KR20120121985A - LED lamp of florescent-type - Google Patents

Abstract

PURPOSE: A fluorescent light type LED lamp is provided to reduce manufacturing costs by reducing the number of LED elements. CONSTITUTION: An LED unit includes LED elements and a printed circuit board. A cap housing(20) includes the LED unit on one side. A power terminal is formed on other side of the cap housing. The cap housing is formed on both ends of a transmissive cover(30). A diffusion plate(40) diffuses light emitted from the LED elements to the outside.

Description

LED lamp of florescent-type

The present invention relates to a fluorescent lamp type LED lamp that can be used for applications such as replacing general fluorescent lamps or plant cultivation with excellent light intensity while having low power consumption, and includes an LED unit and an LED unit having an LED element therein. The light emitted from the cap housing fastened to both ends of the floodlight cover and the cap housing fastened to both ends of the floodlight cover is diverted to the vertical direction in the longitudinal direction of the floodlight cover to diffuse the light to the outside of the floodlight cover. The key is in the field of fluorescent LED lamps including diffusers.

It is known that 70% of the information experienced in everyday life is acquired through vision, and the color of the perceived object greatly influences the emotion of the person through the eyes, and the person recalls the memories of the past through the specific color , And some emotions are caused to him. Therefore, lighting that can determine the color of an object in everyday life is very important for human emotion, and lighting is known to directly affect worker's fatigue because the lighting environment can change the brain waves of the worker.

Incidentally, incandescent lamps or fluorescent lamps, which are typical light fixtures, have a phenomenon in which visible light sheds when light is emitted and the focus is blurred, and the fatigue of the user's eyes is greatly affected. There is developed and sold a lamp or lamp, which is implemented as an LED having a variety of effects compared to incandescent or fluorescent lamps. LED (Light Emitting Diode) refers to a light emitting diode that emits light, and emits light of various colors such as red, green, blue, and yellow. In general, a light emitting diode, or an LED, has a pn junction structure, and when a forward current is applied to a diode, electrons in the n region of the chip are accelerated by an electric field and moved to the p region. Recombination with the holes emits light with energy corresponding to the potential difference depending on the material of the chip. This phenomenon is called injection electroluminescence, and these devices are called LEDs. GaAs, GaAsP, GaP, GaAlAs, SiC, and the like are typical materials of such LED chips, and they exhibit various luminescent characteristics from the crystal structure of these materials.

Lamps implemented as LEDs require only about 10% power consumption compared to conventional lamps implemented as incandescent lamps, and require only about 50% power consumption as compared to conventional lamps implemented as fluorescent lamps. LED lamps have the advantages of not only minimizing eye fatigue even with prolonged use, but also about 10 times longer lifespan than incandescent lamps and about 8 times longer than fluorescent lamps.

The following is a representative prior art related to the conventional LED lamp.

Korean Patent No. 10-1012406 relates to a fluorescent lamp replacement LED lighting system, having a heat sink attached to the rear surface of the substrate, and having a thermoelectric element capable of cooling the heat sink, and a charging plate on both sides of the thermoelectric element Fluorescent lamp replacement LED lighting device that can increase the cooling efficiency by the convection phenomenon caused by corona discharge and using the device as a fluorescent lamp replacement, the LED lamp is composed of a multi-LED lamp, and through the sensor unit and the control unit Accordingly, by changing the color of the LED lamp has the effect of allowing the user to immediately recognize the event occurrence status, the configuration to solve the heat dissipation problem is complicated, the rise of the manufacturing cost accordingly occurs for this Continuous research and development is required.

According to the present invention, since the conventional fluorescent lamp type LED lamp has a structure in which a plurality of LED elements are embedded in the floodlight cover along the length of the fluorescent lamp in order to realize a predetermined brightness, the manufacturing cost is increased compared to using a few LED elements. In addition to increasing power consumption, in order to dissipate heat generated when the LED elements emit light to the outside of the fluorescent lamp, there is a difficulty in forming a heat sink at a part of the floodlight cover or at a predetermined position of the floodlight cover, and the internal structure of the fluorescent lamp is complicated. The problem is that the cost is high, and the main purpose is to provide a solution to this problem.

The present invention is to realize the desired object as described above,

An LED lamp comprising an LED unit including an LED element and a PCB, the LED lamp having a power unit corresponding to a fluorescent lamp socket on the other side of the LED unit is embedded in the interior to position the LED element on one side A housing; A hollow floodlight cover having a predetermined length and the cap housing being fastened to both ends; The light emitted from the LED elements of the LED unit, which has a predetermined length between the cap housings fastened to the floodlight cover and is embedded in the floodlight cover, and which is embedded in the cap housings of both sides, is oriented at a predetermined angle with respect to the length direction of the floodlight cover. A diffuser plate configured to be diffused to the outside of the floodlight cover, wherein the diffuser plate has an inclined surface in a form in which a predetermined position in the longitudinal direction of the floodlight cover is refracted, so that the light emitted from the LED element may The fluorescent lamp type LED lamp is configured to be switched in a predetermined angle direction.

Fluorescent lamp type LED lamp according to the present invention as described above to minimize the power consumption by reducing the number of LED elements provided in the fluorescent lamp type LED lamp, the heat generated during the light emitting of the LED element is reduced by not configuring the heat sink on the floodlight cover It is also possible to realize the effect that the internal structure of the fluorescent lamp is simplified and the manufacturing cost is lowered.

1 is a partially exploded perspective view showing a fluorescent lamp type LED lamp according to a preferred embodiment of the present invention.
Figure 2 (a) is a perspective view showing a diffuser plate of a fluorescent lamp type LED lamp according to a preferred embodiment of the present invention.
Figure 2 (b) is a perspective view showing a diffuser plate of a fluorescent lamp type LED lamp according to a preferred embodiment of the present invention.
3 is a partial cross-sectional perspective view showing a fluorescent lamp LED lamp according to a preferred embodiment of the present invention.
Figure 4 is a cross-sectional view showing a fluorescent lamp LED lamp according to a preferred embodiment of the present invention.
5 is a cross-sectional view showing a fluorescent lamp type LED lamp according to another preferred embodiment of the present invention.
Figure 6 (a) or (b) is a cross-sectional view showing a case where the inclined surface of the fluorescent lamp type LED lamp according to a preferred embodiment of the present invention has a protruding surface.
FIG. 7 is a cross-sectional view illustrating a case where a diffused polygonal pyramid of a fluorescent lamp type LED lamp according to still another preferred embodiment of the present invention is fastened to both surfaces of a reflecting plate. FIG.

The present invention relates to a fluorescent lamp type LED lamp that can be used for applications such as replacing general fluorescent lamps or plant cultivation with excellent light intensity while having low power consumption, and includes an LED element 10 and a printed circuit board. In the LED lamp comprising an LED unit, the LED unit is embedded in one side 21 to position the LED element 10, the power supply terminal 23 corresponding to the fluorescent lamp socket on the other side 22 Cap housing 20 is provided; A hollow floodlight cover 30 having a predetermined length and the cap housing 20 fastened to both ends; The LED element 10 of the LED unit having a predetermined length between the two cap housings 20 fastened to the floodlight cover 30 and embedded in the floodlight cover 30 and embedded in the cap housings 20 on both sides. A diffuser plate 40 for diffusing the light emitted from the diffuser in a predetermined angle with respect to the translucent cover longitudinal direction and diffusing to the outside of the translucent cover 30, wherein the diffuser plate 40 has a translucent cover length. The present invention relates to a fluorescent lamp type LED lamp having a slope 41 in a direction in which the direction is refracted and configured to convert light emitted from the LED element 10 into a predetermined angle direction with respect to the longitudinal direction of the floodlight cover.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 7 illustrating embodiments of the present invention.

Specifically, in the present invention, the LED unit 10 and the LED unit provided with the printed circuit board as shown in Figure 3 is embedded in the interior of the cap housing 20, the LED element 10 is a general LED element 10 It is preferable to use at least one LED element 10, which is applicable, and whose brightness is referred to as a 'power eddy' than the general LED. In addition, when the use purpose of the fluorescent lamp type LED lamp manufactured by the present invention has the purpose of plant cultivation, it is possible to use the LED element 10 capable of emitting light of a wavelength that affects the germination, growth or growth of plants. According to the manufacturer's judgment, the LED elements 10 configured on both sides of the floodlight cover 30 may be different from each other so as to vary the wavelength of light emitted from the LED elements 10.

In addition, a printed circuit board (PCB) for supplying a predetermined power to the LED element 10 (hereinafter referred to as "PCB 11") is for stably supplying power to the LED element 10. As a constitution, a general synthetic resin material may be used. However, in the present invention, the PVC ratio 11 made of a material such as ceramic or aluminum nitride, which is superior in thermal conductivity (heat resistance) and thermal stability, may be used. It is preferable to use. In connection with the above, the LED unit according to the present invention may further include a variety of configurations in addition to the LED element 10 and the PCB (11) according to the needs of the manufacturer.

In addition, the cap housing 20 according to the present invention has an LED unit embedded therein so as to position the LED element 10 on one side 21, and a power supply terminal 23 corresponding to the fluorescent lamp socket on the other side 22. In this configuration, the LED element 10, which is a main component of light emission, is configured only in the cap housing 20 located on both sides of the fluorescent lamp cover 30, and the LED element provided in the fluorescent lamp LED lamp ( By reducing the number of 10) to minimize the manufacturing cost and power consumption, by reducing the number of LED elements 10 emitting light generated by the reduced number of LED elements 10 by not forming a heat sink on the floodlight cover 30 In addition, the internal structure of the fluorescent lamp is simplified and the manufacturing cost is lowered.

Specifically, the cap housing 20 is a power terminal 23 corresponding to the fluorescent lamp socket, such as a general fluorescent lamp as shown in Figure 3 to 4 is configured on the other side 22 corresponding to the outside of the floodlight cover 30, the inside There is a configuration in which the PC (11) provided with the LED element 10 as a light source is inherent, the LED element 10 is configured on one side 21 facing the opposite direction to the power supply terminal 23 is a conventional floodlight cover ( 30) Since only a small number is inherent in the cap housing 20, as compared with fluorescent type LED lamps in which a plurality of LED elements 10 are installed in the fluorescent lamp length direction, the power consumption is minimized and light emission of the LED elements 10 is performed. To reduce the amount of heat emitted from the rear of the LED element 10 (rear of the PC 11), even if the heat sink is not configured in the floodlight cover 30 so that it is possible to manufacture a fluorescent lamp type LED lamp does not affect the heat radiation It is effective. In this case, the manufacturer may further include a plurality of heat dissipation holes 24 connected to the PC 11 on the outer peripheral surface 44 of the cap housing 20 in order to add additional heat dissipation as shown in FIG. The LED element 10 fastened to the embedded PCB 11 by the fitting or bonding method inside the cap housing 20 has a floodlight cover 30 when the cap housing 20 is fastened to the end of the floodlight cover 30. It will be apparent that it is configured to emit light in the direction.

In addition, the hollow floodlight cover 30 having a predetermined length and the cap housing 20 is fastened to both ends thereof is a configuration corresponding to a conventional floodlight cover 30 made of glass such as fluorescent lamps. The power terminal 23 of the cap housing 20 fastened to both ends of the 30 forms a predetermined length to be stably corresponded to the fluorescent lamp socket, and the diffusion plate 40 in the hollow The light emitted from the LED element 10 of the cap housing 20 fastened to both ends of the floodlight cover 30 toward the center of the floodlight cover 30 is diffused to the diffuser plate 40 so as to be internally possible. As a result, it is possible to realize an effect such that light is diverted by the length of the transparent cover 30 by switching to a predetermined angle direction with respect to the transparent cover longitudinal direction. In this case, the manufacturer may freely adjust the degree of transparency of the floodlight cover 30 to freely adjust the illuminance of the light emitted to the outside of the floodlight cover 30.

In relation to the above, the present invention has a predetermined length between the two cap housings 20 fastened to the floodlight cover 30 and is embedded in the floodlight cover 30, and is embedded in both cap housings 20. And a diffuser plate 40 for diffusing the light emitted from the LED element 10 of the led unit in a predetermined angle direction with respect to the longitudinal direction of the floodlight cover and diffusing it to the outside of the floodlight cover 30. 40 has an inclined surface 41 in a predetermined position in the translucent cover longitudinal direction is refracted so that the light emitted from the LED element 10 is converted to a predetermined angle direction with respect to the translucent cover longitudinal direction, so that the transparent cover ( The LED device 10 positioned at both ends of the side 30 has been realized in such a manner that light emitted from the LED element 10 facing the center of the floodlight cover 30 can be emitted from the floodlight cover 30 in a predetermined angle direction.

In detail, the diffuser plate 40 according to the present invention configured to have the inclined surface 41 in a predetermined position in the longitudinal direction of the floodlight cover has two refractive plates having a predetermined plane as shown in FIG. 1. The inclined surface of the diffuser plate 40 refracted by light emitted from each of the LED elements 10 included in the two cap housings 20 is configured to be refracted with the inclined surface 41 at the longitudinal center portion 30. 41, the light emitted from the LED element 10 can be redirected, such that the light emitted from the LED element 10 can be diverted by a certain angle with respect to the lengthwise direction of the floodlight cover. Any configuration may be used as long as it is present, but the reflecting plate 42 flat in the translucent cover longitudinal direction as shown in FIGS. A plurality of inclined surfaces 41 are formed on the upper surface of the reflecting plate 42, and the diffusion polygonal pyramid 43 is configured to be combined in a polygonal pyramid shape.

That is, the reflector 42 reflects the light emitted from the LED element 10 toward the upper side of the floodlight cover 30 (generally toward the ceiling), so that the lower side or the side of the floodlight cover 30 is reflected. (In the present invention, the same concept as the 'direction constant angle relative to the translucent cover longitudinal direction.') The effect can be switched to. At this time, it will be apparent that the reflecting plate 42 is preferably made of a material having excellent reflectance. In addition, the diffusion polygonal pyramid 43 is a main configuration for converting the light emitted from the LED element 10 in a predetermined angle direction with respect to the longitudinal direction of the floodlight cover, a diffusion polygonal pyramid having a plurality of inclined surfaces (41) at multiple angles ( 43 has the effect of reflecting (refractive) the direction of light emitted from the LED element 10 in various directions with respect to the center of the polygonal pyramid, as shown in FIG. The light emitted by the fluorescent LED lamp according to the present invention is divergent in various directions, thereby obtaining an effect of realizing a fluorescent LED lamp having improved front and side brightness. At this time, the inclination of the plurality of inclined surfaces 41 constituting the diffused polygonal pyramid is adjustable to the inner diameter of the floodlight cover 30, and a greater amount of light is reflected in one direction depending on the use of the manufactured fluorescent lamp type LED lamp It is also possible to configure to be derived.

In addition, the present invention is configured to disperse the light emitted from the LED element 10, such as 'prism' by the diffusion polygon pyramid 43 made of a transparent material so as to emit the color of the separated light to the outside of the transparent cover It is also possible, and the fluorescent lamp type LED lamp according to the present invention that emits the light scattered as described above will be available in the place where power saving is needed. In connection with the above, the present invention is configured so that the interior of the diffusion polygon pyramid 43 of Figure 2 (b) and the transparent material has a predetermined internal space 45, the light emitted from the LED element 10 The light is refracted at one surface of the diffusion polygonal pyramid 43 and entered into the internal space 45, and the light incident on the internal space 45 is refracted at the other surface of the internal space 45 again to the outside of the diffusion polygon pyramid 43. Since the diffusion polygon pyramid 43 to achieve the effect of diffusely reflecting light to realize the effect.

In addition, the present invention is configured to further include a fastening groove 31 in the hollow of the transparent cover 30, the fastening of the floodlight cover 30 and the diffusion plate 40, as shown in FIG. The outer circumferential surface 44 in the longitudinal direction of the cover is configured to be fitted in correspondence with the fastening groove 31, so that the diffusion plate 40 is formed inside the floodlight cover 30 having a ring-shaped cross section and a predetermined length. Since it can be embedded by pushing from one end, it is possible to realize an effect that is easy to manufacture. In this case, when the diffuser plate 40 includes the reflector plate 42 and the diffuser polygonal plate 43, the longitudinal outer circumferential surface 44 of the reflector plate 42 extends in the longitudinal direction of the floodlight cover of the diffuser plate 40 as shown in FIG. 3. The outer circumferential surface of the 44, the fitting of the fastening groove 31 of the floodlight cover 30 will be apparent.

" 또는 "

"와 같은 요철형의 돌출표면(47)을 갖을 수 있다.In addition, the present invention is configured such that the inclined surface 41 of the diffusion polygon pyramid 43 has a protruding surface 47 is formed by repeating one or more projections 46 as shown in Figure 6, the light emitted from the LED element 10 To diffuse in a predetermined angle with respect to the longitudinal direction of the floodlight cover 30 to diffuse the outside of the floodlight cover 30, and at the same time to induce diffused reflection of light on the protruding surface 47 to produce a fluorescent lamp type LED lamp with improved aesthetics You can get the effect. At this time, the shape of the protruding surface 47 can be variously modified according to the manufacturer's judgment,

" or "

It may have an uneven protrusion surface 47, such as ".

In addition, according to the present invention, as shown in FIG. 7, the diffusion polygon pyramid 43 is fastened to both surfaces of the reflecting plate 42 so as to be symmetrical with respect to the reflecting plate 42, and both ends of the reflecting plate 42 are flood-covered. 30) the light emitted from the LED element 10 by fastening the LED element 10 inside both cap housings 20 at both ends and having a predetermined distance 48 and fastening the inside of the floodlight cover 30. The diffusion polygon pyramid 43, which is symmetrically formed on both sides of the reflecting plate 42, and doubled, can realize the effect of being able to diverge in the entire direction of 360 ° outside the floodlight cover.

Specifically, the diffusion polygonal pyramid 43 fastened to both sides of the reflective plate 42 that can be fastened to the fastening groove 31 of the transparent cover 30 is emitted from the LED element 10, the reflection plate 42 of the The light divided in both directions is emitted in all directions outside the floodlight cover 30 including the lower side (generally the bottom side), the upper side (generally the ceiling side), and the side of the floodlight cover 30, and The reflector 42 has an effect of reflecting or refracting light scattered inside the floodlight cover 30 to diffuse to the outside of the floodlight cover 30, and between the end of the LED element 10 and the reflector 42. The predetermined interval 43 has a portion of the light emitted from the LED element 10 due to the overlap of the end surface of the LED element 10 and the reflecting plate 42 is prevented from being lost by the end surface of the reflecting plate 42 It is for the configuration. At this time, the present invention is an LED element positioned in the cap housing 20 is the configuration position of the reflector plate 42 is positioned (or fastened) in the hollow of the transparent cover 30 is fastened to both ends of the transparent cover 30 When positioned in a straight line as shown in FIG. 7 and the center of FIG. 7, the light emitted from the LED element 10 may be divided evenly in the upper and lower directions of the reflector plate 42, and the center of the LED element 10. When it is configured to be biased in a predetermined direction with respect to the outside of the floodlight cover 30 in either direction may realize an effect that can diffuse a greater amount of light. In addition, the present invention is any one or more of the diffusion polygon pyramid plate 43 or the reflecting plate 42 may be composed of a transparent material, the transparent polygonal pyramid plate 43 or reflector 42 of the transparent material is fluorescent lamp type according to the present invention LED lamps can maximize the effect of diffuse reflection of light to produce high-efficiency energy products.

The above has been described with reference to a preferred embodiment of the present invention, but is not limited to the above embodiment, the person having ordinary skill in the art to which the present invention pertains through the above embodiments without departing from the gist of the present invention Can be implemented in a variety of changes.

10: LED element 11: PCB
20: cap housing 21: one side (cap housing)
22: other side (cap housing) 23: power supply terminal
30: floodlight 31: fastening groove
40 diffuser 41 inclined surface
42: reflecting plate 43: diffused polygonal plate
44: outer peripheral surface 45: inner space
46: protrusion 47: protrusion surface
48: interval

Claims (7)

In the LED lamp comprising an LED unit comprising the LED element 10 and the PC 11,
A cap housing 20 having an LED unit embedded therein so as to position the LED element 10 on one side 21 and a power terminal 23 corresponding to the fluorescent lamp socket on the other side 22;
A hollow floodlight cover 30 having a predetermined length and the cap housing 20 fastened to both ends;
The LED element 10 of the LED unit having a predetermined length between the two cap housings 20 fastened to the floodlight cover 30 and embedded in the floodlight cover 30 and embedded in the cap housings 20 on both sides. It is configured to include; diffuser 40 for diffusing the light emitted from the light emitting cover in a predetermined angle direction with respect to the translucent cover longitudinal direction to diffuse to the outside of the transparent cover 30,
The diffusion plate 40 has an inclined surface 41 in a predetermined position in the translucent cover longitudinal direction is refracted, so that the light emitted from the LED element 10 is configured to be switched in the translucent cover longitudinal direction and a predetermined angle direction. Fluorescent lamp type LED lamp.
The method of claim 1,
The floodlight cover 30,
It further comprises a fastening groove 31 in the inside of the hollow, the outer peripheral surface 44 in the longitudinal direction of the floodlight cover of the diffusion plate 40 is characterized in that configured to be fitted in correspondence to the fastening groove 31 Fluorescent type LED lamp.
The method of claim 1,
The diffusion plate 40,
A reflecting plate 42 flat in the floodlight cover longitudinal direction;
And a diffused polygonal pyramid (43) formed by combining a plurality of inclined surfaces (41) in the shape of a polygonal pyramid on an upper surface of the reflector (42).
The method of claim 3,
The diffusion polygon pyramid 43 is,
Fluorescent lamp LED lamp, characterized in that consisting of a transparent material.
5. The method of claim 4,
The diffusion polygon pyramid 43 is,
Fluorescent lamp type LED lamp, characterized in that configured to have a predetermined internal space 45 therein.
The method of claim 3,
The inclined surface 41 of the diffusion polygon pyramid 43,
One or more projections 46 is fluorescent lamp type LED lamp, characterized in that it is configured to have a protruding surface 47 is configured repeatedly.
The method of claim 3,
The diffusion polygon pyramid 43 is,
Centered on the reflecting plate 42, double fastened to both sides of the reflecting plate 42 so as to be symmetrical with each other,
Both ends of the reflector plate 42 have a predetermined distance 48 from the LED elements 10 inside the cap housing 20 fastened to both ends of the floodlight cover 30 and fastened inside the floodlight cover 30. ,
Light emitted from the LED element (10) is a fluorescent lamp type LED lamp, characterized in that the light is emitted in the entire direction of the outside of the floodlight cover by a diffusion polygon pyramid (43) symmetrically on both sides of the reflecting plate (42).

Images