KR20160011579A - Light-emitting diode bulb - Google Patents

Abstract

A light emitting diode bulb electrically connected to a bulb holder includes: an electric fitting coupling part which is electrically connected to the bulb holder, includes a first electric conduction part and a second electric conduction part which is insulated from the first electric conduction part by an electric insulating part, and at least one electrode orifice; a lighting assemble which includes a circuit board and light emitting diodes, wherein the circuit board has a printed circuit, a first circuit contact part, and a second circuit contact part; and a circuit module which includes an electric driving substrate, a driving circuit part, a first input electrode contact part, a second input electrode contact part, a first output electrode contact part, and a second output electrode contact part. The first output electrode contact part and the second output electrode contact part are electrically connected to the first circuit contact part and the second circuit contact part of the lighting assembly.

Description

[0001] LIGHT-EMITTING DIODE BULB [0002]

The present invention relates to a light emitting diode bulb which is manufactured easily and quickly.

A conventional light-emitting diode bulb includes a conversion circuit for converting an alternating current to a direct current to drive the light emitting diode.

Other conventional light emitting diode bulbs are described in Taiwan Patent No. 384170 and include dissipating casings, metal caps, drive circuit boards, illuminating pieces, gaskets, and lampshades . The dissipative casing includes an opening formed on the first end thereof and a connection hole formed on the second end thereof. The metal cover is fixed on the connection hole of the dissipative casing, and the driver circuit board is mounted in the dissipative casing and electrically connected to the metal cap. The lighting piece and the gasket are arranged in the opening, whereby the lighting piece is electrically coupled to the driving circuit board. A modular light emitting diode bulb is described in Taiwan Patent No. 455988, which includes an illuminating plate, a light cap, a bulb holder with a plurality of light emitting diode lid elements printed thereon, And a drive module in which an electrical circuit is printed and electrically connected to the plurality of electronic components. However, modular light emitting diode bulbs are complex and annoyingly manufactured.

The main object of the present invention is to provide a light emitting diode lamp which can be manufactured easily and quickly.

In order to achieve the above object, a light emitting diode bulb electrically connected to the bulb holder provided by the present invention comprises: a first electrically conductive portion electrically connected to the bulb holder; A second electrically conductive portion insulated from the first electrically conductive portion, and at least one electrode orifice; A lighting assembly comprising a circuit board and a plurality of light emitting diodes, the circuit board comprising: a lighting assembly having a printed circuit, a first circuit contact, and a second circuit contact; And a circuit module including an electric driving substrate, a driving circuit portion, a first input electrode contact portion, a second input electrode contact portion, a first output electrode contact portion, and a second output electrode contact portion.

The first output electrode contact and the second output electrode contact are electrically connected to the first circuit contact and the second circuit contact of the illumination assembly.

1 is a perspective view of exploded components of a light emitting diode bulb according to an embodiment of the present invention.
2 is a cross-sectional view of an assembly of a light emitting diode bulb according to an embodiment of the present invention.
3 is a perspective view of exploded components of a light emitting diode bulb according to a second embodiment of the present invention.
FIG. 4 is a cross-sectional view of an assembly of a light emitting diode lamp according to a third embodiment of the present invention.
6 is a cross-sectional view of an assembly of a light emitting diode lamp according to a fourth embodiment of the present invention.
7 is a cross-sectional view of an assembly of a light emitting diode lamp according to a fifth embodiment of the present invention.
8 is a cross-sectional view of an assembly of a light emitting diode lamp according to a sixth embodiment of the present invention.

1 and 2, an LED bulb 100 according to a first embodiment of the present invention includes an electrically-coupled fitting 10, a lighting assembly 20, and a circuit module 30. [

The electrical mating engagement portion 10 is electrically connected to a light bulb holder (not shown), which is coupled to a power source, wherein the electrically mating engagement portion 10 (E22, E26, Edison screw cap) or a bayonet cap (such as B22 or GU10 shown in Figures 4 and 5) in a third embodiment of the present invention.

The electrical fit engagement portion 10 includes a first electrode orifice 11 and a second electrode orifice 12 both formed within the electrical fit engagement portion 10 and having an AC power (E.g., the ground contact of the source and the wire contact or the anode and cathode of the DC power supply). Preferably, the electrically aligned engagement portion 10 is an insulating element formed in a single piece from an electrically insulating plastic material, such as polycarbonate ("PC"). As shown in Fig. 1, the electrically aligned engagement portion 10 is a single piece injection-molded from polycarbonate (PC) to improve manufacturing efficiency. 7, in the fifth embodiment, the electrically-aligned coupling portion 10a is electrically insulated from the first electrically-conductive portion 13 by the first electrically-conductive portion 13 and the electrically-insulated portion 15 And a second electrically conductive portion (14). The electrical mating engagement portion 10a also includes an electrically insulated connection sleeve 16 that is supported by the lower end of the second electrically conductive portion 14. After the electrical fitting portion 10a is connected to the bulb holder, the first and second electrical conductive portions 13 and 14 are connected to the ground contact of the bulb holder (the ground contact and the wire contact of the AC power source or the DC power (Such as the anode and cathode of the source). In addition, the first electrically conductive portion 13 includes a first electrode orifice 11 formed therein and the second electrically conductive portion 14 includes a second electrode orifice 12 formed therein.

Referring to Figures 1 and 2, the lighting assembly 20 includes a circuit board 21 and a plurality of light emitting diodes 22. The circuit board 21 includes a printed circuit electrically connected to the plurality of light emitting diodes 22 and a plurality of light emitting diodes 22 arranged on the printed circuit so as to transmit power for dimming the plurality of light emitting diodes 22. [ Wherein a plurality of light emitting diodes 22 are arranged on the bottom surface 211 of the circuit board 21 and the circuit board 21 is also connected to the circuit contact 21 and the second circuit contact 24, Has a first through hole (231) corresponding to the first circuit contact (23), and has a second through hole (241) corresponding to the first circuit contact (24).

The circuit module 30 includes an electrically driven substrate 31, a drive circuit portion 32 formed on the electrically driven substrate 31, and one or more input electrode contacts, both of which are configured on the electrically driven substrate 31, Electrode contact portion. The drive circuitry 32 has a printed circuit that is electrically connected to the electronic components and electronic components and the drive circuitry 32 includes a power circuit 32 that converts power (such as converting an alternating current to a direct current or converting a direct current to an alternating current) And controlling the power (such as controlling the voltage or stabilizing the voltage or controlling the constant current), so that the power of the bulb holder causes the plurality of light emitting diodes 22 to emit light One or more input electrode contacts are electrically connected to the drive circuit portion 32 for inputting power and one or more output electrode contacts are electrically connected to the drive circuit portion 32 for outputting power. The at least one input electrode contact includes a first input electrode contact 331 and a second input electrode contact 332 wherein the first input electrode contact 331 and the second input contact 332 have a first protrusion and a second protrusion, And a second projection, all of which are formed on the first end of the electrically driven substrate 31, the first projection having a first edge F1 and the second projection having a second edge F2. Preferably, the first projecting portion of the first input electrode contacting portion 331 and the second projecting portion of the second input electrode contacting portion 332 are electrically connected to each other through a conductive metal layer, a printed circuit of a driving circuit portion, a soldering of a metal guiding sheet and is electrically connected to the driving circuit portion 32 by a solder region. The electrically driven substrate 31 also has an insulating portion 35 (such as an insulating paint) formed thereon to cut off power from the first input electrode contact portion 331 and the second input electrode contact portion 332, The portions of the first input electrode contact portion 331 and the second input electrode contact portion 332 extending to the outside of the first electrode orifice 11 and the second electrode orifice 12 of the electrically- The first input electrode contact portion 331 and the second input electrode contact portion 332 are electrically coupled to the electric power additionally to the electric power coupling portion 10 when the electric fitting portion 10 is connected to the light bulb holder. And is electrically connected to the two power contacts of the bulb holder for ringing.

The electrically driven substrate 31 also includes a first input electrode contact 331 (as shown in Figure 1) to provide a deformable space for the first input electrode contact 331 and the second input electrode contact 332, And a slit 36 formed in the second input electrode contact portion 332 such that the first input electrode contact portion 331 is inserted into the first electrode orifice 11 and the second input electrode contact portion 332, Is inserted into the second electrode orifice (12).

In the fourth embodiment, as shown in Fig. 6, the electric drive substrate 31 has two input electrode contact portions 331 and two first electrode contact portions 331 arranged on opposite positions of the first input electrode contact portion 331, Two input electrode contacts 332a and 332b wherein the two slits 36 and 36a are connected to the first input electrode contact 331 and the two second input electrode contacts 332a and 332b, Is formed between the first electrode input contact (331) and the two second input electrode contacts (332a, 332b) to provide a deformable space. Furthermore, the electrically driven substrate 31 also includes two insulation portions 35 formed thereon for blocking power from the first input electrode contact portion 331 and the two second input electrode contact portions 332a and 332b Wherein the electrically aligned engagement portion 10 includes a second electrode orifice 12a corresponding to one of the two second input electrode contacts 332b such that one of the two input electrode contacts 332b Extends outwardly of the electrical fit-engagement portion 10 to transmit power.

1 and 2, the first output electrode contact portion 341 and the second output electrode contact portion 342 are the third projecting portion and the fourth projecting portion, both of which are the second end portions of the electric drive substrate 31 The third projection has a third edge F3, and the fourth projection has a fourth edge F4. The third projecting portion of the first output electrode contacting portion 341 and the fourth projecting portion of the second output electrode contacting portion 342 are electrically connected to the driving circuit portion 32 by the printed circuit or the conductive metal layer of the electric driving board 31 Lt; / RTI > The first output electrode contact portion 341 and the second output electrode contact portion 342 are inserted into the first through hole 231 and the second through hole 241 of the lighting assembly 20, 341 and the second output electrode contact 342 are soldered to the first first circuit contact 23 and the second circuit contact 24 so that power is supplied to the printed circuitry (not shown) And the plurality of light emitting diodes 22 are driven by electric power to emit light.

3, the first output electrode contact portion 341 and the second output electrode contact portion 342 are arranged adjacent to the second end of the electric drive board 31 and have metal terminals or metal And is electrically connected to the driving circuit portion 32 by the pins. The first output electrode contact 341 and the second output electrode contact 342 are welded to the first circuit contact 23 and the second circuit contact 24 so that power is supplied to the printed circuit of the illumination assembly 20 The plurality of light emitting diodes 22 are driven by electric power to emit light.

The light emitting diode bulb further includes a radiating assembly 40 extruded from aluminum and the radiation assembly 40 includes a heat guiding plate 41, a hollow room 42, And an accommodating tube 44 secured within the hollow space 42 wherein the electrically aligned engagement portion 10 is mounted on one end of the radial assembly 40 and includes a circuit module 30 are inserted into the hollow space 42 and the circuit board 21 of the lighting assembly 20 is coupled with the heat guide plate 41 so that the heat of the lighting assembly 20 is transmitted through the heat guide plate 41 . In addition, the upper surface 212 of the circuit board 21 on which a plurality of light emitting diodes 22 are arranged is attached to the heat guide plate 41. The heat guide plate 41 has a first through hole 431 corresponding to the first through hole 231 of the circuit board 21 and a second through hole 431 corresponding to the second through hole 241 of the circuit board 21, The first output electrode contact portion 341 is inserted into the first through hole 231 through the first hole 431 and the second output electrode contact portion 342 is inserted into the second through hole 231 through the second through hole 431, 432 to the second through hole 241. [

1 and 2, the radiation assembly 40 includes a heat guide plate 41 made of aluminum or copper, a receiving tube 44 for receiving the heat guide plate 41, A plurality of cooling fins and a hollow space 42 formed in the receiving tube 44 wherein the lower end of the radiation assembly 40 is connected to a lampshade 50 .

Referring to Fig. 7, the electrically insulated connecting sleeve 16 of the electrically aligned engagement portion 10a is coupled to the receiving tube 44 of the radial assembly 40. In addition, one or more input electrode contacts of the electrically driven substrate 31 of the circuit module 30 are inserted into the electrode orifices of the first electrically conductive portion 13 or the second electrically conductive portion 14, And extends outwardly of the electrically-engaging portion 10a. For example, one of the one or more input electrode contacts of the electrically driven substrate 31 is soldered, and the electrically aligned engagement portion 10a is electrically connected to the bulb holder, and one or more input electrode contacts Is electrically coupled to one of the first electrically conductive portion 13 and the second electrically conductive portion 14 that does not have an electrode orifice.

For example, the first electric conductive portion 13 has a first electrode orifice 11 formed thereon, and the first input electrode contact portion 331 of the electric driving board 31 of the circuit module 30 is electrically connected to the first input / Is inserted into the first electrode orifice 11 of the first electrical conducting portion 13 and extends to the outside of the electrical fitting engagement portion 10a so that the first electrical contact of the circuit board 30 331 are electrically connected to the second electrically conductive portion 14.

8, the second electrically conductive portion 14 has a second electrode orifice 12 formed on the second electrically conductive portion 14, and the second electrode orifice 12 formed on the electrically driven substrate 31 of the circuit module 30 The second electrode contact portion 332 is inserted into the second electrode orifice 12 of the second electrically conductive portion 14 and extends to the outside of the electrically aligned engagement portion 10a, The first electrode contact portion 331 of the first contact portion 31 is electrically connected to the first electrically conductive portion 13 of the electrical fitting portion 10a.

While the preferred embodiments of the present invention have been described for the purpose of disclosure, modifications of the embodiments of the invention as well as other embodiments thereof may be made by those skilled in the art. Accordingly, the appended claims are intended to cover all such embodiments without departing from the spirit and scope of the invention.

Claims (18)

A light emitting diode bulb electrically connected to a bulb holder,
An electrically-engaging portion electrically connected to the bulb holder and including a first electrically conductive portion and a second electrically conductive portion insulated from the first electrically conductive portion by the electrically insulating portion, 2 electrically conductive portion is electrically coupled to the two electrical contact portions and the electrically aligned engagement portion further comprises one or more electrode orifices for inserting the first electrically conductive portion or the second electrically conductive portion;
CLAIMS 1. A lighting assembly comprising a circuit board and a plurality of light emitting diodes, the circuit board comprising a printed circuit electrically connected to the plurality of light emitting diodes, a printed circuit for transferring power for emitting a plurality of light emitting diodes, An illumination assembly including a first circuit contact and a second circuit contact;
A circuit module comprising an electric drive substrate, a drive circuit portion formed on the electric drive substrate, a first input electrode contact portion, a second input electrode contact portion, a first output electrode contact portion, and a second output electrode contact portion, Wherein the power of the bulb holder is transformed to emit a plurality of light emitting diodes, wherein one of the first input electrode contact portion and the second input electrode contact portion is electrically connected to the electrically- Wherein at least one of the first input electrode contact and the second input electrode contact is inserted into at least one of the electrode orifices and extends outwardly of the electrically aligned engagement to transmit the power, Electrically coupling one of said second electrically conductive portions to one that does not have one or more electrode orifices; And, the first output electrode contact portion and the second output electrode contact portion which includes the circuit module electrically connected to the first circuit contact and the second contact portion of the lighting assembly circuit,
Light Emitting Diode Bulb. The method according to claim 1,
The electrical fit-engagement portion may be an Edison screw cap or an insertable cap,
Light Emitting Diode Bulb. The method according to claim 1,
Wherein the circuit board of the lighting assembly has a second through hole corresponding to the second circuit contact having a first through hole corresponding to the first circuit contact and the second through hole corresponding to the first output contact and the second output contact, Wherein the first output electrode contact portion and the second output electrode contact portion are welded to the first circuit contact portion and the second circuit contact portion, the contact portion is inserted into the first through hole and the second through hole of the lighting assembly,
Light Emitting Diode Bulb. The method according to claim 1,
Wherein the first input electrode contact portion and the second input electrode contact portion are a first protrusion and a second protrusion, both of which are formed on a first end of the electric drive substrate, the first protrusion including a first edge, Wherein the first projecting portion of the first input electrode contacting portion and the second projecting portion of the second input electrode contacting portion are electrically connected to the driving circuit portion by a conductive metal layer, the second projecting portion includes a second edge,
Light Emitting Diode Bulb. The method according to claim 1,
Wherein the first output electrode contact portion and the second output electrode contact portion are a third protrusion and a fourth protrusion, both of which are formed on a second end of the electric drive substrate, and the third protrusion includes a third edge, Wherein the fourth protrusion includes a fourth edge and the third protrusion of the first output electrode contact portion and the fourth protrusion of the second output electrode contact portion are electrically connected to the drive circuit portion by a conductive metal layer,
Light Emitting Diode Bulb. The method according to claim 1,
Wherein the first output electrode contact portion and the second output electrode contact portion are electrically connected to the drive circuit portion by metal terminals,
Light Emitting Diode Bulb. The method according to claim 1,
Further comprising a radiation assembly including a heat guide plate, a hollow space, and a receiving tube secured within the hollow space,
Wherein the electrical fitting is mounted on one end of the radiation assembly, the circuit module is inserted into the hollow space, and the circuit board of the lighting assembly is coupled to the heat guide plate, Which is dissipated through the heat guide plate,
Light Emitting Diode Bulb. 8. The method of claim 7,
Wherein the radiation assembly further comprises a plurality of cooling fins supported around and surrounding the outer surface,
Light Emitting Diode Bulb. In the light emitting diode bulb to be electrically connected to the bulb holder,
An electrical fit-engagement portion electrically connected to the bulb holder and including a first electrode orifice and a second electrode orifice, wherein the first electrode orifice and the second electrode orifice are both formed in the electrically- An electrical fit-engagement portion corresponding to the two power contacts of the holder;
CLAIMS 1. A lighting assembly comprising a circuit board and a plurality of light emitting diodes, the circuit board comprising a printed circuit electrically connected to the plurality of light emitting diodes, a printed circuit for transferring power for emitting a plurality of light emitting diodes, An illumination assembly including a first circuit contact and a second circuit contact;
A circuit module comprising an electric drive substrate, a drive circuit portion formed on the electric drive substrate, a first input electrode contact portion, a second input electrode contact portion, a first output electrode contact portion, and a second output electrode contact portion, Wherein the power of the bulb holder is transformed to emit a plurality of light emitting diodes, wherein the first input electrode contact of the circuit module is electrically connected to the first electrode of the electrically- Wherein the second input electrode contact of the circuit module is inserted into the second electrode orifice of the electrically mating engagement portion and the electrically mating portion is electrically connected to the light bulb holder , The first input electrode contact portion and the second input electrode contact portion of the circuit module Wherein the first output electrode contact and the second output electrode contact are electrically coupled to the first circuit contact and the second circuit contact of the light assembly, wherein the first output contact and the second output electrode contact are electrically coupled to the power of the bulb holder ,
Light Emitting Diode Bulb. 10. The method of claim 9,
The electrical fit-engagement portion may be an Edison screw cap or an insertable cap,
Light Emitting Diode Bulb. 10. The method of claim 9,
Wherein the electrically aligned engagement portion comprises an electrically insulating element,
Light Emitting Diode Bulb. 10. The method of claim 9,
Wherein the electrically aligned engagement portion comprises a first electrically conductive portion electrically insulated from the first electrically conductive portion by an electrically insulated portion,
Light Emitting Diode Bulb. 10. The method of claim 9,
Wherein the circuit board of the lighting assembly has a second through hole corresponding to the second circuit contact having a first through hole corresponding to the first circuit contact and the second through hole corresponding to the first output contact and the second output contact, Wherein the first output electrode contact portion and the second output electrode contact portion are welded to the first circuit contact portion and the second circuit contact portion, the contact portion is inserted into the first through hole and the second through hole of the lighting assembly,
Light Emitting Diode Bulb. 10. The method of claim 9,
Wherein the first input electrode contact portion and the second input electrode contact portion are a first protrusion and a second protrusion, both of which are formed on a first end of the electric drive substrate, the first protrusion including a first edge, Wherein the first projecting portion of the first input electrode contacting portion and the second projecting portion of the second input electrode contacting portion are electrically connected to the driving circuit portion by a conductive metal layer, the second projecting portion includes a second edge,
Light Emitting Diode Bulb. 10. The method of claim 9,
Wherein the first output electrode contact portion and the second output electrode contact portion are a third protrusion and a fourth protrusion, both of which are formed on a second end of the electric drive substrate, and the fourth protrusion includes a fourth edge, Wherein the third protrusion of the first output electrode contact portion and the fourth protrusion of the second output electrode contact portion are electrically connected to the drive circuit portion by a conductive metal layer,
Light Emitting Diode Bulb. 10. The method of claim 9,
Wherein the first output electrode contact portion and the second output electrode contact portion are electrically connected to the drive circuit portion by metal terminals,
Light Emitting Diode Bulb. 10. The method of claim 9,
Further comprising a radiation assembly including a heat guide plate, a hollow space, and a receiving tube secured within the hollow space,
Wherein the electrical fitting is mounted on one end of the radiation assembly, the circuit module is inserted into the hollow space, and the circuit board of the lighting assembly is coupled to the heat guide plate, Which is dissipated through the heat guide plate,
Light Emitting Diode Bulb. 18. The method of claim 17,
Wherein the radiation assembly further comprises a plurality of cooling fins supported around and surrounding the outer surface,
Light Emitting Diode Bulb.

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