KR101258607B1 - LED Lighting Apparatus Having Air Circulation Passageway Of Air - Google Patents

Abstract

According to a feature of the invention, the upper and lower openings are formed with a predetermined size of the inner space, the outer peripheral surface a plurality of case vent holes 11 for discharging the heat of the inner space to the outside spaced at regular intervals ( 10); A PCB 20 mounted on a lower inner side of the case 10 and mounted with a plurality of LED lamps 21 emitting downward; Is mounted on the lower portion of the PCB 20 to transmit the light emitted from the LED lamp 21 to the outside, the outside air in the form of penetrating the PCB 20 in the position corresponding to the case vent hole 11 A light transmitting plate 30 having a light transmitting plate tube 31 for introducing the light into the inside; And mounted on the upper portion of the PCB 20 in the inner space of the case 10, a plurality of heat dissipation fins 41 are formed to release the heat generated from the PCB 20, the light transmitting plate through the inside There is provided an LED lighting device having an air circulation passage including a heat sink 40 formed with a heat sink vent 42 communicating with 31.

Description

LED lighting device with air circulation passage {LED Lighting Apparatus Having Air Circulation Passageway Of Air}

The present invention relates to an LED lighting device, and more particularly, to a LED lighting device having a straight air circulation passage passing through the lower and upper portions of the lighting device for quickly dissipating heat generated while the LED lamp emits light to the outside. It is about.

LED (Light Emitting Diode), which is a light emitting diode, consumes little electricity but does not have much light, so it was mainly used as a display device for various instrument panels. Recently, high power LEDs have been developed and used as lighting lamps. Such lighting LED lamps have the advantages of significantly lower power consumption and long life compared to conventional lamps such as halogen or mercury lamps.

However, since LED is basically a semiconductor, it is not only very vulnerable to heat, and in order for the LED to be used as a lamp for lighting, it is necessary to obtain sufficient illuminance. If there is a lot of heat when the LED lamp is turned on, this heat heats the LED itself, and when the LED is heated, there is a problem that the life is shortened rapidly.

In the case of the LED lighting device, the illumination of each LED lamp is not so high, so a plurality of LED lamps are focused in a bundle, and when a large number of LED lamps are used in a confined space, a large amount of heat is generated. There is a rising problem. Therefore, cooling of the lamp is very important in the LED lighting device.

In the case of a conventional high-power LED lighting device for lighting is air-cooled to disperse heat by air as a cooling means, LED lighting device having a heat sink composed of various types of heat sink fins has been developed and released to effectively dissipate heat.

However, in the case of an air-cooled LED lighting device, the heat sink needs to have a very large heat sink or a large number of heat sink fins in order to generate sufficient heat radiation.

In addition, the case of the LED lighting device is formed with a plurality of heat discharge holes for dissipating the heat generated from the inside to the outside, but the lower part of the inside by the PCB mounted with the LED lamp or the light transmitting plate for transmitting the light emitted from the LED lamp Since the flow is not generated in the circulated air inside the case because it is blocked, the heat generated through the heat discharge hole is slightly discharged, so that when the high-power LED lighting device is driven for a long time, the internal temperature is continuously There was a problem going up.

The present invention was created to solve the above-mentioned problems, an object of the present invention is to quickly heat the heat generated while the LED lamp emits through a straight air air circulation passage (P) passing through the bottom and top of the LED lighting device It is to provide an LED lighting device that can effectively reduce the internal temperature by emitting to the outside.

According to a feature of the invention, the upper and lower openings are formed with a predetermined size of the inner space, the outer peripheral surface a plurality of case vent holes 11 for discharging the heat of the inner space to the outside spaced at regular intervals ( 10); A PCB 20 mounted on a lower inner side of the case 10 and mounted with a plurality of LED lamps 21 emitting downward; Is mounted on the lower portion of the PCB 20 to transmit the light emitted from the LED lamp 21 to the outside, the outside air in the form of penetrating the PCB 20 in the position corresponding to the case vent hole 11 A light transmitting plate 30 having a light transmitting plate tube 31 for introducing the light into the inside; And mounted on the upper portion of the PCB 20 in the inner space of the case 10, a plurality of heat dissipation fins 41 are formed to release the heat generated from the PCB 20, the light transmitting plate through the inside There is provided an LED lighting device having an air circulation passage including a heat sink 40 formed with a heat sink vent 42 communicating with 31.

According to another feature of the present invention, a power supply unit mounted on one side of the case 10 from the outside of the case 10 and applying power for driving the LED lamp 21 to the PCB 20 ( Further, the heat sink 40 is, the heat sink through the 42 of the PCB 20 so that the case vent hole 11 and the transparent plate through the tube 31 are in communication with each other It is formed in the form extending from the upper surface to the upper portion of the case 10, the case vent hole 11, heat sink vent hole 42 and the light transmitting plate tube 31 in a straight line to the air circulation passage (P) Provided is an LED lighting device having an air circulation passage, which is formed.

According to another feature of the invention, the heat sink vent 42, in the longitudinal direction toward the center (C) of the heat sink 40, so that the air flow rising in the heat sink 40 is generated Provided is an LED lighting device having an air circulation passage, characterized in that an opening 43 is formed.

As described above, according to the present invention,

First, since the outside air circulates inside the LED lighting device in a straight air circulation passage P passing through the lower and upper parts of the LED lighting device, the heat sink absorbing heat generated by the external air is rapidly cooled. As a result, the internal temperature of the LED lighting device can be effectively reduced.

Second, the through-hole formed in the longitudinal direction in the center of the heat sink is formed, one side of the air circulation passage (P) is opened in the longitudinal direction toward the through hole and communicates with the through hole, the air circulation passage (P) Since rising air flows into the through-holes by the outside air circulating from the bottom to the top, the internal temperature of the LED lighting device as well as the heat sink can be reduced more efficiently.

Third, the light transmitting plate for transmitting the light emitted from the LED lamp to the outside is formed through the PCB mounted with the LED lamp is formed of a tube-type light transmitting plate through which is connected to the heat sink vent of the heat sink, that is, the transparent plate The air circulation passage (P) and the place where the LED lamp of the PCB is mounted by the vent pipe are spatially separated, so that foreign matter such as moisture and dust is introduced into the air circulation passage (P) together with the external air. It is prevented from penetrating the lamp and the PCB, which is free from PCB contamination and maximizes heat dissipation.

1 is a perspective view showing the external configuration of the LED lighting device having an air circulation passage according to a preferred embodiment of the present invention,
Figure 2 is a cross-sectional view showing the internal configuration of the LED lighting device provided with an air circulation passage according to a preferred embodiment of the present invention,
3 is a cross-sectional view taken along AA of FIG. 2 showing a main configuration according to a preferred embodiment of the present invention.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in Figures 1 to 3, the LED lighting device (hereinafter referred to as "LED lighting device 100") is provided with an air circulation passage according to a preferred embodiment of the present invention, the case 10, PCB 20, a floodlight plate 30, a heat sink 40, and a power supply unit 50 are provided.

First, the case 10 is a component that covers the inside and constitutes the exterior of the LED lighting apparatus 100 according to the present invention, the inner space of a predetermined size with the upper and lower openings is formed, the outer peripheral surface is A plurality of case vent holes 11 for dissipating heat generated in the inner space to the outside are formed at regular intervals.

Here, a heat dissipation cap 13 having a heat dissipation port 14 for dissipating heat generated while the LED lamp 21, which will be described later, emits light to the outside is mounted at the upper end of the case 10, and the LED is disposed at the bottom of the case 10. The inside of the case 10 is covered by mounting the floodlight plate 30 for transmitting the light emitted from the lamp 21 to the outside. In addition, it is preferable that the heat dissipation cap 13 is opened in the lateral direction so that foreign substances such as moisture and dust do not easily penetrate from the outside.

In addition, the case vent 11 is a heat discharge hole formed in the upper portion of the case 10 to form an air circulation passage (P) to be described later, the outside air of the lower portion of the floodlight plate 30 is LED light After circulating the inside of the device 100 is discharged.

The PCB 20 is a printed circuit board in which a plurality of LED lamps 21 are mounted in a circuit configuration, and as shown in FIG. 2, the PCB 20 is fastened to the support frame 12 fixed to the case 10. The lower end of the case 10 may be mounted, and the edge end of the PCB 20 may be directly inserted into the lower portion of the case 10 by being inserted into a fastening groove (not shown) formed inside the case 10. It may be. Here, one side of the PCB 20 is electrically connected to the power supply unit 50 provided inside or outside the case 10, the power for driving the LED lamp 21 from the power supply unit 50 It is provided to receive the supply. In addition, the PCB 20 is formed to be spatially spaced apart from the air circulation passage (P) through which the outside air is introduced by the light transmitting plate pipe 31 to be described later, the foreign matter such as moisture and dust contained in the outside air Since inflow is blocked, the PCB 20 is free from contamination and is provided to maximize heat dissipation.

The floodlight panel 30 transmits the light emitted from the LED lamp 21 mounted on the PCB 20 to the outside and prevents foreign substances such as moisture and dust from entering the PCB 20. The cover is a component that spatially separates the LED lamp 21 from the outside, it is mounted on the lower portion of the PCB 20 to transmit the light emitted from the LED lamp 21 to the outside, the case vent hole 11 ) And a light transmitting plate through which the outside air flows into the inside in the form corresponding to the PCB 20 is formed therein.

Here, the floodlight plate 30 may perform various optical functions according to the material and processing form. For example, as shown in the figure, the lens unit 32 for diffusing or condensing light may be formed in close proximity to the LED lamp 21, it may be formed of a glass or synthetic resin material of a transparent or translucent material. . In addition, the floodlight plate 30 may correct the color of the illumination light by including an additive absorbing light of a predetermined wavelength.

In addition, the light transmission plate 31 is introduced into the air circulation passage (P) according to the present invention by introducing the outside air in the lower portion of the light transmitting plate 30, the light emitted from the LED lamp 21 It is preferably formed of a transparent material so that interference such as shading by the light transmitting plate tube 31 to the outside does not occur. Here, the floodlight through-hole (31) is introduced into the external air, but is formed in the form of a pipe (Pipe) penetrating through the PCB 20, the LED lamp 21 and other circuit components mounted on the PCB (20) While preventing foreign matters such as moisture and dust, which may be introduced together with the external air, from being penetrated, the external air can effectively release heat generated from the PCB 20.

The heat sink 40 is a component that is in close contact with the PCB 20 and absorbs heat generated in a portion where the LED lamp 21 and the PCB 20 are in contact with each other and emits heat to the outside. Is mounted on the upper portion of the PCB 20 in the inner space of the, a plurality of heat dissipation fins 41 are formed radially to release the heat transferred from the PCB 20, the light transmitting plate through the tube 31 The heat sink through-hole 42 is formed in communication with.

Here, the heat sink vent 42 is a passage in communication with an end portion of the light transmitting plate tube 31 passing through the PCB 20 to allow the outside air of the lower portion of the light transmitting plate 30 to flow in and circulate. Heat sink through-holes through which the outside air flowing into the through-holes through the pipe plate 31 is formed in the same position that corresponds to the position where the through-holes through the pipe plate tube 31 and the case vent hole 11 are formed. Through the 42 to be discharged to the heat vent (14) of the case vent hole 11 and the array discharge cap (13).

In addition, the heat sink vent 42, as shown in Figure 3, in the longitudinal direction toward the center (C) of the heat sink 40, so that the air flow rising in the heat sink 40 is generated. It is preferable that the opening opening 43 is formed.

More specifically, heat is generated in a portion where the LED lamp 21 is in contact with the PCB 20 while the LED lamp 21 emits light, and the heat sink 40 is formed at the upper end of the PCB 20. Since heat is tightly mounted, the heat is transferred to the heat sink 40. As a result, the inside of the heat sink through-hole 42 is heated to generate an air stream in which the air introduced therein rises. Here, the heat sink through-hole 42 and the center C of the heat sink 40 partially intersect through the opening 43 opened in the longitudinal direction toward the center C of the heat sink 40. By being in communication with each other, an air stream that is raised entirely inside the heat sink 40 is generated by the air flow that circulates inside the heat sink vent hole 42.

As a result, the heat sink 40 is cooled while continuously contacting with relatively low temperature external air, and as a result, the internal temperature of the LED lighting device 100 can be rapidly reduced.

The power supply unit 50 is mounted at an upper position of the heat sink 40 inside the case 10 or mounted outside of the case 10 to drive the LED lamp 21. A component that applies power to the PCB 20.

On the other hand, the LED lighting device 100 according to the present invention, as shown in Figure 1 and 2, the power supply unit 50 is mounted on one side of the case 10 from the outside of the case 10, the heat The sink 40 may be formed to extend from the top surface of the PCB 20 to the top of the case 10.

Therefore, the case vent hole 11 and the light transmitting plate tube 31 are in communication with each other by the heat sink vent hole 42, and the case vent hole 11, the heat sink vent hole 42, and the light transmitting plate tube ( 31) may form an air circulation passage P in a straight line.

Here, as compared with the case in which the power supply unit 50 is mounted inside the case 10, the speed and inflow rate of the outside air communicating with the inside of the heat sink vent 42 may be increased. By the opening 43 of the heat sink through-hole 42, the effect of the rising air generated inside the heat sink 40 may be further maximized.

By each configuration of the LED lighting device 100 provided with the air circulation passage according to the present invention as described above, the linear air circulation passage (P) passing through the lower and upper portions of the LED lamp 21 is provided with LED Since the outside air is circulated inside the lighting device 100, the heat sink 40 absorbing heat generated by the outside air is cooled, and as a result, the internal temperature of the LED lighting device 100 can be rapidly reduced. Provide the effect.

In addition, a through hole formed in a longitudinal direction in the center of the heat sink 40 is formed, one side of the air circulation passage (P) is opened in the longitudinal direction and communicates with the through hole, thereby the interior of the air circulation passage (P) Since the air flows into the through hole by the air circulated from the bottom to the top, the internal temperature of the LED lighting device 100 including the heat sink 40 can be reduced more efficiently.

In addition, the heat sink through the PCB 20, the LED lamp 21 is mounted on the floodlight plate 30 for transmitting the light emitted from the LED lamp 21 to the outside ( 42 is formed in the tube-shaped light-transmitting tube 31, even if foreign matters such as moisture and dust from the outside into the air circulation passage (P) to the LED lamp 21 and the PCB 20 configured in the circuit Since it is prevented from penetrating, it is possible to free from contamination of the PCB 20 while maximizing heat dissipation.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

10 ... case 11 ... case ventilation
20 ... PCB 21 ... LED Lamp
30 ... floodlight 31 ... floodlight
40 Heatsink 41 Heat sink fin
42.Heat sink vent 43.Opening
50. Power supply

Claims (3)

An inner space having a predetermined size having an upper end and an lower end formed therein, and a case 10 having a plurality of case vent holes 11 for discharging heat of the inner space to the outside at a predetermined interval;
A PCB 20 mounted on a lower inner side of the case 10 and mounted on a lower surface of a plurality of LED lamps 21 emitting downward;
Is mounted on the lower portion of the PCB 20 to transmit the light emitted from the LED lamp 21 to the outside, the position corresponding to the case vent hole 11 penetrates the PCB 20 through the PCB 20 A light transmitting plate 30 disposed in an extended form so as to expose a predetermined length to an upper surface of the light transmitting plate 30 having a light transmitting plate tube 31 for introducing external air into the inside; And
Mounted on the upper portion of the PCB 20 in the inner space of the case 10, a plurality of heat dissipation fins 41 are formed to release the heat generated by the PCB 20, the light-transmitting tube through the inside ( And a heat sink 40 in which a heat sink through-hole 42 communicating with the 31 is formed.
The heat sink 40 of the case 10 on the upper surface of the PCB 20 so that the case vent hole 11 and the light transmitting plate tube 31 communicate with each other by the heat sink vent 42. Is formed to extend to the upper portion, the open end of the heat sink through-hole 42 is connected to and communicated with the end exposed to the upper portion of the PCB 20 of the floodlight through-hole tube 31, the heat sink through the hole The other end of the opening 42 is connected to the end of the case vent hole 11 while the case vent hole 11, the heat sink vent hole 42, and the light transmitting plate tube 31 are in an air circulation passage P in a straight line. LED lighting device provided with an air circulation path, characterized in that to form a).
The method of claim 1,
A power supply unit 50 mounted on one side of the case 10 from the outside of the case 10 and applying power to the PCB 20 to drive the LED lamp 21; LED lighting device provided with an air circulation passage.
3. The method according to claim 1 or 2,
The heat sink vent 42 has an opening 43 which is opened in the longitudinal direction toward the center C of the heat sink 40 so as to generate an air stream rising inside the heat sink 40. LED lighting device provided with an air circulation passage.

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