light collecting plate 310 is located on a vertical line with the sun.

In addition, the driving unit 320 includes a vertical driving unit 321 for driving the solar light collecting plate 310 in the vertical direction, and a horizontal driving unit 322 for driving the solar light collecting plate 310 in the horizontal direction. The vertical driver 321 and the horizontal driver 322 are controlled by the controller 330.

In addition, the controller 330 receives the altitude data of the sun according to the season to drive the vertical driving unit 321 according to the altitude of the sun, and receives the sun sunrise, sunset, and sunshine time data according to the season It characterized in that it comprises a GPS module (GPS Module) for driving the horizontal driving unit 322 in accordance with the position of.

In addition, the multi-function LED street light has a spiral screw 410 is formed protruding along the outer surface, the upper side is connected to the lower side of the support 200, the lower side is fixed to be buried in the ground 400; Characterized in that comprises a.

Multifunctional LED street light of the present invention by the configuration as described above can improve the side light degradation, which is a disadvantage of LED lighting can be diffused to the surrounding light of the LED can be improved the illumination and diffusion characteristics of the light, the configuration is simple It is easy to maintain by applying the solar tracking light collecting plate, and can be installed anywhere where the screw can be fixed. have.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

1 is a perspective view of the LED street light of the present invention, Figure 2 is a side view of the LED street light of the present invention. 3 is a cross-sectional view of the lamp unit of the present invention, FIG. 4 is a side view of the solar light collecting unit of the present invention, and FIG. 5 is a front view of the fixing unit of the present invention.

1 and 2, the multi-functional LED street light of the present invention is coupled to the lamp unit 100 for illuminating the LED light, the support 200 for supporting the lamp unit 100, the upper end of the support 200 And a solar condenser 300 for converting and storing sunlight into electrical energy, and a fixing unit 400 coupled to a lower end of the support 200 and buried in the ground to fix the support 200 to the ground. It can be done by.

The support 200 is a conventional configuration that can support the lamp unit 100 and the solar light collecting unit 300 is used a detailed description thereof will be omitted. The bottom plate of the support 200 may be formed with a bottom plate for coupling with the fixing (400). At the upper end of the bottom plate, a plurality of support ribs connecting the upper surface of the bottom plate and the side surface of the support 200 may be radially formed.

Referring to FIG. 3, the lamp unit 100 of the present invention may include an LED lighting unit 110, a diffuser lens 120, a lamp body 130, and a lamp frame 140.

The lamp body 130 may have a space formed therein, and a bottom surface thereof may be opened. The lamp body 130 may be fixed to the support 200 through the lamp frame 140. The lamp body 130 and the lamp frame 140 can be applied to the configuration of the commonly used street light bar will be omitted in detail configuration.

An LED lighting unit 110 may be installed in the lamp body 130. The LED lighting unit 110 may be composed of at least one or more substrates 112 installed on the lamp body 130 and a plurality of LEDs 111 installed on the substrate 112 to emit light. The substrate 112 may be integrally formed. Alternatively, the substrate 12 may be configured in a plurality of separation type to be connected to each other is composed of a plurality so that partial maintenance of the substrate 112. The plurality of LEDs 111 may be structured in various ways according to the installation location of the street lamp, lighting conditions, and the like. In particular, the plurality of LEDs 111 are combined with each other in series to form a serial set group of a serial merged structure, and a plurality of serial set groups of the serial merged structure are connected in parallel to each other to form a serial parallel group. Can be formed. As such, when the LEDs 111 are formed as a series-parallel group of the parallel-parallel structure, even if the serial-group of the serial-parallel group of the serial-parallel structure is not normally operated, this is not affected. It is more preferable in that it can be illuminated by a series set of normal series combined structures.

The scattering lens 120 may be formed by sealing an open surface below the lamp body 130. The scattering lens 120 may be provided to diffuse (disperse) light emitted from the LED lighting unit 110 in a wide range. This has the effect of keeping the illumination of a wide area constant by preventing the surrounding illumination from deteriorating because of the characteristic that the LED light has a straightness. The diffuser lens 120 may be composed of an aspherical lens 121 and a tempered glass 122.

The aspherical lens 121 may also be referred to as an aspherical fresnel lens, and may be made of a silicon material. The aspherical lens 121 is a lens in which a plurality of cylindrical bands are formed in a stepped shape or a sawtooth shape at the center of the tetrahedron, and the inclination angles of the steps or the teeth are different from each other and have aspherical characteristics. The LED light having a straightness is diffused through the lens formed in the step shape or the sawtooth shape so that a wide range of illumination is possible.

The tempered glass 122 may be stacked on the other surface of the aspherical lens 121. It is laminated with the tempered glass 122 to have a resistance and deformation resistance to environmental changes and external impact. The aspherical or toothed shape of the aspherical lens 121 has an aspherical shape, and thus may remove factors such as optical spherical aberration, astigmatism, and distortion aberration.

In this case, it is also possible to further apply a primer composition in order to improve the adhesion of the tempered glass 122 and the aspherical lens 121 made of a silicon material. The primer composition may use any one or two or more selected from a (meth) acrylic resin having a carboxyl group, an acrylic resin having an alkoxysilyl group in the side chain, a polyisocyanate, and a silane coupling agent. Moreover, in order to make application easy, it can melt | dissolve in solvents, such as ethylene glycol monomethyl, and can use.

In addition, in order to improve the light transmittance of the tempered glass 122, DLC (Diamond Like Carbon) thin film of nanotube growth type at the portion which is bonded to the aspherical lens 121 after ion formation in a gas atmosphere using an electron beam and an auxiliary ion gun. Is deposited. This not only improves light transmittance but also improves adhesion due to improvement of silicon and specific surface area.

Referring to FIG. 4, the solar light collecting unit 300 may include a solar light collecting plate 310, a driving unit 320, and a control unit 330.

The solar light collecting plate 310 may be installed on an upper end of the support 200. The solar light collecting plate 310 may be formed of a plurality of solar cells. The solar light collecting plate 310 serves to convert solar energy into electrical energy. The solar light collecting plate 310 may be provided with a light collecting plate frame 311 coupled to the solar light collecting plate 310 to provide structural strength. The light collecting plate frame 311 may be formed along the circumference of the solar light collecting plate 310. The light collecting plate frame 311 may have any shape as long as it can protect the solar light collecting plate 310 and provide structural strength. The solar light collecting plate 310 is a bar that is commonly used known techniques are applied, the detailed description of the coupling structure of the solar light collecting plate 310 and the light collecting plate frame 311 will be omitted. The electrical energy generated by the solar light collecting plate 310 is stored in a storage battery (not shown) provided on the light collecting plate frame 311, the electrical energy stored in the storage battery (not shown) is the lamp unit 100 ), The driving unit 320 and the control unit 330 are supplied.

The driving unit 320 includes a vertical driving unit 321 and a horizontal driving unit 322. The vertical driving unit 321 is installed between the light collecting plate frame 311 and the upper end of the support 200, and can drive the gear and the gear to change the angle formed by the light collecting plate frame 311 with the ground It may be made of a motor. The vertical driving part 321 serves to make the solar irradiation angle and the solar light collecting plate 310 perpendicular to each other by changing the inclination of the solar light collecting plate 310 according to the altitude of the sun. The driving of the vertical driver 321 may be controlled by the controller 330. The horizontal driver 322 may be spaced apart from the vertical driver 321 by a predetermined distance. The horizontal driving unit 322 may be formed of a motor capable of driving the gear and the gear to move the solar light collecting plate 310 in the lateral direction. The horizontal driver 322 changes the position of the solar light collecting plate 310 according to the position of the sun so that the solar irradiation angle and the solar light collecting plate 310 are perpendicular to each other. The driving of the horizontal driver 322 may be controlled by the controller 330.

The controller 330 controls the driving of the vertical driver 321 and the horizontal driver 322 so that the solar light collecting plate 310 is perpendicular to the direction in which sunlight is irradiated.

The controller 330 may be provided with a GPS module. The GPS module receives the altitude data of the seasonal sun to drive the vertical driving unit 321 according to the altitude of the sun. In addition, the horizontal drive unit 322 is driven according to the position of the sun by receiving the sunrise, sunset and sunshine time data of the sun according to the season.

That is, since the height of the sun is low in winter, the vertical driving unit 321 is controlled to reduce the inclination between the solar light collecting plate 310 and the ground, and in the summer, the solar light collecting plate 310 and the solar light collecting plate 310 are high. The vertical driving part 321 may be controlled to increase the inclination with the ground.

In addition, the rotation start point of the horizontal drive unit 322 is controlled according to the sunrise time of the sun, the rotation end point of the horizontal drive unit 322 is controlled according to the sunset time of the sun, and at the rotation start point according to the sunshine time of the sun. It is possible to control the rotation angle per hour to move to the end of rotation. This is to accurately grasp the position where the sun moves from east to west so that the solar irradiation angle irradiated to the solar light collecting plate 310 is vertical. After detecting the rotation end point, the controller 330 may control to return to the rotation start point after a predetermined time.

Referring to FIG. 5, the fixing member 400 may be connected to a lower end of the supporting member 200. The fixing stand 400 may include a screw 410, a fixing body 420, a fixing top plate 430, and a fixing rib 440. The fixed body 420 may be formed in a cylindrical shape along the vertical direction. A screw 410 protruding along the outer circumferential surface of the fixed body 420 may be formed below the fixed body 420. The screw 410 may be formed in a helical shape, and the holder 400 is formed to be inserted into and separated from the ground only by rotation about an up and down longitudinal axis. The lower side of the fixed body 420 is reduced in the horizontal cross-sectional area toward the lower side may be made of a pointed shape. This is to make it easy to penetrate the ground by the holder 400 is rotated. The fixing member 400 may be bolted to an upper end of the supporter 200, that is, a bottom plate of the supporter 200. To this end, the upper end of the fixed body 420 may be formed with a fixed top plate 430 extending in the horizontal direction. The fixed upper plate 430 may be formed along the periphery of the hole corresponding to the hole of the bottom plate through the up and down direction for bolt coupling with the bottom plate. A plurality of fixing ribs connecting the lower surface of the fixed upper plate 430 and the side of the fixed body 420 may be formed in a radial shape at the lower end of the high plate 430.

The technical idea should not be construed as being limited to the above-described embodiment of the present invention. Various modifications may be made at the level of those skilled in the art without departing from the spirit of the invention as claimed in the claims. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it is obvious to those skilled in the art.

1 is a perspective view of the LED street light of the present invention

2 is a side view of the LED street light of the present invention

3 is a cross-sectional view of the lamp unit of the present invention

Figure 4 is a side view of the solar light collector of the present invention

5 is a front view of the fixing part of the present invention

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

100: lamp unit

110: LED lighting 111: LED

112 substrate 120 diffused lens

121: aspherical lens 122: tempered glass

130: lamp body 140: lamp frame

200: support

300: solar light collecting unit

310: solar light collecting plate 311: light collecting frame

320: driving unit 321: vertical driving unit

322: horizontal driving unit 330: control unit

400: holder 410: screw

420: fixed body 430: fixed top plate

Claims (7)

In the LED street light using a light emitting diode (LED) as a light source, Built-in LED lighting unit 110 and aspherical lens 121 made of a silicon material made of a plurality of cylindrical bands in the form of a step or serrated at the center in order to diffuse the light generated from the LED lighting unit 110 A lamp unit 100 having a scattering lens 120; An upper side coupled to the lower side of the lamp unit 100 to support the lamp unit 100 at a predetermined distance from the ground to support it; A solar concentrator 300 having a lower side coupled to an upper side of the support 200 and including a solar light concentrating plate 310 for supplying power to the lamp unit 100 by converting solar energy into electrical energy; Multifunctional LED street light, characterized in that comprises a. delete The method of claim 1, The diffuser lens 120 One surface is made of a tempered glass 122 is laminated to the other surface of the aspherical lens 121, When the tempered glass 122 is laminated on the aspherical lens 121, Multifunctional LED street light, characterized in that the laminated after coating the primer composition on one surface of the tempered glass in order to improve the adhesion. The method of claim 1, The solar light concentrator 300 A driver 320 installed at a lower end of the solar light collecting plate 310 to drive the solar light collecting plate 310 so that the solar light collecting plate 310 can rotate, and the solar light collecting plate 310 on a vertical line with the sun. Multifunctional LED street light comprising a control unit 330 for controlling the drive unit 320 to be positioned. The method of claim 4, wherein The drive unit 320 is It includes a vertical driving unit 321 for driving the solar light collecting plate 310 in the vertical direction, and a horizontal driving unit 322 for driving the solar light collecting plate 310 in the horizontal direction, The vertical driving unit 321 and the horizontal driving unit 322 is a multi-functional LED street light, characterized in that controlled by the control unit 330. The method of claim 5, The controller 330 is Receiving the altitude data of the sun according to the season to drive the vertical driving unit 321 according to the altitude of the sun, and receives the sun, sunrise, sunset and sunshine time data according to the season the horizontal driving unit ( 322 is a multi-functional LED street light comprising a GPS module (GPS Module) for driving. The method according to any one of claims 1 to 6, The multifunctional LED street light A spiral screw 410 protrudingly formed along an outer surface thereof, an upper side of which is connected to a lower side of the support 200, and a lower side 400 of which is buried and fixed in the ground; Multifunctional LED street light, characterized in that comprises a.

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