KR100856725B1 - Street lamp using led - Google Patents

Abstract

A lamp using an LED(Light Emitted Diode) is provided to adjust a lighting range freely by including a lens moving unit for changing a position of lens. A lamp using an LED includes an LED(10), a heat radiator(20), a lighting direction adjuster(30), and a lens case(40). The heat radiator radiates a heat generated from the LED. The lighting direction adjuster is coupled to the heat radiator, and adjusts an illuminating direction of a light emitted from the LED. The lens case is attached to an upper part of the lighting direction adjuster, and has a lens moving unit for adjusting a position of lens installed on the inside of the lens case. The lighting direction adjuster has a rotating body, a receiving body, and a cover plate. The rotating body has a spherical shape. The receiving body has a groove on which the rotating body is installed. The cover plate is installed on an upper part of the rotating body.

Description

Lamp using LED {STREET LAMP USING LED}

The present invention relates to lighting lamps such as street lamps, park lamps, tower poles and floodlights, and more particularly, to lighting lamps capable of freely adjusting a lighting direction and a lighting range in street lamps and tower poles for lighting a sidewalk or a square. .

Street lamps and parks are installed at regular intervals on the side of roads and promenades of parks so that cars and pedestrians can identify them at night.

Such street lights, park lights, or tower poles (hereinafter, referred to as “illuminated lights”) use a bulb of sodium or incandescent lamps as shown in FIG. 1 to guide pedestrians at night by using lights emitted from them.

However, conventional lighting lamps using bulbs such as sodium lamps or incandescent lamps are difficult to control the lighting direction and the lighting range of the light emitted from the bulbs, so that the light can reach not only the sidewalks or parks where pedestrians walk, but also the surroundings As a result, the plants around the park continue to receive lights such as lights at night, thus affecting their flowering time and ecology.

Recently, due to the development of LED (Light Emitting Diode) manufacturing technology, the use of LED as a light source of a lighting device used for lighting is increasing.

When the LED is used as a light source of a lighting lamp, the LED has a much longer life compared to a bulb such as an incandescent lamp, thereby reducing maintenance costs due to a long replacement cycle. In addition, since LEDs are much smaller than bulbs such as sodium lamps, they are easy to handle, and the light emitted from the LEDs is much more straight compared to the light emitted from the bulbs, so the direction of light is also easier to control.

Accordingly, the present invention uses the LED as a light source of the illumination lamp, and by appropriately adjusting the illumination direction and the illumination range of the light emitted from the LED to be reflected only in the desired place, such as sidewalks and sidewalks, the effect on the sidewalks or plants around the sidewalks, etc. It is to provide a lighting device that can minimize the.

The present invention is characterized by the fact that it is possible to freely adjust the illumination direction by using an LED as a light source and having an illumination direction controller for adjusting the direction of light emitted from the LED.

In another aspect, the present invention is characterized by the ability to freely adjust the illumination range of the light emitted from the LED by installing a lens moving means on the upper portion of the lens to diffuse the light of the LED.

In addition, the present invention is another technical feature that by installing a reflector around the lens so that the light does not reach the unwanted place to minimize the effects on sidewalks, plants around the sidewalk, and the like.

The present invention uses an LED as a light source, and the light emitted by the LED is provided with a lighting direction controller consisting of a spherical shape of the spherical shape and a grooved container in which the spherical shape is mounted. The direction can be adjusted freely.

In addition, the present invention is free to adjust the illumination range by providing a lens moving means that can change the position of the lens.

And the present invention can block the light from reaching the unwanted place by installing a reflector around the lens.

According to the present invention having the structure as described above it is possible to minimize the influence on the sidewalk or plants around the sidewalk by shining only on a desired place, such as sidewalks or sidewalks.

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

2 is a cross-sectional view showing a lamp according to the present invention, as shown in the drawing, the lamp 1 of the present invention has a structure including a radiator 20, an illumination direction controller 30 and a lens case 40.

3 is an exploded perspective view illustrating the assembly of the illumination direction controller 30 and the lens case 40, and FIG. 4 is an exploded perspective view of the assembled view of FIG. 3.

As shown in FIG. 2, the heat radiator 20 has a heat radiating fin 22 for dissipating heat according to the light emission of the LED 10, and a front surface of the radiator 20 for mounting the lighting direction controller 30. Pair of brackets 24 are formed spaced apart by the width of the illumination direction controller (30). In this case, a hemispherical or semi-elliptic lampshade surrounding the lamp may be used as the radiator 20. In this case, the heat radiating fins 22 are formed outside the lampshade.

And when the heat radiation fins 22 are formed in the vertical direction, rain water may accumulate or foreign matters may accumulate between the heat radiation fins, so that the heat radiation fins 22 are preferably formed in the horizontal direction.

As shown in FIG. 4, the illumination direction controller 30 mounted on the radiator 20 includes a spherical rotor 32 and a receiver 34 having grooves on which the spherical rotor is seated. .

The container 34 has a spherical groove 35 formed therein so as to accommodate the spherical rotating body 32. And protrusions 37 and 38 are formed at the edges of the upper end and the lower end of the receiver 34, among which the lower protrusion 37 is bolted to the bracket 24 of the radiator 20, The upper protrusion 38 is bolted to the cover plate 36.

The cover plate 36 is provided to prevent the rotating body 32 inserted into the groove 35 of the container 34 from being separated from the container 34. The cover plate 36 has a shape corresponding to the external shape of the sphere of the rotating body. A hole having a shape to be formed is formed, whereby the rotor 32 can freely rotate. And a bolt hole is formed at the protruding edge of the cover plate 36 so that the cover plate 36 can be bolted to the receiver 34, and after the lighting direction is determined, the lighting direction is fixed by tightening the bolt. Can be fixed

As shown in Figs. 2 and 3, the rotating body 32 has a spherical shape but its upper surface is flat and its lower surface is open. The edge of the upper surface 33 of the rotating body 32 is formed with a bolt hole for coupling the lens case 40, the power of a size that the wire can pass through in the radial direction of the upper surface 33 The line inlet hole 39 is formed through.

The LED 10 is mounted on the upper surface 33 of the rotating body 32, and the lens case 40 to which the lens 49 is coupled is mounted on the upper surface 33 of the rotating body 32. 33) is fixedly installed.

The lens case 40 installed on the upper surface 33 of the rotating body 32 is composed of the lower lens case 42 and the upper lens case 44, as shown in Figure 5, in the lower lens case 42 The upper lens case 44 is inserted.

The lower lens case 42 has a cylindrical shape having an upper and lower part open, and a flange 46 protruding radially outward is formed at a lower end thereof, and a bolt hole is formed in the flange 46 so that the lens is secured through the bolt hole. The case 40 is installed on the upper surface 33 of the rotating body 32.

The upper lens case 44 fitted to the lower lens case 42 also has a cylindrical shape having an upper and a lower part open, and a flange 48 protruding inward in the radial direction is formed at the lower end thereof. The lens 49 is seated as shown.

Lens case 40 of the present invention is provided with a lens moving means for changing the position of the various lenses, thereby adjusting the illumination range of the light emitted from the LED (10).

As shown in FIG. 6A, the first lens shifting means forms two long holes 63 in the lower lens case 42 to face each other in the longitudinal direction, and also drills two opposite bolt holes in the upper lens case. By adjusting the position of the bolt to be installed on the 63) it is possible to advance the lens 49 back and forth to adjust the dimming range.

As shown in FIG. 6B, the second lens shifting means has threads 61 formed on the inner surface of the lower lens case 42 along the circumferential direction, and threads 62 are formed on the outer surface of the upper lens case along the circumferential direction. As the upper lens case is rotated by engaging the lower lens case, the upper lens case 44 moves forward and backward, and thus the lens 49 is moved to adjust the illumination range of the light emitted by the LED.

The third lens shifting means drills two bolt holes in the side surfaces of the upper and lower lens cases 42 and 44, respectively, as shown in FIG. 6C, and bolts the upper and lower lens cases 42 and 44 through the holes, and the upper lens. In the case of forming a plurality of support protrusions 66 spaced apart at regular intervals in the longitudinal direction in the case 44, and fitting the lens 49 to these support protrusions 66 to change the forward and backward positions of the lens Just remove it from the support projections 66 and insert it into the other support projections 66. At this time, the material of the support protrusion uses a flexible material to freely change the position of the lens.

In the present invention, the linear reflector 70 is further provided on the side of the lens case 40 so that the light emitted from the LED can be emitted only where desired.

The reflecting plate 70 is attached to the side of the lens case 40, the side to which the reflecting plate 70 is attached may vary depending on the number or installation conditions of the light source installed in the lamp. That is, when the reflecting plate 70 is installed on both sides of the lens case 40, as shown in FIG. 7, the flanges of the lower lens case 42 are installed to face each other on both outer sides of the lens case 40. 46) are bolted together.

Accordingly, the light emitted from the LED is blocked by the reflector 70 so that the light reaches only the desired place.

1 is a perspective view showing a conventional bulb-type street light,

2 is a cross-sectional view showing the structure of a lamp of the present invention;

3 is an assembly view showing a state in which the illumination direction controller and the lens moving means of the present invention assembled;

4 is an exploded perspective view illustrating an exploded view of the assembly diagram of FIG. 3;

5 is a cross-sectional view showing a lens case of the present invention;

6a, b, c are cross-sectional views showing respective embodiments of the lens shift means of the present invention;

7 is a plan view showing the attachment state of the reflecting plate of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: lighting 10: LED 20: radiator

22: heat sink fin

30: lighting direction controller 32: rotating body

33: top face 34: receptor 35: groove

36: upper protrusion 38: lower protrusion

37: protrusions 38: protrusions

40: lens case

42: lower lens case 44: upper lens case 46: flange

48: flange 49: lens

61: Thread 62: Thread 63: Longbow

66: support protrusion

70: reflector

Claims (9)

delete delete A radiator 20 for radiating heat generated from the LED 10; An illumination direction controller 30 coupled to the radiator 20 to adjust an illumination direction of light by the LED; In the illumination lamp using the LED which is attached to the upper portion of the illumination direction controller 30, the lens case 40 is provided with a lens moving means for adjusting the position of the lens 49 installed therein, The lighting direction controller 30 is composed of a spherical rotor 32 having a spherical shape, and a receiver 34 having grooves 35 on which the spherical rotor 32 is seated. Lamp 32 using the LED, characterized in that the cover plate 36 is installed on the upper portion. The method according to claim 3, The lens case 40 is composed of an upper lens case 44 and the lower lens case 42, the upper lens case 44 is an illumination lamp using an LED, characterized in that the structure is inserted into the lower lens case (42). The method according to claim 4, The lens shift means is a screw 61 formed along the circumferential direction on the inner surface of the lower lens case 42 and a thread 62 formed along the circumferential direction on the outer surface of the upper lens case 44. Lighting. The method according to claim 4, The lens shift means is a lamp using an LED, characterized in that consisting of a long hole (63) formed in the longitudinal direction in the lower lens case (42), a bolt hole formed in the upper lens case (44) and a bolt fitted into these holes. The method according to claim 4, The lens moving means is a lamp using an LED, characterized in that made of a plurality of support protrusions 66 spaced apart at regular intervals in the longitudinal direction inside the upper lens case (44). The method according to claim 3, Illumination lamp using LED, characterized in that the reflection plate 70 is installed on any one side of the lens case (40). The method according to claim 3, Both sides of the lens case 40, a pair of reflecting plate 70 is installed, the lamp using the LED, characterized in that the installation is opposed to each other.

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