KR101202392B1 - Bulb type lamp using deep drawing - Google Patents

Abstract

The present invention maximizes the heat dissipation efficiency by effectively transferring the heat generated from the LED module as the radiator to the lamp body as the radiator by making the lamp body constituting the luminaire integrally by the deep drawing method so as to prevent a seam when manufacturing the bulb-type luminaire. The present invention relates to a bulb-type luminaire using a deep drawing method that can improve the appearance and beauty.
The present invention for realizing this is provided with a plurality of LED module for emitting light of a predetermined output; Deep drawing is formed into a conical shape, but the large diameter part is closed and the small diameter part is opened to form an intermediate shape of the bulb-shaped lamp, and the LED module is fixed to the large diameter part to be interviewed and to supply power to the LED module therein. Lamp body that is accommodated for the converter; A diffusion cover coupled to one side of the lamp body to diffuse light emitted from the LED module to the outside; And a base installed to insulate the open small diameter part of the lamp body and connected to an external power source to supply the LED module.

Description

Bulb-type luminaire using deep drawing method {BULB TYPE LAMP USING DEEP DRAWING}

The present invention relates to a bulb-type luminaire using a deep drawing method, and more particularly, to fabricate the lamp body constituting the luminaire when the bulb-type luminaire is manufactured in a deep drawing method so as to prevent a seamless connection from the LED module which is a light emitting body. The present invention relates to a bulb-type luminaire using a deep drawing method that effectively transfers generated heat to a lamp body, which is a heat sink, to maximize heat dissipation efficiency and to improve appearance.

As a lamp, a lamp employing a filament for a long time is used, and the semiconductor technology is rapidly being replaced by a light emitting diode (LED), which is a light source using a light emitting phenomenon generated when a voltage is applied to a semiconductor.

Lamps using these LEDs consume less power than conventional incandescent bulbs, have a long life, and are bright and clear, and are capable of producing a variety of lights according to color and brightness. In the field, it is expected to be used for general lighting.

The LED element used in the LED lamp has less heat generation, less power consumption, and longer life and impact resistance than the conventional filament light source. In addition, since mercury or a discharge gas is not used in the manufacturing process like a fluorescent lamp, there is an advantage that it does not cause environmental pollution.

However, when the driving current is increased in the LED device to obtain a light source having high brightness and high power, the power loss of the LED device is increased, so that most of the electrical energy is converted into heat and the junction of the LED device is in a high temperature state. Even if the current flowing through the LED is constant, if the junction temperature rises, the light output and the light efficiency are not only reduced, but the operating life is also reduced. Therefore, in order to improve lighting performance and operation life, the heat generated at the junction of the LED device should be discharged to the outside as soon as possible.

[Patent Document 1] Patent Registration Publication 10-0830600 B1 [Patent Document 2] Publication 10-2011-0052973 A Patent Document 1 shown in FIG. 1 includes a metal LED substrate 9 made of a thermally conductive material including one or more LEDs 8; A transparent or translucent shade (1) for collecting or diffusing light emitted from the LED (8); A metal fixture (2) on which the metal LED substrate (9) is seated and which forms the outer circumferential surface of the lamp lamp; A body (4) coupled with the metal fixture (2) and forming an outer circumferential surface of the lamp lamp; And connected to the metal LED substrate 9 and the wire 10 to drive the LED 8, spaced apart from the metal LED substrate 9, and controlling the color and brightness of the LED 8. A control board 15 and a power board 17; By including an AC power supply line 19 connected to the base, it reduces the area occupied by the heat sink and reduces the manufacturing cost by reducing the volume and size of the entire plastic bulb material, while eliminating the deterioration of the aesthetic appearance due to the irregularities of the heat sink. It is supposed to be. However, the heat dissipation structure of Patent Document 1 has to be provided with a dedicated metal appliance (2) for the heat dissipation, there is a problem that the structure is complicated to combine with the body (4). Patent Document 2 shown in FIG. 2 includes a heat sink 15 on which the heat dissipation protrusion 15b is processed by deep drawing on a flat base 15a, and at least one light emitting diode chip is mounted on the heat dissipation protrusion 15b. On the other hand, there is disclosed a technology for a light emitting diode device to be assembled to a separate substrate through a fastening portion 16 having an elastic clip (16a). However, such a light emitting diode device is not only configured to be applicable to a linear lighting device but also to a bulb type, and is manufactured as a separate heat sink for dissipating heat generated from the LED, so that the light emitting diode device can form an appearance to configure the lighting device. There is a problem in that the structure is complicated because the heat sink and the substrate and the housing must be assembled with a separate housing.

The present invention has been invented to improve the above problems, and the lamp body forming the overall appearance of the bulb-type LED lamp is formed in a deep drawing method using aluminum, which is a material having excellent heat dissipation efficiency and good workability, and deep drawing. When the lamp body is formed by the method, the seating part for fixing the LED module is integrally formed on the lamp body without a separate seam, and the bulb-type luminaire using the deep drawing method has a simple structure and excellent heat dissipation effect. The purpose of the invention is to provide.

The present invention for achieving the above object is provided with a plurality of LED module for emitting light of a predetermined output; Deep drawing is formed into a conical shape, but the large diameter part is closed and the small diameter part is opened to form an intermediate shape of the bulb-shaped lamp, and the LED module is fixed to the large diameter part to be interviewed and to supply power to the LED module therein. Lamp body that is accommodated for the converter; A diffusion cover coupled to one side of the lamp body to diffuse light emitted from the LED module to the outside; And a base installed to insulate the open small diameter part of the lamp body and connected to an external power source to supply the LED module.

A plurality of L-shaped fastening protrusions having one end at a free end are formed at the edge of the diffusion cover, and an arc-shaped fastening groove is formed at the large diameter portion of the lamp body corresponding to the fastening protrusion, and the diffusion cover is formed at the large diameter portion of the lamp body. Characterized in that made to be detachably installed.

The present invention as described above, the lamp body is formed in a deep drawing method using the aluminum material directly and the LED module is fixed in a state of being interviewed with the lamp body, the structure of the lamp is simple and the LED module has an excellent heat dissipation effect have.

1 is an exemplary view of a conventional LED lamp,
2 is a configuration diagram of a light emitting diode device using a conventional deep drawing;
3 is a view showing a bulb-shaped lamp body according to the present invention, Figure 3 (a) is a side view, Figure 3 (b) is a plan view,
Figure 4 is an assembly view of the bulb-type luminaire using the bulb-shaped lamp body shown in Figure 3, Figure 4 (a) is a side cross-sectional view, Figure 4 (b) is a plan view,
5 illustrates another embodiment of the present invention.

Hereinafter, preferred configurations and operations of the present invention will be described in detail with reference to the accompanying drawings.

3 is a view showing a bulb-shaped lamp body according to the present invention, Figure 3 (a) is a side view, Figure 3 (b) is a plan view, respectively. In addition, Figure 4 shows an assembly cross-sectional view of the luminaire using the bulb-shaped lamp body shown in FIG.

3 and 4, the lamp body 20 forming the basic shape of the bulb-shaped lamp 100 according to the present invention is formed in a deep drawing method using an aluminum material. Deep drawing method is to reduce the diameter of the material or narrow the periphery of the plate to the center and process it into a container shape like a cup. Processing of the container, or by spinning using a spinning lathe pressing the sheet metal to the model, and the like.

In the present invention, the lamp body 20 is seamlessly formed by using such a deep drawing method. That is, the side portion 21 and the large diameter portion 22 of the lamp body 20 are formed integrally without a seam by being formed by deep drawing, and the small portions at positions opposite to the large diameter portion 22 in the lamp body 20 are formed. The neck 26 is formed in an open shape.

Although the lamp body 20 constitutes the external shape of the bulb-type lamp 100, it is formed of aluminum material to have a heat dissipation function by itself, and is integrally formed by deep drawing so as not to degrade the heat transfer performance. The structure of the lamp is simply configured to increase the heat dissipation effect.

The large diameter portion 22 is formed in a flat plate type is provided with the LED module 30 and the diffusion cover 40, respectively.

The LED module 30 has a plurality of LEDs 32 mounted on the substrate 31 in a bare chip state, and are connected in parallel and in parallel so that external power can be applied by a method such as die bonding or wire bonding. It is a light source intended to emit light.

The diffusion cover 40 serves to diffuse the light emitted from the LED module 30 in all directions, and is made of a transparent or semi-transparent material, and is formed in a hemispherical shape in consideration of the diffusion direction.

The large diameter portion 22 of the lamp body 20 is formed with a screw groove 23 for fixing the LED module 30, the screw groove in the LED module 30 corresponding to the screw groove 23 is also formed Is formed, the large diameter portion 22 of the lamp body 20 and the bottom surface of the LED module 30 is fastened with a screw 43 in an interview state.

Thus, the heat generated from the LED module 30 is transmitted to the large diameter portion 22 of the lamp body 20 through the entire bottom surface of the LED module 30 can increase the heat transfer rate. In addition, the heat transmitted to the large diameter portion 22 of the lamp body 20 is transmitted to the side portion 21 of the lamp body 20 to be discharged to the outside, wherein the large diameter portion 22 and the lamp of the lamp body 20 As described above, the side portions 21 of the body 20 are formed by deep drawing and are seamlessly formed so that the heat transfer rate is also between the large diameter portion 22 of the lamp body 20 and the side portions 21 of the lamp body 20. This high heat dissipation effect can be improved.

The large diameter portion 22 of the lamp body 20 may be formed with a wire groove 24 through which a wire for supplying power to the LED module 30 passes.

On the other hand, at the edge of the large diameter portion 22 of the lamp body 20, a protrusion 25 for fixing the diffusion cover 40 is formed separately from the screw groove 23 for fixing the LED module 30. The protrusion 25 is formed at a position corresponding to the fastening groove formed with the guide groove on the inner surface of the edge of the diffusion cover 40.

Accordingly, when the diffusion cover 40 faces the large diameter portion 22 of the lamp body 20 and rotates, the guide groove formed on the inner side of the edge of the diffusion cover 40 enters the protrusion 25 to be seated in the fastening groove. It is firmly fixed.

If the diffusion cover 40 is to be detached from the large diameter portion 22 of the lamp body 20, when the diffusion cover 40 is rotated in a direction opposite to that when the diffusion cover 40 is fastened, the coupling groove formed in the diffusion cover 40 is protruded. A ride out of 25 allows the diffusion cover 40 to be separated from the large diameter portion 22 of the lamp body 20.

In addition, the small diameter portion 26 of the lamp body 20 is provided with a normal base (50: 50a, 50b) connected to an external power source to supply power to the LED module 30. The base 50 is composed of two electrodes 50a and 50b electrically connected to the outside, and the electrode 50b has a screw type to be fixed or detachably rotated to an external socket.

Inside the lamp body 20 is connected to the base (50: 50a, 50b) is a converter 70 for supplying the power supplied from an external power source to reduce the predetermined voltage required for the operation of the LED module 30 It is installed. The converter 70 is fixed to the lamp body 20 using a screw through a converter fixing screw groove 72 formed in the large diameter portion 22 of the lamp body 20. The converter fixing screw groove 72 is concave embossed so as to avoid interference when fixing the LED module 30.

The base 50 is coupled to the lamp body 20 via the insulator 60. This is for the insulation between the lamp body 20 and the base 50 because the lamp body 20 is made of an aluminum material as well as excellent heat dissipation effect and electrical conductivity.

5 is a view showing a fastening structure according to another embodiment of the lamp body 20 and the diffusion cover 40 of the present invention. Here, the components having the same functions as the embodiments shown in FIGS. 3 and 4 are given the same reference parts, and redundant descriptions thereof will be omitted.

The fastening groove 25 for fixing the diffusion cover 40 is formed at the edge of the large diameter portion 22 of the lamp body 20. The fastening groove 85 is formed at a position corresponding to the fastening protrusion 91 formed at the edge of the diffusion cover 40 and is formed in an arc shape.

Corresponding to the fastening groove 85 formed at the edge of the large diameter portion 22 of the lamp body 20, the end of the diffusion cover 40 is formed in the 'b' shape fastening protrusion (one end is formed in the free end ( 91 are formed in large numbers.

The free end of the fastening protrusion 91 is formed at a position spaced apart from the diffusion cover 40 by a distance corresponding to the thickness of the large diameter portion 22 of the lamp body 20.

Accordingly, when the fastening protrusion 91 is inserted into the fastening groove 85 and the diffusion cover 40 is rotated in the free end direction, the fastening protrusion 91 is caught in the state of being fitted to the large diameter portion 22 of the lamp body 20. As a result, the diffusion cover 40 is firmly fixed to the large diameter portion 22 of the lamp body 20.

If the diffusion cover 40 is to be separated from the large diameter portion 22 of the lamp body 20, the diffusion cover 40 is rotated in the opposite direction as when the locking cover 40 is fastened and the free end of the fastening protrusion 91 and the fastening groove ( When the 85 is placed at the same position, the free end of the fastening protrusion 91 can escape from the fastening groove 85 so that the diffusion cover 40 can be separated from the large diameter portion 22 of the lamp body 20. do.

As described above, the present invention manufactures a lamp body of a bulb-type LED luminaire using an aluminum material having good heat dissipation performance, and forms a lamp body by processing an aluminum material in a deep drawing method so that the processed lamp body can be formed seamlessly. The heat generated from the LED module can be transferred to the lamp body to dissipate heat, thereby increasing the heat dissipation effect.

In addition, by integrating the body of the bulb-shaped lamp and the heat sink, the entire structure of the luminaire can be easily configured.

In addition, by forming the lamp body of the aluminum material, the aluminum material has an advantage in the surface treatment can be advanced in design and color.

100-bulb type lamp, 20-lamp body,
21-lamp body side, 22-lamp body large diameter,
23,33-screw groove, 24-wire groove,
25-projection, 26-small diameter of the lamp body,
30-LED Module, 31-Board,
32-LED, 40-Diffusion Cover,
43-screw, 50: 50a, 50b-base,
60-Insulator, 70-Converter

Claims (3)

An LED module provided with a plurality of LEDs to emit light of a predetermined output;
The aluminum plate is deeply drawn into a conical shape without a separate seam, but the large diameter part is closed and the small diameter part is opened to form an intermediate shape of the bulb type lamp. A lamp body having a bottom fixed to an interview and a converter for supplying power to an LED module therein;
A diffusion cover coupled to one side of the lamp body to diffuse light emitted from the LED module to the outside; And
Bulb-type luminaires using a deep drawing method is installed so as to insulate the open small diameter portion of the lamp body comprising a base connected to the external power supply to the LED module.
The method of claim 1,
A fastening groove is formed on the inner side of the edge of the diffusion cover together with a guide groove, and a projection is formed on the large diameter portion of the lamp body corresponding to the fastening groove, so that the diffusion cover can be detachably installed on the large diameter portion of the lamp body. Bulb-type luminaire using a deep drawing method, characterized in that made.

The method of claim 1,
A plurality of L-shaped fastening protrusions having one end at a free end are formed at the edge of the diffusion cover, and an arc-shaped fastening groove is formed at the large diameter portion of the lamp body corresponding to the fastening protrusion, and the diffusion cover is formed at the large diameter portion of the lamp body. Bulb-type luminaires using a deep drawing method, characterized in that the detachable installation.

Images