KR20110002984U - LED Lighting Apparatus For A Street Lamp - Google Patents

Abstract

This article is about LED Street. The present invention is an LED light source unit (L) is composed of a plurality of LEDs are integrated, the housing 10 is formed with a mounting hole 15 is mounted to the LED light source unit (L) and coupled to the street lamp arm, and the housing 10 A heat radiation rib 11 'extending along the longitudinal direction of the housing 10 to the heat dissipation function to perform a heat dissipation function, and extending in a direction parallel to the heat dissipation portion in the housing 10; It is configured to include a heat dissipation channel 14 is open at both ends. In the present invention, since the heat generated from the LED light source unit L during the street lamp operation can be effectively radiated through a plurality of heat dissipation ribs 11 'and heat dissipation channel 14 provided in the housing 10, such as LED street light There is an advantage that the durability is improved.

LED, street light, heat dissipation, extrusion

Description

LED Street Light {LED Lighting Apparatus For A Street Lamp}

The present invention relates to an LED street light, and more particularly to an LED street light to effectively radiate heat generated from the LED through the heat dissipation structure while increasing the energy efficiency using the LED.

In general, street lights are arranged at regular intervals on roadsides, roadsides, bridges, or shoulders of highways, and serve to illuminate the streets. That is, such streetlights reveal when the roadside or residential area is dark due to night or dense fog, thereby securing the safety of citizens and drivers.

1 illustrates a general street lamp, which includes a post 1 connected to the ground, a street lamp arm 2 extending from the post 1, and a light emitting unit 3.

In addition, such a street light mainly uses a high pressure sodium lamp as the light emitting unit 3 to secure a predetermined illuminance. However, the high pressure sodium lamp is advantageous in terms of securing illumination, but has a problem of low energy efficiency due to high power consumption.

Recently, LED lighting has been actively developed in conjunction with interest in energy saving. LED (Light Emitting Diode) is a semiconductor device that emits light when a voltage is applied in the forward direction, the light emission principle has the advantage of a very long life compared to sodium lamps by using the electroluminescence (Electroluminescence) effect.

However, such LED lighting is difficult to apply when it is necessary to illuminate a relatively long distance, such as a street light, because the illumination of the LED light is basically low. Accordingly, a plurality of modules in which a plurality of LED chips are packaged are mounted and used on a PCB.

However, such LED lights inevitably generate heat in the process of converting electricity to light, and in particular, the higher the amount of electricity supplied to the packaged LED to increase the illuminance, the more heat is generated.

Therefore, in order to activate the use of the LED street light, it is necessary to satisfy both purposes of securing illumination and at the same time ensuring heat dissipation.

Accordingly, an object of the present invention is to provide an LED street light having a heat dissipation structure that can be effectively radiated heat generated from the LED is made in connection with the background as described above.

Another object of the present invention is to provide an LED street light which is simple in structure and easy to manufacture and mass-produced.

According to a feature of the present invention for achieving the object as described above, the present invention is a housing that is formed with an LED light source unit is composed of a plurality of LED is integrated, the LED light source is mounted and coupled to the street lamp arm, A heat dissipation rib extending along the longitudinal direction of the housing to extend the heat dissipation function to extend the heat dissipation function, and a heat dissipation channel extending in a direction parallel to the heat dissipation portion inside the housing and open at both ends thereof; It is configured by.

The plurality of heat dissipation ribs are provided on the upper surface of the housing so as to extend in a predetermined direction, and the plurality of heat dissipation channels are partitioned by a support wall.

The heat dissipation rib, the heat dissipation channel, and the installation hole are formed to extend in parallel with each other, and the housing is manufactured by extruding an aluminum material.

Leg portions are extended on both sides of the housing, and the LED light source unit is mounted in a mounting space formed by the bottom of the housing and the leg portion, and the reflecting plate is provided in the mounting space to reflect the light source of the LED light source unit. The diffusion plate for diffusing the light source is provided at a position spaced apart from the reflection plate.

The leg part is provided with a first hook groove and a second hook groove, respectively, for fixing the two ends of the reflecting plate and the diffusion plate.

Both ends of the mounting space along the longitudinal direction of the housing are each selectively shielded by a cover.

According to the LED street light according to the present invention can be expected the following effects.

In the present invention, since the heat generated from the LED light source during the street light operation can be effectively radiated through a plurality of heat dissipation ribs and heat dissipation channels provided in the housing, there is an effect that the durability of the LED street light is improved.

In particular, the present invention is made by cutting the housing base material extruded aluminum material to a predetermined size, such as the LED street, it is easy to manufacture the housing and has the advantage of appropriately adjusting the length of the housing according to the heat generation amount of the LED light source.

In the present invention, since the empty space is sufficiently secured by the heat dissipation channel of the housing, the overall weight of the housing is greatly reduced, and at the same time, since each partition wall and the heat dissipation channel form a kind of truss structure, the load of the housing or the heat generation of the LED light source part is reduced. There is also an effect that can be prevented due to bending or sag.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the LED street light according to the present invention will be described in detail.

2 is an exploded perspective view showing the configuration of a preferred embodiment of the LED street light according to the present invention, Figure 3 is a perspective view of the configuration of the present invention embodiment, Figure 4 configuration of the housing constituting the embodiment of the present invention This is shown in cross-sectional view, and in FIG. 5 is shown in cross-sectional view the configuration of another embodiment of a housing constituting the present invention embodiment.

As shown in these figures, the housing 10 is formed in the appearance and skeleton of the LED street light. The housing 10 is a portion in which the LED light source unit L, which will be described below, is mounted and connected to the street light arm (refer to '2' in FIG. 1) to be spaced apart from the ground.

The housing 10 is composed of an upper plate 11 and a lower plate 12 spaced apart from each other, as shown, the housing 10 is formed in an approximately arch shape when viewed from the front. This is because the light generated from the LED light source (L) has a straightness in several directions to give them a certain direction, that is, the direction toward the ground. In addition, due to the arch shape, it is possible to prevent rain from being accumulated on the upper surface of the upper plate 11 during rainy weather. Of course, the shape of the housing 10 is not limited thereto and may be modified in various shapes.

A heat dissipation rib 11 ′ is provided on an outer surface of the upper plate 11 of the housing 10. The heat dissipation rib 11 'removes heat generated from the LED light source part L by widening a contact area with the atmosphere, thereby preventing a heat generating object, that is, a temperature of the housing 10 from rising. do.

More specifically, as shown in FIG. 2, the heat dissipation ribs 11 ′ are elongated along the longitudinal direction of the housing 10, and a plurality of heat dissipation ribs 11 ′ are spaced apart and extended in parallel. The heat dissipation rib 11 ′ is for widening a surface area in contact with the atmosphere and corresponds to a heat sink. The heat dissipation rib 11 ′ is integrally provided on the upper plate 11 of the housing 10.

The lower plate 12 is provided below the body of the housing 10. The lower plate 12 is a portion forming a lower portion of the housing 10, and is a portion where the LED light source portion L is substantially installed on the lower plate 12.

At this time, both sides of the lower plate 12 is provided with leg portions 12 '. The leg portion 12 ′ is formed by extending both ends of the lower plate 12, respectively, and extends inclined as shown in FIG. 4.

Meanwhile, a plurality of heat dissipation channels 14 are formed between the lower plate 12 and the upper plate 11. The heat dissipation channel 14 performs the heat dissipation function of the housing 10 together with the heat dissipation ribs 11 ', and is a portion for widening the surface area in contact with the atmosphere.

More precisely, the heat dissipation channel 14 extends in the longitudinal direction of the housing 10 and both ends of the heat dissipation channel 14 are opened to allow outside air to pass therethrough. Therefore, since heat is removed from the housing 10 in contact with the heat dissipation channel 14 during the passage of outside air, the heat dissipation channel 14 allows the housing 10 to have a kind of air-cooled structure.

As the heat dissipation channel 14 is divided into a plurality of partition walls 13, the surface area in contact with the atmosphere becomes wider. Accordingly, the heat dissipation function by the heat dissipation channel 14 can be achieved more efficiently.

At the same time, the heat dissipation channel 14 has a kind of truss structure when viewed from the front, so that sagging or bending of the housing 10 can be more effectively prevented. Of course, the shape of the heat dissipation channel 14 is not necessarily limited to the structure shown in FIG. 4, and may be formed of a plurality of triangular shapes as shown in FIG. 5.

An installation hole 15 is formed in the housing 10. Like the heat dissipation channel 14, the installation hole 15 extends along the longitudinal direction of the housing 10, and a street light arm is inserted into the installation hole 15. The installation hole 15 is also formed so that both ends thereof open.

The first hook groove 17 and the second hook groove 18 are formed in the leg portion 12 ′ of the housing 10, respectively. The first hanger groove 17 and the second hanger groove 18 are portions in which the diffusion plate 50 and the reflector plate 20, which will be described below, are respectively walked and extend in the longitudinal direction of the housing 10. do.

At this time, the housing 10 is made by extrusion molding. That is, the housing 10 is manufactured by extruding a metal material through an extrusion mold. Accordingly, the heat dissipation rib 11 ′, the heat dissipation channel 14, and the installation hole 15 of the housing 10 are formed in parallel with each other, that is, in the longitudinal direction of the housing 10, and both ends thereof are opened. do

Of course, the housing 10 may be made by appropriately cutting the extruded long housing base material (母 材), wherein the length of the housing 10 is arbitrarily adjusted by the designer according to the heat generation amount of the LED light source (L) It is possible. That is, when the amount of heat generated is large, the length of the housing 10 can be cut to be used.

The housing 10 is made of aluminum material. It has a specific gravity of 2710kg / ㎡, a thermal conductivity of 228kcal has a low specific gravity and excellent thermal conductivity than other metal materials. Therefore, the housing 10 can perform an effective heat dissipation function with the heat dissipation structure, that is, the heat dissipation rib 11 'and the heat dissipation channel 14 together with the characteristics of the aluminum material.

6 shows a graph of the heat dissipation of this housing 10. In FIG. 6, the temperature of the housing 10 is measured over time with the LED light source L turned on. As shown in FIG. 6, the temperature of the housing 10 is approximately 40 after 3 hours. Convergence at < RTI ID = 0.0 > It can be seen that this is a greatly improved value compared to about 70 ℃ of the prior invention.

For reference, the LED light source unit (L) was tested by integrating six 30W LEDs, and the experimental condition was 480mm in the housing 10, the room temperature was 23 ℃, the current was 2.5A. On the other hand, the conventional invention is a value tested for a general LED lamp provided with only a heat radiation fin, the heat radiation channel 14 is not provided under the same experimental conditions.

The housing 10 is provided with a reflecting plate 20. The reflector 20 serves to guide the light emitted from the LED light source part L toward a predetermined direction, that is, toward the diffuser 50.

As shown in FIG. 2, the reflecting plate 20 is positioned below the lower plate 12 of the housing 10, and a plurality of through holes 25 are formed in the center thereof. The through hole 25 is a portion in which each of the LED constituting the LED light source (L) is exposed, a total of six through holes 25 are formed in this embodiment. The second hook groove 18 is inserted into the reflective plate 20.

The housing 10 is provided with a diffuser plate 50 spaced apart from the reflector plate 20. The diffusion plate 50 is to ensure that the light irradiated from the LED light source portion (L) uniformly, it is made of a transparent material such as glass, acrylic. More precisely, the diffuser plate 50 is provided with an elliptical diffuse lens 55 so that light is ensured by the diffuse lens 55. The diffusion plate 50 is inserted into the first hook groove 17.

Meanwhile, the cover 30 is coupled to the housing 10. The cover 30 is for shielding both types of mounting spaces formed by the leg part 12 'and the lower plate 12 of the housing 10. As shown in FIG. 2, the leg part 12' ) And the lower plate 12.

The cover 30 may be coupled to the housing 10 by fasteners such as bolts, or may be separated as necessary. Reference numeral 33 is a fastening hole for passing the fastener, and reference numeral 35 is an evacuation groove for preventing the cover 30 from blocking the installation hole 15.

Hereinafter will be described in detail the action of the LED light according to the embodiment of the present invention as described above.

First, briefly look at the assembly process of LED street light, the worker cuts the extruded housing base material to manufacture the housing (10). At this time, since the shape of the cross section of the housing 10 is constant, an operator can arbitrarily adjust the length of the housing 10.

In this state, the LED light source portion L is installed on the lower plate 12 of the housing 10. In this embodiment, the LED light source part (L) is composed of a total of six LEDs.

Next, the worker assembles the reflector plate 20 and the diffuser plate 50 in the mounting space formed by the lower plate 12 and the leg part 12 'of the housing 10, respectively. In this case, the reflective plate 20 is assembled by pushing the housing 10 from one side to be hooked to the second hook groove 18 and the diffusion plate 50 to the first hook groove 17, respectively.

Finally, the worker assembles the cover 30 on the outer surface leading to the leg portion 12 'and the lower plate 12. At this time, the two covers 30 are assembled to both ends of the housing 10 by using fasteners such as bolts.

The LED street lamp assembled in this way is used by being assembled to a street lamp arm. That is, the street lamp arm is inserted into the assembly hole formed in the housing 10, and the street lamp arm and the post connected thereto are erected to complete the street lamp installation.

On the other hand, when the LED street light is turned on, power is supplied to the LED light source unit L, and each LED emits light. A portion of the irradiated light is directly diffused through the diffuser plate 50, and a portion of the light is diffused through the diffuser plate 50 after being reflected by the reflector plate 20.

At this time, even when the LED street light is used for a long time, the temperature of the housing 10 is maintained without increasing a certain level or more. This is because the heat dissipation of the housing 10 may be efficiently performed by the heat dissipation rib 11 ′ and the heat dissipation channel 14 provided in the housing 10.

More precisely, the contact area between the housing 10 and the outside air becomes very wide by the heat dissipation rib 11 ′ and the heat dissipation channel 14, and in particular, the heat dissipation during the passage of the outside air through the heat dissipation channel 14. This can be done more effectively. In addition, since the heat dissipation channel 14 is formed by a plurality of partition walls 13, the heat dissipation area 14 is further increased.

Since the housing 10 is sufficiently secured by the heat dissipation channel 14, the overall weight is greatly reduced, and at the same time, each partition wall 13 and the heat dissipation channel 14 form a kind of truss structure. It is possible to prevent the bending or deflection due to the heat of the housing 10 or the heat generation of the LED light source part L.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self evident.

1 is a side view schematically showing the structure of a typical LED street light.

Figure 2 is an exploded perspective view showing the configuration of a preferred embodiment of the LED street light according to the present invention.

3 is a perspective view showing the configuration of an embodiment of the present invention.

4 is a cross-sectional view taken along line II-II ′ of FIG. 2.

Figure 5 is a cross-sectional view showing the configuration of another embodiment of the housing constituting the embodiment of the present invention.

Figure 6 is a graph showing the temperature rise of the heat sink over time when operating the present invention embodiment.

Explanation of symbols on the main parts of the drawings

10: housing 11: upper plate

11 ': Heat dissipation rib 12: Lower plate

12 ': leg portion 14: heat dissipation channel

15: mounting hole 17: first hook groove

18: 2nd hook groove 20: Reflector

30: cover 50: diffuser plate

L: LED light source

Claims (6)

LED light source unit is composed of a plurality of LEDs are integrated, A housing in which the LED light source unit is mounted and an installation hole coupled to the street light arm is formed; A heat dissipation rib extending along the longitudinal direction of the housing to an outer surface of the housing to perform a heat dissipation function; An LED street light is formed in the housing extending in parallel with the heat dissipation unit and including a heat dissipation channel, each end of which is open. The LED street light of claim 1, wherein a plurality of heat dissipation ribs are provided on the upper surface of the housing in a predetermined direction, and the plurality of heat dissipation channels are partitioned by a support wall. According to claim 2, wherein the heat dissipation ribs, the heat dissipation channel and the installation hole are formed in parallel to each other cross-section of the housing is formed in the same shape, the housing is characterized in that the LED is produced by extruding aluminum material . The LED light source unit according to any one of claims 1 to 3, wherein legs are extended on both sides of the housing, and the LED light source unit is mounted in a mounting space formed by a bottom surface of the housing and the leg portion. LED space, characterized in that the reflection plate for reflecting the light source of the LED light source portion, the diffusion plate for diffusing the light source is provided at a position spaced apart from the reflecting plate. According to claim 4, LED leg, characterized in that the leg portion is provided with a first hook groove and a second hook groove for fixing the two ends of the reflecting plate and the diffusion plate, respectively. The LED street light of claim 5, wherein both ends of the mounting space along the longitudinal direction of the housing are selectively shielded by a cover, respectively.

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