KR101324732B1 - A search light for long distance focus - Google Patents

Abstract

The present invention relates to a long-range focused search light, a plurality of LED lamps are arranged in a plurality of rows of LED lamps for emitting light in a circular form, and are installed on the metal substrate, a plurality of LEDs installed in a plurality of columns on the metal substrate It is arranged for each lamp reflects the light emitted from the LED lamp and the innermost side inclination angle is formed in one side of the reflector plate and the first convex lens formed inside of the reflector plate and the reflector plate holder is formed 1 ~ 30 ° The second convex lens and the metal substrate are coupled to each other and formed of a housing in which a heat sink is formed.
The present invention arranges the LED lamps in a plurality of rows in a circular shape, and the reflector plate holder for reflecting light emitted from the LED lamps is increased by 2 to 4 ° inclination angle from the inner row to the outer row, the light emitted from the LED The light is smoothly reflected, and the light emitted from the LED lamp is diverted to a long distance by smoothly concentrating the light through a convex lens formed in two places, thereby increasing the efficiency of the light.

Description

A search light for long distance focus}

The present invention relates to a far-field focused search light, and more particularly, to concentrate the light emitted from the LED lamp to a point in the distance while smoothly radiating the light through the double convex lens, the LED lamp and the LED lamp Install the reflector holders reflecting the light in circular form in multiple rows, but increase the side inclination angle of the reflector holders by 2 ~ 4 ° as arranged from the innermost to outermost rows, so that the LED lamp can be reflected smoothly. It is about long-range searchlight.

Searchlights, which are generally used, are used to concentrate light while emitting light through one lens while reflecting light emitted from an LED lamp through a reflecting plate formed at a predetermined angle.

However, even if the light is emitted by reflecting the light through a reflecting plate and a lens formed at a predetermined angle as described above, the distance from which the light is emitted is limited, and the light is not concentrated in one place and spreads. there was.

In the remote-focused search light of the present invention, a plurality of LED lamps emitting light are arranged in a plurality of rows and fixed in a circular form, and are installed on the metal substrate and arranged in a plurality of LED lamps installed in a plurality of rows on the metal substrate. And reflects the light emitted from the LED lamp, and the innermost side inclination angle is 1 to 30 ° reflecting plate holder reflecting plate holder, the first convex lens formed inside the reflecting plate holder and the second convex formed to one side The lens and the metal substrate are coupled to each other and formed of a housing in which a heat sink is formed.

The present invention arranges the LED lamps in a plurality of rows in a circular shape, and the reflector plate holder for reflecting light emitted from the LED lamps is increased by 2 to 4 ° inclination angle from the inner row to the outer row, the light emitted from the LED The light is smoothly reflected, and the light emitted from the LED lamp is diverted to a long distance by smoothly concentrating the light through a convex lens formed in two places, thereby increasing the efficiency of the light.

In addition, the fitting portion is formed inwardly of the reflector plate holder, so that the convex lens can be smoothly coupled and disassembled.

1 is a simplified view showing a cross-section of the inventors of the remote focused searchlight.
Figure 2 is an enlarged view showing a metal substrate of the present inventors focused light.

Looking at the configuration of the present invention for achieving the above object is as follows.

First, the long-range focused search light 10 of the present invention is a metal substrate 12 in which a plurality of LED lamps 11 for emitting light are arranged in a plurality of rows in a circular shape, as shown in FIGS. Corresponding to the LED lamp 11 formed on the metal substrate 12, a plurality of columns are formed in a plurality of rows in a circular shape, reflector plate 13 for reflecting the light of the LED lamp 11 and the inside of the reflector plate 13 And a first convex lens 14 and a second convex lens 15 that are coupled to one side and diffuse light emitted from the LED lamp 11, and the metal substrate 12 are coupled to the LED lamp 11. The housing 17 is formed with a heat sink 16 for cooling the heat emitted from.

Here, when the LED lamp 11 and the reflector plate holder 13 are coupled to the metal substrate 12, they are coupled by grooves (not shown) and protrusions (not shown), or adhesives (not shown). It is to be bonded by an adhesive member (not shown in the figure) such as, or through a method that is generally used, such as a coupling member (not shown in the figure) such as bolts (not shown in the figure).

In addition, it is obvious that an electric device (not shown), such as a wire, is installed to electrically operate the LED lamp 11, and thus detailed description thereof will be omitted.

In addition, when the first convex lens 14 or the second convex lens 15 is coupled to the inside of the reflector plate 13, it may be coupled in an interference fit manner, such as a hole in the inside of the reflector plate 13. The fitting portion 13a may be formed to couple the first convex lens 14 or the second convex lens 15 to the fitting portion 13a.

In addition, when the first convex lens 14 or the second convex lens 15 is coupled to one side of the reflector plate 13, the fitting portion 13a is formed in the reflector plate holder 13 as described above. The first convex lens 14 or the second convex lens 15 may be combined.

Here, the first and second convex lenses 14 and 15 may be smoothly coupled or separated through the fitting portion 13a formed in the reflector plate holder 13.

In addition, the first convex lens 14 or the second convex lens 15 is coupled to the inside and one side of the reflector plate holder 13, respectively. It may be combined at any position.

On the other hand, the reflector plate holder 13 is formed in a plurality of columns arranged in a circular shape to reflect the light emitted from the LED lamp 11, the light emitted from the LED lamp 11 is smooth The side inclination angle θ of the reflection plate holder 13 located in the innermost column is 1 to 30 ° so as to be reflected, and it is preferable to increase it by 2 to 4 ° toward the outer column.

For example, as shown in FIG. 2, when the side inclination angle θ of the innermost row of reflector plates 13 is formed at 2 °, the side inclination angle of the reflector plate holders 13 in the next row of the innermost row is inclined. Is formed by 4 °, and is formed by increasing the side inclination angle θ of the reflecting plate holder 13 in the outer row by 2 °.

Here, the reason why the side inclination angle θ of the reflection plate holder 13 is increased by about 2 to 4 degrees from the innermost row of the reflector plate 13 to the outer row is that the side inclination angle (from the innermost row to the outer row) is increased. θ) is increased so that the light reflected from the reflector holder 13 and diffused through the first and second convex lenses 14 and 15 spreads to a wider area, and the light emitted from the reflector holder 13 located in the adjacent column. To merge, so that the light is concentrated in one spot.

In addition, by combining the first convex lens 14 and the second convex lens 15 in a double to the reflector plate 13, the light reaches a long distance while spreading the light emitted from the LED lamp 11 more smoothly. You can do it.

As described above, the LED lamp 11, the reflector plate holder 13, and the first and second convex lenses 14 and 15 are coupled to the housing 17 on the metal substrate 12, and then installed at the place where the user intends to install. You can use it while carrying.

Here, the metal substrate 12 is coupled to the housing 17 and the LED lamp 11 is operated so that the heat generated from the LED lamp 11 is transferred through the heat sink 16 formed in the housing 17. The release to the outside is obvious, and detailed description thereof will be omitted.

In addition, it is obvious that an electric device is installed in the metal substrate 12 to which the LED lamp 11 is fixed, and thus, detailed description thereof will be omitted.

Then, when the LED lamp 11 is operated to use the search light, light is emitted from the LED lamp 11.

Then, after the light is reflected by the reflector plate 13, the light passes through the first convex lens 14 and the second convex lens 15, and the light is spread out to face the outside.

Here, when the light emitted from the LED lamp 11 is reflected on the reflector plate 13, the side inclination angle θ of the reflector plate 13 is increased toward the outer column from the innermost reflector plate 13. It is formed so as to increase by about 2 ~ 4 °, it is reflected in the reflector plate 13, and transmitted through each of the first and second convex lenses (14, 15), the light is spread by a predetermined interval in the adjacent reflector plate 13 They are combined with the reflected light, and the light is emitted more distantly, and at the same time, the light is concentrated and emitted at one point.

In addition, while the light reflected by the plurality of rows of reflector plate 13 is transmitted through the first and second convex lenses 14 and 15, the light is diffused and directed to the outside, and the light emitted from the LED lamp 11 As it passes through the first and second convex lenses 14 and 15 formed in a double shape, light is diffused to a far distance while spreading and spreading in a larger area.

As such, when the light emitted from the LED lamp 11 is reflected from the reflector plate holder 13, the side inclination angle θ increases from the reflector plate holder 13 formed in the innermost column to the outer column, thereby increasing the LED lamp 11. ) Light is spread widely, and is combined with the light reflected from the adjacent reflection plate holder 13, the light reflected from each of the reflection plate holder 13 is the first convex lens 14, the second convex lens (15) ), The light is diffused to a wider point, and the light is emitted to a long distance, allowing efficient use of light.

11: LED lamp 12: Metal substrate
13 reflector plate holding 14 first convex lens
15: second convex lens 16: heat sink
17: housing
10: long range searchlight

Claims (4)

A plurality of LED lamps 11 emitting light are arranged in a plurality of rows in a circular form and are fixed to the metal substrate 12, and a plurality of LED lamps 11 are installed on the metal substrate 12. A reflector plate 13 arranged at each LED lamp 11 to reflect light emitted from the LED lamp 11 and having an innermost side inclination angle θ of 1 to 30 ° and the reflector plate holder 13. The first convex lens 14 formed in the interior of the second convex lens 15 formed on one side, the metal substrate 12 is coupled to the heat sink 16 is formed of a housing 17 is characterized in that Long range searchlight.
delete The directional search light of claim 1, wherein the side inclination angle (θ) of the reflector plate holder (13) installed on the metal substrate (12) is increased by 2 to 4 degrees toward the outer row.
The remote-focused search light according to claim 1, wherein the reflecting plate holder (13) further includes fitting portions (13a).

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