KR102009877B1 - Led-lighting with silicon lens - Google Patents

Abstract

The present invention relates to an LED lighting device having a silicone lens, which reduces production costs and is easily maintained by lightening a lighting device and minimizing applied parts by applying a lens of a flexible material, such as silicone. To this end, the LED lighting device comprises: a heat radiation body (10) having an LED module (70) attached to one side surface thereof, and emitting heat generated from the LED module (70); a cover (20) coupled to a front surface part of the heat radiation body (10); a coupling cap (40) screw-coupled to the cover (20); a lens unit (50) of a silicone material, positioned and fastened between the cover (20) and the coupling cap (40); a holder (60) rotatably coupled to one side of the heat radiation body (10); and an LED module (70).

Description

LED Lighting Device with Silicon Lenses {LED-LIGHTING WITH SILICON LENS}

The present invention relates to a LED lighting device having a silicon lens, by applying a lens of a soft material such as silicon, to reduce the cost of the lighting device and to minimize the parts to be applied to reduce the production cost and easy maintenance For the device.

In general, the lighting device includes a light source for emitting light therein, and applies a light emitting means such as a lens to diffuse or concentrate the light emitted from the light source.

To this end, such a lens is formed of a conventional glass material or a hardened plastic material.

Accordingly, the self weight increases, the weight of the lighting device becomes heavy, and the supporting load of an auxiliary facility such as a prop for installation increases, resulting in a large installation cost.

In addition, the number of parts that must be used due to the nature of the lighting device is increased, resulting in the constraints of the installation site due to the increase in the production cost and increase in load.

In addition, in the case of a lighting device to which a plurality of light sources are applied, there is a problem that a difference in illuminance occurs depending on the distribution of light sources. To overcome such a problem, Korean Patent No. 10-1706160 (Optical Lens, The applied lighting device and its manufacturing method, hereinafter referred to as 'prior art', are transparent to transmit the light emitted from the light source.

It is made of a silicon material, and is formed in a conical shape in which the upper surface is flat and the diameter decreases toward the lower side, and an installation space for installing the light source is formed in the lower portion, and an outer surface and the installation space for forming an outer surface. The inner surface is proposed a technique for preparing a configuration that is formed as an aspherical surface by using an anamorphic asphere curve (anamorphic asphere), respectively.

However, the prior art has a problem that it is difficult to maintain and repair by providing a plurality of LEDs, applying only one lens.

Republic of Korea Patent No. 10-1706160 (2017. 02. 07.) Japanese Laid-Open Patent Publication No. 2016-031846 (2016. 03. 07) Republic of Korea Patent Publication No. 10-2010-0021035 (2010. 02. 24.) Republic of Korea Patent Publication No. 10-2017-0105186 (2017. 09. 19.)

LED lighting device having a silicon lens of the present invention is to provide a lighting device that is easy to light weight by applying a silicon lens, by minimizing the parts.

Still another object of the present invention is to provide a lighting device that can apply a lens of various illumination according to the site situation.

In order to solve the problem of the present invention, the LED module 70 is attached to one side, and coupled to the heat dissipation main body 10 and the front portion of the heat dissipation main body 10 for dissipating heat generated from the LED module 70. Between the cover 20 and the coupling cap 40 screwed to the cover 20 and the lens unit 50 and the heat dissipation body of the silicon material which is located between the cover 20 and the coupling cap 40 is fastened It provides a LED lighting device having a silicon lens, characterized in that consisting of a cradle 60 and the LED module 70 is rotatably coupled to one side of the portion (10).

Here, the lamp shade 30 is further provided on one side of the cover 20 to condense or speckle light, and the heat dissipation body 10 is integrally formed on one side to heat generated from the LED module 70. A heat sink 11 for discharging is formed, and a plate 12 to which the LED module 70 is attached is formed on the other side, and one side of the plate 12 may interpolate a sealing ring 15 for sealing. A sealing groove 13 having a recessed shape is formed, and a bolt hole 14 for bolting is formed at the outermost part of the plate 12.

In addition, one side surface of the heat sink 11 is further provided with an air valve 16 for the ventilation of the internal air in the space between the heat dissipation body 10 and the cover 20 and the external air period of the heat dissipation body 10. do.

In addition, the cover 20 is formed by penetrating a plurality of lens holes 21 positioned to correspond to the LED module 70, the screw portion (21a) is formed on the outer peripheral surface protruding from the lens hole 21 The coupling cap 40 has an opening formed so that the lens 51 of the lens unit 50 can protrude toward an upper side thereof, and a locking jaw 41 is formed to be adjacent to the opening opening. A screw portion is formed on the inner circumferential surface of the 40, and the lens portion 50 interpolated in the coupling cap 40 protrudes outwardly to the lens 51 for condensing or spectroscopy the light and the outer circumferential surface of the lens 51. It is composed of a coupling blade 52 is formed, so that the engaging blade 52 is fastened to the engaging jaw 41 to be fastened.

In addition, a guide ring 54a is further formed on the bottom surface of the coupling wing of the lens unit so as to precisely install the lens unit, and the guide ring 54a is arranged so that a plurality of different diameters are continuously arranged. It is possible to correspond to the size of the lens hole 21, so that the contact portion of the lens portion and the coupling cap is formed so that the close contact projection is formed in a ring shape protruding in the upper direction of the coupling blade so as to be in close contact.

In addition, the cradle 60 can be replaced in various forms that can be mounted on one or two or more heat dissipating bodies, in order to respond to a variety of site conditions, one or two heat dissipating bodies are arranged in combination It is possible to better achieve the object of the present invention by providing an LED lighting device having a silicon lens, characterized in that.

LED lighting device having a silicon lens of the present invention by applying a silicon lens, by minimizing the parts, it is easy to light weight, there is an effect of providing an illumination device that can be applied to the lens of various illumination according to the site situation. .

1 is a perspective view of the present invention.
2 is an exploded perspective view of the present invention.
3 is a bottom perspective view of the cover 20 according to the invention.
4 is a perspective view of the lens unit 50 according to the present invention.
5 is a cross-sectional view illustrating a coupling form of the lens unit 50 according to the present invention.
6 is a plan view of the heat dissipation main body 10 according to the present invention.
7 is an exemplary view for showing the operation and structure of the air valve 16 according to the present invention.
8 is a perspective view of a lens unit 50a according to another embodiment of the present invention.
9 is a bottom perspective view of the lens unit 50a according to another embodiment of the present invention.
10 is a cross-sectional view illustrating the structure of a lens unit 50a according to another embodiment of the present invention.
11 is a cross-sectional view for illustrating a coupling form of the lens unit 50a according to another embodiment of the present invention.
12 is an exemplary diagram for illustrating an embodiment of the present invention.
13 to 15 are exemplary views for illustrating various uses of the present invention.

Hereinafter, the LED lighting apparatus having the silicon lens of the present invention will be described in detail with reference to the accompanying drawings so that a person skilled in the art can easily perform the same.

1 is a perspective view of the present invention, Figure 2 is an exploded perspective view of the present invention, Figure 3 is a bottom perspective view of the cover 20 according to the present invention, Figure 4 is a perspective view of the lens unit 50 according to the present invention. 5 is a cross-sectional view illustrating a coupling form of the lens unit 50 according to the present invention.

1 to 5, the LED lighting device having a silicon lens of the present invention is attached to the LED module 70 on one side, for emitting heat generated from the LED module 70 Heat dissipation body 10, the cover 20 is coupled to the front portion of the heat dissipation body 10, the coupling cap 40 and the cover 20 and the coupling cap 40 is screwed to the cover 20 The lens unit 50 and the cradle 60 and the LED module 70 are rotatably coupled to one side of the heat dissipation main body 10 and positioned between the lens unit 50 is fastened.

In addition, the lamp shade 30 is further provided coupled to one side of the cover 20 to focus or spectroscopic light.

The heat dissipation main body 10 is formed integrally on one side to form a heat sink 11 for dissipating heat generated from the LED module 70, the plate 12 is attached to the LED module 70 on the other side ) Is formed.

At this time, the plate 12 and the heat sink 11 are formed integrally to better dissipate heat generated from the LED module 70.

In addition, a sealing groove 13 having a recessed shape is formed at one side of the plate 12 so as to interpolate the sealing ring 15 for sealing, and a bolt hole for bolting at the outermost part of the plate 12. (14) is formed.

In addition, one side surface of the heat sink 11 is further provided with an air valve 16 for the ventilation of the internal air in the space between the heat dissipation body 10 and the cover 20 and the external air period of the heat dissipation body 10. do.

The air valve 16 prevents moisture and dust from flowing into the inside, and ventilates it, thereby quickly discharging heat generated from the inside to the outside, thereby expanding or contracting the air inside the sealed state. To prevent deformation or breakage.

At this time, the air valve 16 is installed through a portion of the heat dissipation main body 10 to vent the air inside and outside through a vent formed in the air valve 16.

The cover 20 which is fastened to the heat dissipation body 10 has a plurality of lens holes 21 positioned to correspond to the LED module 70, and has a screw part on an outer circumferential surface which extends from the lens hole 21 to protrude. 21a) is formed.

In addition, a plurality of bolt holes 22 are further formed on the outer side of the cover 20.

Here, the lens hole 21 is formed to penetrate through one side of the cover 20, but is shown based on three in the accompanying drawings of the present invention, but not limited to this, the amount of light according to the installation place Note that the number can be added or subtracted accordingly.

By forming the plurality of lens holes 21 as described above, by providing a lens having the same magnification or a lens having different magnifications, the illuminance which is the amount of light suitable for the site situation can be provided.

In addition, a buffer groove 23 recessed inward is further formed at the bottom of the cover 20.

The buffer groove 23 is to form a space for preventing the LED module 70 from being damaged by the impact applied to the cover 20 protruding from the outside. 10 is to form a space between the plate 12 and the cover 20 to act as a buffer.

The lampshade 30 coupled to one side of the cover 20 has a binding guide 31 for determining a coupling position, and a plurality of bolt holes 32 are further formed to correspond to the bolt holes 22. .

At this time, the lampshade 30 is detachable according to the site situation is to be applied according to the choice of the worker.

The coupling cap 40 coupled to the lens hole 21 of the cover 20 has an opening so that the lens 51 can protrude toward the upper side thereof, and the locking jaw 41 is adjacent to the opening. Is formed, the threaded portion 42 is formed on the inner peripheral surface of the coupling cap 40.

At this time, the screw portion 42 is formed to be screwed to the screw portion 21a formed on the outer circumferential surface of the lens hole 21, the coupling blade 52 of the lens portion 50 on the inner side of the coupling cap 40. ) Is positioned, and then screw the coupling cap 40 to be pressed between the protruding end of the lens hole 21 and the locking jaw 41 of the coupling cap 40 to fasten the lens unit 50. To make it possible.

The lens unit 50 is formed of a silicon material, and consists of a lens 51 for condensing or spectroscopy light and a coupling blade 52 protruding outward on an outer circumferential surface of the lens 51.

In this case, the lens 51 may be provided with various types of lenses having different curvatures so as to realize various condensing or spectroscopic effects.

Here, forming the lens unit 50 with a silicon material is required when a separate sealing member such as a packing is applied between the lens and the cover when the conventional glass or plastic lens is applied. This is to overcome the problem that the process becomes complicated or the number of members increases, and to prevent the secondary damage because the lens is not broken when an accident such as damage or fall of the lighting device occurs due to an external factor such as an earthquake. .

In more detail, by applying a lens of a soft silicon material it is not necessary to apply a separate sealing member to the coupling portion of the lens and the cover.

In addition, the lens unit 50 as described above can be selectively applied according to the site situation, with reference to Figures 6 to 9 showing an example of applying the lens unit 50a of another embodiment of the present invention below Explain.

When the lens unit as described above needs to be installed so that the light emitted from the LED module 70 is precisely irradiated to the center of the lens 51, it is necessary to accurately position the lens.

At this time, the guide ring 54a for indicating the position of the lens unit 50a so as to be precisely installed is further formed.

The guide ring 54a as described above is formed at the bottom of the coupling blade 52a so that the lens 51a is free from interference.

The guide ring 54a allows a plurality of different diameters to be continuously arranged to correspond to the lens holes 21 of various sizes.

In addition, the contact protrusion 53a is further formed to closely contact the coupling portion of the lens unit 50a and the coupling cap 40.

In more detail, it is to be formed in a ring shape protruding in the upper direction of the coupling blade (52a).

Such a contact protrusion (54a) is to be in close contact with the end of the coupling cap 40 and the lens hole 21, the lens unit 50 is better bound to prevent the positional deviation, and penetrates from the outside It is possible to prevent foreign substances such as moisture and dust from entering.

The cradle 60 is rotatably coupled to one side of the heat dissipation body 10.

The LED module 70 is formed of a plurality of LEDs integrally on the PCB substrate and is disposed on one side of the heat dissipation body 10.

Such a LED lighting device having a silicon lens of the present invention can be applied to a lens of various magnifications, which will be described in detail with reference to FIG. 10, wherein a plurality of LED modules are provided on the plate 12 of the heat dissipating body 10. After disposing and fixing 70, the cover 20 is fastened, and the lens caps 50 having different magnifications are disposed in the respective lens holes 21 of the cover 20, and then the coupling caps 42 are disposed. Will be concluded.

Alternatively, as described above, a lens having the same magnification may be selectively applied.

This is to adjust and apply the amount of light according to the required illuminance according to the situation of the installation site.

In addition, the cradle may be provided in various forms that can be mounted by combining one or two or more heat dissipating bodies to cope with various site situations.

For example, when only one heat dissipation body is installed, one cradle is applied, and in order to apply two or more heat dissipation bodies, an extended cradle may be further applied.

In addition, when two or more heat dissipating bodies are applied, the direction in which each heat dissipating body is directed, that is, the light irradiation direction, may be applied in the same way, or may be adjusted so as to be directed in different directions. (See FIGS. 13 to 15).

It is possible to provide an LED lighting device having the silicon lens of the present invention by such a method.

10: heat dissipation body 11: heat sink
12: plate 13: sealing groove
14 bolt hole 15 sealing ring
16: air valve 20: cover
21 lens hole 21a screw
22: bolt hole 23: buffer groove
30: lampshade 31: binding guide
32: bolt hole 40: coupling cap
41: engaging jaw 42: screw portion
50: lens unit 51: lens
52: combined wing 60: holder
70: LED module

Claims (10)

LED module 70 is attached to one side, the heat dissipation body 10 for dissipating heat generated from the LED module 70; and
A plurality of lens holes 21 coupled to the front surface of the heat dissipation body 10 and positioned to correspond to the LED module 70 are formed to penetrate, and screw portions are provided on an outer circumferential surface which extends from the lens hole 21 to protrude. The cover 20 is formed 21a; And
Coupling cap 40 is screwed to the cover 20; And
Located between the cover 20 and the coupling cap 40, the lens unit 50 of the silicon material is fastened; and
Cradle 60 is coupled to one side of the heat dissipation body 10 to be rotatable; And
LED lighting device having a silicon lens, characterized in that consisting of an LED module (70).
The method of claim 1,
One side of the cover 20 LED lighting device having a silicon lens, characterized in that the lamp shade 30 is further provided for condensing or spectroscopy light.
The method of claim 1,
The heat dissipation main body 10 is formed integrally on one side to form a heat sink 11 for dissipating heat generated from the LED module 70, the plate 12 is attached to the LED module 70 on the other side ) Is formed, and one side of the plate 12 is formed with a sealing groove 13 of the recessed shape so as to interpolate the sealing ring 15 for sealing, the outermost of the plate 12 for bolting LED lighting device having a silicon lens, characterized in that the bolt hole 14 is formed.
The method of claim 3,
On one side of the heat sink 11 is formed an air valve 16 is further provided for the ventilation of the internal air in the space between the heat dissipation body 10 and the cover 20 and the external air dissipation body 10. LED lighting device having a silicon lens characterized in that.
delete The method of claim 1,
The coupling cap 40 is formed with an opening so that the lens 51 of the lens unit 50 can protrude toward one side of the upper portion, and a locking jaw 41 is formed so as to be adjacent to the opening. Screw portion is formed on the inner circumferential surface of the lens), the lens unit 50 is inserted into the coupling cap 40 is formed to protrude outward on the lens 51 and the outer peripheral surface of the lens 51 for condensing or spectroscopy light Comprising the coupling blades 52, the LED lighting device having a silicon lens, characterized in that the fastening by engaging the coupling blades (52) on the locking projection (41).
The method of claim 6,
LED lighting device having a silicon lens, characterized in that the bottom ring portion of the coupling portion of the lens unit further comprises a guide ring (54a) indicating the position so that the lens portion can be precisely installed.
The method of claim 7, wherein
The guide ring (54a) is a LED illumination device having a silicon lens, characterized in that to allow a plurality of different diameters are arranged in succession to correspond to the lens holes (21) of various sizes.
The method of claim 6,
LED lighting device with a silicon lens, characterized in that the contact portion formed in a ring shape protruding in the upward direction of the coupling blade so that the coupling portion of the lens portion and the coupling cap more closely.
The method of claim 1,
The cradle 60 may be replaced by various forms in which one or more heat dissipating bodies may be mounted in order to cope with various site conditions, and may be arranged by combining one or more heat dissipating bodies. LED lighting device having a silicon lens, characterized in that.

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