KR102215685B1 - LED security light with light pollution prevention and light emission standards - Google Patents

Abstract

The present invention relates to an LED security lamp with light pollution prevention and a light emission tolerance standard. According to the technical gist of the present invention, the LED integrated in a substrate module is inserted into a seat groove of a downset structure (groove structure) to emit light, which remarkably improves a light pollution problem by preventing the light from leaking out of a lighting area by guiding a light source direction angle within 60° with respect to the vertical angle.

Description

LED security light with light pollution prevention and light emission standards

In the present invention, the LED integrated in the substrate module is inserted into the seat groove of the downset structure (concave groove structure) to emit light, which causes the reflective surface of the side wall to guide the light source directing angle within 60° relative to the vertical angle and out of the illumination area. It relates to an LED security light having a light pollution prevention and light emission allowable standard, characterized in that the light pollution problem is significantly improved by preventing the leakage of light, as well as satisfying the light emission allowable standard.

In general, security lights are installed for crime prevention on dark alleys or roads where street lights are not installed, or are installed for the purpose of providing the convenience of pedestrians when passing at night.

That is, such a security light is installed along the edge of the road (road, sidewalk), and is formed to illuminate the road floor in the front direction while being coupled to the arm support extending on the top of the lamp post.

However, conventional security lights have a problem that a lot of light goes out of the lighting area to be illuminated, and these light sources interfere with the lives of people living in the surroundings due to the leakage of the light.

For reference, an optical lens is a component that serves to irradiate light into an illumination area to be illuminated by using refraction, reflection, and other methods of light emitted from a light source.

Accordingly, the security light is a kind of light that has a unique light distribution shape among artificial lights. The left and right directions are symmetrical, but must be distributed long and wide, and the front and rear directions are completely different asymmetric light distributions.

That is, conventional security lights have been a problem by causing light pollution by transfer light and back light.

Accordingly, recently, a law to prevent light pollution has been enacted to strictly regulate light pollution caused by artificial lighting (light leaking out of the lighting area).

Therefore, according to the above regulations, general manufacturers of security lights have solved light pollution by attaching a light shield or adding a dam on an optical lens in order to prevent light from leaving the illumination area. It is for the purpose of destroying the lights)

However, the efforts of these industries cut off a large amount of light, thereby killing the necessary light itself, which results in loss of light as much as the amount of light consumed, which in turn causes energy efficiency to drop. There is a situation.

In other words, the existing security lights are formed in the White LED Package Type and the White LED COB Module Type, and all of these conventional light sources have a beam directing angle that is emitted at an angle greater than a vertical angle of 60 degrees, causing light pollution. There is a situation.

Incidentally, the types of LED light sources used as light sources for existing security lights are largely divided into two.

First, there is a type that is mounted on a printed circuit board after packaging one bare chip, and it is classified into a COB module type that directly places a plurality of bare chips on a printed circuit board (PCB) for packaging.

Both of these types have many advantages compared to conventional lamps as light sources, but in order to be settled as a light source of a security light, there is a problem with the light emitted at a large angle from the light emitted from one sided omnidirectional. It must be resolved.

In other words, the light emitted with a large vertical angle is not technically completely controlled during the design of the light distribution, and thus causes light pollution outside the area to be illuminated.

Eventually, such a conventional LED light source radiates while the directing angle is widely extended in omni-directional direction, and this omni-directional directing angle cannot be controlled with an optical lens, causing loss of light, and in particular, light that cannot be controlled. They leak out of the illuminated area to be illuminated and cause light pollution. (It is difficult to pass the allowable standard value of light emission on the vertical surface due to the front light and the back light.)

1. Korean Patent Registration No. 10-1609541 (registered on March 31, 2016)

The present invention is to solve the above-described problem, and the technical gist of the present invention is to improve energy efficiency by using all the light emitted from the LED light source, not a method of extinguishing the light by blocking light with a shade or adding a dam on an optical lens. However, its purpose is to provide an LED security light that satisfies the light tolerance standard while preventing light pollution.

That is, an object of the present invention is to provide a controllable light emission form with an optical lens that determines the light distribution by changing the package structure of a white LED COB module. So that nothing is added)

In other words, the present invention allows the LED integrated in the substrate module to be embedded in the seat groove of the downset structure (concave groove structure) to emit light, which causes the reflective surface of the side wall to guide the light source direction within 60° compared to the vertical angle. The purpose of this is to significantly improve the light pollution problem by preventing the leakage of light outside the illumination area, as well as to satisfy the light emission allowance criteria.

In order to achieve this object, the present invention allows a plurality of electronic component elements and the LED 110 to be integrated on a circuit, but the LED 110 has a seat groove 120 of a downset structure (concave groove structure) and an inner elevation 121 A substrate module 100 that is seated (received) on the light source so that the side wall reflective surface 122 has an inductive directivity angle within 60°; A lens 200 is disposed on the side of the light source irradiation surface of the LED 110 to cover the substrate module 100, and a light source inflow and diffusion groove 210 is formed on one side of the surface; It is composed and made.

Accordingly, the seat groove 120 is formed in a trapezoidal cross-sectional shape based on the opening portion being positioned downward toward the road or sidewalk, so that the structure of the side wall reflective surface 122 has an inclination angle.

In addition, the seat groove 120 is formed such that a reflective coating made of silver (Ag) or a reflective sheet or a reflective plate 130 is further attached to the entire surface of the groove shape.

As described above, the present invention has an effect of preventing light pollution as well as high energy efficiency since it is formed such that there is little or no light loss and the directivity angle of the light source is reliably induced in the illumination area.

That is, in the present invention, since the directivity angle is induced in one sided omnidirectional, energy efficiency is good, life is long, and environmentally friendly use is possible compared to conventional lamps.

1 is an exemplary perspective view of an LED security light according to the present invention,
2 to 4 are exemplary views of the substrate module according to the present invention,
5 is a process flow chart showing a method of manufacturing a substrate module according to the present invention,
6 to 8 are exemplary views showing a lens and a directivity angle according to the present invention,
9 to 11 are exemplary views showing the contrast between the LED security light and the conventional LED security light according to the present invention.

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

First, as shown in Figures 1 to 8, the present invention is largely composed of a substrate module 100 and a lens 200, the substrate module is a surface in the main body case 10 constituting an exterior frame of a security lamp. It is mounted on one side (bottom) side facing toward, and the lens is attached to the substrate module so as to cover it from bottom to top and casing.

At this time, the main body case is formed to be assembled to the luminaire arm by the connector 20 is formed at one end.

Accordingly, the substrate module 100 allows a plurality of electronic component devices and the LED 110 to be integrated on a circuit, but the LED 110 is seated in the seat groove 120 of the downset structure (concave groove structure).

That is, an inner elevation surface 121 is formed on the inner bottom of the seat groove, and an LED is mounted (received) on the inner elevation surface 121 so that the directivity angle of the light source causes the side wall reflection surface 122 to be within a vertical angle of 60°. It is formed to have an inductive directivity angle of.

Accordingly, the seat groove 120 is formed to form a trapezoidal shape of upper and lower light based on a cross section with the inner inlet surface 121 disposed on the upper side and the opening disposed on the lower side, and the side wall reflective surface 122 ) Is formed so that the angle extending outward from the vertical center line has an inclination or inclination of about 30°.

In other words, the seat groove 120 has a trapezoidal cross-sectional shape based on that the opening is positioned downward toward the road or sidewalk, so that the structure of the side wall reflective surface 122 has an inclination angle.

In addition, the seat groove 120 is formed such that a reflective coating made of silver (Ag) or a reflective sheet or a reflective plate 130 is further attached to the entire surface of the groove shape.

Accordingly, in the case of applying the reflective plate 130 among the reflective coating or reflective sheet or reflective plate 130, when attaching to the seat groove 120, a trapezoidal facet corresponding to the entire inner circumferential surface of the reflective surface of the side wall excluding the interior surface It is formed to achieve.

The trapezoidal reflecting plate 130 is to be inserted and attached to the seat groove, and a fitting rib 131 is provided on the outer circumferential surface of the four surfaces of the trapezoidal reflecting plate 130, but the opening of the seat groove is square four sides A slit groove 123 is formed on each side of the ship so that the fitting ribs correspond to each other so that they can be simply fitted and attached in a sliding manner.

This provides quick mounting workability to increase reflection efficiency and performance, as well as features that can be mounted while varying the type and standard of the reflector according to the manufacturer's quantity.

In addition, the substrate module 100 has a plurality of cutting lines 140 formed on the rear side (the side opposite the side where the seat groove and the LED are arranged), but the cutting lines are straight lines arranged in a line or alternately arranged in a checkerboard shape. When it is attached to the main body case, when it is attached to the main body case, it is necessary to adjust the height of the main body case and when the substrate module is in close contact with each other, or if any one side needs to be slightly raised or bent, the substrate through the cutting line 140 The plane of the module is formed so that a certain section or a certain area can form a curved surface.

On the other hand, as shown in Figure 5, the manufacturing method of the present invention is as follows.

First, it is formed to attach and bond the LED after forming a seat groove for the PCB raw material.

Thereafter, the LEDs are formed to be bonded while being connected to each other by a wire for electric current to the terminal block.

Thereafter, when the energized wire is electrically connected, the silicone resin and the phosphor are mixed to fill the groove and then cured to prevent and protect the LED from being directly exposed.

Explaining this in more detail, the PCB module of the present invention has a pattern circuit that can mount components on the substrate, and basically, to dissipate the heat generated when the LED is turned on as quickly as possible (so that it can be transferred to the heat sink. ) It is formed of a material with high thermal conductivity.

At this time, the size of the white LED COB module substrate (PCB) is determined by the product standard (power consumption) of the LED light source.

On the other hand, in the present invention, it is preferable to use an aluminum metal having good thermal conductivity and part workability as a PCB material as a substrate module, which is relatively cost competitive.

Accordingly, in the substrate module PCB of the present invention, a seat groove for the LED is formed in a shape such as that the bottom surface is recessed.

The role of such a seat groove is formed to reflect the light emitted from the LED chip in the omnidirectional direction of one side, from the reflective surface of the side wall of the recessed groove to the downward (ground) light.

At this time, when changing the directivity of the light source (beam), it is preferable that silver (Ag) plating having high light reflectance is applied to the seat groove and the entire substrate module in order to increase reflection efficiency.

However, since such silver plating may require a cumbersome additional process during manufacture, a separate reflector 130 is prepared and simply mounted, but this may be coupled to each other by fitting ribs and slit grooves as described above.

In addition, the present invention is an improvement of the White LED COB (= Chip on Board) Module, and reflects the light with a large beam vertical angle among the light emitted in one omnidirectional direction in the substrate module PCB, thereby forming an emission path in one direction. As the volume of the modified groove is reduced as much as the recessed groove, there is an effect of additionally reducing the amount of phosphor and silicon resin, which are expensive raw materials used in the encapsulation process.

Accordingly, the lens 200 is disposed on the side of the light source irradiation surface of the LED 110 to cover the substrate module 100, but is formed to form a light source inflow and diffusion groove 210 on one side of the surface.

At this time, the light source inflow and diffusion groove 210 is such that the vertical wall 211 is formed on the rear side based on the side corresponding to the LED as in FIG. 8, but a black painting or a backlight sheet is attached to the vertical wall. As a result, the light source is formed so that the light does not spread to the rear and directs the light toward the road ahead.

Accordingly, it is preferable that a gradient surface 212 is formed on the front side of the light source inflow and diffusion groove 210 to form a gentle arc shape and allow straightness of light and downward refraction within 90° relative to the horizontal angle based on the guide (ground). Do.

In this case, the light source inflow and diffusion groove 210 may be formed in a cup shape with a wide upper and lower concave upper light as shown in FIG. 4 when viewed from the front, so that the dispersion of the left and right light is widely diffused.

As shown in Figs. 9 to 11, the lens of the present invention does not cause light pollution due to the transfer light and the back light, and injection molding using various synthetic resins including PMMA is possible, which has high light transmittance and is injection molded. It is characterized by excellent workability.

The present invention is not limited to the specific preferred embodiments described above, and any person of ordinary skill in the technical field to which the present invention pertains without departing from the gist of the present invention claimed in the claims can implement various modifications. Of course, such changes are within the scope of the claims.

100 ... board module 110 ... LED
120 ... seat 121 ... interior elevation
122 ... side wall reflector 130 ... reflector
200 ... Lens 210 ... Light source inflow and diffusion groove

Claims (3)

A plurality of electronic component elements and the LED 110 are integrated on the circuit, but the LED 110 is seated and accommodated in the interior surface 121 of the seat groove 120 of the downset structure, so that the directivity angle of the light source is half of the side wall. A substrate module 100 for allowing the slope 122 to have an inductive directivity angle within 60° of a vertical angle; A lens 200 is disposed on the side of the light source irradiation surface of the LED 110 to cover the substrate module 100, and a light source inflow and diffusion groove 210 is formed on one side of the surface; In the LED security light that has the light pollution prevention and light emission tolerance standard made up of,
The seat groove 120 has a trapezoidal cross-sectional shape based on the opening being positioned downward toward the road or sidewalk, so that the reflective surface 122 of the side wall has an inclination angle, and the seat groove 120 is A reflective plate 130 made of silver (Ag) is further attached to the entire surface of the groove shape, and when the reflector 130 is attached to the seat groove 120, the reflective plate 130 corresponds to the entire inner circumferential surface of the reflective surface of the side wall excluding the interior surface. To form a trapezoidal facet, the reflector 130 in the shape of a trapezoidal facet is formed so that a fitting rib 131 is provided on the outer circumferential surface of the four sides, and a slit groove 123 is formed on each side of the line on the four sides of the opening of the seat groove. The fitting ribs 131 are formed to be fitted in a sliding manner while being corresponded, and the substrate module 100 has a plurality of cutting lines 140 formed on the rear surface thereof, but the cutting lines 140 are aligned in a line. An LED security light having a standard for preventing light pollution and allowing light emission, characterized in that it is formed of a straight line or horizontal and vertical lines alternately arranged in a checkerboard shape so that a certain section or a certain area can form a curved surface.
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