KR20140065323A - Compound refractive lens for lighting unit and street light apparatus comprising the same - Google Patents

Abstract

The present invention relates to a compound refractive lens for a lighting unit to uniformly control the emission range of light by forming a pattern for first refraction of light inside a light incident groove at a lens rear part and forming a lens front part in an asymmetry dome shape for second refraction and a streetlight device comprising the same. The compound refractive lens for a lighting unit includes a rear part which firstly refracts incident light by forming a concave light incident groove, on the center, to which the light is emitted from a light source; and a front part which secondarily refracts the incident light into the light incident groove by protruding in an asymmetry dome shape that a peak part is disposed on the upper part based on the center and emits the incident light in the lower direction based on the peak part.

Description

Field of the Invention The present invention relates to a compound refracting lens for a lamp,

More particularly, the present invention relates to a streetlight device, and more particularly, to a streetlight device in which a pattern for primary refraction of light is formed inside a light incidence groove of a back surface of a lens, and a front refraction of the lens is formed in an asymmetrical dome shape, To a combined refracting lens for a luminaire and to a streetlight device having the same.

Generally, LED (Light Emitting Diode) lighting starts from the light output in the LED module, which is fabricated with an optical lens for optimizing the light source of the LED element to suit the application.

However, such a light source lens is a module that is integrally integrated with an LED chip having a light quantity which can not be used for illumination alone, and is a level that basically controls the direction and light amount of light, and its size is very small and precision optical calculation is applied The effective range of the optical image and the distance is inevitably small.

Since a lighting device using such an LED light source requires a high-capacity light source, a large number of LED modules are packaged by using SMD (Surface Mount Devices) or COB (Chip On Board) methods. However, Therefore, the required space between the plurality of modules must be maintained. Therefore, the size of the LED substrate is further increased as the lighting apparatus with high output power becomes more and more difficult to efficiently control the entire light.

In order to achieve efficient light distribution by using an LED light source in a lighting apparatus under such a system, it is necessary to use a lens in a luminaire, which is insufficient for a reflector of a luminaire.

Particularly, it is possible to minimize the overlap or missing of the light distribution between the light fixtures and to adjust the light intensity of the light distribution area between the light fixtures in a place where the power consumption is high, Is required.

In the LED lighting fixtures mentioned above, the lens technology will be able to save energy and improve the efficiency of the luminaire by reducing the light loss and achieving various light distribution purposes by efficiently controlling the light with the rapid development of the light output enhancement technology of the LED device in the future It is one of the important development tasks.

However, the lens used in the current lighting apparatus is not limited to a simple function of convex or concave shape, a technique of arranging a plurality of such lenses in correspondence with one or a few LED modules, or a technique of arranging a plurality of such lenses in an array form And it shows only a slight improvement in the efficient dispersion and homogeneity of light.

This is because the LED light source has not been used for a long time, and even when a plurality of LED packages are used in a single luminaire, the energy saving effect is larger than that of the previous light source. Therefore, the development of a precise lens Is not showing a great improvement.

For this reason, an LED package has been proposed for achieving high luminance, high light-emitting efficiency, high external radiation efficiency as in Japanese Patent Registration No. 418783, but the present invention also aims at improvement of uniformity and reduction of light loss It is not possible to realize it.

Japanese Patent No. 418783

The present invention solves the problems of the related art streetlights and lighting apparatuses by forming a pattern for primary refraction of light in the light incident grooves of the back surface of the lens and forming a front surface of the lens in an asymmetrical dome shape And to provide a combined refraction lens for a luminaire and a streetlight device having the same.

The present invention improves uniformity by refracting a considerable amount of light emitted to the center in the upper, left, and right directions, and reduces light loss and uniformity by having a structure capable of minimizing light loss by reflecting light scattered outside the light distribution area And to provide a streetlight device having the same.

The present invention provides a compound refracting lens for a luminaire and a streetlight device having the same for improving light loss and uniformity for forming various light distribution areas by varying a curvature of a concave groove and a convex surface, There is a purpose.

The objective of the present invention is to provide a compound refractive lens for a luminaire and a streetlight device having such a lens for improving the light loss and homogeneity by projecting both sides in a convex shape at a central portion of a vertex portion of an asymmetric dome constituting a front surface portion of a lens. have.

An object of the present invention is to provide a composite refracting lens for a luminaire having a thin water-repellent coating layer formed on an outer surface of a front portion and a rear portion of a lens to increase light transmittance and a streetlight device having the same.

The present invention relates to a compound refractive lens for a luminaire, which is provided with a slant surface of two to four sides on a side surface of a lens back surface and forms a mirror coating layer on the surface of the lens so as to minimize light loss by reflecting scattered light to a central portion of the lens, The purpose of the device is to provide.

The present invention has an asymmetric shape in which the lowest point having the deepest formation depth of the pattern of the light incidence grooves as a whole or the partial incidence is asymmetrical with respect to the center with respect to the center and the incident light is irradiated in the lower direction of the front face of the lens, And to provide a streetlight device having the same.

The present invention comprises a light irradiation angle adjusting means for adjusting the light irradiation angle by driving the lens in the vertical direction and a light brightness adjusting means for adjusting the output of the LED package, And to provide a combined refracting lens for a luminaire which can control a street light remotely by receiving a light brightness control signal and a streetlight device having the same.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to another aspect of the present invention, there is provided a combined refracting lens for a luminaire, including a rear portion for refracting incident light, the concave light incidence groove for receiving light emitted from a light source, And a front part protruding from the upper side in an asymmetrical dome shape and refracting the light incident on the light incidence groove to irradiate the lower part with respect to the vertex part.

Here, the front part has a depression at a central part of a vertex part, and both sides are protruded in a convex shape.

And a thin water-repellent coating layer formed on the outer surface of the front and rear portions of the lens.

And a mirror coating layer formed on the side surface of the rear surface of the lens to form an oblique surface of two to four sides and to reflect scattered light to the center of the lens.

The light incidence groove may be a concave groove with four corners having a predetermined curvature and rounded square or rectangular shape and having a flat bottom surface with a constant width at the center, an elliptical shape having a diameter in the longitudinal direction larger than the diameter in the transverse direction, Is a spherical concave groove having a curvature.

In order to concentrate and refract light incident on the light incidence groove, a pattern of a round shape, a continuous round shape, a spaced prism shape, and a continuous prism shape spaced apart from each other is formed on the entire surface of the light incidence groove or partially .

And the pattern is characterized in that the depth of formation becomes deeper or shallower toward the other point about any one point of the light incident grooves.

The pattern has an asymmetric shape in which the lowest point having the deepest forming depth is biased to one side with respect to the center, and the incident light is irradiated in the lower direction of the lens front face portion.

In order to achieve the other object, a streetlight device having a compound refracting lens for a luminaire according to the present invention comprises a rear part formed at the center of a concave light incidence groove into which light is incident and refracting incident light, A lens having a front surface portion protruding from an upper surface of the asymmetrical dome and refracting light incident on the light incident groove and irradiating the vertex portion in a downward direction with respect to the vertex portion, An illumination angle adjusting means for adjusting the angle of light irradiation by driving the lens in the vertical direction, a light brightness adjusting means for adjusting an output of the LED package, And a communication module for receiving the control and light brightness control signals.

In order to concentrate and refract light incident on the light incident grooves, a pattern of a round shape, a round shape, a continuous round shape, a spaced prism shape, and a continuous prism shape spaced apart from each other is formed on the entire surface of the light incidence groove, And the pattern is characterized in that the depth of formation becomes deeper or shallower toward the other point around one point of the light incidence groove.

The pattern has an asymmetric shape in which the lowest point having the deepest forming depth is biased to one side with respect to the center, and the incident light is irradiated in the lower direction of the lens front face portion.

The combined refractive lens for a luminaire and the streetlight device having the same according to the present invention have the following effects.

First, light is first refracted in the light incidence groove of the back surface of the lens, and secondary refraction occurs in the front surface of the lens, so that the irradiation range of light is uniformly controlled.

Second, it is possible to form various light distribution areas by changing the curvature of the concave grooves and the convex surface, and it is possible to reduce the light loss and improve the uniformity in order to perform the accurate light distribution according to the use.

Third, a substantial amount of light emitted to the center can be refracted and condensed in the upper, left, and right directions to improve uniformity and to minimize light loss by reflecting light scattered outside the light distribution area.

Fourth, the depression is formed at the central part of the vertex of the asymmetric dome constituting the front surface of the lens, and the both sides are raised in a convex shape, so that the optical loss reduction and homogeneity can be further improved.

Fifth, an ultra-water-repellent coating layer is formed on the outer surface of the front and rear portions of the lens to increase the light transmittance.

Sixth, a sloped surface is formed on the side surface of the lens back surface, and a mirror coating layer is formed on the surface of the lens back surface to reflect the scattered light to the center of the lens, thereby minimizing optical loss.

Seventh, it is possible to precisely control the irradiation range with the asymmetric shape in which the lowest point having the deepest formation depth of the pattern formed entirely or partially on the surface of the light incidence groove is offset toward either side with respect to the center.

Eighth, the light irradiation angle adjusting means for adjusting the light irradiation angle by driving the lens in the up and down direction, and the light brightness adjusting means for adjusting the output of the LED package are provided, so that the street light can be controlled remotely.

1 is a perspective view showing the overall configuration of a compound refractive lens for a luminaire according to the present invention;
2 is a front perspective view of a combined refractive lens for a luminaire according to the present invention.
Figs. 3A to 3C are rear views of the compound refractive lens for a luminaire according to the present invention
4 is a cross-sectional view of a combined refractive lens for a luminaire according to the present invention
5 is a longitudinal sectional view of the compound refractive lens for a luminaire according to the present invention
6 is a detailed configuration diagram of the rear surface light incident grooves of the compound refractive lens for a luminaire according to the present invention
7A to 7D are diagrams showing a detailed configuration of a pattern layer formed in a light incident surface of a rear surface of a compound refractive lens for a luminaire according to the present invention
Fig. 8 is an overall configuration diagram of a streetlight device having a compound refracting lens for a luminaire according to the present invention
9 is a detailed configuration diagram of a streetlight module of a streetlight device having a compound refracting lens for a luminaire according to the present invention

Hereinafter, preferred embodiments of the compound refractive lens for a luminaire and the streetlight device having the same will be described in detail as follows.

The features and advantages of the compound refractive lens for a luminaire and the streetlight device having the same according to the present invention will be apparent from the following detailed description of each embodiment.

FIG. 1 is a perspective view showing the overall configuration of a combined refractive lens for a luminaire according to the present invention, and FIG. 2 is a front perspective view of a combined refractive lens for a luminaire according to the present invention.

3A to 3C are rear views of a compound refractive lens for a luminaire according to the present invention.

In the present invention, a pattern for primary refraction of light is formed in the light incidence groove of the back surface of the lens, and the front surface of the lens is formed in an asymmetrical dome shape so that secondary refraction occurs to uniformly control the irradiation range of light.

To this end, the compound refractive lens for a luminaire according to the present invention comprises a rear part 10 which is formed at the center of a recessed light incidence groove 8 through which light emitted from an LED light source is incident and refracts incident light first, A vertex portion formed on the side surface of the light incidence groove 8 so as to protrude in an asymmetrical dome shape located on the upper side with respect to the center and to refract light incident to the light incidence groove 8 in a downward direction with respect to the apex portion 20).

The front portion 20 has a raised portion 18 having a depressed portion 14 at a central portion of a vertex portion and protruding on both sides in a convex shape.

And a thin water repellent coating layer 19 formed on the outer surface of the front surface portion 20 and the rear surface portion 10 of the lens 30 is formed on the side surface of the rear surface portion 10 of the lens 30, And a mirror coating layer (5) formed on the surface to form a sloped surface (4) of the surface and reflect the scattered light to the center of the lens.

3A, the light incident grooves 8 may have a rounded square shape with four corners having a predetermined curvature or a rectangular shape as shown in FIG. 3B and a concave groove having a flat bottom surface with a constant width at the center, Is a spherical concave groove having an elliptical shape whose longitudinal diameter is larger than the diameter of the transverse direction and which has a curvature as a whole.

In order to concentrate and refract light incident on the light incidence groove 8, a plurality of light sources are arranged in a round shape, a continuous round shape, a spaced prism shape, and a continuous prism shape, as shown in FIGS. 6 and 7A to 7D A pattern is engraved on the entire surface of the light incidence groove 8 or partially.

Such a pattern can be formed in such a form that the depth of formation becomes deeper or shallower toward the other point about any one point of the light incidence groove 8. The change of the pattern shape and the pattern formation depth is not limited to the above- But it is to be understood that the invention can be practiced otherwise without limitation.

In particular, the pattern has an asymmetric shape in which the lowest point having the deepest forming depth is biased with respect to the center with respect to the center, and the incident light is irradiated in a downward direction of the front face of the lens.

7A to 7D show that the lowest point is formed in the direction of (a), (b), (c) and (d) on the left side from the center of the pattern. However, But it is natural that it can be carried out differently.

The present invention has such a constitution, and a substantial amount of light radiated to the center is refracted in the upper, left, and right directions to improve uniformity and to reflect light scattered out of the light distribution area to minimize light loss.

Specifically, the lens 30 proposed in the present invention is formed into a square or elliptical shape. The material of the lens 30 is made of a glass having excellent transparency and no thermal deformation, and the outer shape has a substantially wave shape.

1 and 2, the lens 30 includes a rear portion 10 including an inclined surface 4, a front portion 20 having a depression 14 and two raised portions 18, It is molded integrally.

The rear portion 10 has a sloped surface 4 at the edge and a light incident groove 8 at the center in the lateral direction.

A mirror coating 5 is applied to the outer surface of the inclined surface 4 so that the light is scattered to the outside and guided to the light distribution area, thereby minimizing unnecessary light loss.

The inclined surface 4 and the mirror coating 5 are basically formed in one side on the left and the right side in the direction to lengthen the light distribution area and three or four sides can be formed depending on the size and the purpose of the lens 30 .

The light incidence groove 8 formed at the center of the back surface 10 is a lower light beam whose width is narrow and whose diameter is gradually narrowed toward the top. The curved surface portion 8a of the light incidence groove 8 has a lower Is formed at a steep angle with a gentle upward direction.

The structure and function of the light incidence groove 8 and the inclined surface 4 formed in the rear portion 10 will be described in more detail with reference to FIGS. 3 to 5. FIG.

That is, as shown in Figs. 3A to 3C, the light incidence groove 8 is located at the central portion of A1-B1-C1-D1 and has a gentle concave shape inward from the square face of A1-B1-C1- And the diameter is about A1-B1 / 2 in the direction of AB at the central portion thereof and is about B1-C1 / 3 in the BC direction, and the depth is about B1-C1 / 3.

The curved surface portion 8a in the light incident groove 8 is formed by refracting light incident from the plurality of LED elements 50 in a diagonal direction in the left and right directions of the lens 30 in the B and C directions, So that the uniformity of the light can be improved.

The plane AB-B1-A1 and the plane C1-CD-D1 form a sloped surface gradually becoming more oblique to the oblique direction from the center in the directions B and C, and a mirror coating 5 is formed on the oblique surface from the back surface of the lens 30 So that the light is reflected to the light distribution area through the front surface of the lens 30.

The front part 20 has a depression 14 having a smooth curvature at the central part and a protrusion 18 at the left and right sides of the depression 14, And the amount of light incident to the left and right directions of the lens 30 is concentrated, thereby improving uniformity of the light distribution area.

Further, the thickness of the front portion 20 having the depressed portion 14 and the two raised portions 18 is gradually lowered toward the upper side to gradually increase the thickness of the front portion 20, and the lower light quantity is gradually scattered upward to uniformize the light distribution region .

4 and 5, the lens 30 of the present invention having the above-described structure is configured so that the light incident on the first slope of the rear portion 10 constituting the lens 30 from the LED element 50 The first refracted and refracted light is refracted at the second slope of the front surface 20 constituting the lens 30 and is divergent to increase the luminosity of the far, left, and right distances from the luminaire, And the reflection surface is formed on the side surface close to the light source, thereby preventing light loss.

In addition, the preferable configuration of the lens 30 is formed of a glass material having a high transmittance, and a super water-repellent coating 19 is applied to the surface thereof to further improve the light transmittance. In the LED package of about 100 W or less, It is designed so as to be controllable and to have a shape of ellipse close to a square or a square.

Accordingly, the light loss due to the use of the lens 30 is reduced and the light emitted from the plurality of LED elements 50 is controlled by a single lens, thereby improving uniformity in one dimension and making the light distribution area square When a plurality of lenses are used or a plurality of luminaire are installed with a distance therebetween, overlapping and missing of the light distribution can be prevented, thereby achieving energy saving and efficient light distribution.

In designing the upper lens, the size of the light source, the amount of light according to the light emitting direction in the light source, the change value according to the distance between the light source and the lens, and the change value according to the installation angle of the light source, And the curvature of each part should be changed to obtain an optimum light distribution effect.

It is possible to change the width and shape of the light distribution area according to the change of the stoplight, to prevent the glare of the light source by reducing the installation angle of the luminaire, and to block the light scattered to the outskirts of the light distribution area, It is possible to minimize light pollution.

In order to distribute light of high power to a certain area with a single luminaire or to distribute light of a very wide area which can not be distributed by one lens, the LED package is grouped and each lens corresponding thereto is formed in a form It is possible to achieve the object by the method of mounting.

This is completely different from the unnecessary overlap of light by placing multiple lenses in a single luminaire with each lens functioning differently.

The construction of the streetlight device having the composite refracting lens for a luminaire according to the present invention having the above-described configuration is as follows.

FIG. 8 is an overall configuration diagram of a streetlight device having a compound refracting lens for a luminaire according to the present invention, and FIG. 9 is a detailed diagram of a streetlight module of a streetlight device having a compound refracting lens for a luminaire according to the present invention.

As shown in FIG. 8, the streetlight device having a compound refracting lens for a luminaire according to the present invention can be realized by a PLC (Power Line Communication) or a wireless communication using a repeater, Adjustment is performed.

9, a streetlight device having a compound refracting lens for a luminaire according to the present invention includes: a rear part formed at the center of a concave light incident groove into which light is incident and refracting incident light, A lens 91 protruding from an upper asymmetrical dome shape and having a front portion for refracting light incident on the light incidence groove to be irradiated in a downward direction with respect to the apex portion, A light irradiation angle adjusting means 93 for adjusting the light irradiation angle by driving the lens 91 in the vertical direction; and an LED package 92 mounted on the rear surface of the LED package 92, A communication module 95 for receiving the light illumination angle control and light brightness control signal from an external streetlight integrated management server and a communication module 95 Control the irradiation angle of the lens 91 receives the illumination light angle control and brightness control signal from the portion streetlight integrated management server, and a control module 96 which controls the output of the LED package (92).

According to the streetlight device having the compound refracting lens for a luminaire according to the present invention, in the streetlight integrated management server in the outside, according to the moonlighting, the municipality event period, the time (the Indian intensive survey for the overnight traffic or the remote survey for the late night security) By driving the lens in the vertical direction, it is possible to control the irradiation range, or to control the output of the LED package to control the street lamp according to the situation.

The composite refracting lens for a luminaire and the streetlight device having the same according to the present invention are characterized in that a pattern for primary refraction of light is formed inside the light incidence groove of the back surface of the lens and the front surface of the lens is formed as an asymmetrical dome, So that the irradiation range of the light can be uniformly controlled. The streetlight device having such a lens receives the light irradiation angle control and the light brightness control signal from the external streetlight integrated management server so that the streetlight can be controlled remotely It is.

As described above, it will be understood that the present invention is implemented in a modified form without departing from the essential characteristics of the present invention.

It is therefore to be understood that the specified embodiments are to be considered in an illustrative rather than a restrictive sense and that the scope of the invention is indicated by the appended claims rather than by the foregoing description and that all such differences falling within the scope of equivalents thereof are intended to be embraced therein It should be interpreted.

4. Slope 8. Light incident home
10. Rear Section 14. Depressions
18. Ridge 20. Front side
30. Lens

Claims (11)

A rear surface portion having a concave light incident groove formed at a center thereof for refracting incident light;
And a front portion protruding from the center of the vertex portion in an asymmetrical dome shape located on the upper side with respect to the center and refracting the light incident on the light incidence groove to irradiate the lower portion with respect to the vertex portion, A compound refractive lens for a luminaire. The apparatus according to claim 1,
And a shape having a depressed portion at a central portion of a vertex portion and protruding on both sides in a convex shape. The combined refractive lens for a luminaire according to claim 1, further comprising a thin water-repellent coating layer formed on an outer surface of a front portion and a rear portion of the lens. The lens assembly according to claim 1, further comprising a mirror coating layer formed on the side surface of the rear surface of the lens so as to form an oblique surface having two to four sides and to reflect scattered light to the center of the lens, . The light-emitting device according to claim 1,
The four corners are concave grooves having a regular curvature and a rounded square or rectangular shape and a flat bottom surface with a certain width in the center,
Wherein the concave groove is an elliptical shape having a diameter in the longitudinal direction larger than a diameter in the transverse direction and the whole is a spherical concave groove having a curvature. 2. The light source device according to claim 1, wherein, in order to condense and refract light incident on the light incidence groove,
Characterized in that a pattern in the form of a round, spaced apart, continuous round, spaced apart prism, or continuous prism is engraved in the entirety or in part of the surface of the light incidence groove. The combined refractive lens for a luminaire according to claim 6, wherein the pattern has a forming depth that becomes deeper or shallower toward the other point about any one point of the light incidence groove. 7. The optical device according to claim 6, wherein the pattern has an asymmetric shape in which the lowest point having the deepest forming depth is biased with respect to the center, and the incident light is irradiated in the lower direction of the front face of the lens, Lenses for illuminating luminaires with faces. A concave light incident groove in which light is incident is formed at the center, and a rear face part for primarily refracting the incident light, and an asymmetrical dome shape vertically positioned at the center of the vertex part, A lens having a front portion for refracting light secondarily and irradiating the vertex portion in a downward direction;
An LED package coupled to a rear portion of the lens to irradiate light;
Light irradiation angle adjusting means for adjusting the angle of light irradiation by driving the lens in the vertical direction;
Light brightness adjusting means for adjusting an output of the LED package;
And a communication module for receiving a light illumination angle control and light brightness control signal from an external street light integrated management server. 10. The light-emitting device according to claim 9, wherein, in order to condense and refract light incident on the light-
A continuous round shape, a spaced prism shape, and a continuous prism shape pattern are engraved on the entire surface of the light incidence groove or partially,
Wherein the pattern has a depth of formation that becomes deeper or shallower toward another point about a certain point of the light incidence groove. 11. The lamp according to claim 10, wherein the pattern has an asymmetric shape in which the lowest point having the deepest forming depth is biased with respect to the center with respect to the center, and the incident light is irradiated in the lower direction of the front face of the lens ≪ / RTI >

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