KR100920024B1 - Lamp apparatus - Google Patents

Abstract

PURPOSE: A lamp device is provided to prevent damage or malfunction of a device by preventing excessive rise of temperature inside a device. CONSTITUTION: A lamp device includes a lamp(110), a globe(115), a main body cover(120), a wind suction part(130), a fan structure, and a top cover(150). The lamp emits a light. The light penetrates the globe. The main body cover protects the lamp. The wind suction part is installed in the main body cover. The wind suction part accommodates a wind from outside. The fan structure is driven by the wind accommodated in the wind suction part. The fan structure ventilates an air inside the main body cover. The top cover protects the wind suction part.

Description

Luminaire {Lamp Apparatus}

The present invention relates to a luminaire, and more particularly, to be used in various kinds of lighting devices, including street lamps, and to prevent malfunction or failure of the apparatus by preventing the temperature inside the luminaire from excessively rising despite the heat generated in the internal lamp. To a configured luminaire.

Street lamp refers to a lighting facility installed along the street for the safety and security of street traffic. Street lamps are used according to the installation places such as highways, main roads in the city, commercial roads and residential roads. In the streetlight pole type, the highway type bends the end of the pole and puts its back on the end of the pole. There are a variety of things, such as chief type.

1 illustrates a structure of a general street lamp, and as shown, a street lamp generally includes a street lamp base 20 installed on the ground, a lower street lamp pole 11 installed on the street lamp base 20, and a connection member ( 15, an upper street lamp column 12 extending from the lower street lamp column 11, an extension portion 30 extending from the upper street lamp column 12, and a luminaire 40 installed in the extension portion 30. It is configured to include. Here, the lamp 40 is a device that includes a lamp (not shown) that is a light source for emitting light, and is a lamp used in the luminaire, a high-pressure mercury lamp, a fluorescent lamp, a sodium lamp, a normal bulb Although lamps have been used, in recent years, LED lamps having excellent brightness and general electrical characteristics have been widely used.

By the way, such a conventional luminaire had a problem of inferior heat dissipation characteristics, especially when the LED lamp is used as a lamp light source. That is, in general, the luminaire should have excellent heat dissipation, which is the ability to discharge heat generated from the lamp to the outside. In the case of various light sources including LED lamps, the heat from the light source itself is very high, so if the luminaire cannot be properly discharged to the outside, Electrical circuits and electrical components are damaged and failures occur.

However, in the conventional luminaire, there is no separate means for cooling the heat generated by the lamp, except that the heat inside the heat conduction by the cover of the luminaire is exposed to the atmosphere and then heat exchanged with the atmosphere to cool. There was only. That is, in order to increase the heat exchange effect described above, only the method of increasing the external surface area of the cover of the luminaire in contact with the atmosphere as much as possible or using a metal material having excellent heat dissipation characteristics is used. there was.

Therefore, conventionally, only by using such a passive heat dissipation method, heat inside the luminaire cannot be effectively and properly discharged to the outside, and electrical circuits and electric elements inside the luminaire are damaged by electric overheating, causing failure or lifespan. There were problems such as being shortened.

Therefore, the technical problem to be achieved by the present invention is in the luminaires used in various kinds of lighting devices, including street lamps, by releasing the heat inside the luminaire to the outside actively and effectively, so that the temperature inside the apparatus does not rise excessively An object of the present invention is to provide a luminaire configured to prevent a malfunction, failure or breakage of the lamp.

In order to achieve the above technical problem, the present invention and the lamp for emitting light; A globe through which the light penetrates; A main cover which accommodates and protects the lamp; A wind suction unit installed on the main body cover to receive wind from the outside; A fan structure driven by the wind received by the wind suction unit, and configured to ventilate the air in the body cover; It provides a luminaire comprising an upper cover to protect the wind intake.

In the present invention, the fan structure includes a driving fan for driving the fan structure by the wind received by the wind suction; It is preferably configured to include a ventilation fan formed in combination with the drive fan for ventilating the air in the body cover.

In the present invention, the air suction unit has an opening, and the fan structure is preferably installed in the opening.

In the present invention, it is preferable that the upper cover includes at least one or more first vents formed at an outer circumference thereof.

In the present invention, the fan structure is driven by the wind received by the wind suction portion to suck the air in the body cover, the sucked air is preferably discharged to the outside through the first vent.

In the present invention, the main body cover includes at least one or more second vents formed in the outer circumferential portion, it is preferable that the air flowing through the second vent is supplied into the main body cover when the fan structure is driven.

In the present invention, it is preferable that the wind suction part includes a plurality of suction paths formed in a radial shape to receive the wind from the outside.

In the present invention, it is preferable that the wind suction part includes a partition structure formed in a radial shape to form the plurality of suction paths.

The luminaire according to the present invention adopts a heat dissipation structure including a fan structure to allow the heat inside the apparatus to be actively and effectively discharged to the outside, thereby preventing the internal temperature of the apparatus from being excessively raised, causing malfunction or failure or damage of the apparatus. There is an effect that can prevent this from occurring. In addition, the luminaire according to the present invention is to enable the fan structure to be effectively driven by the natural wind coming in from the outside through the air intake, it is possible to obtain an effective heat dissipation characteristics by a relatively simple configuration without additional power consumption There is also.

Hereinafter, the present invention will be described in more detail with reference to Examples. These examples are only for illustrating the present invention, and the scope of protection of the present invention is not limited by these examples.

Figure 2 is an exploded perspective view of a cross section of the luminaire according to an embodiment of the present invention, Figure 3 is a longitudinal cross-sectional view of the luminaire according to the present embodiment, Figure 4 is a front view of the luminaire according to the embodiment, Figure 5 6 is a side view of the luminaire according to the present embodiment, and FIG. 6 is a bottom view of the luminaire according to the present embodiment. Referring to this, the present invention will be described below.

As shown, the luminaire according to the present embodiment includes a lamp 110 for emitting light; A glove 115 through which the light penetrates; A main body cover 120 which accommodates and protects the lamp 110; A wind suction part 130 installed on the main body cover 120 to receive wind from the outside; A fan structure 140 which is driven by the wind received by the wind suction unit 130 and for ventilating the air in the body cover 120; It is configured to include an upper cover 150 to protect the wind suction unit 130.

The fan structure 140 includes a driving fan 141 for driving the fan structure by the wind received by the wind suction unit 130; It is formed in combination with the drive fan 141 and comprises a ventilation fan 142 for ventilating the air in the body cover 120. In addition, the wind suction unit 130 includes a plurality of suction paths formed in a radial form to receive the wind from the outside, and includes a partition structure 131 formed in a radial form to form this.

The operation of this embodiment configured as described above will be described.

The luminaire according to the present embodiment is a part that emits light from various kinds of lighting devices including a street lamp, and in the case of a street lamp, the luminaire 40 installed in the extension part 30 extending from the upper street lamp column 12 in FIG. 1. ) Part. The luminaire according to the present embodiment can be used not only for street lamps but also for various kinds of luminaires.

First, the luminaire according to the present embodiment includes a lamp 110 for emitting light as shown in FIG. 2, and includes a globe 115 for passing light emitted from the lamp 110. Globe 115 may be a variety of things, such as transparent or translucent. In general, when the lamp 110 emits light, a very large heat is generated, and thus a heatsink 161 for dissipating the heat may be applied.

The luminaire according to the present embodiment includes a main body cover 120 to receive and protect the lamp 110. In addition to accommodating the lamp 110, the main body cover 120 may also serve to accommodate all the circuit elements and the heat sink 161 included in the luminaire. In addition, the body cover 120 is provided with at least one ventilation hole 121 formed in the outer peripheral portion thereof, as shown in FIGS. The vent 121 is installed to ventilate between the inside of the main body cover 120 and the atmosphere, and in particular, air in the air flows into the main body cover 120 when the fan structure 140 is driven, as will be described later. Serves as a possible air inlet. At least one vent hole 121 may be installed over the circumference of the outer circumferential portion of the main body cover 120 as shown in FIGS. 3 to 6, and is installed below the main body cover 120 as shown in FIG. 3. It may be configured to be so or according to the embodiment may be configured to be installed on the top or any other part.

On the other hand, the luminaire according to the present embodiment includes a wind suction unit 130 is installed on the body cover 120. The wind suction unit 130 is a component installed to receive the wind from the outside, and comprises a plurality of suction paths formed in a radial form in order to easily receive the wind from the outside atmosphere. Such a plurality of suction paths may be implemented by a partition structure 131 formed in a radial shape as shown in FIGS. 7 to 9.

That is, as shown in FIG. 7, the radially partitioned partition structure 131 formed in the wind suction unit 130 is provided with a suction path in which wind flowing from the outside air is formed between the partitions. It serves to easily enter the direction of the arrow. Accordingly, as shown, the wind flowing into the radial shape may effectively drive the fan structure 140 to be described later. In Figure 7, the fastening portion 132 is installed to fasten with the upper cover 150 to be described later using a fastening means such as bolts. The wind suction unit 130 and the main body cover 120 may be separately formed and then coupled and assembled through a separate fastening unit, or may be configured to be integrally formed.

On the other hand, the air intake 130 is formed with an opening of a suitable size in the center portion, the fan structure 140 is installed in this opening. The fan structure 140 is driven by the wind received by the wind suction unit 130, and is a component installed to ventilate the air in the body cover 120. To this end, the fan structure 140 includes a driving fan 141 for driving the fan structure 140 by the wind received by the wind suction unit 130; It is formed in combination with the drive fan 141 and comprises a ventilation fan 142 for ventilating the air in the body cover 120.

As shown in FIG. 7, when the wind flows in a radial form from the outside air through the wind suction unit 130, the wind drives the driving fan 141 to rotate the fan structure 140. Accordingly, the ventilation fan 142 formed in combination with the driving fan 141 is driven, and the ventilation fan 142 sucks and discharges the air inside the body cover 120. The driving fan 141 and the ventilation fan 142 may be integrally formed, or may be respectively coupled to each other by a method such as assembly.

In this embodiment, the fan structure 140 may effectively ventilate the air inside the body cover 120 even when the amount of wind flowing from the outside is relatively small. That is, in the present embodiment, since the wind is collected in a radial form from the outside through the wind suction unit 130 as described above, the effective area where the fan of the driving fan 141 collides with the wind is high. In addition, when the wind flows in from the outside, the passage between the partitions is narrowed, so the speed of the wind flows faster and stronger. Accordingly, the fan structure 140 can effectively rotate even when the amount of wind flowing from the outside is relatively low, and thus the ventilation fan 142 efficiently sucks internal air to ventilate the inside of the main body cover 120. Can be.

On the other hand, the upper cover 150 is formed on the upper portion of the wind suction unit 130, the upper cover 150 serves to protect the wind suction unit 130 and the like. In addition, the upper cover 150 is provided with at least one ventilation hole 151 formed in the outer peripheral portion thereof, as shown in FIGS. The vent 151 is installed to ventilate the space between the upper cover 150 and the wind suction unit 130 and the atmosphere, the internal air discharged through the ventilation fan 142 when the fan structure 140 is driven. Serves as an air outlet that can be discharged to the outside atmosphere. As shown in FIG. 3, at least one vent hole 151 may be installed over the circumference of the outer circumferential portion of the upper cover 150, and may be installed at any other part depending on the embodiment.

The luminaire of this embodiment configured as described above can effectively discharge heat inside the luminaire to the outside even when the interior of the luminaire is heated by the lighting of the lamp 110, which will be described in more detail with reference to FIG. 10. Is the same as

When the wind flowing from the outside atmosphere is introduced into the radial shape through the wind suction unit 130, the driving fan 141 is driven by the introduced wind to rotate the fan structure 140. Then, the ventilation fan 142 rotates together to suck and discharge hot air inside the body cover 120, that is, inside the luminaire. In addition, the air discharged through the ventilation fan 142 is discharged to the outside air through the ventilation hole 151 of the upper cover 150. In addition, new air is sucked from the outside atmosphere through the air vent 121 of the main body cover 120 and supplied to the inside of the main body cover 120, that is, the inside of the luminaire.

Through such a series of actions, the luminaire according to the present embodiment can actively and effectively discharge heat inside the apparatus to the outside so that the lamp 110 does not overheat despite the operation of the lamp 110.

Accordingly, according to the present embodiment, since the temperature inside the luminaire does not rise excessively, it is possible to prevent malfunction or failure or breakdown of the apparatus. In particular, according to the present embodiment, by allowing the fan structure 140 to be effectively driven by the natural wind introduced through the wind suction unit 130 from the outside, effective heat dissipation by a relatively simple configuration without a separate power consumption Not only can the characteristic be obtained, but there is no concern about the failure of the motor, since the motor is not used, so the luminaire can be used for a long time.

Meanwhile, in the above embodiment, as illustrated in FIG. 10, a configuration in which air inside the main body cover 120 is discharged to the outside air through the ventilation holes 151 of the upper cover 150 by the fan structure 140 is described. However, it can also be configured to act in the opposite direction. That is, according to the embodiment, the air of the outside atmosphere is introduced through the ventilation holes 151 of the upper cover 150 by the driving of the fan structure 140, and then the body cover 120 of the main cover 120 is formed through the fan structure 140. After being supplied to the inside, the air inside the body cover 120 may be configured to be discharged to the outside atmosphere through the vents 121.

1 illustrates a structure of a general street lamp.

2 is an exploded perspective view of a cross section of a luminaire according to an embodiment of the present invention.

3 is a longitudinal sectional view of the luminaire according to the present embodiment.

4 is a front view of a luminaire according to the present embodiment.

5 is a side view of the luminaire according to the present embodiment.

6 is a bottom view of the luminaire according to the embodiment.

7 is a perspective view showing a wind suction unit and a fan structure used in the luminaire according to the present embodiment.

8 is a side view of the wind suction unit and the fan structure used in the luminaire according to the present embodiment.

9 is a plan view of the wind suction unit and the fan structure used in the luminaire according to the present embodiment.

10 is an operation explanatory diagram for explaining the operation of the luminaire according to the present embodiment.

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

110: lamp 115: globe

120: body cover 121: ventilation holes

130: wind suction unit 131: partition structure

132: fastening portion 140: fan structure

141: drive fan 142: ventilation fan

150: upper cover 151: ventilation holes

161: heat sink 162: extension part

Claims (14)

A lamp for emitting light; A globe through which the light penetrates; A main cover which accommodates and protects the lamp; A wind suction unit installed on the main body cover to receive wind from the outside; A fan structure driven by the wind received by the wind suction unit, and configured to ventilate the air in the body cover; Luminaire comprising an upper cover for protecting the wind intake. The method of claim 1, The fan structure A driving fan for driving the fan structure by the wind received by the wind suction unit; The luminaire is formed in combination with the drive fan and comprises a ventilation fan for ventilating the air in the body cover. The method of claim 2, The air suction unit has an opening, The fan structure is characterized in that installed in the opening. The method of claim 2, The upper cover is a luminaire, characterized in that it comprises at least one first vent formed in the outer peripheral portion. The method of claim 4, wherein The fan structure is driven by the wind received by the wind intake portion sucks the air in the body cover, the inhaled air is characterized in that the discharged to the outside through the first vent. The method of claim 5, wherein The body cover includes at least one or more second vents formed on the outer circumference thereof, Luminaires, characterized in that the air flowing through the second vent when the fan structure is driven is supplied into the body cover. The method of claim 1, The wind suction unit is characterized in that it comprises a plurality of suction paths formed in a radial form to receive the wind from the outside. The method of claim 7, wherein The fan structure A driving fan for driving the fan structure by wind received through the plurality of suction paths of the wind suction part; The luminaire is formed in combination with the drive fan and comprises a ventilation fan for ventilating the air in the body cover. The method of claim 8, The upper cover is a luminaire, characterized in that it comprises at least one first vent formed in the outer peripheral portion. The method of claim 9, The fan structure is driven by the wind received by the wind intake portion sucks the air in the body cover, the inhaled air is characterized in that the discharged to the outside through the first vent. The method of claim 10, The body cover includes at least one or more second vents formed on the outer circumference thereof, Luminaires, characterized in that the air flowing through the second vent when the fan structure is driven is supplied into the body cover. The method of claim 7, wherein The wind suction unit comprises a partition structure formed in a radial form to form the plurality of suction passages. The method of claim 12, The fan structure A driving fan for driving the fan structure by wind received through the plurality of suction paths of the wind suction part; The luminaire is formed in combination with the drive fan and comprises a ventilation fan for ventilating the air in the body cover. The method of claim 13, The upper cover includes at least one first vent formed in the outer peripheral portion thereof, The body cover includes at least one or more second vents formed on the outer circumference thereof, The fan structure is driven by the wind received by the wind suction unit to suck the air in the body cover, the sucked air is discharged to the outside through the first vent, Luminaires, characterized in that the air flowing through the second vent when the fan structure is driven is supplied into the body cover.

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