TWM482165U - Cup-shaped heat dissipation member applicable in electric-powered light emitting unit - Google Patents

Abstract

The present invention provides a novel cup-shaped heat dissipater structure for meeting the heat dissipation requirement of an electric luminous body; the outer cup bottom of the cup-shaped heat dissipater (100) is formed as a planar or convex or concave surface for accommodating the electric luminous body (200), so the heat generated by the electric luminous body (200) can be dissipated to the exterior from the surface of the heat dissipater, with the enlarged inner recessed surface formed on the cup-shaped structure in the heat dissipater (100) opposite to the installation location of the electric luminous body (200), the heat inside the heat dissipater (100) can also be directly dissipated through the larger heat dissipation area formed on the inner recessed surface of the cup-shaped structure, thereby assisting the electric luminous body (200) to dissipate heat to the exterior.

Description

Cup-shaped heat sink applied to electric energy illuminator

The present invention is directed to the heat dissipation requirement of the electric energy illuminator, for example, when the illuminating body (200) is used as the electric energy illuminator (200), and the first cup-shaped heat dissipating body structure is formed outside the cup-shaped heat dissipating body (100). / or the inner surface, for providing the electric energy illuminator (200), the thermal energy generated by the electric energy illuminator (200), the external heat dissipation by the surface of the heat dissipating body, and further by the heat dissipating body for providing the electric energy illuminating body (200) 100) The concave surface added to the cup-shaped structure, so that the internal heat energy of the heat sink (100) forms a large heat dissipation area through the concave side of the cup-shaped structure to directly dissipate heat, and assists the electric energy illuminator (200) to dissipate heat externally.

The heat sink of the electric energy illuminator (200), which is conventionally applied to the electric illuminating device, for example, the heat dissipating body of the illuminating diode LED illuminating device, generally transmits the heat energy generated by the LED to the heat dissipating body and then dissipates heat from the surface of the heat dissipating body. The thermal area is more limited.

The heat sink of the electric energy illuminator (200), which is conventionally applied to the electric illuminating device, for example, the heat dissipating body of the illuminating diode LED illuminating device, generally transmits the heat energy generated by the LED to the heat dissipating body and then dissipates heat from the surface of the heat dissipating body. The thermal area is limited; the new type is for the heat dissipation requirement of the electric energy illuminator, for example, when the illuminating diode (LED) is used as the electric energy illuminator (200), the first cup-shaped heat dissipating body structure is a cup-shaped heat sink. External and/or internal surface of (100) for providing electrical energy illuminator (200), electric energy illuminator The heat energy generated by (200) is dissipated externally by the surface of the heat dissipating body, and further by the concave surface of the heat dissipating body (100) provided with the electric energy illuminating body (200) facing away from the cup-shaped structure, the heat dissipating body (the heat dissipating body) 100) The internal heat energy directly forms a large heat dissipation area through the concave side of the cup-shaped structure to directly dissipate heat, and assists the electric energy illuminator (200) to dissipate heat externally.

(100)‧‧‧ Heat sink

(101) ‧‧‧Circular heat sink surface

(102)‧‧‧ cup space

(103)‧‧‧Tubular column

(104)‧‧‧Circular round groove

(105)‧‧‧Sawtooth gap

(106)‧‧‧fork ring structure

(107)‧‧‧Multi-chip heat dissipation structure

(108)‧‧‧Multi-column heat dissipation structure

(109)‧‧‧ 护网

(110)‧‧‧Top cover

(111) ‧‧ ‧ pillar

(112) ‧ ‧ vents

(113)‧‧‧through holes

(200)‧‧‧Electric energy illuminators

Figure 1 is a schematic cross-sectional view showing the basic structure of a conventional heat sink (100).

Figure 2 is a top plan view of Figure 1.

FIG. 3 is a schematic cross-sectional view showing the structure of the cup-shaped structure in which the electric energy illuminator (200) is disposed on the heat dissipating body (100) in a single annular circular groove structure.

Figure 4 is a top plan view of Figure 3.

FIG. 5 is a cross-sectional view showing the structure of the multi-annular circular groove in the cup-shaped structure in which the electric energy illuminator (200) is disposed on the heat dissipating body (100).

Figure 6 is a top plan view of Figure 5.

FIG. 7 is a schematic cross-sectional view showing a structure in which a cup-shaped structure of a heat-emitting body (200) disposed in a heat-dissipating body (100) has a single annular circular groove and a tubular middle column is high and a peripheral lower-stage structure is formed. .

Figure 8 is a top plan view of Figure 7.

FIG. 9 is a schematic cross-sectional view showing a structure in which a cup-shaped structure of a heat-emitting body (200) disposed in a heat-dissipating body (100) has a single annular circular groove and a tubular middle column is low, and a peripheral high-order structure is formed. .

Figure 10 is a top plan view of Figure 9.

FIG. 11 shows a multi-circular circular groove (104) and a tubular central column (103) having a cup-shaped structure in which the electric energy illuminator (200) is disposed on the heat dissipating body (100). The class structure is divided into three parts.

Figure 12 is a top plan view of Figure 11.

FIG. 13 is a side view of the present invention in which a heat dissipating body (100) is provided with a crown-shaped zigzag notch (105) at the upper end of the cup-shaped structure facing away from the electric light emitter (200) and has a tubular center pillar (103). One.

Figure 14 is a top plan view of Figure 13.

FIG. 15 shows a multi-crown zigzag-shaped notch (105) at the upper end of the cup-shaped structure facing away from the heat-dissipating body (100), and the upper middle end of the tubular center post (103) is lower. The second schematic of the structure.

Figure 16 is a plan view of Figure 15.

FIG. 17 is a cross-sectional view showing the arrangement of the electric energy illuminator (200) disposed on the heat dissipating body (100) with the tapered cylinder and the cup-shaped structure in a fork-shaped annular structure.

Figure 18 is a top plan view of Figure 17.

FIG. 19 is a side view showing the structure of an embodiment of the present invention in which a heat shield (100) is provided with a protective mesh (109) on the back side of the power illuminator (200).

20 is a top cover (110) disposed on the top of the heat sink (100) with the power illuminator (200) facing away from the heat sink (100) with a venting port (112) and a support post for the support ( 111) A side view of an embodiment.

Figure 21 is a schematic view (111) of the present invention disposed between the top of the heat sink (100) facing away from the heat sink (100) and the top cover (110), and provided with a support for the support (111), and at the air exchange port (112) A side view of the structure of the embodiment in which the protective net (109) is added around.

A heat sink that is conventionally applied to an electric energy illuminator (200) of an electric lighting device, such as a heat sink of a light-emitting diode LED illuminating device, usually produced by an LED The heat energy is transmitted to the heat sink and then radiated to the outside of the heat sink body, and the heat rejection area is limited; the present invention is for the heat dissipation requirement of the electric energy illuminator, for example, when the light emitting diode (LED) is used as the electric energy illuminator (200) The heat dissipation, the first cup-shaped heat sink structure, is the outer and/or inner surface of the cup-shaped heat sink (100) for providing the heat energy generated by the electric energy illuminator (200) and the electric energy illuminator (200) by means of heat dissipation The surface of the body is dissipated externally, and further the inner surface of the heat dissipating body (100) is heated to the concave side of the cup-shaped structure by the concave surface of the heat dissipating body (100) of the electric energy illuminating body (200) facing away from the cup-shaped structure. The heat dissipation area is formed to directly dissipate heat, and the electric energy illuminator (200) is assisted to dissipate heat externally.

1 is a schematic cross-sectional view showing a basic structure of a conventional heat sink (100); FIG. 2 is a top plan view of FIG. 1; as shown in FIG. 1 and FIG. 2, the main components are as follows: a heat sink (100): A circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a one-piece or multi-piece combined structure of materials such as aluminum, copper, ceramics, etc. having good thermal and thermal properties; including parallel or tapered Shape or inverted cone shape, and the bottom of the cup has a through hole (113); the heat sink (100) around the cup and / or the inner ring surface of the cup, the surface is a plane or wave The structure of the outer surface and/or the inner surface of the cup-shaped heat sink for providing the electric energy illuminator (200), the thermal energy generated by the electric energy illuminator (200), and the external heat dissipation by the surface of the heat dissipating body And further adding a concave heat dissipating surface by setting a cup-shaped space (102) formed by the cup-shaped concave structure facing away from the electric energy illuminator (200), so that the internal heat energy of the heat dissipating body (100) is concave through the cup-shaped structure The side forms a large heat dissipation area for direct heat dissipation and convection through the through hole (113) to assist the electric energy Light (200) by the external cooling.

FIG. 3 is a cross-sectional view showing a structure of a single annular circular groove in a cup-shaped structure in which a power illuminator (200) is disposed on a heat dissipating body (100); FIG. 4 is a top view of FIG. 3; 3 and as shown in Figure 4, the main components are as follows: Heat sink (100): a circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a material having a good heat conduction and heat dissipation property such as aluminum, copper, ceramic, or the like, or a combined structure of multiple pieces. Included in the shape of a parallel or tapered or inverted cone cup; wherein: one side of the heat sink (100) is for providing the electrical energy illuminator (200), and the other side of the heat sink (100) has a single annular groove (104) and a tubular center pillar (103) having a through hole (113); one or both of a cup body around the heat sink (100) and/or a cup inner ring surface, the surface being flat or wavy or having The structure of the heat dissipating fins; the outer and/or inner surface of the cup-shaped heat sink for providing the electric energy illuminator (200).

FIG. 5 is a cross-sectional view showing a structure of a multi-annular circular groove in a cup-shaped structure in which a power illuminator (200) is disposed on a heat dissipating body (100); FIG. 6 is a top view of FIG. 5; 5 and FIG. 6 , the main components are as follows: the heat sink (100): a circular shape composed of a material having a good heat conduction and heat dissipation property such as aluminum, copper, ceramic, or the like, or a combined structure. , an elliptical or polygonal cup-shaped structure or an approximately cup-shaped structure; including a parallel or tapered or inverted-conical cup shape; wherein: one side of the heat sink (100) is provided for the electric energy illuminator (200), the heat sink The other side of (100) is a tubular center pillar (103) having two or more annular circular grooves (104) and a through hole (113), and two or more annular heat sink surfaces (101) Any one or one of the cup body around the heat sink (100) and/or the inner ring surface of the cup, the surface is a flat or wavy structure or a structure with heat dissipating fins; the outside of the cup-shaped heat sink and/or Or the inner surface for the person who sets the electric energy illuminator (200).

Figure 7 shows a new type of electric light emitter (200) disposed on the heat sink (100). The cup-shaped structure facing away from the heat sink (100) has a single annular circular groove and a tubular middle column with a higher outer peripheral shape. FIG. 8 is a schematic plan view of FIG. 7; as shown in FIG. 7 and FIG. 8, the main components are as follows: a heat sink (100): a material having good heat conduction and heat dissipation characteristics, such as A circular, elliptical or polygonal cup-shaped structure or an approximately cup-shaped structure composed of a single or multi-piece combined structure of aluminum, copper, ceramics, etc.; including a parallel or tapered or inverted cone shape; One side of the heat sink (100) is provided with an electric energy illuminator (200), and the other side of the heat dissipating body (100) has a single annular circular groove (104) and a tall tubular column with a through hole (113) (103) forming a structure in which the tubular center pillar (103) is higher and the outer periphery is lower-class; the heat sink (100) is surrounded by a cup body and/or a cup inner ring surface, and the surface is flat or A structure having a wavy shape or a heat dissipating fin; an outer and/or inner surface of the cup-shaped heat sink for providing the electric energy illuminator (200).

FIG. 9 is a schematic cross-sectional view showing a structure in which a cup-shaped structure of a heat-emitting body (200) disposed in a heat-dissipating body (100) has a single annular circular groove and a tubular middle column is low, and a peripheral high-order structure is formed. FIG. 10 is a top view of FIG. 9; as shown in FIG. 9 and FIG. 10, the main components are as follows: a heat sink (100): a material having good heat conduction and heat dissipation properties such as aluminum, copper, ceramics, etc. A circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a one-piece or multi-piece composite structure; including a parallel or tapered or inverted-conical cup shape; wherein: a heat sink (100) One side is for providing an electric energy illuminator (200), and the other side of the heat dissipating body (100) has a single annular circular groove (104) and a lower tubular central column (103) having a through hole (113), forming a tubular shape The middle column (103) is lower and the outer periphery is of a higher class shape; the heat sink body (100) is surrounded by one or both of the cup body and/or the cup inner ring surface, and the surface is flat or wavy or has a heat dissipating wing The structure of the film; The outer and/or inner surface of the cup-shaped heat sink is provided for the electric energy illuminator (200).

FIG. 11 shows a multi-circular circular groove (104) and a tubular central column (103) having a cup-shaped structure in which the electric energy illuminator (200) is disposed on the heat dissipating body (100). FIG. 12 is a schematic plan view of FIG. 11; as shown in FIG. 11 and FIG. 12, the main components are as follows: heat sink (100): is characterized by good heat conduction and heat dissipation. A circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a material such as aluminum, copper, ceramic, or the like, or a multi-piece combination structure; including a parallel or tapered or inverted cone shape Wherein: one side of the heat sink (100) is provided with an electric energy illuminator (200), and the other side of the heat dissipating body (100) has two or more annular circular grooves (104) and a through hole (113) The upper tubular center column (103) and the two or more layers of the annular heat sink surface (101) form a structure in which the tubular center pillar (103) is high and the outer periphery is of a lower order; the heat sink ( 100) either or both of the cup body and/or the inner cup annulus, the surface being planar or wavy or having a structure of heat dissipating fins; cup shape The external and/or internal surface of the thermal body is provided for the electric energy illuminator (200); the heat dissipating body (100) further includes a heat dissipating body (100) having two cup-shaped structures facing away from the electric illuminant (200) One or more annular circular grooves (104) and tubular middle columns (103) and two or more layers of annular heat sink surfaces (101) form a structure having a relatively high level of periphery.

FIG. 13 is a side view of the present invention in which a heat dissipating body (100) is provided with a crown-shaped zigzag notch (105) at the upper end of the cup-shaped structure facing away from the electric light emitter (200) and has a tubular center pillar (103). Figure 14 is a top plan view of Figure 13; As shown in FIG. 13 and FIG. 14 , the main components are as follows: the heat sink (100): is composed of a material having good heat conduction and heat dissipation characteristics such as aluminum, copper, ceramics, or the like, or a combined structure. a circular, elliptical or polygonal cup-shaped structure or an approximately cup-shaped structure; including a parallel or tapered or inverted-conical cup shape; wherein: one side of the heat sink (100) is provided with an electrical energy illuminator (200), The other side of the heat dissipating body (100) has a cup-shaped concave structure, and an annular structure having a crown-shaped zigzag notch (105) at the upper end of the cup-shaped concave structure and a tubular center pillar (103) having a through hole (113), The tubular middle column (103) and the outer ring-shaped serrated notch (105) have an annular structure of equal height or unequal height; the circumference of the heat sink (100) and/or the inner ring surface of the cup or One of the surfaces having a planar or wavy shape or a heat dissipating fin; the outer and/or inner surface of the cup-shaped heat sink for providing the electric energy illuminator (200); the above-mentioned multiple crown-shaped zigzag notch The multiple ring structure of (105) means two or more layers.

FIG. 15 shows a multi-crown zigzag-shaped notch (105) at the upper end of the cup-shaped structure facing away from the heat-dissipating body (100), and the upper middle end of the tubular center post (103) is lower. FIG. 16 is a top view of FIG. 15; as shown in FIG. 15 and FIG. 16, the main components are as follows: a heat sink (100): a material such as aluminum or copper having good heat conduction and heat dissipation characteristics. a circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a one-piece or multi-piece composite structure of ceramics or the like; including a parallel or tapered or inverted-conical cup shape; wherein: a heat sink One side of (100) is for providing an electric energy illuminator (200), and the other side of the heat dissipating body (100) has a cup-shaped concave structure, and the upper end of the cup-shaped concave structure has multiple crown-shaped zigzag notches (105) and The tubular middle column (103) of the through hole (113) is formed to have a tubular middle column (103) higher and a crown-shaped zigzag notch (105) having a lower multiple annular structure; the heat sink (100) either or both of the cup body and/or the inner cup annulus, the surface being planar or wavy or having a structure of heat dissipating fins; the outer and/or inner surface of the cup shaped heat sink, For the installation of the electric energy illuminator (200).

The heat dissipating body (100) further includes a heat dissipating body (100) having a plurality of crown-shaped zigzag notches (105) and a tubular center post (103) at a top end of the cup-shaped structure facing away from the electric energy illuminating body (200), forming a tubular shape The plurality of annular structures having a lower column (103) and a crown-shaped zigzag notch (105) have a higher structure; the multiple ring structures of the plurality of crown-shaped zigzag notches (105) refer to two or more layers.

FIG. 17 is a cross-sectional view showing the arrangement of the electric energy illuminator (200) disposed on the heat dissipating body (100) with the tapered cylindrical body and the cup-shaped structure in a fork-shaped annular structure; FIG. As shown in FIG. 17 and FIG. 18, the main components are as follows: the heat sink (100): an integrated or multi-piece composite structure of materials such as aluminum, copper, ceramics, etc. having good heat conduction and heat dissipation characteristics. a circular, elliptical or polygonal cup-shaped structure or an approximately cup-shaped structure; comprising a parallel or tapered or inverted-conical cup shape; wherein: one side of the heat sink (100) is for providing an electric energy illuminator ( 200), the other side of the heat sink (100) has a cup-shaped concave structure, and the cup-shaped concave structure has a fork-shaped annular structure (106) and a tapered tubular middle column (103) having a through hole (113) One or both of the cup body of the heat sink (100) and/or the inner ring surface of the cup, the surface is a flat or wavy structure or a structure with heat dissipating fins; the outside of the cup-shaped heat sink and/or The inner surface is provided for the electric energy illuminator (200).

FIG. 19 is a side view showing the structure of an embodiment in which a protective net (109) is disposed on a back side of a power illuminant (200) disposed on a heat dissipating body (100); As shown in FIG. 19, in the embodiment of the present invention, the heat sink (100) is provided with a protective mesh (109) disposed on the back of the power illuminant (200).

20 is a top cover (110) disposed on the top of the heat sink (100) disposed on the back of the heat sink (100) with a gas exchange port (112) and a support for the support A side view of the embodiment of (111); as shown in FIG. 20, in the embodiment of the present invention, the top cover (110) is disposed on the top of the heat sink (100) with the power illuminator (200) facing away from the top, and There is a venting port (112) between the two and a pillar (111) provided for coupling support.

Figure 21 is a schematic view (111) of the present invention disposed between the top of the heat sink (100) facing away from the heat sink (100) and the top cover (110), and provided with a support for the support (111), and at the air exchange port (112) A side view of the structure of the embodiment of the protective net (109) is provided; as shown in FIG. 21, in the embodiment of the present invention, the top surface and the top of the electric energy illuminator (200) are disposed on the heat dissipating body (100). Between the covers (110), a support (111) for the support is provided, and a net (109) is placed around the air exchange port (112).

The present invention is applied to the electric energy illuminator (200) of the cup-shaped heat dissipating body of the electric energy illuminator, and the structural form further includes the electric illuminant, the optical element and the lamp cover.

(100)‧‧‧ Heat sink

(101) ‧‧‧Circular heat sink surface

(103)‧‧‧Tubular column

(104)‧‧‧Circular round groove

(106)‧‧‧fork ring structure

(113)‧‧‧through holes

(200)‧‧‧Electric energy illuminators

Claims (9)

A cup-shaped heat sink applied to an electric energy illuminator, which is provided with a single-circular circular groove structure for the heat-dissipating body (100). The main structure of the cup-shaped structure facing away from the electric illuminant (200) is as follows: heat sink (100) a circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a one-piece or multi-piece composite structure of materials having good thermal and thermal properties such as aluminum, copper, ceramics, etc.; a tapered or inverted tapered cup shape; wherein: one side of the heat sink (100) is provided with an electric energy illuminator (200), and the other side of the heat dissipating body (100) has a single annular circular groove (104) and a tubular center pillar (103) penetrating through the hole (113); one or both of the cup body around the heat sink body (100) and/or the inner ring surface of the cup, the surface is a flat or wavy structure or a structure with heat dissipating fins The outer and/or inner surface of the cup-shaped heat sink is provided for the electric energy illuminator (200). The cup-shaped heat sink applied to the electric energy illuminator according to the first aspect of the patent application, further disposed on the heat dissipating body (100), wherein the cup-shaped structure of the electric illuminant (200) facing away is a multi-annular circular groove structure, The main components are as follows: a heat sink (100): a circular, elliptical or polygonal cup-shaped structure composed of a material having a good heat conduction and heat dissipation property such as aluminum, copper, ceramic, or the like, or a combined structure of multiple pieces or Approximate cup-shaped structure; including a parallel or tapered or inverted-conical cup shape; wherein: one side of the heat sink (100) is for providing the electric energy illuminator (200), and the other side of the heat dissipating body (100) has two One or more annular circular grooves (104) and a tubular center column (103) having a through hole (113), and two or more layers of the annular heat sink surface (101); the heat sink (100) One or both of the cup body and/or the inner ring surface of the cup, the surface of which is a flat or wavy shape or a structure with heat dissipating fins; the outer and/or inner surface of the cup-shaped heat dissipating body for setting electrical energy to emit light Body (200). The cup-shaped heat sink applied to the electric energy illuminator according to the first aspect of the patent application, further disposed on the heat dissipating body (100), the electric illuminant (200) facing away from the cup-shaped structure in a single annular circular groove and a tubular shape The column is higher and the lower part is lower-class structure. The main components are as follows: Heat sink (100): a circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a material having a good heat conduction and heat dissipation property such as aluminum, copper, ceramic, or the like, or a combined structure of multiple pieces. Included in the shape of a parallel or tapered or inverted cone cup; wherein: one side of the heat sink (100) is for providing the electrical energy illuminator (200), and the other side of the heat sink (100) has a single annular groove (104) and a taller tubular center post (103) having a through hole (113) forming a structure in which the tubular center post (103) is higher and the outer periphery is lower in class; the periphery of the cup of the heat sink (100) and/or Or one or both of the inner rings of the cup, the surface being a flat or wavy or heat-dissipating structure; the outer and/or inner surface of the cup-shaped heat sink for providing the electrical energy illuminator (200) . The cup-shaped heat sink applied to the electric energy illuminator according to the first aspect of the patent application, further disposed on the heat dissipating body (100), the electric illuminant (200) facing away from the cup-shaped structure in a single annular circular groove and a tubular shape The column is low and the outer part is of a higher class structure. The main components are as follows: the heat sink (100): it is composed of a material with good heat conduction and heat dissipation properties such as aluminum, copper, ceramics, etc. a circular, elliptical or polygonal cup-shaped structure or an approximately cup-shaped structure; including a parallel or tapered or inverted-conical cup shape; wherein: one side of the heat sink (100) is for providing an electrical energy illuminator (200) The other side of the heat sink (100) has a single annular circular groove (104) and a lower tubular central column (103) having a through hole (113), and the tubular middle column (103) is formed to be lower and the periphery is higher. a structure of a class; one or both of the cup body of the heat sink (100) and/or one of the inner ring faces, the surface is a flat or wavy structure or a structure with heat dissipating fins; the exterior of the cup-shaped heat sink And/or the inner surface for providing the electrical energy illuminator (200). The cup-shaped heat sink applied to the electric energy illuminator according to the second aspect of the patent application, further disposed on the heat dissipating body (100), the electric light illuminator (200) having a cup-shaped structure facing away from the multi-annular circular groove (104) And the tubular middle column (103) is higher and the outer periphery is lower than the multi-stage structure, and its main components are as follows: the heat sink (100): is a material having good heat conduction and heat dissipation characteristics such as aluminum, copper, ceramic A circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a one-piece or multi-piece composite structure; including a parallel or tapered or inverted-conical cup shape; wherein: a heat sink (100) One side is for providing an electric energy illuminator (200), and the other side of the heat dissipating body (100) is a tall tubular column having two or more annular circular grooves (104) and a through hole (113) (103), and two or more layers of the annular heat sink surface (101), forming a tubular middle column (103) having a higher and lower peripheral multi-stage structure; the heat sink (100) around the cup body and / or one of the inner or outer surfaces of the cup, the surface is a flat or wavy or heat-dissipating structure; the outer and / or inner surface of the cup-shaped heat sink for the installation of electrical energy illuminators (200) The heat dissipating body (100) further includes a heat dissipating body (100) having two or more annular circular grooves (104) and a tubular middle column (103) disposed on the cup-shaped structure facing away from the electric energy luminous body (200). And two or more layers of the annular heat sink surface (101) to form a structure having a relatively high level of periphery. The cup-shaped heat sink applied to the electric energy illuminator according to claim 1 is further disposed on the heat dissipating body (100), and the upper end of the cup-shaped structure facing away from the electric illuminant (200) has a crown-shaped zigzag notch ( 105) and having a tubular center column (103), the main components of which are as follows: heat sink (100): is composed of a material having good heat conduction and heat dissipation characteristics such as aluminum, copper, ceramics, etc. a circular, elliptical or polygonal cup-shaped structure or an approximately cup-shaped structure; including a parallel or tapered or inverted-conical cup shape; wherein: one side of the heat sink (100) is for providing an electrical energy illuminator (200) The other side of the heat dissipating body (100) has a cup-shaped concave structure, an annular structure having a crown-shaped zigzag notch (105) at the upper end of the cup-shaped concave structure, and a tubular center column (103) having a through hole (113) The tubular middle column (103) and the outer ring-shaped serrated notch (105) have an annular structure of equal height or unequal height; the circumference of the heat sink (100) and/or the inner surface of the cup Or one of the surfaces having a flat or wavy shape or a structure with heat dissipating fins; The outer member and / or the internal surface of, for installing power light emitter (200) by; and the multiple serrated crown-like notch (105) of the multi-ring structure refers to two or more layers of The above. The cup-shaped heat sink applied to the electric energy illuminator according to claim 5, further disposed on the heat dissipating body (100), wherein the upper end of the cup-shaped structure facing away from the electric illuminant (200) has a plurality of crown-shaped zigzag notches (105) and the tubular middle column (103) has a relatively high peripheral low structure, and its main components are as follows: a heat sink (100): a material that is made of materials having good heat conduction and heat dissipation properties such as aluminum, copper, ceramics, etc. a circular, elliptical or polygonal cup-shaped or approximately cup-shaped structure composed of a combined structure; including a parallel or tapered or inverted-conical cup shape; wherein: one side of the heat sink (100) is provided for setting The electric energy illuminator (200), the other side of the heat dissipating body (100) has a cup-shaped concave structure, and the upper end of the cup-shaped concave structure has multiple crown-shaped zigzag notches (105) and a tubular shape with a through hole (113) The column (103) is formed to have a tubular middle column (103) which is taller and has a crown-shaped zigzag notch (105) having a lower multiple annular structure; the heat sink body (100) around the cup body and/or the cup inner ring surface Or one of the surfaces having a planar or wavy shape or a structure with heat dissipating fins; The outer and/or inner surface of the heat dissipating body is provided for providing the electric energy illuminator (200); the heat dissipating body (100) further comprises a heat dissipating body (100) disposed around the cup-shaped structure facing away from the electric illuminating body (200) The upper end has a plurality of crown-shaped serrated notches (105) and a tubular center post (103), forming a plurality of annular structures with a lower central tubular column (103) and a crown-shaped serrated notch (105); The multiple annular structure of the zigzag notch (105) refers to two or more layers. The cup-shaped heat sink applied to the electric energy illuminator according to the first aspect of the patent application, further disposed on the heat dissipating body (100), the electric illuminant (200) is disposed opposite to the tapered cylinder and the cup-shaped structure is a fork-shaped ring. The main structure is as follows: the heat sink (100): a circular, elliptical or polygonal structure composed of a material having a good heat conduction and heat dissipation property such as aluminum, copper, ceramic, or the like, or a combined structure of multiple pieces. Cup shape a structure or an approximate cup-shaped structure; comprising a parallel or tapered or inverted cone shape; wherein: one side of the heat sink (100) is for providing an electrical energy illuminator (200), and the other side of the heat sink (100) is The cup-shaped concave structure is a fork-shaped annular structure (106) and a tapered tubular middle column (103) having a through hole (113); and a cup around the heat sink (100) and / or one of the inner or outer surfaces of the cup, the surface is a flat or wavy or heat-dissipating structure; the outer and / or inner surface of the cup-shaped heat sink for the installation of electrical energy illuminators (200) By. The cup-shaped heat sink applied to the electric energy illuminator according to claim 1, further comprising: (1) providing a protective net (109) on the back of the electric illuminant (200) disposed on the heat dissipating body (100) (2) The top cover (110) is disposed on the top of the heat sink (100) disposed on the back side of the heat sink (100), and the air exchange port (112) is provided between the heat sink (100) and the support pillar is provided for joint support ( 111); (3) (1) and (2) at the same time set.