LED lighting lamp with enhanced heat dissipation function

Abstract

The lighting lamp with an enhanced heat dissipation function of the present invention includes a main body, an LED module, a cylindrical fastening boss, a connection portion, a lens holder and a ring-shaped fixing cap.

Claims

1. A lighting lamp with an enhanced heat dissipation function, the lighting lamp comprising: a main body which has a fitting hole formed inwardly through a center portion of an upper surface of the main body, a plurality of heat dissipating fins formed along an outer peripheral surface of the fitting hole, and a mounting surface formed on a lower portion of the main body, the mounting surface having a single annular heat dissipating groove or a plurality of annular heat dissipating grooves; an LED module which is installed to be in close contact with the mounting surface formed on the lower portion of the main body and has a plurality of LEDs installed on a bottom surface of the LED module; a cylindrical fastening boss which is fastened by a screw to the LED module, which is in close contact with the mounting surface of the main body, while being fitted and coupled through the fitting hole from an upper side of the main body; a connection portion which is fitted into and electrically connected to a socket provided on a ceiling, a wall surface, or the like while being fitted and fixed to an outside of an upper portion of the fastening boss; a lens holder which is fitted and coupled to the bottom surface of the LED module as coupling protrusion of the lens holder is coupled to coupling holes of the LED module, wherein the lens holder has lenses mounted at positions corresponding to the respective LEDs constituting the LED module to diffuse illumination light emitted from the LEDs and irradiate the illumination light; a ring-shaped fixing cap which is coupled to a lower end of the main body and is fastened to the lower end by a screw while enclosing the LED module and the lens holder; and a plurality of air passages which communicate with the annular heat dissipating groove and through which external air flows into the heat dissipating groove or heat flowing into the heat dissipating groove flows to the outside are radially formed on the mounting surface on the main body; gaps formed at regular intervals on a plurality of protrusion jaws for through which external air flows into the ring-shaped fixing cap along an inner peripheral surface of the ring-shaped fixing cap; a supporting jaw which supports an edge of the coupling hole formed at an intermediate portion of the coupling protrusion; a cover which covers an upper edge of the fitting hole formed in the main body formed at an intermediate portion of the fastening boss; and a plurality of heat dissipating holes formed in an upper portion of the cover.

2. The lighting lamp of claim 1, wherein a guide groove is formed in a longitudinal direction at a position at which an inner peripheral surface of the fitting hole on the main body is divided by a predetermined angle, a guide protrusion having a fastening hole form inwardly from a lower end of the guide protrusion is formed in the longitudinal direction on an outer peripheral surface of the fastening boss corresponding to a position corresponding to the guide groove, and a screw insertion hole is formed in each of the mounting surface on the main body and a surface of the LED module corresponding to the position corresponding to the fastening hole on the guide protrusion.

3. The lighting lamp of claim 1, wherein the annular heat dissipating groove which is formed on the mounting surface on the main body is formed to protrude upward to have a depth being in contact with the heat dissipation fin.

4. The lighting lamp of claim 1, wherein to couple the LED module and the lens holder to each other in a state where the LED module and the lens holder are separated from each other, a plurality of coupling holes are formed on an edge surface of the LED module, coupling protrusions fitted into the coupling holes are formed on an upper edge surface of the lens holder corresponding to positions corresponding to the coupling holes.

Description

DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a planar exploded perspective view showing an LED lighting lamp with an enhanced heat dissipation function according to the present invention.

(2) FIG. 2 is a bottom exploded perspective view showing the LED lighting lamp with an enhanced heat dissipation function according to the present invention.

(3) FIG. 3 is a bottom exploded perspective view showing an LED lighting lamp with an enhanced heat dissipation function according to another example of the present invention.

(4) FIG. 4 is a front view showing the exploded LED lighting lamp with an enhanced heat dissipation function according to the present invention.

(5) FIG. 5 is a perspective view showing the coupled LED lighting lamp with an enhanced heat dissipation function according to the present invention.

(6) FIG. 6 is a cross-sectional view showing the coupled LED lighting lamp with an enhanced heat dissipation function according to the present invention.

(7) FIG. 7 is a cross-sectional view showing a coupled LED lighting lamp with an enhanced heat dissipation function according to another example of the present invention.

MODE FOR INVENTION

(8) Refer Hereinafter, preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

(9) With reference to FIGS. 1 to 7, an LED lighting lamp 10 with an enhanced heat dissipation function according to the present invention includes a main body 20 configured to be fitted and connected to a socket.

(10) In the present invention, a fitting hole 21 is formed inwardly through a center portion of an upper surface of the main body 20, and a plurality of heat dissipation fins 22 are formed along an outer peripheral surface of the fitting hole 21.

(11) Moreover, a mounting surface 23 is formed in a lower side of the main body 20, and a single annular heat dissipation groove 24 or a plurality of annular heat dissipating grooves 24 are formed on the mounting surface.

(12) In the present invention, a LED module 30 is detachably installed while being in close contact with the mounting surface 23 formed in the lower side of the main body 20, and a plurality of LEDs 31 are installed on a bottom surface of the LED module 30.

(13) In the present invention, a separated cylindrical fitting boss 40 is fitted and coupled to the main body 20 through the fitting hole 21 formed in the main body 20, the fastening boss 40 is configured to be fastened by means of a screw to the LED module 30 which is in close contact with the mounting surface 23 on the main body 20, and a connection portion 50 fitted into and electrically connected to a socket provided on a ceiling, a wall surface, or the like is fitted and fixed to an outside of an upper portion of the fastening boss 40.

(14) Moreover, a separate lens holder 60 is fitted and coupled to the bottom surface of the LED module 30 so as to be spaced apart therefrom by a predetermined distance, and lenses 61 are mounted on a surface of the lens holder 60 corresponding to positions corresponding to the respective LEDs 31 constituting the LED module 30 so as to diffuse illumination light emitted from the LEDs 31 and irradiate the illumination light.

(15) In addition, a separate ring-shaped fixing cap 70 is coupled by means of a screw to a lower end of the main body 20. The ring-shaped fixing cap 70 is coupled to the lower end of the main body 20 while enclosing edges of the LED module 30 and the lens holder 60, and thereafter, is fastened to the lower end by means of a screw such that an assembly of the LED module 30 and the lens holder 60 cannot be arbitrarily detached.

(16) In the present invention configured as described above, a guide groove 21a is formed in a longitudinal direction at a position at which an inner peripheral surface of the fitting hole 21 on the main body 20 is divided by a predetermined angle, a guide protrusion 41 is formed in the longitudinal direction on an outer peripheral surface of the fastening boss 40 corresponding to a position corresponding to the guide groove 21a, and a fastening hole 41a is formed inwardly from an lower end of the guide protrusion 41.

(17) In addition, a screw insertion hole 80 is formed in each of the mounting surface 23 on the main body 20 and a surface of the LED module 30 corresponding to the position corresponding to the fastening hole 41a on the guide protrusion 41.

(18) In the present invention, a plurality of air passages 25 which communicate with the annular heat dissipating groove 24 and through which external air flows into the heat dissipating groove 24 or heat flowing into the heat dissipating groove 24 flows to the outside may be radially formed on the mounting surface 23 on the main body 20.

(19) Moreover, in the present invention, as shown in FIG. 7, the annular heat dissipating groove 24 which is formed on the mounting surface 23 on the main body 20 is formed to protrude upward to have a depth being in contact with the heat dissipation fin 22.

(20) In addition, a plurality of protrusion jaws for forming a gap through which external air flows into the ring-shaped fixing cap 70 may be formed at regular intervals on an inner peripheral surface of the ring-shaped fixing cap 70.

(21) Moreover, in the present invention, in order to couple the LED module 30 and the lens holder 60 to each other in a state where the LED module 30 and the lens holder 60 are separated from each other, a plurality of coupling holes 32 are formed on an edge surface of the LED module 30, coupling protrusions 62 fitted into the coupling holes 32 are formed on an upper edge surface of the lens holder 60 corresponding to positions corresponding to the coupling holes 32, and a supporting jaw 62a which supports the edge of the coupling hole 32 is formed at an intermediate portion of the coupling protrusion 62.

(22) Meanwhile, in the present invention, a cover 42 which covers an upper edge of the fitting hole 21 formed in the main body 20 is formed at an intermediate portion of the fastening boss 40, and a plurality of heat dissipating holes 42a are formed in an upper portion of the cover 42.

(23) Effects of the present invention configured as above are as follows.

(24) When the LED lighting lamp 10 with an enhanced heat dissipation function according to the present invention is assembled, first, the fastening boss 40 is fitted and coupled to the fitting hole 21 formed at the center portion of the main body 20 from above the fitting hole 21, and an upper surface of the LED holder 30 comes into close contact with the mounting surface 23 formed in a lower portion of the main body 20 such that the screw insertion hole 80 on the LED holder 30 coincides with the mounting surface 23. Thereafter, a screw is inserted through the screw insertion hole 80 from below the LED holder 30, and if the screw is coupled to the fastening hole 41a formed on a lower surface of the guide rib 41 on the fastening boss 40, the fastening of the LED holder 30 with respect to the main body 20 is completed.

(25) In this state, the connection portion 50 for connecting the socket is fitted to an outer peripheral surface of an upper end of the fastening boss 40 such that the connection portion 50 is fixed, and the connection portion 50 and the LED module 30 are electrically connected to each other.

(26) Thereafter, if the coupling protrusion 62 protruding from the edge of the upper surface of the lens holder 60 is fitted to the coupling hole 32 formed on the edge surface of the LED holder 30, the LED holder 30 and the lens holder 60 are coupled to each other in a state where the LED holder 30 and the lens holder 60 are separated from each other by a predetermined gap while the coupling hole 32 on the LED holder 30 is supported by the supporting jaw 62a on the coupling protrusion 62.

(27) In this state, if the fixing cap 70 is coupled to an outer peripheral surface of the lower end of the main body 20 and is fastened by a screw in a state where outer peripheral surfaces of the LED holder 30 and the lens holder 60 are enclosed by the ring-shaped fixing cap 70, the assembly of the LED lighting lamp with an enhanced heat dissipation function according to the present invention is completed.

(28) In this state, if the connection portion 50 which is fitted and coupled to the upper end of the fastening boss 40 is connected to the socket installed in the ceiling or wall surface and power is supplied, illumination light is emitted while the LEDs 31 mounted on the LED module 30 are turned on, and the illumination light emitted from the LEDs is diffused and irradiated through a lens on the lens holder 60.

(29) Meanwhile, high temperature heat is generated when the LEDs are turned on as described above. Most of the heat generated from the LEDs 31 is transmitted to the heat dissipation fins 22 on the main body 20 through the annular heat dissipating groove 24 formed on the mounting surface 23 on the main body 20 and, thereafter, is rapidly dissipated to the outside. A portion of the heat is introduced to the inside of the fastening boss 40, and thereafter, is rapidly dissipated to the outside through the heat dissipating holes 42a on the cover 42.

(30) In this way, in a case where the air passage 25 is formed on the mounting surface 23 when the heat is dissipated, the heat is dissipated to the outside through the air passage 25 or cool air flows into the annular heat dissipating groove 24 through the air passage 25 from the outside, and thus, it is possible to largely improve heat dissipation efficiency.

(31) Moreover, the external air flow into the ring-shaped fixing cap 70 through the gap formed between the protrusion jaws 71 of the inner surface of the ring-shaped fixing cap 70. Accordingly, heat dissipation can be realized by natural convection.

INDUSTRIAL APPLICABILITY

(32) The present invention relates an LED lighting lamp with an enhanced heat dissipation function, and can be applied to indoor or outdoor bulb and a lighting industry.