KR20190088175A - LED searchlight with improved cooling and light distribution control - Google Patents

Abstract

The present invention relates to an LED searchlight capable of improving cooling properties and controlling light distribution, which is able to detect by irradiating a light onto a specific region and a specific subject in a remote place at night, to use an LED module as a light source, to cool down the LED module even without a separate cooling plate, to control light distribution, to make the searchlight in a lighter weight, and to maximize usability in accordance with application of the equipment. That is, according to the present invention, the LED searchlight capable of improving cooling properties and controlling light distribution comprises: a main body in the shape of a mortar with an opening on the front surface; the LED module radially installed on an internal wall on the side of the opening on the main body to be controlled by a control unit; a fixed lens of a type of Fresnel, which is fixated on an entrance side with the opening on the main body; and a variable lens installed on a floor side of the main body to be in a conical shape, to have a total reflection function, and to reflect a light provided from the LED module towards the side with the opening.

Description

{LED searchlight with improved cooling and light distribution control}

The present invention relates to an LED searchlight capable of improving cooling performance and controlling light distribution using an LED module as a light source by detecting light by irradiating light to a specific area or a specific object at a long distance at night, It is intended to provide an LED searchlight capable of cooling the LED module without a plate, controlling the light distribution, making it lightweight, and improving the cooling efficiency and the light distribution control, which maximizes the utility of the equipment.

A searchlight is a device for illuminating and detecting light at a specific area or a specific object at a distance at night, and is mainly used for military or aviation. Such a searchlight should irradiate light several hundred meters away and several kilometers away, so that the light intensity should be high and the intensity of the light should be as parallel as possible.

Conventional high-performance searchlights mainly use xenon, HID, and halogen lamps as light sources. However, in recent years, much efforts have been made to apply LED module light sources to searchlights in consideration of excellent vibration resistance, high reliability, and low power consumption of LED modules.

As an example of the prior art, there is disclosed an LED search lamp of Korean Patent Laid-open Publication No. 10-2014-0129693 (Apr. 31, 2014), a ship having an efficient light collecting structure of Korean Registered Patent Publication No. B1-1479768 (Feb. An LED searchlight for a ship having a high light intensity condensing structure of an LED searchlight, 10-1579147 (Dec. 21, 2015), an LED searchlight for a ship, and an LED searchlight have been proposed in Korean Patent Laid-Open Publication No. 10-2014-0129693 (Apr.

As described above, most of the LED searchlights are of a fixed type, and in particular, provide various technologies for focusing. In the case of 10-2014-0129693, a technology for controlling the light distribution has been proposed. A body sealed with a transparent material and made of a metal having a high thermal conductivity; An LED module installed inside the front of the main body and outputting light backward; A reflector installed in the rear of the main body to reflect light output from the LED module and irradiate light to the front of the main body; And a plurality of extension portions extending in a direction toward the inner wall of the main body from the central portion and then bent rearward of the main body, wherein the LED module is installed in the central portion, The central part and the extension part include a heat dissipation module formed of a heat pipe, and a reflector varying means is provided at the rear of the reflector so as to change the reflector in the longitudinal direction of the main body.

This allows the heat generated from the LED module, which consists of a large power LED package with a very high calorific value, to be quickly transferred to the outside and released.

However, although the distance between the reflector and the LED module is adjusted in the above-described prior art, it is difficult to expect the light distribution efficiency because the reflection range of the light is simply different. In addition, since the LED module is disposed in front of the reflector, the light reflected by the reflector is disturbed by the LED module, thereby reducing the amount of light, and it is difficult to mount the LED on the unmanned airplane.

KR 101479768 B1 2015.01.26. KR 101579147 B1 2015.12.21. KR 1020140129693 A 2014.11.07.

Accordingly, the inventor of the present invention has researched various problems such as cooling, light distribution control and lightening of an LED module of an LED search lamp in the past.

That is, according to the present invention, the LED module is radially disposed inside the main body of the optical isolator so that the main body serves as a heat sink, which can be manufactured without a separate heat sink, and the reflective lens is provided in a cone shape, , It is possible to control the light distribution and simplify the overall structure so that the LED searchlight can be lightened and installed on a drone or the like so that the cooling efficiency can be improved and the light distribution control can be maximized The present invention has been accomplished on the basis of the technical object of the present invention.

As a means for solving the problem, first, a mortise-shaped main body having a front surface opened; An LED module radially installed on the inner wall of the opening of the main body and controlled by a control unit; A fixed lens of the Fresnel type fixed to the opening side of the main body; And a variable lens provided on the bottom side of the main body and having a total reflection function in a cone shape reflecting the light provided from the LED module to the opened side.

A screw hole opened rearward of the variable lens; And the reflective lens is moved back and forth by a step motor which is provided at the rear of the main body so as to drive a screw shaft and a screw shaft which are engaged with the screw hole and is electrically connected to the control unit.

Third, the LED module is fixed to a module base fixed to the main body.

Fourthly, on the inner surface of the main body, there is provided a detection sensor for detecting a state where a platform board on which a variable lens is fixed to be electrically connected to a control unit is positioned at top dead center and bottom dead center.

The LED searchlight capable of improving the cooling performance and the light distribution control provided by the present invention has the following effects.

- The LED module is attached to the inner wall of the main body, and the main body functions as a heat sink, so LED searchlight can be manufactured with light weight. Therefore, it is possible to maximize the heat dissipation effect without using a separate heat sink, and it can be used in various industrial fields. In particular, even when mounted on an unmanned airplane, the weight can be minimized.

- The variable lens adjusts the distance between the fixed lens and the variable lens while moving forward and backward, so it is possible to provide a spatial distribution of various luminous intensities.

1 is a perspective view showing a preferred embodiment of an LED search lamp capable of improving cooling and light distribution provided by the present invention;
2 is an exploded perspective view of the present invention
FIG. 3 is a cross-sectional view of the present invention,
4 is a cross-sectional view of the present invention showing a state in which the variable lens is lowered

Hereinafter, a preferred embodiment of an LED search lamp capable of improving cooling performance and light distribution control provided by the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a preferred embodiment of an LED search lamp capable of improving cooling and light distribution provided by the present invention. FIG. 2 is an exploded perspective view of the present invention, FIG. 3 is a sectional view of the present invention, Fig. 4 is a cross-sectional view of the present invention, showing a state in which the variable lens is lowered. Fig.

The LED searchlight 1 capable of improving cooling performance and light distribution control provided in the present invention can be manufactured in a lightweight structure by simplifying the structure and can cool the heat generated in the LED module 3 without a separate heat sink, To provide a spatial distribution of the space.

The LED module 3 is installed on the inner wall surface of a mortise-shaped body 2 having a front surface and is controlled by the control unit 4, and on the opening side of the main body 2, A step motor 6 is provided behind the main body 2 and the variable lens 7 located inside the main body 2 can be moved back and forth. The control unit 4 may be installed at the rear of the main body 2 or may be installed independently of the main body 2.

The main body 2 is made of aluminum which is lightweight and can be expected to have a heat dissipation effect in consideration of heat dissipation and the like. The LED module 3 is fixed on the side of the LED module 3 at a critical angle at which the variable lens 7 can be totally reflected. The module base 31 can be additionally provided so that the module base 31 can be installed.

In this case, the module base 31 may be formed by arranging a plurality of block-shaped blocks having a small size corresponding to the LED modules 3, or by arranging the plurality of LED modules 3 at a predetermined interval And at least one of the plurality of LED modules 3 is lighted by the control section 4 to control the illuminance.

In the case of the present invention, a radiating fin is further formed on the outside of the main body 2 so as to conform to the module base 31 in configuring the main body 2 so that heat generated in the LED module 3 flows through the module base 31, (2), it is also possible to allow rapid heat dissipation.

A fixed lens 5 is coupled to the opening of the main body 2, and the fixed lens 5 is configured as a Fresnel lens type to reduce the weight.

A Fresnel lens is a lens in which a lens is divided into several or more circle-shaped lenses to reduce the thickness of the lens. There is an advantage that a lens having a large aperture can be made without increasing the thickness of the lens.

The variable lens 7 is of a cone type that gradually narrows from the bottom side to the opening side of the main body 2, and is formed in an arc shape at the bottom to provide a widened reflecting surface. It is preferable that the variable lens 7 has a total reflection function in which light having an incident angle equal to or greater than the critical angle is reflected at the boundary surface of the medium.

A screw hole 8 is formed in the rear of the variable lens 7. It is preferable that the screw hole 8 is formed in the variable lens 7 but it is also possible to separately attach the attachment to the rear of the variable lens 7 and to form the screw hole 8 in the attachment.

A hoisting plate 9 is fixed to the rear of the variable lens 7 and a bush 10 is coupled to the hoisting plate 9. A bush 10 is supported by a support base plate 11, So that the elevating plate 9 to which the variable lens 7 is coupled can be raised and lowered.

The screw shaft 13 is coupled to the screw hole 8 and the screw shaft 13 is connected to a step motor 6 which is provided on the support base plate 11 fixed to the main body 2 and is controlled by the control unit 4 , And rotates the variable lens 7 provided with the screw hole 8 back and forth. At this time, the variable lens 7 is guided by the guide pin 12 coupled to the platform board 9 in a state of being fixed to the platform board 9, and is configured to move only in the axial direction of the screw shaft 13 without rotation.

The screw shaft 13 may be provided with a configuration in which the shaft of the step motor 6 is interconnected with the puller ring. Further, the screw shaft 13 may be the axis of the step motor 6.

On the other hand, the main body 2 is provided with a sensing sensor 14 for detecting the state of the top and bottom positions of the hoist plate 9 to be electrically connected to the control unit 4. At this time, a photocoupler or a limit switch or the like can be selectively applied to the detection sensor 14.

The LED searchlight 1 according to the present invention, which is configured as described above, is capable of improving cooling performance and light distribution, and can be installed and operated on a drone or the like by reducing the weight of the LED searchlight 1 by simplifying the structure. Describe the action.

The power is applied to the LED module 3 when the power is applied through the control unit 4 and at the same time the power of the stepping motor 6 is applied to the elevation board 9 to which the variable lens 7 is coupled, The position of the elevation base plate 9 is ascertained by the detection sensor 14 by the detection sensor 14 and the signal is stored in the control unit 4 as a base value, 6, the area of the horizontal plane light distribution can be determined using the distance change between the fixed lens 5 of the Fresnel lens type and the variable lens 7 providing the total internal reflection function by advancing or retracting the platform board 9 It is possible to provide not only a wide area light distribution but also a function of concentrating a narrow area and brightly distributing light.

For example, when the focal length L1 between the fixed lens 5 of the Fresnel lens type and the variable lens 7 providing the total internal reflection function is narrowed, it is possible to provide a light distribution of a narrow area (about 5 deg. On the other hand, when the focal length L2 between the fixed lens 5 and the variable lens 7 is widened, it is possible to provide a large area (about 20 deg.) Of light distribution.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of protection of the present invention should not be limited to the described embodiment, but should be determined by the equivalents as well as the claims that follow.

1: LED searchlight with improved cooling and light distribution control
2: Main body 3: LED module
31: module base 4:
5: fixed lens 6: step motor
7: Variable lens 8: Screw hole
9: hoist board 10: bush
11: support plate 12: guide pin
13: Screw shaft 14: Detection sensor

Claims (4)

Shaped body 2 whose front surface is open;
An LED module (3) radially installed on an inner wall of an opening side of the main body (2) and controlled by a control part (4);
A fixed lens 5 of the Fresnel type fixed to the open entrance side of the main body 2;
And a variable lens (7) provided on the bottom side of the main body (2) and having a total reflection function in a cone shape reflecting the light provided from the LED module (3) to the opened side. Possible LED searchlight.
The method of claim 1,
A screw hole (8) opened to the rear of the variable lens (7); A step motor 6 installed at the rear of the main body 2 for driving the screw shaft 13 and the screw shaft 13 coupled to the screw hole 8 and electrically connected to the control unit 4, And the reflective lens is moved forward and backward by the LED.
The method of claim 1,
Wherein the LED module (3) is fixed to a module base (31) fixed to the main body (2).
The method of claim 1,
And a sensor 14 for sensing a state where the elevator board 9 on which the variable lens 7 is fixed so as to be electrically connected to the control unit 4 is positioned at the top dead center and bottom dead center is provided on the inner surface of the main body 2. [ LED searchlight capable of cooling improvement and light distribution control.

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