KR101390489B1 - Lens for led flood light device - Google Patents

Abstract

A lens for an LED flood light is disclosed. The disclosed lens for the LED flood light comprises; a base; a first lens unit which is formed on one side of the base and is protruded from the top of the base and receives a first LED which is one of LED modules and discharges the light of the first LED to the outside; a second lens unit (80b) which is separated from the first lens unit at regular intervals and is formed on the other side of the base and is protruded from the top of the base and receives a second LED which is another one of the LED modules and discharges the light of the second LED to the outside; and a fixing unit which is protruded from the lower side of the base and fixates the base on the top of a circuit board. The first and second lens units form a receiving groove which receives the first and second LEDs inside the base and forms an incidence surface so that the light of the first and second LEDs is inserted. The first and second lens units form a discharge surface so that the light of the first and second LEDs inserted through the incidence surface is discharged. The incidence surface and the discharge surface are formed as a convex round shape in an upper direction of the base so that a light spreading angle of the first and second LEDs discharged through the incidence surface and the discharge surface of the first lens unit or the second lens unit becomes 55-65 degrees. The round of the incidence surface is formed into a single round of one R value. The round of the discharge surface is formed into a double-round which has at least two R values from the center to the upper side of the base.

Description

Lens for LED floodlight {LENS FOR LED FLOOD LIGHT DEVICE}

The present invention relates to a lens for an LED floodlight, and more particularly, to a lens for an LED floodlight improved to realize an optimal LED floodlight.

In general, LED floodlights (or factory lamps) are installed indoors or outdoors to illuminate various exhibitions or structures, including buildings, fountains, installation sculptures, and merchandise displays, or improve the scenery through color. To be used.

Such LED floodlights are already known from Republic of Korea Patent Publication No. 10-1173921 (2012. 08. 08. registration).

The LED floodlight 100 of the registered patent, as shown in Figures 1 to 5, is fixed to the mounting bracket 110 and the power supply module 120 for supplying power to the LED 161, the guide It is connected to the bracket 130 and comprises a heat sink 140 for dissipating heat, and the LED module 160 installed inside the front cover 150.

In addition, the mounting bracket 110 has a rotation shaft hole 112 formed therethrough at a central side of each of the connecting pieces 111 provided at portions extending upwardly from both ends of the long plate-shaped body 114 toward the front. A rotation hole 113 is formed along the circumferential direction with the rotation shaft hole 112 as the center point.

In addition, the rotary shaft 112 is inserted into the rotary shaft 112a, the rotating hole 113 is fastened to the locking bolt 113a, the input power line 121 is connected to receive commercial power as shown in FIG. The output terminal is connected to the output power line 122 for supplying the converted power in accordance with the characteristics of the LED (161).

In addition, the guide bracket 130 connects the mounting bracket 110 and the LED module 160. For this purpose, fastening holes 131 are formed at upper and lower sides of the front part, and the heat sink 140 has a plurality of heat sinks. The substrate 161a is formed of 141 and the LED 161 is mounted on a front surface thereof.

In addition, the front portion of the heat sink 140 and the rear portion of the front cover 150 has the engaging grooves 142 and 153, respectively, so that both ends are assembled with clips C that are elastically caught in the engaging grooves 142 and 153, respectively.

As shown in FIG. 5, the heat sink 141 includes a 'Y' shaped heat sink 141a branched into two branches, and a fastening hole 131 at a branch point of the 'Y' shaped heat sink 141a. Is connected to the connector (141b) is formed.

In addition, an inclined portion 152 inclined downward toward the inner lens 162 is formed at an edge of the through hole 151 through which light is projected on the front surface of the front cover 150.

In particular, the transparent coating layer (F) is applied to the surface of the inner lens 162 exposed through the through-hole 151, in contact with the heat sink 140 in case the LED floodlight 100 is installed outdoors. The seal 142a is inserted into the portion, and the PET film 161b for protecting the substrate is adhered to the substrate 161a.

When the inclined portion 152 of the front cover 150 is engaged with the seating groove 162a of the inner lens 162, the through hole 151 is closed.

In addition, as shown in FIG. 1, a silicon tape 152a is provided on the seating groove 162a of the inner lens 162.

By the way, the LED floodlight 100 of the registered patent, the transparent coating layer (F) is applied to the inner lens 162 does not have a large difference from that of the existing outer lens is configured, and as a result, the brightness of the light falls.

And, as shown in Figure 5, the shape of the entrance surface and the exit surface of the inner lens 162 is difficult to diffuse the light of the LED 161, it is difficult to implement the function of the inner lens 162, eventually The function of the floodlight 100 is difficult to properly implement.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a lens for LED floodlights such that the maximum amount of light can be irradiated within a range of the directivity angle so that an optimal function of the LED floodlight is realized. .

The LED floodlight lens of the present invention for achieving the above object, the base is formed so that the two LEDs are mounted side by side at a predetermined interval is supported while accommodating the LED module on a circuit board equipped with a plurality of LED modules Wow; A first lens unit protruding to an upper portion of the base on one side of the base to receive a first LED which is one of the LED modules to emit light of the first LED to the outside; A second lens unit spaced apart from the first lens unit by a predetermined distance and protruding to an upper portion of the base on the other side of the base to accommodate a second LED which is another one of the LED modules to emit light of the second LED to the outside; Wow; And a fixing part protruding from a bottom of the base to fix the base to an upper surface of the circuit board.

The first and second lens parts may include an accommodation groove forming an entrance surface to allow the light of the first and second LEDs to be incident while the first and second LEDs are accommodated in the base. An emission surface is formed to emit light of the first and second LEDs, and the light directing angles of the first and second LEDs emitted through the entrance surface and the emission surface of the first lens unit or the second lens unit are In order to implement 55 to 65 degrees, the incident surface and the exit surface is formed in a convex round above the base,

The round of the incident surface is formed of a single round of one R value, the round of the exit surface is formed of a double round having at least two R values from the center to the top surface of the base,
By forming the single round and the double round, the thickness between the entrance face and the exit face is maximum at the top of the entrance face and the exit face, and minimum at the lower end of the entrance face and the exit face. It is characterized by that.

According to an embodiment of the present invention, two LEDs can be modularized, thereby improving productivity of the LED floodlight, and implementing an optimal floodlight with a small number of LEDs is very economical.

And while reducing the directivity angle for one LED, by modularizing the two LEDs can increase the amount of light, can be irradiated with the maximum amount of light within the range of the directivity angle.

Therefore, the area to be illuminated can be irradiated with the maximum amount of light, so that functions such as a flood lamp and a factory can be properly implemented.

1 is an exploded development view showing an LED floodlight according to the prior art.
Fig. 2 is a perspective view of the coupling of Fig. 1; Fig.
Figure 3 is a plan view of Figure 2;
Figure 4 is a side view of Figure 2;
5 is a cross-sectional view of FIG.
Figure 6 is an exploded perspective view of the LED floodlight to which the lens for LED floodlight according to the present invention is applied.
7 is a perspective view of a lens for LED floodlight according to the present invention of FIG.
8 is a rear perspective view of FIG. 7.
Fig. 9 is a side view of Fig. 7; Fig.
10 is a cross-sectional view taken along the line AA in FIG.
11 is a light distribution curve diagram of each of the first lens unit and the second lens unit of the floodlight lens according to the present invention as described above.

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

FIG. 6 is an exploded perspective view of the LED floodlight to which the LED floodlight lens according to the present invention is applied, and FIG. 7 is a perspective view of the lens for the LED floodlight according to the present invention of FIG. 6.

8 is a rear perspective view of FIG. 7, FIG. 9 is a side view of FIG. 7, and FIG. 10 is a cross-sectional view taken along line A-A of FIG. 7.

As shown in FIG. 6, the LED floodlight to which the lens for LED floodlight according to the present invention is applied includes a housing 10, a heat sink assembly 30 installed in the housing 10, and the heat sink assembly 30. Rubber member 20 for supporting a), the inner heat dissipation sheet 40 installed on the heat sink assembly 30, and the inner heat dissipation sheet 40 is fastened to the edge of the housing 10, the housing 10 It is configured to include a main case 50 to cover the.

In the LED floodlight, the external heat dissipation sheet 60 attached to the front surface of the main case 50 and the LEDs 101 and 101 'installed on the external heat dissipation sheet 60 as shown in FIG. 10 to be described later. A circuit board 70 having a plurality of modules mounted on each module, and a lens 80 for accommodating the LEDs 101 and 101 'on the respective LEDs 101 and 101' to emit light from the LEDs 101 and 101 'to the outside. It is provided.

In addition, the LED floodlight, the waterproof gasket 100 is mounted on the edge of the main case 50 to prevent the penetration of water into the main case 50, and the waterproof gasket 100 at the upper portion of the waterproof gasket 100 A window cover 110 coupled to the edge of the main case 50 is provided.

The LED floodlight covers the openings of the center of the housing 10 and the support member 90 for supporting all the lenses 80 at once while exposing all the lenses 80 on the circuit board 70. It is configured to include a cover member 120.

In addition, as shown in Figure 7 to 10, the lens 80, in particular, as shown in Figure 10, the LED module (101, 101 ') formed by two LEDs (101, 101') are mounted side by side at a predetermined interval. ) Is configured to include a base 81 formed to receive and support the LED module (101, 101 ') on the circuit board 70 is mounted.

That is, although only one lens 80 is shown in FIG. 6, the number of LED modules 101 and 101 ′ is mounted.

In the lens 80, one side of the base 81 protrudes to the upper portion of the base 81 to receive the first LED 101, which is one of the LED modules 101 and 101 ′, to receive light from the first LED 101. The first lens unit 80a to be emitted to the outside, and the first lens unit 80a is spaced apart a predetermined distance and protruded to the upper portion of the base 81 on the other side of the base 81 LED module (101,101 ') The second lens unit 80b is provided to accommodate the second LED 101 'which is the other one of the light emittings the light of the second LED 101' to the outside.

In addition, the lens 80 includes a fixing part 84 protruding from the bottom of the base 81 to fix the base 81 or the lens 80 to the upper surface of the circuit board 70.

One or more fixing parts 84 are formed on the bottom surface 81a of the flat base 81, and two or more fixing parts 84 are formed before and after the bottom surface of the base 81 to stably fix the lens 80 to the circuit board 70. It is desirable to.

The first and second lens units 80a and 80b have incident surfaces 82a such that light of the first and second LEDs 101 and 101 'is incident on the inside of the base 81 while receiving the first and second LEDs 101 and 101'. Receiving grooves 82b and 83b forming 83a are formed.

Further, emission surfaces 82c and 83c are formed in the first and second lens units 80a and 80b so that light of the first and second LEDs 101 and 101 'incident through the entrance surfaces 82a and 83a is emitted.

The first LED 101 and the second LED 101 'are formed by the incidence planes 82a and 83a and the exit planes 82c and 83c of the first lens unit 80a or the second lens unit 80b formed as described above. The light directivity angle of is realized from 55 to 65 degrees.

In order to implement the light directing angle α of 55 to 65 degrees, the entrance surfaces 82a and 83a and the exit surfaces 82c and 83c are formed in a convex round above the base 81, and the entrance surfaces ( The rounds of 82a and 83a are formed as a single round R1 of one R (Radius) value, and the rounds of the exit surfaces 82c and 83c are at least two Rs from the center to the top surface of the base 81. It is formed as a double round (R2, R3) having a value.

Accordingly, the inlets of the receiving grooves 82b and 83b are formed in a circular shape, as shown in FIG. 8.

In particular, the thickness between the entrance surfaces 82a and 83a and the exit surfaces 82c and 83c by the formation of the single round R1 and the double rounds R2 and R3 is as shown in FIG. 10. The uppermost portions of the 82a and 83a and the exit surfaces 82c and 83c are maximized, and the minimum is reached at the lower ends of the entrance surfaces 82a and 83a and the exit surfaces 82c and 83c.

On the other hand, according to the applicant's test, when the light directing angle (α) is 60 degrees, it was found that the LED floodlight according to the present invention is the most optimal light distribution.

The operation of the LED floodlight lens according to the present invention configured as described above will be described.

Referring to Figures 7 to 10, consisting of two LED (101, 101 '), LED module 101, 101' mounted on a circuit board 70 at a predetermined interval over the LED floodlight lens 80 according to the present invention To be fitted.

In this case, the lens 80 may be stably fixed to the circuit board 70 by using the fixing part 84 formed on the bottom surface 81a of the flat base 81.

Then, as described above, the incident surfaces 82a and 83a of the first and second lens units 80a and 80b are formed in a single round R1, and the exit surfaces 82c and 83c are double rounds R2 and R3. And the gap between the entrance surfaces 82a and 83a and the exit surfaces 82c and 83c is narrower from the center to the lower left and right, so that each LED 101 and 101 'has a light directivity angle of 55 to 65 degrees. ) Will be implemented.

On the other hand, a factory lamp or floodlight is a lighting fixture that collects and concentrates light in a certain direction, and is used in large-scale indoor buildings such as factories, warehouses, fairgrounds, and indoor and outdoor stadiums such as ski resorts or golf courses.

As such, the floodlight needs to exhibit light distribution characteristics such that light is not dispersed and concentrated in a predetermined range.

However, the orientation angles α of the first lens unit 80a and the second lens unit 80b of the LED floodlight lens 80 according to the present invention implement 55 to 65 degrees, and the LEDs 101 and 101 ' Since it consists of two LED modules 101 and 101 ', light is emitted at a direction angle of about 60 degrees for each lens unit.

Eventually, since the light is emitted around 60 degrees for each of the LEDs 101 and 101 ', it is possible to emit the maximum amount of light within a narrow directivity angle α, and thus each lens 80a and 80b as shown in FIG. The maximum amount of light can be emitted at a directivity angle of about 120 degrees per.

As described above, in the LED floodlight lens 80 according to the present invention, when the light from each of the LEDs 101 and 101 'of the two first and second lens units 80a and 80b is irradiated, the light reaches the desired distance. Maximum illuminance can be achieved at.

As described above, for each of the LEDs 101 and 101 ', the orientation angle α is realized around 60 degrees, and the two LEDs 101 and 101' are emitted as a module to emit light. It can be raised to the maximum.

11 illustrates a light distribution curve of each of the first lens unit 80a and the second lens unit 80b of the floodlight lens 80 according to the present invention as described above.

As shown in FIG. 11, it can be seen that each of the first lens unit 80a and the second lens unit 80b realizes a direction angle α of about 60 degrees. That is, since each LED (101, 101 ') is narrowly left and right, and the light is longer in the future, the light is concentrated and irradiated in a narrow area, it is possible to implement the original function of a floodlight.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. . Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

10: Housing
20: heat sink rubber
30: heatsink assembly
50: main case
60: heat dissipation sheet
70: circuit board
80 lens
80a: first lens unit
80b: second lens unit
81: bass
82a, 83a: incident surface
82c, 83c: exit surface
84: fixed part
100: waterproof gasket
110: window cover

Claims (2)

A base 81 formed so that two LEDs 101 and 101 'are mounted side by side at a predetermined interval and are supported while receiving the LED modules 101 and 101' on a circuit board 70 on which several LED modules 101 and 101 'are mounted side by side. )Wow;
Protruded to the upper side of the base 81 on one side of the base 81 to accommodate the first LED 101, which is one of the LED module (101, 101 ') to emit light of the first LED 101 to the outside A first lens unit 80a;
The second lens 101 'is spaced apart from the first lens unit 80a by a predetermined distance and protrudes to the upper portion of the base 81 on the other side of the base 81 to form another LED among the LED modules 101 and 101'. A second lens unit 80b which receives and emits light of the second LED 101 'to the outside;
And a fixing part 84 protruding from a bottom of the base 81 to fix the base 81 to an upper surface of the circuit board 70.
The first and second lens units 80a and 80b may be
Receiving grooves 82b for allowing the first and second LEDs 101 and 101 'to be received inside the base 81 and forming incident surfaces 82a and 83a so that the light of the first and second LEDs 101 and 101' is incident. 83b) is formed,
Output surfaces 82c and 83c are formed to emit light of the first and second LEDs 101 and 101 'incident through the entrance surfaces 82a and 83a.
The first and second LEDs 101 and 2LED emitted through the entrance surfaces 82a and 83a and the emission surfaces 82c and 83c of the first lens unit 80a or the second lens unit 80b. The incidence planes 82a and 83a and the outgoing planes 82c and 83c are formed in a convex upward direction above the base 81 so that the light directing angles of 101 and 101 'are 55 to 65 degrees.
Rounds of the incident surfaces 82a and 83a are formed as a single round R1 having one R value,
Rounds of the exit surfaces 82c and 83c are formed of double rounds R2 and R3 having at least two R values from the center to the top surface of the base 81.
By the formation of the single round (R1) and the double round (R2, R3), the thickness between the entrance surface (82a, 83a) and the exit surface (82c, 83c),
The uppermost part of the entrance surfaces 82a and 83a and the exit surfaces 82c and 83c,
The LED floodlight lens, characterized in that the minimum at the lower end of the entrance surface (82a, 83a) and the exit surface (82c, 83c). delete

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