KR101030999B1 - Floodlight of controllable radiation angle of light - Google Patents

Abstract

PURPOSE: A floodlight capable of adjusting a radiation angle is provided to improve the illuminance of light by the installation of a focus distance adjusting unit and a condensing lens. CONSTITUTION: In a floodlight capable of adjusting a radiation angle, a reflector(10) comprises a body unit and a cap member. The cap member is combined in front of the body unit. The condensing lens(20) is combined in front of the reflector. A mounting unit(30) comprises a first mounting plate and a second mounting plate A diffusion lens(40) is arranged in the hollow of the first mounting plate. A lighting-emitting area(50) is arranged in the hollow of the second mounting plate. A radiating unit(60) emits the heat of the lighting-emitting area to the outside. A focus distance adjustment unit(70) controls the distance between the lighting-emitting area and the diffusion lens.

Description

Floodlight of controllable radiation angle of light

The present invention relates to a light emitter capable of adjusting the light emission angle, and more particularly, a focus distance adjusting means for adjusting the distance between the light emitting part and the diffusing lens, and a light converging lens provided on one side of the reflecting mirror to distribute light by the diffusing lens. The present invention relates to a light emitter capable of adjusting the light emission angle, which can easily adjust the focus of the light while concentrating the light intensity.

Background Art Generally, a light projector is a device that collects and shines light into a single strand using a light source, a lens, and a reflector, and is widely used in various industrial fields such as headlamps, searchlights, and illumination lamps.

Such a light emitter is typically provided with a light source for emitting light, a reflector for installing a light source on one side and irradiating light emitted from the light source in a predetermined direction, and transmitting light emitted from the light source to the light irradiation area while transmitting the light emitted from the light source. The light emitted from the light source is configured to be irradiated to guide the lens by the reflecting mirror, and the light is irradiated to the irradiation area while passing through the lens.

Such a conventional light emitter is effective to adjust the irradiation distance by adjusting the focal length while moving the lens back and forth.

However, the conventional transmitter is not only difficult to control the angle of radiation of the light is emitted using a single lens, but also can not adjust the irradiation range of the light, even if it is necessary to expand or reduce the illumination range according to the use environment, the brightness is remarkably There was a limitation in the scope of use, which is not suitable for long-range surveys and is used only for near field.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a focal length adjusting means for adjusting the distance between the light emitting unit and the diffusing lens, and further comprising a focusing lens on one side of the reflecting mirror to be dispersed by the diffusion lens The present invention provides a light emitter capable of adjusting the light emission angle, which can focus the light to be remarkably improved while focusing light.

In addition, by providing a radiation angle adjusting means to easily adjust the distance between the diffusion lens and the condensing lens to provide a light emitter capable of adjusting the light emission angle can also easily adjust the irradiation range of the light.

According to an aspect of the present invention for achieving the above object, a reflection shade including a body portion formed in a shape that is wider toward the front and a cap member coupled to the front portion of the body portion, and the reflection shade A mounting part including a condenser lens coupled to a front surface, a hollow first mounting plate having one surface coupled to a rear surface of the reflecting shade, and a hollow second mounting plate having one surface coupled to the first mounting plate, 1 is a diffusion lens installed at one side of the first mounting plate to be located in the hollow of the mounting plate, a light emitting part installed at one side of the second mounting plate to be located in the hollow of the second mounting plate, and the light emitting unit is coupled It is coupled to the rear of the second mounting portion, and includes a heat dissipation unit for emitting heat generated from the light emitting unit to the outside and focal length adjusting means for adjusting the distance between the light emitting unit and the diffusion lens The focal length adjusting means is formed as a disc shape having a thickness, and provides the first mounting plate and the second light radiation angle adjustable light projector according to claim 2, which is removably provided between the mounting plate.

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The apparatus may further include radiation angle adjusting means installed at one side of the reflection shade to fix the condenser lens and to adjust the distance between the diffuser lens and the condenser lens while stretching.

In addition, the radiation angle adjusting means is formed in a stretchable, a plurality of slits spaced apart in the longitudinal direction is formed on the outer peripheral surface, when the condensing lens is inserted through the slit, the condensing lens is inserted state It is preferably reduced in intervening between the body portion and the cap member.

In addition, the radiation angle adjusting means may be formed of a soft rubber material.

And, the radiation angle adjusting means is preferably a corrugated pipe is used.

The heat dissipation unit may include a heat transfer plate coupled to a rear surface of the mounting unit, a heat transfer plate coupled to the heat transfer plate, and heat generated from the light emitting unit may be transferred through the heat transfer plate, and radiate the transferred heat to the outside. It is preferable to include a finishing plate coupled to the rear end of the heat dissipation plate.

According to the present invention as described above, by further comprising a focusing distance adjusting means for adjusting the distance between the light emitting unit and the diffused lens, and a focusing lens on one side of the reflecting mirror to condense the light dispersed by the diffused lens to significantly improve the illuminance of the light. It is also possible to easily adjust the focus of light.

In addition, the radiation angle adjusting means may be further provided to easily adjust the distance between the diffusing lens and the condenser lens, so that the irradiation range of the light may also be easily adjusted.

1 is a perspective view of a light emitter capable of adjusting the light emission angle according to an embodiment of the present invention;
Figure 2 is an exploded perspective view of a light emitter capable of adjusting the light emission angle according to an embodiment of the present invention,
3 is a cross-sectional view of a light emitter capable of adjusting the light emission angle according to an embodiment of the present invention;
4 and 5 are views showing the operation of the light emitter capable of adjusting the light emission angle according to an embodiment of the present invention,
6 is a cross-sectional view of a light emitter capable of adjusting the light emission angle according to another embodiment of the present invention;
7 is a perspective view of a gap member and a condenser lens according to another embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a light emitter with adjustable light emission angle according to an embodiment of the present invention, Figure 2 is an exploded perspective view of a light emitter with adjustable light emission angle according to an embodiment of the present invention, Figure 3 is a view of the present invention Cross-sectional view of a light emitter capable of adjusting the light emission angle according to an embodiment.

1 to 3, the light emitter 1 capable of adjusting the light emission angle according to the exemplary embodiment of the present invention includes a reflector 10, a condenser lens 20, a mounting portion 30, and a diffusion lens ( 40, a light emitting unit 50, a heat dissipating unit 60, and a focal length adjusting unit 70.

The reflection shade 10 is interposed between the body portion 11 and the cap member 12 coupled to the front surface of the body portion 11 and the body portion 11 and the cap member 12 wider in diameter toward the front surface. Comprising a gap member 13, and serves to fix the light collecting lens 20 to be described later, and to guide the irradiation direction of the light so that the light emitted from the light emitting unit 50 is irradiated in the desired irradiation direction. do.

Here, in the present embodiment, by adjusting the distance between the condenser lens 20 and the diffuser lens 40 by replacing the body portion 11 of different length, it is possible to adjust the irradiation angle of the light by adjusting the radiation angle of the light.

The cap member 12 supports the outer circumferential surface of the condenser lens 20 coupled to one side of the front surface of the body portion 11 and serves to fix the condenser lens 20 like the body portion 11.

The gap member 13 is interposed between the body portion 11 and the cap member 12 as described above to prevent light from leaking into a gap generated between the body portion 11 and the cap member 12. In addition, by supporting the outer circumferential surface of the condenser lens 20 serves to improve the fixing force of the condenser lens 20 more.

The condenser lens 20 is attached to the front surface of the body portion 11 of the reflector 10 and collects light diffused from the diffusion lens 40 to be described later to serve to irradiate light to the irradiation area.

In addition, the protective glass (G) may be installed on the front of the condenser lens 20 to prevent the condenser lens 20 from being damaged by an external impact.

The mounting portion 30 includes a hollow first mounting plate 31 coupled to the rear surface of the reflection shade 10 and a hollow second mounting plate 32 coupled to one surface of the first mounting plate 31. The diffusion lens 40 and the light emitting unit 50 are combined to serve to fix the positions of the diffusion lens 40 and the light emitting unit 50.

In addition, the finishing plate M may be coupled to one side of the second mounting plate 32 to which the diffusion lens 40 is coupled so that the diffusion lens 40 is not separated to the outside.

The diffusion lens 40 is coupled to one side of the first mounting plate 31 so as to be positioned in the hollow of the first mounting plate 31, and serves to diffuse light emitted from the light emitting unit 50 to be described later.

As such, it is apparent that the diffusion lens 40 of the present embodiment is well known to be able to purchase and use a commercially available one to those skilled in the art, and detailed description thereof will be omitted.

The light emitting unit 50 is coupled to one side of the second mounting plate 32 so as to be positioned in the hollow of the second mounting plate 32, and coupled to one side of the substrate 51 in the direction of the reflection shade 10. It is configured to include a light source 52 for irradiating light, and serves to irradiate light.

The light source 52 of the present embodiment uses a conventional light emminting diode (LED), but any light source 52 can be applied as long as it can irradiate a desired amount of light to the irradiation area.

The heat dissipation unit 60 includes a heat transfer plate 61 coupled to the rear side of the mounting unit 30, and a heat dissipation plate 62 coupled to one side of the heat transfer plate 61 and a closing plate coupled to the rear side of the heat dissipation plate 62. It is configured to include 63, and serves to release the heat emitted from the light emitting unit 50 to the outside.

Here, the heat transfer plate 61 is formed in a substantially disk shape, and as described above, is coupled to the rear surface of the mounting portion 30 and serves to transfer heat generated from the light emitting portion 50 to the heat dissipation plate 62.

The heat dissipation plate 62 is formed in a shape in which a plurality of plates are combined, and serves to release heat transferred by the heat transfer plate 61 to the outside.

Reference numeral C, which is not described, is a coupling means for coupling the finishing plate 63 to the heat dissipation plate 62.

The focal length adjusting unit 70 is formed in a disc shape having a thickness, and serves to adjust the distance between the diffusion lens 40 and the collecting lens while attaching and detaching between the mounting unit 30 and the reflector 10.

As such, the focal length adjusting unit 70 may adjust the radiation angle of the light emitted through the condenser lens 20 by adjusting the distance between the light emitting unit 50 and the diffusion lens 40 by the thickness thereof, and thereby irradiating It serves to adjust the irradiation range of light irradiated to the area.

4 and 5 are views showing the operation of the light emitter 1 capable of adjusting the light emission angle according to the embodiment of the present invention.

As shown in FIG. 4, the light emitter 1 capable of adjusting the light emission angle according to the exemplary embodiment of the present invention has a distance between the light emitter 50 and the diffusion lens 40 being 'L', and a desired irradiation position is 'P'. When the focus point is not focused at the irradiation position 'P', as shown in FIG. 5, when the focal length adjusting means 70 is mounted, the distance between the light emitting part 50 and the diffusion lens 40 is the focal length adjusting means ( The focal length is changed as the distance d is increased by the thickness d of 70), and thus the light can be irradiated to have the correct focus at the desired irradiation position 'P'.

In addition, although not shown in the drawings, the irradiation range of the light may be adjusted by adjusting the distance between the diffuser lens 40 and the condenser lens 20 by replacing the reflector 10 having a different length.

7 is a cross-sectional view of a light emitter capable of adjusting the light emission angle according to another embodiment of the present invention, and FIG. 7 is a perspective view of a gap member and a condenser lens according to another embodiment of the present invention.

6 and 7 are the same as those of the embodiment of FIGS. 1 to 5, but omit the configuration of the gap member 13 and the radial angle adjusting means 80 between the body portion 11 and the cap member 12. It is formed to facilitate the distance control between the condenser lens 20 and the diffusion lens using the radiation angle adjusting means 80 interposed between the body portion 11 and the cap member 12. .

6 and 7, the radiation angle adjusting means 80 of the present embodiment is formed in a corrugated pipe shape that is elastically formed, and a plurality of slits 81 formed along the circumferential direction are formed in the longitudinal direction.

The light emitter 1 ′ capable of adjusting the light emission angle according to another embodiment of the present invention configured as described above has any one slit 81 among the plurality of slits 81 in a state where the radiation angle adjusting means 80 is extended. Insert the condenser lens 20 into the radiation angle adjusting means 80 through.

When the condenser lens 20 is inserted into the radiation angle adjusting means 80, the radiation angle adjusting means 80 is compressed and reduced, and the reduced radiation angle adjusting means 80 is formed on the front surface of the body portion 11 and the cap member ( 12) Intervening in between.

At this time, when the light irradiation range is to be increased, the condenser lens 20 is inserted into the slit 81 near the cap member 12 direction, and when the light irradiation range is to be narrowed, the slit is close to the body portion 11. The irradiation range of the light can be adjusted by inserting the condenser lens 20 into the 81. A detailed operation will be described in detail later with reference to FIGS. 8 and 9.

8 and 9 are conceptual views schematically showing the operation of the light emitter capable of adjusting the light emission angle according to another embodiment of the present invention.

As shown in FIG. 8, the light emitter 1 capable of adjusting the light emission angle according to the exemplary embodiment of the present invention has a slit 81 adjacent to the body part 11 of the slit 81 of the radiation angle adjusting means 80. When the condenser lens 20 is inserted and the distance between the condenser lens 20 and the diffuser lens 40 is 'L', the condenser lens 20 has an irradiation range of 'a' while the radiation angle adjusting means 80 is shown in FIG. The condenser lens 20 is inserted into the slit 81 adjacent to the cap member 12 among the slits 81 of the slits 81 so that the distance between the condenser lens 20 and the diffuser lens 40 is moved. The radiation angle of the light changes as the distance of 'L' + 'd' is increased by (d), and accordingly, the irradiation range of 'a' + 'α', which is wider than the irradiation range of 'a' shown in FIG. It will form a range.

As such, the distance between the slit 81 and the slit 81 is maintained in the stretchable corrugated radiation angle adjusting means 80 so that the irradiation range of light can be irradiated. This is because the shape is fixed between the front and the cap member 12 of the), and thus the distance between the slit 81 and the slit 81 can be maintained when the radiation angle adjusting means 80 is reduced.

Since the rest of the structure is the same as the above-described basic embodiment, the rest of the description will be omitted.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims will cover such modifications and variations as fall within the spirit of the invention.

1: Floodlight adjustable light emission angle 10: Reflector
11 body portion 12 cap member
13,13 ': gap member 81: slit
20: condenser lens 30: mounting portion
31: first mounting plate 32: second mounting plate
40: diffused lens 50: light emitting portion
51 substrate 52 light source
60: heat dissipation unit 61: heat transfer plate
62: heat dissipation plate 63: finishing plate
70: distance control means

Claims (7)

A reflection shade including a body portion formed to have a diameter wider toward the front surface, and a cap member coupled to the front portion of the body portion;
A condensing lens coupled to the front of the reflection shade;
A mounting part including a hollow first mounting plate having one surface coupled to a rear surface of the reflection shade, and a hollow second mounting plate having one surface coupled to the first mounting plate;
A diffusion lens installed at one side of the first mounting plate to be located in the hollow of the first mounting plate;
A light emitting part installed at one side of the second mounting plate so as to be positioned in the hollow of the second mounting plate;
A heat dissipation unit coupled to a rear surface of the second mounting unit to which the light emitting unit is coupled, and configured to discharge heat generated from the light emitting unit to the outside; And
It includes a focal length adjusting means for adjusting the distance between the light emitting unit and the diffusion lens,
The focal length adjusting means is formed in a disk shape having a thickness, and the light emission angle adjustable floodlight, characterized in that detachably installed between the first mounting plate and the second mounting plate.
delete The method of claim 1,
And a radiation angle adjusting means installed at one side of the reflection shade and fixing the condensing lens and expanding and contracting the condensing lens to adjust a distance between the diffusing lens and the condensing lens.
The method of claim 3,
The radiation angle adjusting means is elastically formed, a plurality of slits spaced apart in the longitudinal direction are formed on the outer circumferential surface, and when the stretching is performed, the condenser lens is inserted through the slit, and the condenser lens is reduced in the inserted state. And a light emission angle adjustable floodlight interposed between the body portion and the cap member.
The method of claim 3,
The radiation angle adjusting means is a light emitter capable of adjusting the light emission angle, characterized in that formed of a soft rubber material.
The method of claim 3,
The radiation angle adjusting means is a light emitter capable of adjusting the light emission angle, characterized in that a corrugated pipe is used.
The method of claim 1,
The heat dissipation unit
A heat transfer plate coupled to a rear surface of the mounting part;
A heat dissipation plate coupled to the heat transfer plate to transfer heat generated from the light emitting unit through the heat transfer plate, and to discharge the transferred heat to the outside;
Light emitting angle adjustable floodlight comprising a finishing plate coupled to the rear end of the heat dissipation plate.

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