KR20090001671U - LED Lamp for Spotlight - Google Patents

Abstract

The present invention relates to an LED lamp for intensive lighting, which has a convex lens corresponding to each of a plurality of installed LEDs to increase the intensity of lighting, and to provide an LED lamp for intensive lighting that can be easily downsized using a flat reflector. There is a purpose.

Intensive illumination LED lamp of the present invention for achieving the above object, the main housing having an interior receiving space opened forward; A lamp light emitting unit coupled to an inside of a receiving space of the main body housing and having a plurality of LEDs arranged at predetermined intervals and a circuit unit for supplying operation power to each LED; And a floodlight cover which is directly coupled to the front of the housing space of the main body housing or through a cover holder to transmit the light generated by the LED to the outside, wherein the floodlight cover has a one-to-one correspondence to match the center of the LEDs. It has a structure in which a plurality of convex lenses are formed at a position.

LED, Floodlight, Convex Lens, Reflector, Circuit Board

Description

LED Lamp for Spotlights {LED LAMP FOR SPOT LIGHTING}

The present invention relates to an LED lamp for concentrating light onto a predetermined area and, more particularly, to a compacted structure having a flat reflector having a lens corresponding to each of a plurality of arranged LEDs, and a concentration of light. It relates to an LED lamp for intensive lighting that can be increased.

In general, LEDs have a number of advantages, such as high brightness, high power consumption, long service life, and low manufacturing cost. Therefore, LEDs are being used as lighting or display means to replace existing light bulbs.

Like a lamp using a conventional light bulb, the LED lamp is generally used to install a reflector at the rear of the light emitting LED to increase the directivity of the light irradiated to the outside, in addition to having a lens in front of the LED light A method of increasing concentration is also used.

However, since the conventional LED lamp has a convex-lens structure in which the entire floodlight cover for protecting the LED is formed in a convex shape or irrespective of the position and arrangement of the LED, the concentration of light is reduced, There was also a disadvantage in terms of manufacturing cost and product miniaturization. That is, when the entire floodlight cover is a lens structure, the light of all the installed LEDs are combined to pass through the lens, and thus the concentration of light is reduced because the direction of refraction of the LED located at the circumferential part spaced from the lens center is not correct. Due to the convex lens shape, the central portion of the floodlight cover becomes thick, so that light transmittance is lowered, manufacturing costs are increased, and size and weight are also increased. In addition, when a plurality of lenses are formed in the uneven shape in the floodlight cover, this also causes the light of the entire LED is scattered while passing through the individual lens in any direction due to the lens center and the center of the individual LED is not matched, so that the intensity of light and Your concentration will drop.

Furthermore, in order to increase the concentration of falling light, the conventional LED lamp has no choice but to use a form in which the reflector behind the LED is concavely extended to the rear, and the reflector installation space lengthens the front and rear lengths of the entire lamp, thereby miniaturizing the product. There was a difficult issue.

The present invention is to solve the problems as described above, the object of the present invention is to provide a convex lens corresponding to each of a plurality of installed LEDs to increase the intensity of illumination, and to facilitate the miniaturization using a flat reflector It is to provide LED lamp for intensive lighting.

According to the present invention for achieving the above object, a main body housing having an interior receiving space opened forward; A lamp light emitting unit coupled to an inside of a receiving space of the main body housing and having a plurality of LEDs arranged at predetermined intervals and a circuit unit for supplying operation power to each LED; And a floodlight cover which is directly coupled to the front of the housing space of the main body housing or through a cover holder to transmit the light generated by the LED to the outside, wherein the floodlight cover has a one-to-one correspondence to match the center of the LEDs. Provided is an LED lamp for intensive illumination, characterized in that a plurality of convex lenses are formed in position.

More preferably, the lamp light emitting unit is formed of a printed circuit board with an LED mounted on the front side and a power supply unit on the rear side, and the reflecting plate is formed in a flat plate shape and arranged in a position and shape corresponding to each LED. A plurality of through holes may be provided, and the through holes may have a structure in which each LED is installed in close contact with the front surface of the circuit board in a state of protruding forward.

According to the present invention as described above, by providing a plurality of convex lenses on the floodlight cover to be disposed one-to-one correspondence to each of the LEDs arranged in a predetermined form, the light of all the LEDs are refracted in the correct direction, regardless of the installation position, the internal scattering It does not occur also has the effect of improving the lighting concentration of the LED lamp.

In addition, through the small lens structure, the floodlight cover can be manufactured thinly, and even the flat reflector mounted close to the circuit board to be close to the rear of the LED can increase the light concentration, thereby miniaturizing the size of the LED lamp. There is.

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 is a perspective view showing an embodiment of the concentrated light LED lamp according to the present invention in an assembled and disassembled state, respectively, Figure 3 is a structure of the lamp light emitting unit, reflector and floodlight cover that is the main part of the present invention; It is sectional drawing.

As shown, the LED lamp of the present invention has a main body housing 101 having an inner receiving space opened forward, and a lamp light emitting unit 106 and a reflecting plate 120 installed inside the receiving space of the main body housing 101. And a floodlight cover 110 and a cover holder 103 coupled to the front of the accommodation space of the main body housing 101.

The lamp light emitting unit 106 generates light by supplying power to a plurality of LEDs 107 arranged at predetermined intervals, and it is preferable that the lamp light emitting unit 106 has a conventional printed circuit board structure in terms of fabrication and assembly convenience. In the illustrated embodiment, the lamp light emitting unit 106 has a plurality of LEDs 107 mounted on the front surface of the circuit board 105 mounted inside the main body housing 101, and the power supplied to the LEDs 107. An operating circuit such as a switch, a rectifier, and the like for adjusting and adjusting the structure is formed in the rear portion of the circuit board 105. The circuit board 105 may be configured to be connected to an external power source such as an outlet or connected to an internal power source such as a battery to supply power.

The reflective plate 120 is formed in a flat plate shape, and is provided with a plurality of through holes 121 arranged in positions and shapes corresponding to the respective LEDs 107, and through the through holes 121, each LED 107 is moved forward. It is installed in close contact with the front portion of the circuit board 105 in a protruding state.

The floodlight cover 110 is primarily made of glass or transparent synthetic resin material to protect the operating unit including the LED 107 and transmit the light of the LED 107 to the outside as in the prior art, It may have various colors according to the lighting purpose. In addition, in the present invention, the floodlight cover 110 has a secondary function of individually refracting and concentrating the light of each LED 107. To this end, a plurality of convex lenses 111 are formed in the floodlight cover 110 so as to form a position and arrangement corresponding to each LED 107 protruding toward the reflector 120. That is, the convex lens 111 is provided in a one-to-one correspondence form so that the center of the front of each LED 107 is aligned.

The cover holder 103 is to fix the floodlight cover 110 to the main body housing 101, may be provided as a separate member from the floodlight cover 110 as shown, in some cases, the floodlight cover 110 It is also possible to structure integrally formed with).

When the LED lamp of the present invention configured as described above is supplied with power to turn on the LED, a part of the light is directly reflected, and the other part is reflected by the reflector 120 and irradiated to the outside through the floodlight cover 110. At this time, since the light of each LED 107 is collected through each corresponding convex lens 111 in front, the light of all the LED 107 is refracted in the correct direction without scattering irrespective of the installation position to the irradiation area The concentration of light on the surface is further improved.

In addition, since the floodlight cover 110 is formed in a thin plate shape having a convex lens 111 of a small size, it is easier to miniaturize the lamp compared to the conventional floodlight cover made of a lens structure, in particular, the circuit board 105 Since high irradiation concentration can be obtained even with the flat reflector 120 coupled to the front part of the panel, it is possible to further reduce the size of the lamp as compared with the conventional concave reflector.

Figure 4 shows another embodiment of the LED lamp according to the present invention, a sensor 113 for detecting the presence of a person or object in the center is provided, a plurality of LEDs 107 around the sensor 113 Are arranged in an annular shape. The floodlight cover 110 is formed in the shape of an annular plate covering the periphery of the sensor 113, and the plurality of convex lenses 111 are provided at positions corresponding to the respective LEDs 107 as in the above-described embodiment. Has a structure.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the technical field of the present invention without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

1 is a perspective view showing an embodiment of the LED lamp for intensive lighting according to the present invention.

Figure 2 is a perspective view showing the present invention LED lamp shown in Figure 1 in an exploded state.

3 is a cross-sectional view showing the structure of a lamp light emitting unit, a reflector and a floodlight cover which are main parts of the present invention.

Figure 4 is a perspective view showing another embodiment of the concentrated illumination LED lamp according to the present invention.

Claims (2)

A main body housing 101 having an inner receiving space opened forward; A lamp light emitting unit 106 coupled to an inside of the receiving space of the main body housing 101 and having a plurality of LEDs 107 arranged at predetermined intervals and a circuit unit for supplying operating power to each LED 107; And It includes a floodlight cover 110 which is directly coupled to the front of the receiving space of the main body housing 101 or through the cover holder 103 to transmit the light generated by the LED 107 to the outside, The floodlight cover 110 is a lamp for intensive illumination, characterized in that a plurality of convex lens 111 is formed in a one-to-one corresponding position so that the center and the respective LEDs (107) to match. The method of claim 1, The lamp light emitting unit 106 is formed of a printed circuit board equipped with an LED 107 in the front portion and a power supply in the rear portion, The reflector plate 120 is formed in a flat plate shape, and is provided with a plurality of through holes 121 arranged in positions and shapes corresponding to the respective LEDs 107, and through the through holes 121, each of the LEDs 107 is provided. Intensive illumination LED lamp, characterized in that is installed in close contact with the front portion of the circuit board 105 in a protruding state forward.

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