KR101179172B1 - Fluorescent light type LED illuminator - Google Patents

Abstract

PURPOSE: A fluorescent light type LED lighting device is provided to simultaneously light both sides by mounting a plurality of LEDs on both sides of a single PCB. CONSTITUTION: A transmission cover(10) diffuses and radiates light generated from the inside to the outside. A plurality of LEDs(21) is mounted on an illumination module(20). The illumination module generates light from the inside of the transmission cover. A terminal portion(30) is electrically connected to a PCB(22) or the LED to input power to the PCB. A heat sink divides an internal space of the transmission cover into both sides.

Description

Fluorescent light type LED illuminator

The present invention relates to a fluorescent type LED lighting device.

In detail, the present invention relates to a fluorescent type LED lighting device to mount a plurality of LEDs on both sides of the PCB in order to enable simultaneous lighting in the space of both sides with a single LED lamp to emit light to both sides. .

In addition, the present invention relates to a fluorescent lamp type LED lighting device by presenting a configuration for more easily and stably coupled to the transmission cover through which the LED mounted on both sides of the light transmission.

LED lighting is released to solve many problems of fluorescent lamps and halogen lamps, low electrical response characteristics, and various problems that are not environmentally friendly, and it is fluorescent lamp type according to the arrangement of LED mounted on PCB and the shape of housing and transmission cover. Various configurations, such as a flat plate type and a lamp type, are proposed.

At this time, among the various types of LED lighting lamps as described above, the fluorescent lamp is mounted on a PCB having a longitudinal direction with one or more columns, and the configuration is configured to implement lighting by diffusing light to the outside through which the LED light is transmitted. Will be equipped.

Korean Patent Application No. 2010-53958 (name: fluorescent type LED lighting device, hereinafter the first application) shows an LED lighting device implemented in the configuration of a fluorescent lamp in the form of a rod.

Such an earlier application is "connecting portion connected to the socket; And a light emitting part driving the LED module based on the power supplied to the connection part, wherein the light emitting part comprises: a metal circuit board on which the LED module is disposed; A semi-cylindrical heat dissipation structure in contact with the metal circuit board; A cover housing supporting an edge region of the metal circuit board and having a semicircular cross section; And a base housing engaged with the cover housing and the heat dissipation structure and surrounding the outer shell of the heat dissipation structure.

The present invention of such a configuration is to arrange the LED module based on the structure of the fluorescent lamp to provide high brightness light while supporting the internal structure can be more stably arranged.

Since the LED light of the present invention of the present invention is mainly mounted on one surface of a PCB (metal circuit board), it emits light in one direction, so it is installed in a ceiling or a wall that does not need to emit light backwards. There is a problem.

The present invention has been invented to solve the above problems.

Accordingly, the present invention, by mounting a plurality of LEDs on both sides of the PCB in order to realize the simultaneous lighting in the space of both sides with a single LED lamp, the light can be emitted to both sides to extend the installation range of the LED lamp The purpose of the present invention is to provide a fluorescent LED lighting device.

Another object of the present invention is to provide a fluorescent lamp type LED lighting device by presenting a configuration for more easily and stably coupled to the transmission cover through which the LED is mounted LED on both sides.

In order to achieve the above object, the present invention has the following configuration.

The present invention comprises a transmission cover which is formed to have a longitudinal direction in the form of a tube having a cross-sectional shape of a circular or polygonal shape and diffuses the light generated therein to the outside; A PCB coupled to the interior of the transmission cover to divide the internal space of the transmission cover, and a plurality of LEDs mounted on each side of the PCB located in the divided internal space to generate light in the transmission cover; And a terminal portion electrically connected to the PCB or the LED to close the end of the transparent cover and be coupled to the PCB on which the LED is mounted.

Here, the PCB is applied to a metal PCB of a metal material having excellent thermal conductivity.

In addition, a guide part for sliding and coupling the PCB is formed on the inner wall surfaces opposed to each other in the interior of the transmissive cover, and a plurality of PCBs are continuously inserted and coupled to the entire length of the transmissive cover.

In particular, the inside of the transparent cover divides the inner space of the transparent cover to both sides and the heat sink is mounted, on both sides of the heat sink a plurality of PCBs are continuously coupled to the entire length of the transparent cover is generated in the LED It is configured to receive heat through the PCB and dissipate heat.

On the other hand, the inside of the transmissive cover may be formed on the inner wall surface of the transmissive cover facing each other, the guide portion for sliding and coupling both ends of the heat sink, respectively.

In this case, the heat sink may be formed at the point corresponding to both ends of the PCB guide portion for sliding the PCB is fitted. In addition, the plurality of PCB is a concave-convex coupling portion is formed at each opposite end to be continuously coupled, the concave-convex coupling portion is formed on one side of the opposing end coupling protrusion is formed, the receiving groove is fitted to the other side opposite to this An additional portion may be formed.

In order to achieve the above other objects, the present invention has the following configuration.

The PCB has a concave-convex coupling portion formed at each of the opposing end portions which are continuously inserted, and the concave-convex coupling portion has a coupling protrusion formed at one side of the opposing end, and a receiving groove portion into which the coupling protrusion is inserted at the other side thereof is formed. do.

In addition, the PCB that is continuously inserted into the transparent cover is coupled to both ends of the PCB coupled to the preceding coupled PCB and the following coupled PCB is equipped with a PCB coupling member for firmly supporting the PCB, the PCB coupling member is transparent It is interposed between the inner surface of the guide portion of the cover and the PCB, and a portion of the coupling member is elastically contacted between the inner surface of the guide portion and the PCB, respectively, to form an elastic uneven portion to prevent the PCB from swinging inside the guide portion. do.

As described above, the present invention, by mounting a plurality of LEDs on both sides of a single PCB so that the light can be emitted to both sides of the fluorescent lamps, simultaneous lighting is implemented across the space of both sides to expand the installation range of the LED lamps You get the effect.

In addition, the present invention has the effect of making it possible to produce a better quality LED lighting by mounting a plurality of PCBs more firmly combined with the PCB at the same time to install the slide in the transmission cover through which light is transmitted. .

1 is a perspective view of the LED lamp device according to the present invention.
Figure 2 is an exploded perspective view of the main part of the LED lamp device according to the present invention.
Figure 3 is an enlarged cross-sectional view of the LED lamp device according to the present invention.
Figure 4 is a perspective view of a further embodiment 1 of the present invention.
Figure 5 is a cross-sectional view of a further embodiment 1 of the present invention.
Figure 6 is an enlarged exploded perspective view of a second embodiment of the present invention.
7 is a plan view showing a second embodiment of the present invention.
8 is a front view of a second embodiment of the present invention;

Embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 is a perspective view of an LED lighting device according to the present invention, Figure 2 is an exploded perspective view of the main part of the LED lighting device according to the present invention, Figure 3 is an enlarged cross-sectional view of the LED lighting device according to the present invention.

Referring to the drawings, the LED lighting device according to the present invention comprises a transmission cover 10, the lighting module 20, the terminal portion 30. Here, it is obvious that the fluorescent type LED lighting device of the present embodiment is supplied with external power by a socket having the same type as a socket for supplying power of a normal fluorescent lamp.

The transmission cover 10 is formed in a tubular shape having a circular or polygonal cross-sectional shape. In this case, the transmission cover 10 is formed to have a longitudinal direction corresponding to a section in which illumination is required. In addition, the transmission cover 10 is formed of a synthetic resin material so as to be spread and transmitted when the light generated through the lighting module 20 is transmitted.

In particular, a guide portion 11 for sliding and coupling both ends of the PCB 22 to be described later is formed on inner wall surfaces of the transmissive cover 10 that face each other. In the drawing, the guide part 11 is exemplified as a configuration in which a groove is formed inside the protrusion.

The lighting module 20 is configured by mounting a plurality of LEDs 21 on both sides of the PCB (22). Here, the PCB 22 is a pattern formed on both sides in order to allow the LED 21 is mounted in the Surface Mounting Technology (SMT) method, preferably to cool the heat generated in the LED 21 It is applied to the metal PCB of metal material with excellent heat dissipation efficiency.

The lighting module 20 is coupled to the inside of the transparent cover 10, the PCB 22 is divided into the inner space of the transparent cover 10, and on each side of the PCB 22 located in the divided inner space A plurality of LEDs 21 are mounted and configured.

The terminal unit 30 is coupled to close the end of the transparent cover 10. The terminal unit 30 is configured to be electrically connected to the PCB 22 or the LED 21 to be coupled to the above-described socket so that power is input to the PCB 22 on which the LED 21 is mounted.

Since the fluorescent type LED lighting device configured as described above emits light to both sides, for example, when applied to a structure in which a product display space (or advertisement space) and a selection button unit are divided into upper, lower or left and right sides, such as a vending machine. A single LED lamp will enable simultaneous lighting in both spaces.

In addition, two work spaces, which are divided into showcases and partitions, which are divided into a plurality of spaces, can be realized simultaneously by installing a single LED light between the spaces.

Additional Example 1

Figure 4 is a perspective view of a further embodiment 1 of the present invention, Figure 5 is a cross-sectional view of a further embodiment 1 of the present invention.

Referring to the drawings, the LED illuminating device of the first embodiment proposes a configuration in which the heat sink 50 is applied to have a better heat dissipation characteristics.

To this end, the heat sink 50 is mounted inside the transmission cover 10 by dividing the internal space of the transmission cover 10 into both sides. On both sides of the heat sink 50, a plurality of PCBs 22 are continuously coupled to the entire length of the transmissive cover 10 so that heat generated from the LEDs 21 is transferred through the PCBs 22 to dissipate heat. It is configured to.

In this case, the PCB 22 may be made of general FR4, and preferably may be applied to a thin film in the form of a film adhered to the surface of the heat sink 50.

In addition, a guide part 51 for sliding and coupling both ends of the heat sinks 50 is formed on the inner wall surfaces of the transmissive cover 10 that face each other in the transmissive cover 10. The guide part 51 is configured in the form of a protrusion protruding from the inner wall surface of the transmission cover 10 made of a synthetic resin, the slits are formed on the inner side of the protrusion is configured to slide the heat sink 50 by fitting will be.

In particular, the heat sink 50 is formed with a guide piece 52 for sliding the PCB 22 is fitted at a point corresponding to both ends of the PCB (22). The guide piece portion 52 is formed to protrude in the form of "a" on the surface of the heat sink 50, as shown in the drawing, it is natural that the PCB 22 is formed on both sides are coupled.

Additional Example 2

6 is an enlarged exploded perspective view of a second embodiment of the present invention, FIG. 7 is a plan view of a second embodiment of the present invention, and FIG. 8 is a front view of a second embodiment of the present invention.

Referring to the drawings, the LED illuminating device of the second embodiment suggests a configuration for having a more firm coupling force when a plurality of PCBs 22 are continuously coupled.

To this end, the PCB 22 is a plurality of PCBs 22 are continuously inserted and coupled to the entire length of the transparent cover 10 in consideration of the fact that the transmissive cover 10 is formed to a considerable length. Here, the lighting module 20 is added to the concave-convex coupling portion 23 and the PCB coupling member 40 by the configuration in which the plurality of PCB 22 is inserted and coupled continuously.

The concave-convex coupling part 23 is formed at each end of the PCB 22 to which the plurality of PCBs 22 are continuously inserted. At this time, the concave-convex coupling portion 23 has a coupling protrusion 24 is formed on one side of the opposite end, the receiving groove portion 25 is formed on the other side opposite to the fitting groove 24 is formed PCB 22 It is a structure for maintaining the bond between them firmly.

The PCB coupling member 40 when the PCB 22 is continuously inserted into the guide cover portion 52 of the transmission cover 10 of the original embodiment 11 or the heat sink 50 of the first embodiment of the present embodiment, Both ends are coupled to the preceding PCB 22 and the PCB 22 coupled later, so that these PCBs 22 are more firmly fixed.

In addition, the PCB coupling member 40 is interposed between the guide portion 11 or the inner surface of the guide piece 52 of the heat sink 50 and the PCB 22 of the above-described transmission cover 10, the coupling A portion of the member 40 (a section about an intermediate point in the drawing) is formed of the elastic concave-convex portion 41 so as to be elastic between the guide portion 11 or the inner surface of the guide piece portion 52 and the PCB 22, respectively. To prevent the PCB 22 from swinging inside the guide part 11.

At this time, the elastic concave-convex portion 41 is a configuration in which the PCB coupling member 40 of the core shape protrudes by bending to one side or both sides.

Additional Example 3

9 is an exploded perspective view of a third embodiment of the present invention.

Referring to the drawings, the LED lighting device of the third embodiment is the configuration of the angle adjuster 60 to set the irradiation angle of the light emitted in both directions is rotated by the terminal in the configuration of each embodiment is presented. Specifically, the angle adjusting portion 60 is composed of an inner socket 61, the angle holding portion 70.

The inner socket 61 is coupled to the end of the transmission cover 10, the cap 21 is coupled to the outer surface to be rotatably fitted. Inner socket 61 has a hinge member 62 is coupled to the center of the cap 71 so that the cap 71 is rotatably coupled.

The inner socket 61 is configured to allow the angle of the cap 71 to be rotated at the outer surface thereof, and the hinge member 62 may be applied to a general axis, but the cap 71 and the inner socket are illustrated in the drawing. Illustrates that it is applied to the bolt to simultaneously perform the function of the coupling and the hinge shaft of 61.

The angle holding part 70 is a configuration provided between the inner socket 61 and the cap 71 to maintain the state in which the cap 71 is rotated angular. To this end, the angle maintaining unit 70 is composed of an angle setting hole 72 and the angle setting pin (73).

The angle setting hole 72 is formed in the radial position of the cap 71. In the drawing, three angle setting holes 72 are formed, and each is formed at 45 ° intervals on both sides of the center, and the cap 71 is configured to be angled at 45 ° intervals within 90 ° intervals. .

The angle setting pin 73 is formed at the point of the inner socket 61 corresponding to the angle setting hole 72. Such angle setting pin 73 is elastically coupled to each angle setting hole 72 when the cap 71 is rotated at an angle.

10: transparent cover 11, 51: guide part
20: lighting module 21: LED
22: PCB 23: uneven coupling portion
24: engaging projection 25: receiving groove
30: terminal portion 40: PCB coupling member
41: elastic irregularities 50: heatsink
52: guide piece 60: angle setting section
61: inner socket 62: hinge member
70: angle holding part 71: cap
72: angle setting hole 73: angle setting pin

Claims (8)

A transmissive cover 10 formed to have a longitudinal direction in a tubular shape having a circular or polygonal cross-sectional shape to diffuse and transmit light generated therein to the outside;
A plurality of PCBs 22 are coupled to the inside of the transmissive cover 10 to divide the internal space of the transmissive cover 10, and a plurality of LEDs 21 to each side of the PCB 22 located in the divided internal space. The lighting module 20 is mounted to generate light in the transparent cover 10;
A terminal part 30 connected to the PCB 22 or the LED 21 to close the end of the transparent cover 10 so that power is input to the PCB 22 on which the LED 21 is mounted; Including,
The inner space of the transmissive cover 10 is divided into both sides of the transmissive cover 10, and a heat sink 50 is mounted, and both sides of the heat sink 50 are provided at an entire length of the transmissive cover 10. A plurality of PCB 22 is coupled to the fluorescent type LED lighting device, characterized in that configured to radiate the heat generated by the LED (21) is continuously received through the PCB (22).
delete delete delete The method of claim 1,
Inside the transmissive cover 10, the inner wall surfaces opposed to each other in the transmissive cover 10 are formed by guides 51 formed at both ends of the heat sink 50 to be coupled to each other. Fluorescent type LED lighting device.
The method of claim 1 or 5, wherein the heat sink 50 is
Points corresponding to both ends of the PCB 22, the fluorescent lamp type LED lighting device, characterized in that the guide piece 52 is formed to slide the PCB 22 is fitted.
The method of claim 1, wherein the plurality of PCBs 22
Concave-convex coupling portion 23 is formed at each opposite end that is continuously coupled, and the concave-convex coupling portion 23 has a coupling protrusion 24 formed at one side of the opposite end, and the coupling protrusion ( 24 is a fluorescent lamp type LED lamp device characterized in that the receiving groove 25 is formed.
The method of claim 1,
Fluorescent lamp type LED is characterized in that it further comprises an angle adjusting unit (60) installed on both ends of the transparent cover (10) to set the irradiation angle of the light emitted in both directions by the terminal portion 30 is rotated at an angle. Lighting device.

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