KR100905228B1 - Led fluorescent lamp - Google Patents

Abstract

An LED fluorescent lamp is provided to increase effective light amount and illumination efficiency by enabling a light reflected by a cover to pass the cover again by a reflector. In an LED fluorescent lamp, an LED module(20) comprises a main body(10) in which extrusion molding is generated, a substrate(21) mounted on the main body, and a plurality of LEDs(22) which are installed at the substrate by a constant interval in order to emit a light. A driver module(30) is mounted on the main body, and a cover protects the LED module while transmitting the light from the LED module.

Description

LED Fluorescent Lamp

The present invention relates to an LED fluorescent lamp installed on a ceiling or a wall, and more particularly, the assembly is simple, maintains a solid assembly state, and reflects the light emitted from the LED reflected by the cover back to improve the lighting efficiency. The present invention relates to an LED fluorescent lamp having excellent heat dissipation efficiency.

In general, various types of lamps or the like are used to provide light or to irradiate an object at night or indoors. Such lamps or lamps are supplied with power to convert electrical energy into light energy to provide light or to irradiate an object, and in general, incandescent lamps or fluorescent lamps are generally used.

Recently, although it is expensive, various colors can be produced, and a long lifetime and low power consumption have led to the development of lamps or lamps using LEDs (Light Emitting Diodes). have. In addition, within several years, high energy-consuming light bulbs are to be dismissed, and as part of the national project, research and development in the LED field is actively progressing. Among such LEDs, fluorescent lamps using LEDs are disclosed in Korean Patent No. 10-866586.

The fluorescent lamp using the LED of Patent No. 10-866586 includes a hemispherical base 1a and an extension part 1b bent inwardly at both ends of the base 1a, as shown in FIGS. 1 and 2. Body 1 made of; A heat dissipation blade (2) formed along the longitudinal direction inside the base (1a) of the main body (1) to increase the heat dissipation area to increase heat dissipation efficiency; A fixing part (3) comprising a plate (3a) mounted on an extension of the base (1a) and a receiving protrusion (3b) connected to both sides of the plate (3a); An LED module 4 which is seated between the receiving protrusions 3b of the fixing part 3 and includes a PCB substrate 4b on which a plurality of LEDs 4a are mounted; Cap is formed in a hemispherical shape covering the main body 1, the thickness of both sides is relatively thinner than the upper center, to increase the transmission of light emitted to both sides to extend the direction of the light emitted from the LED module ( 5); An insertion part 6 is formed at an upper end of the main body 1, and a corresponding insertion part 7 coupled to the insertion part 6 is formed at a lower end of the cap 5, and the main body 1 and Desorption means for ensuring the coupling and detachability of the main body 1 and the cap 5 by detaching the insertion portion 6 and the corresponding insertion portion 7 exerts elasticity when the cap 5 is detached ( 8); And a fixed cover 9 for fixedly coupling both ends after the main body 1 and the cap 5 are coupled to each other.

According to such a configuration, by using the LED module 4 can be used to maintain the life of the fluorescent lamp semi-permanently, to increase the heat dissipation area to increase the heat dissipation effect, by the detachment means (8) during the failure and repair of the fluorescent lamp The main body 1 and the cap 5 can be separated and combined quickly and easily, and the thickness of the cap 5 can be relatively thinner on both sides than the upper center to increase the lighting efficiency and reduce the user's fatigue. Provide effect.

However, the fluorescent lamp using the LED can increase the lighting efficiency of the light emitted from the LED module 4 through the cap 5 of a specific structure, there is a limit to the improvement of the lighting efficiency, and the cap 5 and It is easy to disassemble and bond the main body 1, but it is not possible to maintain a firmly coupled state, and when mounting the LED module 4, a fastening means such as a bolt or an adhesive is required, which is complicated to assemble and dissipates heat only by heat transfer. There is a problem that the heat radiation effect can be reduced.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to provide an LED fluorescent lamp having improved lighting efficiency, simple assembly, maintaining a firm assembly state, and improving heat dissipation effect.

In order to achieve the above object, the present invention, the LED module having a main body to be extruded, the substrate mounted on the main body and a plurality of LEDs installed at a predetermined interval to emit light, and the LED module A drive module connected to the LED module to be controlled and mounted to the main body, a cover detachably installed on the main body to protect the LED module and to transmit light emitted from each LED of the LED module; A cap for closing both ends of the body and the cover and shielding one side of the driving module, and a plug connected to the driving module and protruding to an outer end of the body and connected to a socket for installing a fluorescent lamp; In the LED fluorescent lamp, the main body, the longitudinal direction so that the substrate of the LED module is inserted And a mounting portion formed as a groove, and formed in an upper portion of the mounting portion so that the light emitted from the LED of the LED module and reflected by the cover is reversely reflected and transmitted through the cover. Two reflectors formed to be spaced apart from each other and formed to be inclined at an inclination angle of 5 ° to 7 ° from the outside to the inside to intensively reflect the light reflected from the back to the cover, and the mounting part to mount the cover A coupling part formed on both sides of the coupling part having a first coupling groove formed in a rectangular cross section and a second coupling groove communicating with the first coupling groove and formed in a circular cross section, and the driving module is mounted and heat generated from the LED module; Forming a predetermined space to collect the installation formed along the longitudinal direction on top of the mounting portion And, further comprising the LED modules and a plurality of radiating fins protruding from the upper portion of the body heat collected in the installation portion so as to emit to the outside as one body; The drive module includes a substrate including a first substrate portion inserted into a first installation groove of the installation portion and a second substrate portion disposed inside the cap; The cover may include a light-transmitting part formed in a hemispherical shape so as to pass through and radiate light emitted from the LED module, and a first fastening part having a rectangular cross section so as to be coupled to the first coupling groove of the coupling part of the main body without shaking. It is characterized in that it comprises a fastening portion formed integrally with the first fastening portion and a second fastening portion formed in a circular cross section so as to be coupled to the second coupling groove of the coupling portion without swinging.

According to the LED fluorescent lamp according to the present invention, the light emitted from the LED and reflected by the cover is reflected back by the reflecting unit and is projected through the cover again to increase the effective light amount, thereby improving the lighting efficiency, and separately separating the LED module. It can be assembled simply and firmly without fixing parts or adhesive means, and heat dissipation effect is improved by releasing and cooling heat by using a heat transfer method and an air circulation method.

Hereinafter, a preferred embodiment of the LED fluorescent lamp according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a partially cut away exploded perspective view showing the LED fluorescent lamp according to the present invention, Figure 4 is a partial cutaway perspective view showing the assembled state of the LED fluorescent lamp of Figure 3, Figure 5 is an enlarged cross-sectional view according to the line V-V of FIG. 6 is a partial longitudinal cross-sectional view taken along line VI-VI of FIG. 5 showing the flow of air for heat dissipation and cooling in the LED fluorescent lamp according to another embodiment of the present invention.

3 to 5, the LED fluorescent lamp according to the present invention includes a main body 10 formed by extrusion molding, an LED module 20 mounted on the main body 10 to emit light, and the LEDs. A drive module 30 for controlling the module 20, a cover 40 for protecting the LED module 20 and transmitting light emitted from each LED 22 of the LED module 20; The cap 50 is closed to both ends of the main body 10 and the cover 40, shields one side of the driving module 30, and is connected to a socket for installing a fluorescent lamp.

First, the main body 10 is extruded from aluminum having excellent heat dissipation effect, and forms a thin and compact appearance. The outer surface of the body 10 may be anodized in various colors.

In addition, the main body 10 is formed in a semi-circular cross section. The mounting portion 11 for mounting the LED module 20 is formed along the entire length of the lower portion of the main body 10, that is, the LED fluorescent lamp is installed on the ceiling or the wall. The mounting portion 11 is formed in a groove shape so as to firmly couple the LED module 20 to the main body 10 without fixing means such as bolts or attachment means such as adhesives.

In addition, when a part of the light emitted from the LED module 20 is reflected by the cover 40 on the lower surface of the mounting portion 11 of the main body 10, two reflections for reflecting it back to the outside to emit light The portion 12 is formed along the entire longitudinal direction. Between each of the reflecting portions 12, a gap 121 is formed so that LEDs, which will be described later, of the LED module 20 may be protruded. In addition, each of the reflecting portions 12 upwards at an inclination angle a toward the inside from the outside to increase the effective illumination light by concentrating the light reflected from the cover 40 toward the cover 40. It is formed to be inclined. The angle of inclination a is set to about 5 ° to 7 °. When the angle of inclination a is less than 5 °, the light reflected by each of the reflecting portions 12 is not concentrated to the cover 40. While the illuminance may be lowered, when the inclination angle a is 7 ° or more, the light reflected by each of the reflecting portions 12 may be excessively concentrated in the center portion of the cover 40, thereby reducing the diffusivity of the light. Can be. In practice, the inclination angle a is preferably set to 6 kPa.

In addition, both sides of the mounting portion 11 of the main body 10 is formed with a coupling portion 13 to which the cover 40 is assembled along the entire longitudinal direction. The coupling part 13 includes a first coupling groove 131 in which a fixing part described later of the cover 40 is inserted and installed, and a second coupling groove 132 communicating with the first coupling groove 131. do. In this embodiment, the cross section of the first coupling groove 131 is formed in a rectangular shape, the cross section of the second coupling groove 132 is formed in a circular shape.

In addition, the upper portion of the mounting portion 11 of the main body 10 is provided with an installation portion 14 for installing the drive module 30 along the entire longitudinal direction. The installation unit 14 communicates with the first installation groove 141 into which the substrate of the driving module 30 is inserted, and the first installation groove 141, and each of the components of the driving module 30. Some of the second installation groove 142 is provided. In particular, the second installation groove 142 of the installation unit 14 may form a predetermined space to collect heat generated from the LED module 20 can be radiated through a heat radiation fin to be described later.

In addition, a plurality of heat dissipation fins 15 protrude from the outside of the upper portion of the main body 10 to dissipate heat generated from the LED module 20 and the driving module 30 to the outside. Each of the heat dissipation fins 15 are formed at regular intervals to enlarge the heat dissipation area.

In addition, each of the heat radiation fins 15 are formed at intervals, so that the air access path 16 is formed between each of the heat radiation fins 15. Air enters and exits each of the air access paths 16, so that the heat transferred to the heat dissipation fins 15 can be quickly and effectively cooled or discharged.

On the other hand, the LED module 20 is detachably coupled to the mounting portion 11 of the main body 10.

In addition, the LED module 20 is a substrate 21 is mounted to the mounting portion 11 of the main body 10 and the substrate 21 is installed at a predetermined interval on the substrate 21 and the electric drive module 30 Are provided with a plurality of LEDs 22 that are connected to and substantially provide light. In particular, each of the LEDs 22 is arranged in a line along the longitudinal direction on the substrate 21 so as to be located in the gap 121 formed between each reflecting portion 12 of the main body 10. As such, each of the LEDs 22 is located in the gap 121 between each of the reflecting portions 12, so that most of the light emitted from each of the LEDs 22 is external to the cover 40. Some of the light that is transmitted through and reflected by the cover 40 is reflected by each of the reflecting parts 12 and transmitted through the cover 40, thereby improving lighting efficiency. Of course, the substrate 21 is provided with a resistor, a capacitor, and the like, which are electrically connected to the driving module 30 and each of the LEDs 22, and these basic components are well known to those skilled in the art. And detailed descriptions are omitted. In addition, each of the LEDs 22 may be fluorescently treated to make use of the characteristics of the fluorescent lamp. It will be apparent that the length of the substrate 21 and the number of the LEDs 22 may be appropriately selected according to the capacity or output of the fluorescent lamp.

On the other hand, the drive module 30 is a drive module for operating the LED module 20 or to control the operation, it is installed detachably inserted into the installation portion 14 of the main body 10.

In addition, the driving module 30 includes a substrate 31, a part of which is inserted into and installed in the first installation groove 141 of the installation unit 14 of the main body 10. In particular, the substrate 31 may include a first substrate 311 inserted into the first installation groove 141 of the installation unit 14 and a second substrate 312 inserted into the cap 50. Is formed. The first substrate 311 is provided with a resistor 32, a small coil 34, etc., which can be maintained in the second installation groove 142 of the mounting portion 14 is relatively small in size, The second substrate portion 312 is provided with a capacitor 35, a coil 36, and the like, which are relatively large in size and must be maintained in the cap to be described later. Of course, even if the LED fluorescent lamp according to the present invention is installed in the existing fluorescent lamp socket or is installed in a new socket, the driving module 30 is introduced from the outside by blocking the overvoltage and overcurrent of the power supply regardless of the installation direction It is configured to remove surge voltage and noise and supply constant and stable constant current to LED module.

On the other hand, the cover 40 is detachable to the coupling portion 13 of the main body 10 to protect the LED module 20 as well as to transmit the light emitted from the LED module 20 to the outside. It is formed to be combined.

In addition, the cover 40 is a light-transmitting portion 41 for transmitting and emitting the light emitted from the LED module 20, and the light-transmitting portion to be inserted and fixed to the coupling portion 13 of the main body 10 The fastening part 42 formed along the whole longitudinal direction is integrally provided in the both sides of 41. As shown in FIG. Here, the light-transmitting portion 41 is preferably formed in a round or semi-circular shape so as to improve the diffusion efficiency of the LED light. In addition, each of the fastening portions 42 may include a first fastening portion 421 inserted into the first coupling groove 131 of the coupling portion 13 of the main body 10 and a first coupling portion 13. The second coupling part 422 is inserted into the two coupling grooves 132 and formed integrally with the first coupling part 421. Here, the cross section of the first fastening portion 421 is formed in a rectangular shape corresponding to the cross section of the first coupling groove 131 of the coupling portion 13, the cross section of the second fastening portion 422 is the second coupling It is formed in a circular shape corresponding to the cross section of the groove 132. Due to the shape of the fastening part 42, the first fastening part 421 and the second fastening part 422 are respectively coupled to the first coupling groove 131 and the second coupling groove of the coupling part 13. In the fixed state is inserted into the 132 it is prevented from shaking or rocking, the cover 40 is firmly coupled to the main body 10 to prevent the departure is to maintain the firmness and stability.

Meanwhile, the cap 50 closes both ends of the main body 10 and the cover 40 and shields and protects the second substrate 312 of the driving module 30, and is electrically connected to the fluorescent lamp installation unit. It is formed to supply power to the drive module (30).

In addition, each of the cap 50 is formed to protrude toward one end of the body 51 and the body 51 is coupled in a manner surrounding the end of the body 10 and the end of the cover 40 A plug 52 is electrically connected to the driving module 30 by a wire (not shown) and inserted into a fluorescent lamp installation socket (not shown). In particular, a plurality of locking grooves 511 are formed inside the body 51 so that the heat radiation fins 15 of the body 10 are inserted to form a firm coupling.

According to another embodiment of the present invention, as shown in Figure 6, the main body 10 to more effectively radiate or cool the heat generated in the LED module 20 and the drive module 30 A plurality of air access holes 17 are drilled at appropriate positions of the air access paths 16 formed between each of the heat dissipation fins 15). Each of the air access holes 17 serves to discharge heat that is collected in the second installation grooves 142 of the installation unit 14 of the main body 10, and each of the air access holes 17. Since the hot air collected in the second installation grooves 142 can be cooled by entering and exiting the air into the second installation grooves 142, the heat dissipation effect and the cooling effect are improved.

Next, the assembly method of the LED fluorescent lamp configured as described above will be described in detail.

First, the main body 10 is manufactured and prepared by extrusion molding, and the LED modules 20 are prepared by installing a plurality of the LEDs 22 on the substrate 21 at predetermined intervals, and preparing the substrate in the same manner. The resistor 32, the coils 33 and 35, the condenser 34, and the like are installed at 31 to prepare the drive module 30, and the cover 40 is manufactured and prepared by extrusion molding. In addition, the cap 52 is prepared by installing the plug 52 on the body 51.

As described above, in the state where each component is prepared, first, the board 21 of the LED module 20 is inserted in the longitudinal direction from one side end of the mounting portion 11 of the main body 10 to the other end. Here, when the substrate 21 of the LED module 20 is installed in the mounting portion 11, each of the LED 22 installed on the substrate 21 is a gap 121 between each of the reflecting portion 12 Disposed in a line between the reflecting portions 12 of the main body 10.

Next, the first board portion 311 of each of the drive modules 30 is inserted from both sides of the first installation grooves 141 of the installation portion 14 of the main body 10, thereby driving the drive module 30. ) Is installed in the mounting portion 14.

Subsequently, the first coupling portion 421 of the coupling portion 42 of the cover 40 matches the first coupling groove 131 of the coupling portion 13 of the main body 10, and at the same time, the main assembly 10. In the state in which the second fastening portion 422 of the fastening portion 42 of the cover 40 coincides with the second coupling groove 132 of the coupling portion 13 of the Pressing in the longitudinal direction toward the side end, the cover 40 is coupled to the main body 10. Here, the cross-sections of the first coupling groove 131 of the coupling portion 13 of the main body 10 and the first coupling portion 421 of the coupling portion 42 of the cover 40 are rectangular, respectively, The second fastening portion 422 of the fastening portion 42 of the cover 40 which is inserted into and coupled to the second coupling groove 132 of the end surface of the second coupling groove 132 of the coupling portion 13 of (10). Since the cross sections are each circular, rocking or slipping is prevented to maintain stability and robustness.

Finally, each of the main body 10, the LED module 20, the drive module 30 and the cover 40 in the assembled state the one side and the other side of the cap (10) The assembly of the LED fluorescent lamp is completed by combining the body 51 of 50). Here, since each of the heat radiation fins 15 formed on the outer side of the main body 10 is inserted into each of the locking grooves 511 formed on the inner side of the body 51 of the cap 50 to achieve a robust and stable coupling It can be.

LED fluorescent lamps assembled as described above may achieve desired lighting by supplying power by coupling the plug 52 of the cap 50 to a socket (not shown) installed on a ceiling or a wall in order to install a conventional fluorescent lamp.

Here, most of the light emitted from each of the LEDs 22 of the LED module 20 is directly transmitted through the cover 40 is emitted to the outside, and some of the light is reflected by the cover 40. At this time, the light reflected by the cover 40 is reflected by the reflecting portion 12 of the main body 10 located around the LED 22 is transmitted through the cover 40 again to the outside light efficiency To improve. In particular, each of the reflecting portions 12 is inclined upwardly from the outside to the inside at an inclination angle a of about 5 to 7 degrees, so that the light reflected by the reflecting portion 12 is reflected by the cover 40. Towards the end and the light emitted to the outside can further improve the lighting efficiency.

In addition, a part of the heat generated by the LED module 20 is dissipated to the outside through the cover 40, the rest of the heat through the second installation groove 142 of the installation portion 14 of the main body 10 It is transmitted to the heat radiation fins 15 to radiate heat to the outside. In particular, the heat transferred to each of the heat dissipation fins 15 is rapidly cooled or discharged by the air entering and exiting through the air access path 16 formed between each of the heat dissipation fins 15 to improve the heat dissipation effect. will be.

On the other hand, as shown in Figure 6, when the air inlet hole 17 is drilled in each of the air access path 16 of the main body 10, through the respective air access hole 17 As the air enters or circulates as the arrow to release or cool the heat to the second installation groove 142, the heat radiation effect or the cooling effect is further improved.

Therefore, the LED module 20, the drive module 30 and the cover 40 can be easily assembled to the main body 10 without a separate fixing means or attachment means, and after assembly, a solid and stable assembly state The light reflected by the cover 40 is reflected back by the reflector 12 and is projected through the cover 40 to minimize the loss of light to further improve the lighting efficiency In addition, the heat can be released or cooled by the air inlet or circulation method to further improve the heat dissipation effect.

1 is an exploded perspective view showing a fluorescent lamp using the LED according to the prior art.

FIG. 2 is a cross-sectional view of the fluorescent lamp of FIG. 1 assembled; FIG.

Figure 3 is a partially cut away exploded perspective view showing the LED fluorescent lamp according to the present invention.

Figure 4 is a partially cut perspective view showing a state in which the LED fluorescent lamp of Figure 3 assembled.

5 is an enlarged cross-sectional view taken along the line VV of FIG. 4.

Figure 6 is a partial longitudinal cross-sectional view according to line VI-VI of Figure 5 showing the flow of air for heat dissipation and cooling in the LED fluorescent lamp according to another embodiment of the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: main body 20: LED module

30: drive module 40: cover

50: cap

Claims (5)

An LED module 20 having a main body 10 to be extruded, a substrate 21 mounted to the main body 10, and a plurality of LEDs 22 disposed on the substrate at predetermined intervals to emit light; Each of the LED module 20 and the driving module 30 connected to the LED module 20 and mounted on the main body 10 to protect the LED module 20 and the LED module 20 are protected. The cover 40 is coupled to the main body 10 to transmit the light emitted from the LED 22, and both ends of the main body 10 and the cover 40 are closed to one side of the driving module 30. A cap 50 having a body 51 for shielding the plug and a plug 52 connected to the driving module 30 and protruding to an outer end of the body 51 and connected to a socket for installing a fluorescent lamp. In the LED fluorescent lamp constituted, The main body 10 is The mounting portion 11 is formed in the groove along the longitudinal direction so that the substrate 21 of the LED module 20 is inserted, and the light emitted from the LED 22 of the LED module 20 is reflected by the cover 40 The cover 40 is formed on an upper portion of the mounting portion 11 to reflect light back through the cover 40 and is spaced apart by a gap 121 in which each of the LEDs 22 is positioned. Two reflectors 12 formed to be inclined at an inclination angle (a) of 5 ° to 7 ° from the outside to the inside to intensively reflect the light reflected from the cover 40 again, and the cover 40 The second coupling groove formed on both sides of the mounting portion 11 of the main body 10 to communicate with the first coupling groove 131 and the first coupling groove 131 formed in a rectangular cross-section and has a circular cross section Coupling portion 13 having a (132) and the drive module 30 is mounted And forming a predetermined space to collect the heat generated from the LED module 20, the mounting portion 14 formed in the longitudinal direction on the upper portion of the mounting portion 11, and the heat collected in the mounting portion 14 outside Integrally provided with a plurality of heat dissipation fins 15 protruding from the upper portion of the main body 10 so as to be discharged to the main body; The drive module 30 is A substrate 31 having a first substrate portion 311 inserted into the first installation groove 141 of the installation portion 14 and a second substrate portion 312 disposed inside the cap 50 integrally. Having; The cover 40 is The light-transmitting portion 41 is formed in a hemispherical cross-section so as to pass through the light emitted from the LED 22 of the LED module 20 in a hemispherical shape, and the first coupling groove of the coupling portion 13 of the main body 10 ( The cross-section is formed integrally with the first fastening portion 421 and the first fastening portion 421 formed in a rectangular shape to be coupled to the 131 and the second coupling groove 132 of the coupling portion 13. LED fluorescent lamp comprising a fastening portion (42) consisting of a second fastening portion 422 formed in a circular shape. delete According to claim 1, Between each of the heat radiation fins 15 of the main body 10, the air in and out path 16 to cool or dissipate heat transferred to each of the heat radiation fins 15 using air LED fluorescent lamp, characterized in that formed. The method of claim 3, wherein the air inlet and outlet 16 of the main body 10, the first to release and cool the heat collected in the second mounting groove 142 of the mounting portion 14 of the main body 10. LED fluorescent lamp, characterized in that the plurality of air inlet (17) communicating with the installation groove 142 is perforated. The method of claim 1, wherein a plurality of locking grooves 511 are formed in a portion of the inner side of the body 51 of the cap 50 so that the heat radiation fin 15 of the body 10 is inserted and coupled. Fluorescent lamp.

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