KR101615957B1 - Mothproof and radiating device for illuminator - Google Patents

Abstract

The present invention relates to an insect trapping and heat dissipating device for an illuminator which is provided in a portion for discharging heat generated in a lighting device for providing light, and can prevent the penetration of insects from the outside while guiding the discharged heat to the outside.
A feature of the present invention resides in a light source module including an illumination case 100 having an inner space opened to the front side, a light source 200 arranged in parallel to the front surface of the illumination case 100 to emit light, An insecticide member 300 which dissolves heat generated in the light source 200 while preventing the insecticide from penetrating into the inner space of the illumination case 100 and an insecticidal member 300 which is closed to maintain the insecticidal member 300 in a closed state, And a damper fastening member 400 for fastening the member 300 to the illumination case 100.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mothoproof and a radiating device for an illuminator,

The present invention relates to an insect trapping and heat dissipating device for an illuminator, which is provided in a part for discharging heat generated at the time of generating illumination in a lighting device for providing illumination, and can prevent penetration of insects from the outside while guiding heat to the outside.

Generally, in the lobby or the living room of a building, there is an illuminating lamp, and it is common to see that the illuminating lamp is piled up with mosquitoes and flying insects.

Usually, the illumination light may be composed of a base plate installed on a ceiling of a column or a tunnel, a light source such as an LED provided on the base plate, and a transparent or semitransparent cover covering the light source.

Here, a plurality of through holes are formed in the base plate or the cover to allow the heat generated from the LED to flow out.

However, the above-mentioned illumination lamp has a problem that the fly is infiltrated from the outside through the through hole. In other words, it may cause a failure of the illumination lamp due to the viscera accumulated by the penetration, which is troublesome to be cleaned from time to time.

The background art of the present invention is disclosed in Korean Patent Registration No. 10-1507719 filed in the Korean Intellectual Property Office (Mar. 26, 2015).

SUMMARY OF THE INVENTION It is an object of the present invention to provide an insect trapping and heat dissipating device for an illuminator which is provided at a portion for discharging heat generated at the time of generating illumination in a lighting apparatus for providing illumination, .

The insect trapping and heat dissipating device for a lighting fixture according to an embodiment of the present invention includes an illumination case 100 having an inner space opened to the front, a light source 100 arranged in parallel to the front surface of the illumination case 100, An insecticide member 300 which dissipates heat generated in the light source 200 while preventing the penetration of blocking insects into the inner space of the illumination case 100 by closing the space between the light sources 200, (400) for securing the insect-proof member (300) to the illumination case (100) so that the closed state of the insect-proof member (300) is maintained.

The light source 200 includes an LED 210 that emits light by an input power source and a circuit board 220 that is electrically connected to the LED 210. The circuit board 220 includes a light emitting diode Air is circulated between the other circuit boards 220 arranged in parallel to each other and arranged in parallel to each other so that a space for installing the insect repellent member 300 is formed. And a through hole 222 through which the insect repellent member 300 is installed is formed.

Preferably, the insect-proof member 300 is constituted by a perforated body in which the heat generated in the light source 200 is dissipated while preventing the penetration of the blocking insect while permitting air circulation by closing the spaces between the light sources 200 .

Preferably, the percussion member 300, which is the insectproof member 300, is formed of a hollow body having a plurality of perforated holes through which the air flows, while being hollow.

Preferably, the puncture member 300 is formed of a hollow body having a plurality of perforated holes through which the air flows, and a mesh in which air is circulated is formed into a cylindrical shape.

The shape retention member 500 may be formed such that a plurality of protruding pieces protrude in a radial direction or a perforation hole is formed in the shape retention member 500 And a perforated tube body.

Preferably, the insectproof fastening member 400 includes a finishing portion 410 installed at both ends of the insectproof member 300 and finished, a wire 420 having one end connected to the finishing portion 410, And a fastening part 430 for fastening the other end to the illumination case 100.

The wire 420 is formed with a ring-shaped ring 421 so that the coupling part 430 is engaged with the other end of the wire 420 and the coupling part 430 is provided with a head And is constituted by a pin or a bolt.

Preferably, the insect repellent member 300 is a spherical type and a perforated body so that air flows therethrough. The insect trapping member 400 includes an insect-proof supporting portion 450 supported in a state surrounding one end of the insect repelling member 300, A wire 420 having one end connected to the supporting part 450 and a coupling part 430 connecting the other end of the wire 420 to the illumination case 100. [

The insect trapping and heat dissipating device for a lighting fixture according to an embodiment of the present invention is provided in a part for discharging heat generated at the time of generating illumination in a lighting device for providing illumination, There is an advantage.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a state in which an insect trapping and heat radiating device for a lighting fixture according to an embodiment of the present invention is applied to a lighting device. FIG.
2 is an exploded perspective view of the present invention.
3 is a perspective view showing the combined state of the present invention.
4 is a perspective view showing the inside of a lighting apparatus to which the present invention is applied.
5 is a partial perspective view showing a state in which the present invention is applied.
6 is a state diagram showing a state in which the present invention is applied.
7 is a view showing a shape retaining member applied to the present invention.
8 is a view showing another example of the insectproofing member and the insectproofing fastening member of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an insect trapping and heat dissipating device for a lighting fixture according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7, the insect trapping and heat dissipating device for a lighting fixture according to an embodiment of the present invention includes an illumination case 100, a light source 200, an insect repelling member 300, 400).

The illumination case 100 is configured as a case in which the inner space is opened to the front. The light source 200 is installed on the entire surface of the illumination case 100 with the rear portion of the light source 200 accommodated in the inner space of the illumination case 100. [ A power line for supplying power to the light source 200 and a communication line for transmitting a communication signal for controlling the light source 200 are wired in the inner space of the illumination case 100.

The illumination case 100 is formed with a flow-through hole 110 through which air flows. The flow-through hole 110 may be provided with an insect-proof member 300, which will be described later. At this time, the flow-through hole 110 may be formed in a straight line or curved in an arc shape, so that the insect-proof member 300 may be inserted into the flow-through hole 110 while being bent in a circular arc shape.

The light source 200 is arranged in parallel to the front surface of the illumination case 100 to emit light, and may be an LED lamp.

The light source 200 includes an LED 210 that emits light by an input power source and a circuit board 220 on which the LED 210 is electrically connected.

The electronic device 210 is mounted on the front surface of the circuit board 220 and the radiating fin 230 is formed on the rear surface of the circuit board 220 to radiate heat. . Accordingly, when power is supplied to the circuit board 220, the LED 210 emits light.

Concave grooves 221 are formed on the outer side of the circuit board 220 so that a space for inserting the insectproof member 300 is formed while air is circulated between the circuit boards 220 arranged adjacently and arranged side by side . Accordingly, when the circuit boards 220 are installed in the lighting case 100 in a state in which the circuit boards 220 are in close contact with each other, the concave grooves 221 are opposed to each other to form holes through which the air flows.

In addition, the circuit board 220 may have a through hole 222 through which air flows from the front to the back.

As described above, the recess 221 and the through hole 222 of the circuit board 220 are provided with the insect-proof member 300, which is capable of blocking the infiltration of insects and allowing air to flow therethrough.

The insecticide member 300 closes the space between the light sources 200 to allow the air to flow while preventing the penetration of blocking insects into the inner space of the illumination case 100, Such as a sponge or a mesh. When the insectproof member 300 closes the space between the light sources 200 or between the light source 200 and the illumination case 100, air is allowed to flow and is generated in the LED 210 through the heat radiation fins 230 It is possible to prevent the infiltration of the insects.

The insectproof member 300 may be formed of a hollow body having a plurality of perforated holes through which the air flows and a hollow interior, or a mesh in which the air flows may be formed into a cylindrical shape. Therefore, when the insect-proof member 300 formed of a tubular member or formed in a cylindrical shape closes between the light sources 200 or between the light source 200 and the illumination case 100, The insecticidal effect is excellent because it blocks the insect double. At this time, since the mesh serving as the insect-proof member 300 is formed in the shape of a cylinder so that the air is circulated even when the insect is double-blocked, heat generated in the light source 200 passes through the mesh and is easily transferred to the outside of the illumination case 100 .

Here, after the mesh, which is the insectproof member 300, is rolled into a cylindrical shape, the cylindrical shape can be firmly held by spot welding or clip fastening. In addition, when the cylindrical mesh is forcibly inserted into the hole formed by the concave groove 221 of the circuit board 220 facing each other and the through hole 222 formed in the circuit board 220 due to elasticity, Can be maintained firmly.

Furthermore, when the meshes as the insect repellent member 300 are formed into a cylindrical shape by being wound in two to four layers, since there is a blocking effect in the range of 4 to 8, infiltration of a relatively small-sized insect can be easily prevented.

The shape retention member 500 may include a plurality of protruding pieces formed to protrude in a radial direction, or may be formed with a plurality of protrusions, It consists of a pipe body.

Therefore, when the shape retaining member 500 is housed in the tubular body as the insectproof member 300, the shape can be maintained without deflecting the insectproof member 300 even when external pressure is applied, The penetration of insects can be prevented.

The insecticidal fastening member 400 fastens the insecticidal member 300 to the illumination case 100 so that the insecticidal member 300 is kept in a closed state, A wire 420 connected at one end to the finishing unit 410 and a coupling unit 430 coupling the other end of the wire 420 to the lighting case 100. [

The finishing portion 410 is formed in a cap shape so that one end of the cylindrical puncture shield 300 is inserted. Since the both ends of the insectproof member 300 are inserted into the inside of the finishing portions 410, they are fixed by bolting or welding, so that the cylindrical shape of the insectproof member 300 can be firmly maintained. Of course, the insect repellent member 300 can be replaced after the bolts are separated from the finishing portion 410.

One end of the wire 420 may be connected to the finishing portion 410 and the other end may be fixed to the illumination case 100 by the fastening portion 430. A ring-shaped ring 421 may be formed in the wire 420 so that the coupling part 430 is hooked to the other end. Since the hook 421 is inserted and caught by the fastening part 430, the fastening operation of the fastening part 430 can be performed easily and quickly, and the fastened state of the wire 420 is securely fastened to the fastening part 430 Can be maintained.

The fastening portion 430 may be formed of a pin or a bolt having a head so as to be caught by the ring 421 of the wire 420. Accordingly, the pin, which is the fastening portion 430, can be inserted through the through hole formed in the illumination case 100 in a state where the pin passes through the ring 421 and is fastened. Of course, the bolt, which is the fastening part 430, may be threadedly engaged with the screw tab formed in the illumination case 100 in a state in which the bolt penetrates through the ring 421 and is fastened. That is, the fastening part 430 fixes the other end of the wire 420 to the illumination case 100, so that the installation state of the insectproof member 300 connected to the wire 420 can be firmly maintained.

Meanwhile, as shown in FIG. 8, the above-mentioned insect-proof member 300 is composed of a perforated body which is spherical and blocks the infiltration of insects while air is circulated. The spherical insectproof member 300 is formed to have a larger diameter than the circulation hole 110 formed in the illumination case 100 and inserted and fixed in the flow hole 110.

The insect-proof engagement member 400 includes an insect-proof support portion 450 supported in a state surrounding one end of the insect-proof member 300, a wire 420 having one end connected to the insect-proof support portion 450, And a fastening part 430 for fastening the fastening part 430 to the illumination case 100.

The insect-proof supporter 450 is formed in a ring shape and radially dispersed radially outward to form a connection port to which one end of the wire 420 is connected. The annular insect-proof supporting part 450 may be formed to have a diameter smaller than that of the spherical type insect repelling member 300 and may be fixed in a state of supporting the upper part of the insect repelling member 300.

As described above, the state in which the insect repellent member 300 fastened by the fastening portion 430 is mounted on the circuit board 220 or the hole formed for air circulation in the illumination case 100 can be firmly maintained. As a result, infiltration of fly insects is prevented, so that not only component failure can be prevented but also cleaning is not necessary from time to time.

As described above, the present invention is a very useful invention that can be widely applied to a lighting apparatus because an insectproof member is provided in a hole formed for air circulation in an illumination case to prevent airflow while allowing intrusion of airflow can do.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

100: Lighting case
200: Light source
210: LED
220: circuit board
221: concave groove
222: Through hole
230: heat sink fin
300: insectproof member
400: Insectproof fastening member
410:
420: wire
421: Ring
430:
450:

Claims (8)

An illumination case 100 having an inner space opened to the front,
A light source 200 arranged in parallel to the front surface of the illumination case 100 to emit light,
An insecticide member 300 that closes the space between the light sources 200 to prevent penetration of the blocking insect into the inner space of the illumination case 100 while releasing heat generated from the light source 200,
(400) for securing the insectproof member (300) to the illumination case (100) so that the insecticidal member (300) is kept in a closed state,
The light source 200
An LED 210 that emits light by an input power source,
And a circuit board 220 on which the LEDs 210 are electrically connected,
The circuit board 220 is formed with concave grooves 221 on the outer side so as to form a space in which the insecting member 300 is installed while air is circulated between the other circuit boards 220 arranged side by side close to the outside,
And a through hole (222) through which air is passed from the front to the rear and through which the insect repellent member (300) is installed.
delete The insecticide member 300 is characterized in that the insectproof member 300 is constituted by a perforated body in which the heat generated in the light source 200 is dissipated while closing the space between the light sources 200 to allow the air to flow while preventing the penetration of the blocking insect Insulator and heat dissipation device for lighting fixtures.
The perforator according to claim 3, wherein the puncture member (300) comprises a tubular body having a plurality of perforated holes through which the air flows, the tubular body having a hollow interior, or a mesh in which air flows, Insulator and heat dissipation device for lighting fixtures.
4. The insecticidal member (300) according to claim 4, wherein the insectproof member (300) includes a shape retaining member (500)
Characterized in that the shape retaining member (500) is formed of a plurality of projecting pieces radially protruding or formed with perforated holes formed therein.
An illumination case 100 having an inner space opened to the front,
A light source 200 arranged in parallel to the front surface of the illumination case 100 to emit light,
An insecticide member 300 that closes the space between the light sources 200 to prevent penetration of the blocking insect into the inner space of the illumination case 100 while releasing heat generated from the light source 200,
(400) for securing the insectproof member (300) to the illumination case (100) so that the insecticidal member (300) is kept in a closed state,
The insect-proof engagement member 400
A finishing portion 410 installed at both ends of the insectproof member 300 and closed,
A wire 420 having one end connected to the finishing portion 410,
And a fastening part (430) for fastening the other end of the wire (420) to the illumination case (100).
The method of claim 6,
A ring-shaped ring 421 is formed at the other end of the wire 420 so as to engage with the coupling part 430,
Wherein the fastening part (430) is composed of a pin or a bolt having a head so as to be caught by the ring (421) of the wire (420).
An illumination case 100 having an inner space opened to the front,
A light source 200 arranged in parallel to the front surface of the illumination case 100 to emit light,
An insecticide member 300 that closes the space between the light sources 200 to prevent penetration of the blocking insect into the inner space of the illumination case 100 while releasing heat generated from the light source 200,
(400) for securing the insectproof member (300) to the illumination case (100) so that the insecticidal member (300) is kept in a closed state,
The insect repellent member (300) is composed of a perforated body so that air flows while being spherical,
The insect-proof engagement member 400
An insect-proof supporting part 450 supported in a state surrounding one end of the insect proof member 300,
A wire 420 to which one end is connected to the insect-proof supporter 450,
And a fastening part (430) for fastening the other end of the wire (420) to the illumination case (100).

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