KR101021537B1 - Led lighting device - Google Patents

Abstract

PURPOSE: An LED lighting device is provided to pass cooled air through a helix cooling channel, thereby quickly cooling heat generated from an LED. CONSTITUTION: A case forms a plurality of long air passage holes. An inner heat emitting pipe(2) includes an external screw unit(21) on an external plate. An external periphery heat emitting pipe(3) forms a helix cooling channel(4). An LED unit(5) emits light by receiving external power. A PCB unit supplies external power to each LED unit. An inner cover couples a lower plate of a heat emitting pipe with an inner coupling unit. An external periphery cover couples an external coupling unit with a lower plate of a periphery heat emitting pipe.

Description

LED lighting device {LED LIGHTING DEVICE}

The present invention relates to an LED lighting device, and more particularly, by passing cooling air, which is raised by natural convection, through a spiral cooling passage formed around the inner side, thereby increasing the residence time of the cooling air and expanding the contact area of the cooling air. The present invention relates to an LED lighting device that can more quickly cool the heat emitted from the LED.

In general, lighting lamps installed on roads and parks are installed for road safety and security. Sodium lamps, metal lamps, and halogen lamps are used. However, these lamps consume a lot of power in recent years, so they have minimal power consumption. LED lighting is widely used.

Accordingly, the present invention is an improvement of the conventional LED lighting apparatus installed in the outdoor, firstly, the LED lighting apparatus of the Republic of Korea Patent No. 0989037, the applicant of the present invention as a conventional LED lighting apparatus (hereinafter, "a conventional LED lighting apparatus" ") Is as follows.

Conventional LED lighting device is a LED lighting device installed on a post installed in a road or a park to irradiate light, the first and second discs stacked on each other, and a plurality of heat radiation fins on the outer periphery A space between the second disc and spaced between the first and second discs to communicate with the outside, and a space between the first disc and the second disc formed by the spacers, respectively, A heat dissipation metal body formed of first and second vent holes through which the first and second discs communicate with the outside, the first disc being fixed to the support so that the surface of the second disc faces the ground; LEDs arranged on the surface of the second disc adjacent to the annular projection in a plurality of arrays along the circumference to irradiate light; An annular protrusion protruding along the surface edge of the second disc to adjust the distance between the LED and the lens mounted on the lens plate to focus; A fixing hole formed in a disk shape and stacked on the annular protrusion and fitted with a lens is formed along the circumference corresponding to the LED, and is formed in contact with the second vent hole of the second disk to form a center between the first and second disks. A lens plate having a third vent formed therein so as to be in contact with the outside; A lens which is inserted into a fixing hole of the lens plate so as to extend the irradiation distance of the LED light to face the LED; And being installed to cover the first and second discs so as to form a periphery of the heat dissipating metal body to close the space between the first and second discs, while the space between the first and second discs is in contact with the outside at the periphery. It comprises a ring-shaped case having an arcuate cross section formed with a plurality of fourth vent holes, the heat generated during the LED light emitting is conducted to the heat radiation metal body, the heat radiation metal body is made of the lens plate Air flowing into the third vent and exiting the first vent of the first disc through the space between the second vent of the second disc, the first and second discs, and the fourth vent of the case And heat dissipating the heat of the LED in the air exiting through the space between the second disc and the first vent of the first disc.

Therefore, the conventional LED lighting device configured as described above has the advantage that the heat dissipation function is excellent, the life of the LED is greatly extended, and the appearance is beautiful and gives an aesthetic sense.

However, the conventional lighting device configured as described above has the following problems.

First, in the conventional lighting device, when the wind is not blown, no air is introduced from the fourth vent. Therefore, the conventional lighting device has a problem that a sufficient heat dissipation effect cannot be obtained from the heat radiation fins formed around the spacer members when the wind does not blow.

In addition, since the first vent is open at the top and the fourth vent is open at the circumference of the case, there is a problem in that a short circuit occurs frequently inside the lighting device because no waterproof effect can be obtained in rainy weather. have.

Therefore, the present invention was invented to solve the above problems,

An object of the present invention is to cool the heat emitted from the LED through natural convection even if the wind is not blowing, as well as to increase the residence time of the cooling air by passing the cooling air through the spiral cooling passage formed around the inner side of the cooling air The purpose of the present invention is to provide an LED lighting device that can more rapidly cool down the heat dissipated from the LED by expanding the contact area.

Another object of the present invention is to provide an LED lighting device that can also obtain a waterproof effect by sealing the inside of the lighting device.

Still another object of the present invention is to provide an LED lighting device that can cool the heat of the outer circumferential heat dissipation tube more quickly by forming a spiral outer cooling passage by providing a spiral heat dissipation plate on the outer side of the outer circumferential heat dissipation tube.

The present invention for achieving the above object, is installed in the lower portion of the fixed tube provided in the support, the central periphery of the plurality of air passage holes are formed in an arc shape, the inner disc portion and the outer circumference around the air passage hole A case provided with a plate portion; An inner heat dissipation tube made of a metal material, the inner heat dissipation tube being fixed to a lower portion of the inner disc portion, and having an outer screw portion formed on an outer plate, and a lower plate having a plurality of LED parts mounted thereon; It is fixed to the lower part of the outer circumferential plate portion, which is the outer circumference of the inner heat dissipation tube, through fixing means, and the threaded portion and the threaded portion of the outer screw portion are formed in close contact with the inner plate to form a spiral cooling passage between the outer threaded portion. An outer circumferential heat dissipation tube formed of a metal material including an inner circumferential side plate and a lower plate on which the outer circumferential side plate and the plurality of LED parts are mounted; A lower portion of the inner heat dissipation tube and a lower portion of the outer circumferential heat dissipation tube and a PCB unit for receiving power from the outside to supply power to each of the LEDs, and an inner fastening means on the lower plate of the inner dissipation tube. An inner cover which is fastened; An outer circumferential cover fastened by an outer fastening means to a lower plate (P) of the outer circumferential heat dissipation tube; It is characterized by including.

The LED unit may include a non-conductive plate attached to the lower plate and an LED fixed to a lower portion of the non-conductive plate and connected to the PCB unit.

In addition, the outer side of the outer circumferential side plate of the outer circumferential heat pipe is further formed with a spiral heat sink protruding helically; The case may include a circumferential air riser hole formed in a plurality of arcuate shapes outside the outer circumferential plate portion and vertically erected on an outer circumference of the circumferential air riser hole to cover the outer side of the protruding spiral heat sink. A circumferential side plate forming a spiral outer cooling passage communicating with the hole is further included.

The present invention as described above, by passing the cooling air through the spiral cooling passage formed around the inner side to increase the residence time of the cooling air and to expand the contact area of the cooling air more rapidly to cool the heat emitted from the LED, It is effective to provide an LED lighting device that can be lengthened.

In addition, by sealing the inside of the lighting device to obtain a waterproof effect, there is also an effect that can prevent the failure of the device due to a short circuit in advance.

In addition, by forming a spiral outer cooling passage on the outer side of the outer circumferential heat dissipation tube, it is possible to cool the heat of the outer circumferential heat dissipation tube more quickly, thereby providing an LED lighting device having excellent internal cooling performance.

1 is a perspective view showing a state in which the lighting apparatus according to the present invention is installed on a post.
2 is an exploded perspective view showing a lighting apparatus according to the present invention.
3 is a cross-sectional view taken along the line AA of FIG.
Figure 4 is a front view of a part of the case and the outer peripheral heat dissipation tube of the lighting apparatus according to the present invention.
5 is a front view partially cut in the case of the lighting apparatus according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the present invention may be embodied in many different forms and should not be limited to the described embodiments.

1 is a perspective view showing a state in which a lighting apparatus according to the present invention is installed on a support, Figure 2 is an exploded perspective view showing a lighting apparatus according to the present invention, Figure 3 is a cross-sectional view taken along line A-A of FIG.

Accordingly, the LED lighting apparatus according to the present invention is installed in a post installed on a road or a park, and is installed at a lower portion of the fixing tube 20 protruding from the upper part of the post 10.

That is, the LED lighting apparatus according to the present invention, the case 1 is fixed to the lower portion of the fixing tube 20 and the plurality of air passage hole 11 is formed in an arc around the center, and the case of the case (1) The inner heat dissipation tube 2 provided at the center and provided with the outer thread part 21 on the outer plate, and the inner circumference of the lower part of the case 1, and the inner thread part 31 formed on the inner plate are formed on the outer thread part ( The outer circumferential heat dissipation tube 3 which forms the spiral cooling passage 4 between 21 and the lower board P which comprises the said inner heat dissipation tube 2 and the outer circumferential heat dissipation tube 3 is many. LED part 5 of the upper part of the lower plate (P) of the inner heat dissipation tube (2) and the lower plate (P) of the outer circumferential heat dissipation tube (3) is provided to receive power from the respective LED parts PCB portion (6) for applying power to the (5), the inner cover (7) provided on the lower plate (P) of the inner heat dissipation tube (2), and the outer two It includes an outer peripheral cover 8 which is provided on the lower panel (P) of the heat pipe 3.

In addition, the case 1 is fixed to the lower part of the fixing tube 20 provided in the support 10 through a plurality of bolts, a plurality of arc-shaped air passage hole 11 is formed in the center circumference The inner disc part 12 is provided at an inner side with the air passage hole 11 as a boundary, and the outer circumferential plate part 13 is provided at the outside with the air passage hole 11 as a boundary. That is, the connection table 111 is provided between the air passage hole 11.

The air passage hole 11 communicates with the helical cooling passage 4 formed between the outer side of the inner heat dissipating tube 2 and the inner side of the outer circumferential heat dissipating tube 3 and lifts air that is elevated by natural convection. It serves to discharge.

The inner disc portion 12 serves to fix the inner heat dissipation tube 2, and the outer circumferential plate portion 13 serves to fix the outer circumferential heat dissipation tube 3.

In addition, the inner heat dissipation tube 2 is provided to protrude downward by a fixing means in a lower portion of the inner disc portion 12, the outer side screw portion 21 is formed on the outer plate, the lower portion is provided And a lower plate P on which the plurality of LED parts 5 are mounted.

The inner heat dissipation tube 2 is made of a metal material having excellent thermal conductivity so that the inner heat dissipation tube 2 can be rapidly cooled through air spirally raised along the outer threaded portion 21. That is, the inner heat dissipation tube 2 is preferably made of a metal material such as aluminum or copper having excellent thermal conductivity.

The fixing means includes a plurality of tab holes formed around the upper portion of the inner heat dissipation tube 2, assembly holes formed in the inner disc part 12, and bolts penetrating the assembly holes and fastened to the tab holes. It is composed.

The outer thread portion 21 is preferably composed of a round screw so as to facilitate the flow of air spirally raised from the bottom to the top.

Each of the LED portion 5, which serves to emit light, is fixed to the lower portion of the non-conductive plate 51 and the non-conductive plate 51 attached to the lower plate (P) and the PCB portion (6) LED 52 is connected to the.

In addition, the outer circumferential heat dissipation tube 3 is provided to protrude downward by a fixing means in a lower portion of the outer circumferential plate portion 13, and the inner plate has a threaded portion 211 and a thread of the outer threaded portion 21. The inner thread part 31 in which the part 311 is in close contact is formed, and includes an outer circumferential side plate 32 and a lower plate provided with a plurality of LED parts 5. In addition, in the space between the inner thread part 31 and the outer thread part 21 constituting the inner heat dissipation pipe 2, the thread part 221 of the inner thread part 31 and the thread part 221 of the outer thread part 21 are formed. ) Are closely connected to each other to form the spiral cooling passage (4).

The outer circumferential heat dissipation tube 3 is made of a metal material having excellent thermal conductivity so that the outer circumferential heat dissipation tube 3 can be rapidly cooled through air spirally raised along the inner thread part 31. That is, the outer circumferential heat dissipation tube 3 is preferably made of a metal material such as aluminum or copper having excellent thermal conductivity.

The fixing means includes a plurality of tab holes formed around the upper portion of the inner heat dissipation tube 2, assembly holes formed in the inner disc part 12, and bolts penetrating the assembly holes and fastened to the tab holes. It is composed.

The inner thread portion 31 is preferably composed of a round screw so as to facilitate the flow of air spirally raised from the bottom to the top.

Each of the LED portion 5, which serves to emit light, is fixed to the lower portion of the non-conductive plate 51 and the non-conductive plate 51 attached to the lower plate (P) and the PCB portion (6) LED 52 is connected to the.

 The spiral cooling passage (4), when the inner heat dissipation tube (2) and the outer circumferential heat dissipation tube (3) increases in temperature due to light emission from the LED 52, the cooling air by natural convection flows into the spiral In the process of being raised is to serve to lower the temperature of the inner heat dissipation tube (2) and the outer peripheral heat dissipation tube (3). In addition, as described above, the spiral cooling passage 4 is provided in communication with the air passage hole 11 constituting the case 1, so that the air rising spirally through the spiral cooling passage 4 smoothly. It is discharged.

Therefore, the LED lighting apparatus according to the present invention has the advantage of cooling the heat emitted from the LED through natural convection. In addition, by passing the cooling air through the spiral cooling passage (4), there is an advantage that the heat emitted from the LED can be cooled more quickly by increasing the residence time of the cooling air and expanding the contact area of the cooling air.

Meanwhile, the inner heat dissipation tube 2 is sealed to be blocked from the outside, and the outer circumferential heat dissipation tube 3 is sealed to be blocked from the outside. Thus, a waterproof effect can be obtained, thereby preventing a short circuit in advance.

As described above, the inner cover 7 is provided on the lower plate P of the inner heat dissipation pipe 2 and is fixed by the inner fastening means 71.

The inner cover 7 is made of transparent or translucent synthetic resin or glass, and serves to transmit the light emitted from the LED 52 to enable illumination.

The inner fastening means 71 is formed in the inner circumference of the upper part of the inner protrusion 7 and the assembly protrusion 711 having a threaded portion 712 formed on the outer circumferential surface of the lower plate P. And a tab portion 713 fastened to 711.

As described above, the outer circumferential cover 8 is provided on the lower plate P of the outer circumferential heat dissipation tube 3 and is fixed by the outer fastening means 81.

The outer circumferential cover 8 is made of transparent or translucent synthetic resin or glass, and serves to transmit the light emitted from the LED 52 to enable illumination.

The outer fastening means 81 is formed on the outer circumference of the lower periphery of the lower plate (P), the outer circumferential surface of the assembly protrusion 811 having a threaded portion 812, and an outer side of the upper inner side of the outer circumferential cover 8. The tab portion 813 is fastened to the screw portion 812.

In the LED lighting apparatus according to the present invention, as shown in Figures 1 to 3, the spiral heat sink 9 is formed spirally on the outside of the outer peripheral side plate 32 constituting the outer peripheral heat dissipating tube (3). Include.

In addition, the case 1 constituting the LED lighting apparatus according to the present invention includes an outer circumferential air passage hole 15 formed in a plurality of arc-shaped holes on the outer side of the outer circumferential plate portion 13, and an outer side of the air passage hole 11. It further includes a circumferential side plate 14 provided to stand vertically to cover the outside of the protruding spiral heat sink (9). That is, the connecting table 151 is provided between the peripheral air passage hole 15.

Therefore, between the outer side of the outer circumferential side plate 32 and the circumferential side plate 14, the spiral outer side cooling passage 91 is provided by the spiral heat sink 9, and the spiral outer side cooling passage 91 is It is formed to communicate with the circumferential air passage hole (15).

Therefore, in the spiral outer cooling passage 91, air is introduced from the lower portion by natural convection, spirally raised, and then discharged into the circumferential air passage hole 15, which serves to cool the outer peripheral heat dissipation tube 3. will be.

Hereinafter, the functional relationship of the LED lighting apparatus according to the present invention configured as described above are as follows.

4 is a front view partially cut out the case and the outer peripheral heat dissipation tube of the lighting apparatus according to the present invention, Figure 5 is a front view partially cut out the case of the lighting apparatus according to the present invention.

Thus, when the lighting device according to the present invention is illuminated by illuminating a plurality of LEDs 52 in the state of being installed in the fixed tube 20 of the support 10, the inner heat dissipation tube 2 and the outer circumferential heat dissipation tube 3 Temperature rises.

Then, as shown in FIG. 4, the spiral cooling passage 4 in which air is formed between the outer side of the inner heat dissipation tube 2 and the inner side of the outer circumferential heat dissipation tube 3 by natural convection to which the hot air rises upwards. The spirally elevated and elevated air spirally along) is discharged upward through the air passage hole 11 formed around the upper part of the case 1. In other words, when the temperature of the inner heat dissipation tube 2 and the outer circumferential heat dissipation tube 3 rises, as the air temperature inside the helical cooling passage 4 rises, the air whose temperature rises rises and thus the air passage hole ( 11) is discharged to the outside, thereby causing a natural convection phenomenon in which air continuously flows into the spiral cooling passage (4) in the lower portion of the lighting device.

Therefore, as the cooling air by natural convection continuously spirals upward from the bottom to the spiral cooling passage 4 as described above, the heat generated from the inner heat dissipation tube 2 and the outer circumferential heat dissipation tube 3 is rapidly increased. It can be cooled.

In other words, when the cooling air passes through the spiral cooling passage 4 as described above, the residence time of the cooling air increases, while the outer threaded portion 21 of the inner heat dissipating pipe 2 and the outer circumferential heat dissipating pipe 3 are separated. By expanding the contact area of the cooling air in contact with the inner screw portion 31, there is also an advantage that the heat of the inner heat dissipation tube 2 and the outer peripheral heat dissipation tube 3 can be cooled more quickly.

In addition, as shown in FIG. 5, in the process of cooling as described above, the spiral outer cooling passage 91 in which air is formed on the outer side of the outer circumferential heat pipe 3 by natural convection to which hot air rises upwards. Air continuously rising and rising spirally along) is discharged upward through the circumferential air passage hole 15 formed around the outer side of the upper case (1). In other words, when the temperature of the outer circumferential heat dissipation tube 3 rises, as the air temperature inside the helical outer cooling passage 91 rises, the air whose temperature is increased rises to the outside through the circumferential air passage hole 15. It is discharged to, thereby causing a natural convection phenomenon in which air continuously flows into the spiral outer cooling passage 91 in the lower portion of the lighting device.

Accordingly, as the air passing through the circumferential air passage hole 15 is continuously raised in a spiral shape, the residence time of the cooling air is increased and the area contacted with the cooling air by the spiral heat sink 9 is expanded, thereby expanding the outer circumferential heat pipe. (3) has the advantage of further improving the cooling efficiency.

Although preferred embodiments of the present invention have been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but it will be apparent to those skilled in the art that various modifications are possible without departing from the scope of the present invention.

1: case
11: air passage hole
111: connecting rod
12: inner disc part
13: outer peripheral plate
14: circumference side plate
15: perimeter air passage hole
151: connecting rod
2: inner heat pipe
21: outer thread
211: threaded portion
P: Bottom plate
3: outer circumferential heat dissipation tube
31: inner thread part
311: threaded portion
32: outer circumference side plate
P: Bottom plate
4: spiral cooling passage
5: LED
51: vision plate
52: LED
6: PCB part
7: inner cover
71: inner fastening means
711: assembling protrusion, 712: screw portion, 713: tab portion
8: outer circumference cover
81: outer fastening means
811: assembly protrusion, 812: screw portion, 813: tab portion
9: spiral heat sink
91: spiral outer cooling passage
10: prop
20: fixed tube

Claims (3)

It is installed in the lower part of the fixed tube 20 provided in the support 10, a plurality of air passage hole 11 is formed in an arc shape in the center circumference, the inner disc portion 12 to the boundary of the air passage hole 11 And a case 1 having an outer circumferential plate portion 13;
Metal material including a lower plate (P), which is fixed to a lower portion of the inner disc portion 12 by fixing means, and an outer screw portion 21 is formed on the outer plate, and a plurality of LED portions 5 are mounted on the lower portion. An inner heat dissipation tube 2;
The lower periphery of the outer circumferential plate portion 13, which is the outer periphery of the inner heat dissipation tube 2, is fixed through fixing means, and the threaded portion 211 and the threaded portion 311 of the outer threaded portion 21 are attached to the inner side plate. An inner thread part 31 is formed to be in close contact with the outer thread part 21 to form the spiral cooling passage 4, and a lower plate on which the outer circumferential side plate 32 and the plurality of LED parts 5 are mounted ( An outer circumferential heat dissipation tube 3 of metal material comprising P);
PCB provided on the lower plate P of the inner heat dissipation tube 2 and the lower plate P of the outer circumferential heat dissipation tube 3 to receive power from the outside to apply power to each LED unit 5. Part 6,
An inner cover fastened to the lower plate P of the inner heat dissipation tube 2 by an inner fastening means 71;
An outer circumferential cover 8 fastened by an outer fastening means 81 to a lower plate P of the outer circumferential heat dissipation tube 3;
LED lighting apparatus comprising a.
The method of claim 1,
The LED portion 5,
A non-conductive plate 51 attached to the lower plate P,
The LED 52 is fixed to the lower portion of the non-conductive plate 51 and connected to the PCB unit 6,
LED lighting apparatus comprising a.
The method according to claim 1 or 2,
A spiral heat sink 9 is further formed on the outer side of the outer circumferential side plate 32 of the outer circumferential heat pipe 3;
The case 1 is provided so as to be erected vertically on the outer periphery of the outer periphery of the outer periphery plate portion 13, the periphery air rise hole 15 formed in a plurality of arcuate shape, and the periphery air rise hole 15 LED lighting device further comprises a circumferential side plate (14) forming a helical outer cooling passage (91) communicating with the circumferential air rise hall (15) by covering the outside of the protruding spiral heat sink (9). .

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