WO2012030172A2

WO2012030172A2 - Horizontal led light bulb

Info

Publication number: WO2012030172A2
Application number: PCT/KR2011/006476
Authority: WO
Inventors: 김영철
Original assignee: 소닉스자펜 주식회사
Priority date: 2010-09-02
Filing date: 2011-08-31
Publication date: 2012-03-08
Also published as: KR101300912B1; WO2012030172A3; KR20120022484A

Abstract

The present invention provides a horizontal LED light bulb comprising: a cap having on the end portion an electrical contact coupled thereto; support rods which are fixedly coupled to the cap; a power supply portion fixing frame having a power supply portion fixed therein, and which is coupled to the support rod; a stacked heat-dissipating plate fixing frame, which is coupled to the end portion of the power supply portion fixing frame, for fixing stacked heat-dissipating plates; stacked heat dissipating plates, which are coupled to the end portion of the stacked heat-dissipating plate fixing frame, and are formed so that a coupling surface is provided at the bottom portion of the stacked heat dissipating plates for perpendicularly coupling an LED module; an LED module which is coupled to the coupling surface of the stacked heat-dissipating plates; and a glass globe which contains inside the heat-dissipating plates, wherein either the power supply portion fixing frame or the stacked heat-dissipating plate fixing frame is rotatably coupled so that the direction thereof can be adjusted in relation to the floor.

Description

Horizontal LED Bulb

The present invention relates to a horizontal type LED bulb, and more particularly, to a horizontal type LED bulb that can move the center position of the light source to match the light source horizontally on the ground regardless of the type of the reflector.

In the related art, as shown in FIG. 1, vertically-type LED (LED) light bulbs in which the socket 1, the clasp 2, the LED module 4, and the reflection shade 3 are disposed in the vertical direction are used. In this way, the LED bulb of this structure can emit the center of the light source vertically without any problem. However, as shown in FIG. 2, in the LED bulb in which the socket 1, the clasp 2, and the LED module 4 are disposed in the horizontal direction, and the reflector 3 is disposed vertically, the center of the light source refracted by the reflector The centers of the light sources scattered and reaching the ground appear distorted, and at the same time the distribution of the amount of light also becomes inconsistent.

For this reason, when the conventional vertically-type LED bulb is used in the horizontal reflection shade, it is inevitable that 30% to 40% of the amount of light does not pass through the reflection shade and is attenuated. An alternative is needed.

The present invention has been proposed to solve the problems of the prior art as described above, the object of which is to move the center position of the light source to horizontally match the light source to the ground regardless of the type of reflector In providing a light bulb.

The technical problem of the present invention as described above is achieved by the following means.

(1) a tap with a tap attached to the end; A support fixed to the clasp; A power supply fixing frame fixed in the power supply and coupled to the support; A laminated heat sink fixing frame coupled to an end of the power supply unit fixing frame and fixing the laminated heat sink; A laminated heat dissipation plate coupled to an end of the laminated heat dissipation plate fixing frame and having an attachment surface formed at a lower portion thereof so that the LED module can be attached in a vertical direction; An LED module attached to an attachment surface of the laminated heat sink; And a glass sphere including the laminated heat sink therein,

Horizontal power supply unit characterized in that any one of the power supply unit fixing frame to the laminated heat sink fixing frame is rotatably coupled so as to adjust the direction relative to the ground.

(2) a tap with a tap attached to the end; A support fixed to the clasp and having a plurality of first bearing installation grooves disposed on an inner circumferential surface or an outer circumferential surface thereof; The power supply unit is fixed inside, and a second bearing installation groove is inserted into a position corresponding to the first bearing installation groove of the support, and a bearing is provided between the first bearing installation groove and the second bearing installation groove. A power supply fixing frame inserted and rotatably coupled to the support by an external force; A laminated heat sink fixing frame coupled to an end of the power supply unit fixing frame and fixing the laminated heat sink; A laminated heat dissipation plate coupled to an end of the laminated heat dissipation plate fixing frame and having an attachment surface formed at a lower portion thereof so that the LED module can be attached in a vertical direction; An LED module attached to an attachment surface of the laminated heat sink; And a glass sphere including a laminated heat sink therein.

(3) The horizontal type LED according to claim 1, wherein any one of the power supply unit fixing frame to the laminated heat sink fixing frame is rotatably coupled so as to allow direction adjustment with respect to the ground by a bearing, a ring, or a screw fastening method. light bulb.

(4) The horizontal type LED bulb according to claim 1, further comprising a light source position stator formed at a predetermined position of the terminal vertical surface of the support and a light source position adjusting variable formed at a predetermined position of the terminal vertical surface of the power supply fixing frame. .

(5) Laminated heat sink fixing frame is a horizontal type LED bulb, characterized in that coupled to the power supply fixing frame via a locking mechanism.

(6) The horizontal type LED bulb according to claim 1, wherein an inner surface including an attachment surface of the LED module of the laminated heat sink is made of a reflector.

(7) The horizontal type LED bulb according to claim 1, wherein a laminated heat sink protector is attached to one end of the laminated heat sink.

(8) The horizontal type LED bulb according to claim 1, wherein an opening end of the glass sphere is attached to a receiving groove formed at the end of the laminated heat sink protector through an adhesive material.

According to the present invention, it is possible to move the center position of the light source to provide a horizontal LED bulb that can match the light source horizontally on the ground regardless of the type of the reflector.

1 is a block diagram of a vertical LED bulb according to the prior art.

2 is a block diagram of a horizontal type LED bulb according to the prior art.

3 is a basic conceptual view of a horizontal LED bulb according to the present invention.

4 is an exemplary view illustrating the operation of a horizontal LED bulb according to the present invention.

5 is a block diagram of a horizontal type LED bulb according to the present invention.

6 is a block diagram of the tap, the clasp and the support constituting the horizontal LED bulb according to the present invention.

7 is a state diagram in which a power supply unit fixing frame is coupled to a support constituting a horizontal LED bulb according to the present invention, and 7a to 7c illustrate specific embodiments in which the support unit and the power supply unit fixing frame are coupled to each other.

8 shows a state in which the power supply unit is coupled to the inside of the power supply unit fixing frame constituting the horizontal type LED bulb according to the present invention.

9 is a laminated heat sink and a coupling diagram constituting the horizontal LED bulb according to the present invention, 9a and 9b shows a specific embodiment of the laminated heat sink.

10 is an assembly state diagram according to the first embodiment of the horizontal type LED bulb according to the present invention.

11 is an assembled state diagram according to the first embodiment of the horizontal LED bulb according to the present invention, showing a state in which the LED module is attached to the bottom surface of the laminated heat sink.

12 shows a final assembly state diagram according to the first embodiment of the horizontal type LED bulb according to the present invention.

11: faucet

12: clasp

13: support

13a: first bearing mounting groove

14: Power supply frame

14a: 2nd bearing installation groove

15: light source position stabilizer

16: light source position adjustment variable

17: laminated heat sink fixing frame

18: laminated heat shield

19: laminated heat sink

20: glass sphere

21: LED module

22: LED module wiring passage

23: bearing

24: power supply

Hereinafter, the content of the present invention in more detail as follows.

The present invention is a tap with a tap attached to the end; A support fixed to the clasp; A power supply fixing frame fixed in the power supply and coupled to the support; A laminated heat sink fixing frame coupled to an end of the power supply unit fixing frame and fixing the laminated heat sink; A laminated heat dissipation plate coupled to an end of the laminated heat dissipation plate fixing frame and having an attachment surface formed at a lower portion thereof so that the LED module can be attached in a vertical direction; An LED module attached to an attachment surface of the laminated heat sink; And a glass sphere including the laminated heat sink therein,

It provides a horizontal LED bulb, characterized in that any one of the power supply fixed frame to the laminated heat sink fixing frame is rotatably coupled to the direction adjustable to the ground.

In a preferred embodiment of the present invention, the horizontal LED bulb is

A tap with a tap attached to the end; A support fixed to the clasp and having a plurality of first bearing installation grooves disposed on an inner circumferential surface or an outer circumferential surface thereof; The power supply unit is fixed inside, and a second bearing installation groove is inserted into a position corresponding to the first bearing installation groove of the support, and a bearing is provided between the first bearing installation groove and the second bearing installation groove. A power supply fixing frame inserted and rotatably coupled to the support by an external force; A laminated heat sink fixing frame coupled to an end of the power supply unit fixing frame and fixing the laminated heat sink; A laminated heat dissipation plate coupled to an end of the laminated heat dissipation plate fixing frame and having an attachment surface formed at a lower portion thereof so that the LED module can be attached in a vertical direction; An LED module attached to an attachment surface of the laminated heat sink; And it provides a horizontal type LED bulb comprising a glass sphere including a laminated heat sink.

Hereinafter, with reference to the drawings showing the embodiments of the present invention will be described in more detail with the manufacturing process.

3 and 4 respectively show the basic configuration of the horizontal LED bulb according to the first embodiment of the present invention and the principle of adjusting the direction of the LED bulb, respectively, Figure 5 is a first embodiment of the present invention The specific configuration of the horizontal LED bulb according to.

3 to 5, the horizontal type LED bulb according to the first embodiment of the present invention can move the center position of the light source as shown in FIGS. 3 to 5 so that the light source can be horizontally matched to the ground regardless of the type of the reflector. To this end, the tap 11, the clasp 12, the support 13, the first bearing installation groove 13a, the power supply fixing frame 14, the second bearing installation groove 14a, the light source position holder 15 , Light source position control variable (16), laminated heat sink fixing frame (17), laminated heat sink protector (18), laminated heat sink (19), glass sphere (20), LED module (21), LED module wiring passage (22), Attached is a light source position adjusting connector comprising a bearing 23 and a power supply 24.

FIG. 6 shows a portion coupled to a socket of a horizontal LED bulb according to a first embodiment of the present invention, and includes a faucet 11, a clasp 12, and a support 13, and the support 13. Is coupled to the end of the clasp 12, and includes a first bearing installation groove (13a) and the light source position holder (15). At this time, the light source position holder 15 is preferably circular and configured to protrude. For assembling the LED bulb according to the first embodiment of the present invention, first, an electric wire (not shown) is connected to the clasp 12 which is an input part for supplying power. At this time, the diameter of the clasp 12 may be, for example, Φ 27 mm, Φ 17 mm, and Φ 11 mm.

7 and 7a are state diagrams in which a power supply fixing frame is coupled to a support constituting a horizontal LED bulb according to a first embodiment of the present invention, and 7b and 7c illustrate another embodiment in which the support and the power supply fixing frame are coupled to each other. .

Coupling the power supply fixing frame 14 to the support 13, in this process, as shown in the cross-sectional view of Figure 7a five second bearing installation grooves formed on the circumference of the outer surface of the insertion end of the power supply fixing frame 14 Five bearings 23 are bonded to the support 13 by using volatile epoxy, for example, in 14a.

Referring to FIG. 7 in which the support 13 and the power supply fixing frame 14 are coupled, the light source position adjuster 15 protruding from the end face of the support 13 and the light source position adjusting protruding from the power supply fixing frame 14 are adjusted. The variator 16 forms a slightly twisted approximately 20 ° center of gravity. According to such a configuration, when the support 13 is fixed due to the bearing 23 inserted in the coupling process, the power supply fixing frame 14 can be rotated 340 ° to the left and 340 ° to the right by applying a force from the outside.

The bearing 23 inserted as a means for inducing a smooth rotation between the support 13 and the power supply fixing frame 14 of the present invention preferably uses a ceramic bearing and is formed in the power supply fixing frame 14 upon insertion. The bearing 23 may be inserted without detachment through the second bearing installation groove 14a. For example, an epoxy adhesive may be used as an adhesive when inserting the bearing 23, which is a volatile epoxy, and after a certain time, the epoxy component disappears, so that the bearing 23 can move freely, thereby providing power. By freely rotating the supply part fixing frame 14, the position (direction) of the light source can be adjusted in the vertical direction. In this case, a plastic ring having good lubricity may be used instead of the bearing 23.

As another embodiment to adjust the direction of the LED module 21, in the present invention, without using the bearing 23 and the ring of the plastic system with good lubricity, as shown in Figure 7b power supply fixing frame 14 And a screw is formed on the outer peripheral surface of the end of the laminated heat sink fixing frame 17 with a gap in the laminated heat sink fixing frame 17, and a locking mechanism 14b is formed in the power supply fixing frame 14 to match the position of the twisted light source with the ground. It is also possible.

In another embodiment, as shown in FIG. 7C, the hexagonal screws 14c may be used to vertically align the center of the displaced light source, and may be simply horizontal to the ground.

After the power supply unit fixing frame 14 and the clasp 12 are assembled, the wires connected to the clasp 12 are connected to the input part of the power supply unit 24 to a proper length, and the power supply unit 24 is connected to the power supply unit fixing frame ( 24). In the present invention, the power supply unit 24 may be manufactured to adjust the output of the power supply according to the output of the LED module to be attached. At this time, the method of fixing the power supply to the clasp 12 uses a fixture or epoxy.

8 is a view illustrating a state in which a power supply unit is coupled to a power supply unit fixing frame constituting a horizontal LED light bulb according to the present invention, and FIG. 9 is a laminated heat sink and a coupling diagram of the horizontal LED light bulb according to the present invention. 9A and 9B show specific embodiments of a laminated heat sink, respectively, and FIG. 10 shows an assembled state diagram according to a first embodiment of a horizontal LED bulb according to the present invention.

As shown in FIG. 8, the power supply unit 24 is connected to the wires connected to the clasp 12, and the Teflon screw having a low thermal conductivity is attached to the laminated heat sink 19 on the laminated heat sink fixing frame 17 as shown in FIG. 9. It is fixed by using such as, and as shown in Figure 10 block the power supply unit fixing frame 14 with a laminated heat sink fixing frame 17 and draw the wire to the outside. In this case, the laminated heat sink fixing frame 17 may be fixed by applying an adhesive such as epoxy to a groove (not shown) formed in the power supply unit fixing frame 14. In the present invention, the laminated heat sink fixing frame 17 may be coupled to the laminated heat sink protector 18 for its protection. Can be used.

As another embodiment of the present invention as shown in Figure 9a preferably form a reflector on a portion around the mounting of the LED module 21 to the laminated heat sink 19 and the LED is attached to the center of the reflector to the bottom of the reflector A convex or concave lens is attached to the surface so that light can be collected and diffused.

In another embodiment, a structure as shown in FIG. 9B may be used for manufacturing a small LED bulb. That is, when the heat sink is coated with ceramic and the reflector portion is inserted into the glass sphere without the ceramic coating as shown in FIG. 9A without the structure of the laminated heat sink 19, although the temperature is higher than the structure of FIG. This low compact LED bulb can be manufactured. In addition, when the laminated heat sink 19 is coated with a ceramic material or a carbon material, all of the heat dissipation characteristics are enhanced, and it is preferable to coat the ceramic plate with ceramic material for quality of appearance.

The laminated heat dissipation plate 19 may reduce the overall weight by using aluminum mainly for heat dissipation, and configure the laminated heat dissipation plate 19 as close as possible to the glass sphere in order to maximize the heat dissipation effect.

As shown in FIG. 11, the LED module 21 is fixed to the laminated heat sink 18 with a screw, and a wire is connected thereto. At this time, preferably the fixing surface of the laminated heat sink 19 and the LED module 21 should not be bent, for example, by applying an epoxy with high thermal conductivity efficiency so that the thermal conductivity between the surface and the surface is well made. It is good. The LED module 21 is electrically connected to the power supply unit 24 through the LED module wiring passage 22.

12 shows a final assembly state diagram according to the first embodiment of the horizontal type LED bulb according to the present invention. As shown in FIG. 12, the glass sphere 20 is fixed to the receiving groove formed in the laminated heat sink protector 18 using, for example, epoxy. In addition, in the process of fixing the laminated heat dissipation plate 19 and the glass sphere 20, the chemical component of the epoxy remains in the glass sphere 20 due to the heat generated by the LED module 21 after a long time, the LED module 21 Since it may affect the light source, it is preferable to have a chemical outlet (25). The chemical outlet 25 is blocked before shipment after completion of the product to seal the components contained in the glass sphere 20 by means of oxidation or impurity suction, waterproof and dustproof due to contact with air.

By the above-described configuration and the assembly process thereof, the horizontal LED bulb can be easily manufactured. The horizontal LED bulb can move the center position of the light source so that the light source is horizontally matched to the ground regardless of the type of the reflector. It provides the structural advantages that can be achieved.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the invention described in the claims below. It will be appreciated that it can be changed.

Claims

A tap with a tap attached to the end; A support fixed to the clasp; A power supply fixing frame fixed in the power supply and coupled to the support; A laminated heat sink fixing frame coupled to an end of the power supply unit fixing frame and fixing the laminated heat sink; A laminated heat dissipation plate coupled to an end of the laminated heat dissipation plate fixing frame and having an attachment surface formed at a lower portion thereof so that the LED module can be attached in a vertical direction; An LED module attached to an attachment surface of the laminated heat sink; And a glass sphere including the laminated heat sink therein,

Horizontal power supply unit characterized in that any one of the power supply unit fixing frame to the laminated heat sink fixing frame is rotatably coupled so as to adjust the direction relative to the ground.
A tap with a tap attached to the end; A support fixed to the clasp and having a plurality of first bearing installation grooves disposed on an inner circumferential surface or an outer circumferential surface thereof; The power supply unit is fixed inside, and a second bearing installation groove is inserted into a position corresponding to the first bearing installation groove of the support, and a bearing is provided between the first bearing installation groove and the second bearing installation groove. A power supply fixing frame inserted and rotatably coupled to the support by an external force; A laminated heat sink fixing frame coupled to an end of the power supply unit fixing frame and fixing the laminated heat sink; A laminated heat dissipation plate coupled to an end of the laminated heat dissipation plate fixing frame and having an attachment surface formed at a lower portion thereof so that the LED module can be attached in a vertical direction; An LED module attached to an attachment surface of the laminated heat sink; And a glass sphere including a laminated heat sink therein.
The horizontal LED bulb according to claim 1, wherein any one of the power supply unit fixing frame to the laminated heat sink fixing frame is rotatably coupled to the ground by a bearing, a ring, or a screwing method.
The horizontal LED bulb according to claim 1, further comprising a light source position stator formed at a predetermined position of the terminal vertical surface of the support and a light source position adjusting variable formed at a predetermined position of the terminal vertical surface of the power supply fixing frame.
The horizontal type LED bulb of claim 1, wherein the laminated heat sink fixing frame is coupled to the power supply fixing frame via a locking mechanism.
The horizontal type LED bulb of claim 1, wherein an inner surface including an attachment surface of the LED module of the laminated heat sink is formed of a reflector.
The horizontal type LED bulb according to claim 1, wherein a laminated heat sink protector is attached to one end of the laminated heat sink.
The horizontal type LED bulb according to claim 1, wherein the opening end of the glass sphere is attached to the receiving groove formed at the end of the laminated heat sink protector through an adhesive material.