CN203533483U - Cup-shaped heat dissipation member applicable in electric luminous body - Google Patents

Abstract

The utility model provides a cup-shaped heat dissipation member applicable in an electric luminous body. A conventional heat dissipation device applicable in the electric luminous body of an electric illumination device, e.g. a heat dissipater used in an LED illumination device, usually transmits the heat generated by the LED to the heat dissipater then dissipates the heat to the exterior through the surface of the heat dissipater, thereby limiting the heat dissipation area. The cup-shaped heat dissipation member is provided for meeting the heat dissipation requirement of the electric luminous body, e.g. the heat dissipation requirement of a light emitting diode (LED) which is adopted as the electric luminous body. A cup-shaped dissipater structure is created. The exterior and/or interior surface a cup-shaped heat dissipater is used for accommodating the electric luminous body, so the heat generated by the electric luminous body 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 opposite to the installation location of the electric luminous body, the heat inside the heat dissipater 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 to dissipate heat to the exterior.

Description

Be applied to the cup-shaped radiator of electric energy illuminator

Technical field

The utility model is the radiating requirements for electric energy illuminator, for example, heat radiation while using light emitting diode (LED) as electric energy illuminator, pioneering cup-shaped radiator structure, outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set, the heat energy that electric energy illuminator produces, by the externally heat radiation of radiator surface, and further by confession, the inner concave that the cup-shaped structure dorsad of the radiator of electric energy illuminator increases is set, making radiator internal heat energy form larger area of dissipation through cup-shaped structure inner concave side directly dispels the heat, assist electric energy illuminator externally to dispel the heat.

Background technology

Tradition is applied to the heat abstractor of the electric energy illuminator of electric lighting device, the radiator of light emitting diode LED lighting device for example, and the heat transfer conventionally LED being produced is externally dispelled the heat by the surface of radiator to radiator again, and heat extraction area is more limited.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of cup-shaped radiator that is applied to electric energy illuminator, can the inner concave that the cup-shaped structure dorsad of the radiator of electric energy illuminator increases be set by confession, make radiator internal heat energy form larger area of dissipation through cup-shaped structure inner concave side and directly dispel the heat, assist electric energy illuminator externally to dispel the heat.

In order to solve the problems of the technologies described above, the utility model provides a kind of cup-shaped radiator that is applied to electric energy illuminator, for electric energy illuminator cup-shaped structure is dorsad set in radiator, is monocycle shape circular groove structure, and its main composition is as follows:

--radiator: the circle, ellipse, polygon cup-shaped structure or the approximate cup-shaped structure that are formed as aluminium, copper, ceramic material integral type or many fabricated structures for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator arranges electric energy illuminator for supplying, and the another side of radiator is the adelphostele with single ring-type circular groove and tool through hole; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set.

Further, in radiator, electric energy illuminator cup-shaped structure is dorsad set and is polycyclic circular groove structure, its main composition is as follows:

--radiator: the circle, ellipse, polygon cup-shaped structure or the approximate cup-shaped structure that are formed as aluminium, copper, ceramic material integral type or many fabricated structures for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator arranges electric energy illuminator for supplying, and the another side of radiator is the adelphostele with two or more ring-type circular grooves and tool through hole, and two-layer or two-layer above ring-type radiator surface person; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set.

Further, in radiator, electric energy illuminator cup-shaped structure is dorsad set and is monocycle shape circular groove and adelphostele compared with high and peripheral lower-order level shape structure, its main composition is as follows:

--radiator: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as aluminium, copper, ceramic material integral type or many fabricated structures for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator arranges electric energy illuminator for supplying, and the another side of radiator is the higher adelphostele with single ring-type circular groove and tool through hole, form adelphostele 3 compared with the structure of high and peripheral lower-order level shape; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set.

Further, in radiator, electric energy illuminator cup-shaped structure is dorsad set and is monocycle shape circular groove and adelphostele compared with low and peripheral higher-order level shape structure, its main composition is as follows:

--radiator: the circle, ellipse, polygon cup-shaped structure or the approximate cup-shaped structure that are formed as aluminium, copper, ceramic material integral type or many fabricated structures for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator arranges electric energy illuminator for supplying, and the another side of radiator is the lower adelphostele with single ring-type circular groove and tool through hole, form adelphostele compared with the structure of low and peripheral higher-order level shape; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set.

Further, in radiator, electric energy illuminator cup-shaped structure is dorsad set and is polycyclic circular groove and adelphostele compared with high and peripheral lower many step shapes structure, its main composition is as follows:

--radiator: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as aluminium, copper, ceramic material integral type or many fabricated structures for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator is for supplying to arrange electric energy illuminator, the another side of radiator is the higher adelphostele with two or more ring-type circular grooves and tool through hole, and two-layer or two-layer above ring-type radiator surface, form adelphostele compared with the structure of high and peripheral lower many step shapes; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set;

Above-mentioned radiator further comprises that radiator has two or more ring-type circular grooves and adelphostele and two-layer or two-layer above ring-type radiator surface in electric energy illuminator cup-shaped structure is dorsad set, and forms the structure of peripheral more much higher step shape.

Further, in radiator, electric energy illuminator cup-shaped structure is dorsad set and is around crown-shaped indentation and has adelphostele in upper end, its main composition is as follows:

--radiator: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator is for supplying to arrange electric energy illuminator, the another side of radiator is the cup-shaped concave inward structure of tool, the loop configuration of upper end tool crown-shaped indentation and the adelphostele of tool through hole around cup-shaped concave inward structure, the loop configuration of adelphostele and peripheral tool crown-shaped indentation is the structure that is contour or not contour; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set;

The multi-ringed structure of above-mentioned multiple crown-shaped indentation for refer to two-layer or two-layer more than.

Further, in radiator, electric energy illuminator cup-shaped structure is dorsad set and is multiple crown-shaped indentation and the lower structure in the higher periphery of adelphostele in upper end around, its main composition is as follows:

--radiator: the circle, ellipse, polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator is for supplying to arrange electric energy illuminator, the another side of radiator is the cup-shaped concave inward structure of tool, the adelphostele of the multiple crown-shaped indentation of upper end tool and tool through hole around cup-shaped concave inward structure, forms adelphostele and is lower multi-ringed structure compared with high and peripheral tool crown-shaped indentation; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set;

Above-mentioned radiator further comprises that radiator, in electric energy illuminator the cup-shaped structure dorsad around multiple crown-shaped indentation of upper end tool and adelphostele are set, forms adelphostele compared with the higher structure of multi-ringed structure of low and peripheral tool crown-shaped indentation;

The multi-ringed structure of above-mentioned multiple crown-shaped indentation for refer to two-layer or two-layer more than.

Further, arrange that electric energy illuminator arranges taper cylinder dorsad and cup-shaped structure is fork-shaped circulus in radiator, its main composition is as follows:

--radiator: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as aluminium, copper, ceramic material integral type or many fabricated structures for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator arranges electric energy illuminator for supplying, and the another side of radiator is the cup-shaped concave inward structure of tool, and cup-shaped concave inward structure is the tapered tubular center pillar with fork-shaped circulus and tool through hole; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator is set.

Further, comprising:

One, the top dorsad that in radiator electric energy illuminator is set adds protecting wire net;

Two, in radiator, electric energy illuminator top is dorsad set top cover is set, and have scavenge port and setting between the two, be made for and connect the pillar supporting;

Three, above-mentioned one and two arrange simultaneously.

The utility model can arrange the inner concave that the cup-shaped structure dorsad of the radiator of electric energy illuminator increases by confession, makes radiator internal heat energy form larger area of dissipation through cup-shaped structure inner concave side and directly dispels the heat, and assists electric energy illuminator externally to dispel the heat.

Accompanying drawing explanation

Figure 1 shows that the basic structure cross-sectional schematic of traditional heat-dissipating body 100;

Figure 2 shows that the schematic top plan view of Fig. 1;

Figure 3 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is monocycle shape circular groove structure cross-sectional schematic;

Figure 4 shows that the schematic top plan view of Fig. 3;

Figure 5 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is polycyclic circular groove structure cross-sectional schematic;

Figure 6 shows that the schematic top plan view of Fig. 5;

Figure 7 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is monocycle shape circular groove and adelphostele compared with one of high and peripheral lower-order level shape structure cross-sectional schematic;

Figure 8 shows that the schematic top plan view of Fig. 7;

Figure 9 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is monocycle shape circular groove and adelphostele compared with two of low and peripheral higher-order level shape structure cross-sectional schematic;

Figure 10 shows that the schematic top plan view of Fig. 9;

Figure 11 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is polycyclic circular groove 104 and adelphostele 103 compared with three of high and peripheral lower many step shapes structure cross-sectional schematic;

Figure 12 shows that the schematic top plan view of Figure 11;

Figure 13 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is crown-shaped indentation 105 and has one of schematic side view of adelphostele 103 in upper end around;

Figure 14 shows that the schematic top plan view of Figure 13;

Figure 15 shows that the utility model in radiator 100 arrange electric energy illuminator 200 cup-shaped structure dorsad around upper end be multiple crown-shaped indentation 105 and the lower structural representation in the higher periphery of adelphostele 103 two;

Figure 16 shows that the top view of Figure 15;

Figure 17 shows that the utility model arranges electric energy illuminator 200 in radiator 100 cross-sectional schematic that taper cylinder and cup-shaped structure are fork-shaped circulus is set dorsad;

Figure 18 shows that the schematic top plan view of Figure 17;

Figure 19 top dorsad that to be the utility model arrange electric energy illuminator 200 in radiator 100 adds the example structure schematic side view of protecting wire net 109;

Figure 20 is that the utility model arranges electric energy illuminator 200 top dorsad in radiator 100 top cover 110 is set, and has scavenge port 112 and arrange and be made for the embodiment schematic side view that connects the pillar 111 supporting between the two;

Figure 21 is that the utility model arranges between electric energy illuminator 200 top and top cover 110 dorsad in radiator 100, arranges to be made for to connect the pillar 111 supporting, and adds the example structure schematic side view of protecting wire net 109 around in scavenge port 112.

In figure, 100: radiator

101: ring-type radiator surface

102: cup-shaped space

103: adelphostele

104: ring-type circular groove

105: indentation

106: fork-shaped circulus

107: multiple-piece radiator structure

108: polystyle radiator structure

109: protecting wire net

110: top cover

111: pillar

112: scavenge port

113: through hole

200: electric energy illuminator.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, so that those skilled in the art can better understand the utility model being implemented, but illustrated embodiment is not as to restriction of the present utility model.

Tradition is applied to the heat abstractor of the electric energy illuminator 200 of electric lighting device, the radiator of light emitting diode LED lighting device for example, and the heat transfer conventionally LED being produced is externally dispelled the heat by the surface of radiator to radiator again, and heat extraction area is more limited;

The utility model is the radiating requirements for electric energy illuminator, for example, heat radiation while using light emitting diode (LED) as electric energy illuminator 200, pioneering cup-shaped radiator structure, outside and/or the inner surface of cup-shaped radiator 100, for electric energy illuminator 200 is set, the heat energy that electric energy illuminator 200 produces, by the externally heat radiation of radiator surface, and further by confession, the inner concave that the cup-shaped structure dorsad of the radiator 100 of electric energy illuminator 200 increases is set, making radiator 100 internal heat energy form larger area of dissipation through cup-shaped structure inner concave side directly dispels the heat, assist externally heat radiation of electric energy illuminator 200.

Figure 1 shows that the basic structure cross-sectional schematic of traditional heat-dissipating body 100;

Figure 2 shows that the schematic top plan view of Fig. 1;

As shown in Fig. 1 and Fig. 2, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile, and tool through hole 113 at the bottom of its glass; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set, the heat energy that electric energy illuminator 200 produces, by the externally heat radiation of radiator surface, and the indent radiating surface further increasing by the formed cup-shaped space 102 of electric energy illuminator 200 cup-shaped concave inward structure is dorsad set, make radiator 100 internal heat energy form the directly heat radiation and through the convection current of through hole 113 of larger area of dissipation through cup-shaped structure inner concave side, assist externally heat radiation of electric energy illuminator 200.

Figure 3 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is monocycle shape circular groove structure cross-sectional schematic;

Figure 4 shows that the schematic top plan view of Fig. 3;

As shown in Fig. 3 and Fig. 4, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator 100 arranges electric energy illuminator 200 for supplying, and the another side of radiator 100 is the adelphostele 103 with single ring-type circular groove 104 and tool through hole 113; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set.

Figure 5 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is polycyclic circular groove structure cross-sectional schematic;

Figure 6 shows that the schematic top plan view of Fig. 5;

As shown in Fig. 5 and Fig. 6, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator 100 arranges electric energy illuminator 200 for supplying, and the another side of radiator 100 is the adelphostele 103 with two or more ring-type circular grooves 104 and tool through hole 113, and two-layer or two-layer above ring-type radiator surface 101; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set.

Figure 7 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is monocycle shape circular groove and adelphostele compared with one of high and peripheral lower-order level shape structure cross-sectional schematic;

Figure 8 shows that the schematic top plan view of Fig. 7;

As shown in Fig. 7 and Fig. 8, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator 100 arranges electric energy illuminator 200 for supplying, and the another side of radiator 100 is the higher adelphostele 103 with single ring-type circular groove 104 and tool through hole 113, form adelphostele 103 compared with the structure of high and peripheral lower-order level shape; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set.

Figure 9 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is monocycle shape circular groove and adelphostele compared with two of low and peripheral higher-order level shape structure cross-sectional schematic;

Figure 10 shows that the schematic top plan view of Fig. 9;

As shown in Fig. 9 and Figure 10, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator 100 arranges electric energy illuminator 200 for supplying, and the another side of radiator 100 is the lower adelphostele 103 with single ring-type circular groove 104 and tool through hole 113, form adelphostele 103 compared with the structure of low and peripheral higher-order level shape; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set.

Figure 11 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is polycyclic circular groove 104 and adelphostele 103 compared with three of high and peripheral lower many step shapes structure cross-sectional schematic;

Figure 12 shows that the schematic top plan view of Figure 11;

As shown in Figure 11 and Figure 12, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator 100 is for supplying to arrange electric energy illuminator 200, the another side of radiator 100 is the higher adelphostele 103 with two or more ring-type circular grooves 104 and tool through hole 113, and two-layer or two-layer above ring-type radiator surface 101, form adelphostele 103 compared with the structure of high and peripheral lower many step shapes; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set;

Above-mentioned radiator 100 further comprises that radiator 100 has two or more ring-type circular grooves 104 and adelphostele 103 and two-layer or two-layer above ring-type radiator surface 101 in electric energy illuminator 200 cup-shaped structure is dorsad set, and forms the structure of peripheral more much higher step shape.

Figure 13 shows that the utility model arranges electric energy illuminator 200 cup-shaped structure dorsad in radiator 100 and is crown-shaped indentation 105 and has one of schematic side view of adelphostele 103 in upper end around;

Figure 14 shows that the schematic top plan view of Figure 13;

As shown in Figure 13 and Figure 14, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator 100 is for supplying to arrange electric energy illuminator 200, the another side of radiator 100 is the cup-shaped concave inward structure of tool, the loop configuration of upper end tool crown-shaped indentation 105 and the adelphostele 103 of tool through hole 113 around cup-shaped concave inward structure, adelphostele 103 is the structure that is contour or not contour with the loop configuration of peripheral tool crown-shaped indentation 105; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set;

The multi-ringed structure of above-mentioned multiple crown-shaped indentation 105 for refer to two-layer or two-layer more than.

Figure 15 shows that the utility model in radiator 100 arrange electric energy illuminator 200 cup-shaped structure dorsad around upper end be multiple crown-shaped indentation 105 and the lower structural representation in the higher periphery of adelphostele 103 two;

Figure 16 shows that the top view of Figure 15;

As shown in Figure 15 and Figure 16, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator 100 is for supplying to arrange electric energy illuminator 200, the another side of radiator 100 is the cup-shaped concave inward structure of tool, the adelphostele 103 of the multiple crown-shaped indentation 105 of upper end tool and tool through hole 113 around cup-shaped concave inward structure, forms adelphostele 103 and is lower multi-ringed structure compared with high and peripheral tool crown-shaped indentation 105; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set.

Above-mentioned radiator 100 further comprises that radiator 100, in electric energy illuminator 200 the cup-shaped structure dorsad around multiple crown-shaped indentation 105 of upper end tool and adelphostele 103 are set, forms adelphostele 103 compared with the higher structure of multi-ringed structure of low and peripheral tool crown-shaped indentation 105;

The multi-ringed structure of above-mentioned multiple crown-shaped indentation 105 for refer to two-layer or two-layer more than.

Figure 17 shows that the utility model arranges electric energy illuminator 200 in radiator 100 cross-sectional schematic that taper cylinder and cup-shaped structure are fork-shaped circulus is set dorsad;

Figure 18 shows that the schematic top plan view of Figure 17;

As shown in Figure 17 and Figure 18, its main composition is as follows:

--radiator 100: circle, ellipse or the polygon cup-shaped structure or the approximate cup-shaped structure that are formed as material integral type or many fabricated structures such as aluminium, copper, potteries for the material by the good heat conduction of tool and heat dissipation characteristics; Comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator 100 arranges electric energy illuminator 200 for supplying, and the another side of radiator 100 is the cup-shaped concave inward structure of tool, and cup-shaped concave inward structure is the tapered tubular center pillar 103 with fork-shaped circulus 106 and tool through hole 113; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator 100;

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator 200 is set.

Figure 19 top dorsad that to be the utility model arrange electric energy illuminator 200 in radiator 100 adds the example structure schematic side view of protecting wire net 109;

As shown in Figure 19, in the utility model embodiment, in radiator 100, for the top dorsad that electric energy illuminator 200 is set, add protecting wire net 109.

Figure 20 is that the utility model arranges electric energy illuminator 200 top dorsad in radiator 100 top cover 110 is set, and has scavenge port 112 and arrange and be made for the embodiment schematic side view that connects the pillar 111 supporting between the two;

As shown in Figure 20, in the utility model embodiment, in radiator 100, electric energy illuminator 200 top is dorsad set top cover 110 is set, and have scavenge port 112 and arrange to be made for and connect the pillar 111 supporting between the two.

Figure 21 is that the utility model arranges between electric energy illuminator 200 top and top cover 110 dorsad in radiator 100, arranges to be made for to connect the pillar 111 supporting, and adds the example structure schematic side view of protecting wire net 109 around in scavenge port 112;

As shown in Figure 21, in the utility model embodiment, in radiator 100, arrange between electric energy illuminator 200 top and top cover 110 dorsad, arrange and be made for the pillar 111 that connects support, and add protecting wire net 109 around in scavenge port 112.

This is applied to the electric energy illuminator 200 described in the cup-shaped radiator of electric energy illuminator, and its structural form further comprises by electric energy illuminator and optical module and lampshade and being formed.

The above embodiment is only the preferred embodiment for absolutely proving that the utility model is lifted, and protection domain of the present utility model is not limited to this.Being equal to that those skilled in the art do on the utility model basis substitutes or conversion, all within protection domain of the present utility model.Protection domain of the present utility model is as the criterion with claims.

Claims (9)

1. be applied to a cup-shaped radiator for electric energy illuminator, for electric energy illuminator (200) cup-shaped structure is dorsad set in radiator (100), be monocycle shape circular groove structure, it is characterized in that, its main composition is as follows:

--radiator (100): comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator (100) is for supplying to arrange electric energy illuminator (200), and the another side of radiator (100) is for having the adelphostele (103) of single ring-type circular groove (104) and tool through hole (113); Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator (100);

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator (200) is set.

2. be applied to a cup-shaped radiator for electric energy illuminator, further in radiator (100), electric energy illuminator (200) cup-shaped structure be dorsad set and be polycyclic circular groove structure, it is characterized in that, its main composition is as follows:

--radiator (100): comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator (100) is for supplying to arrange electric energy illuminator (200), the another side of radiator (100) is for having the adelphostele (103) of two or more ring-type circular grooves (104) and tool through hole (113), and two-layer or two-layer above ring-type radiator surface (101) person; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator (100);

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator (200) is set.

3. a cup-shaped radiator that is applied to electric energy illuminator, further in radiator (100), electric energy illuminator (200) cup-shaped structure is dorsad set and is monocycle shape circular groove and adelphostele compared with high and peripheral lower-order level shape structure, it is characterized in that, its main composition is as follows:

--radiator (100): comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator (100) is for supplying to arrange electric energy illuminator (200), the another side of radiator (100), for having the higher adelphostele (103) of single ring-type circular groove (104) and tool through hole (113), forms adelphostele (103) compared with the structure of high and peripheral lower-order level shape; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator (100);

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator (200) is set.

4. a cup-shaped radiator that is applied to electric energy illuminator, further in radiator (100), electric energy illuminator (200) cup-shaped structure is dorsad set and is monocycle shape circular groove and adelphostele compared with low and peripheral higher-order level shape structure, it is characterized in that, its main composition is as follows:

--radiator (100): comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator (100) is for supplying to arrange electric energy illuminator (200), the another side of radiator (100), for having the lower adelphostele (103) of single ring-type circular groove (104) and tool through hole (113), forms adelphostele (103) compared with the structure of low and peripheral higher-order level shape; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator (100);

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator (200) is set.

5. a cup-shaped radiator that is applied to electric energy illuminator, further in radiator (100), electric energy illuminator (200) cup-shaped structure is dorsad set and is polycyclic circular groove (104) and adelphostele (103) compared with high and peripheral lower many step shapes structure, it is characterized in that, its main composition is as follows:

--radiator (100): comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator (100) is for supplying to arrange electric energy illuminator (200), the another side of radiator (100) is for having the higher adelphostele (103) of two or more ring-type circular grooves (104) and tool through hole (113), and two-layer or two-layer above ring-type radiator surface (101), form adelphostele (103) compared with the structure of high and peripheral lower many step shapes; Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator (100);

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator (200) is set;

Above-mentioned radiator (100) further comprises that radiator (100) has two or more ring-type circular grooves (104) and adelphostele (103) and two-layer or two-layer above ring-type radiator surface (101) in electric energy illuminator (200) cup-shaped structure is dorsad set, and forms the structure of peripheral more much higher step shape.

6. a cup-shaped radiator that is applied to electric energy illuminator, further in radiator (100), electric energy illuminator (200) cup-shaped structure being dorsad set is around crown-shaped indentation (105) and has adelphostele (103) in upper end, it is characterized in that, its main composition is as follows:

--radiator (100): comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator (100) is for supplying to arrange electric energy illuminator (200), the another side of radiator (100) is the cup-shaped concave inward structure of tool, cup-shaped concave inward structure is the loop configuration of upper end tool crown-shaped indentation (105) and the adelphostele (103) of tool through hole (113) around, and adelphostele (103) is the structure that is contour or not contour with the loop configuration of peripheral tool crown-shaped indentation (105); Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator (100);

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator (200) is set;

The multi-ringed structure of above-mentioned multiple crown-shaped indentation (105) for refer to two-layer or two-layer more than.

7. a cup-shaped radiator that is applied to electric energy illuminator, further in radiator (100), electric energy illuminator (200) cup-shaped structure is dorsad set and is multiple crown-shaped indentation (105) and the lower structure in the higher periphery of adelphostele (103) in upper end around, it is characterized in that, its main composition is as follows:

--radiator (100): comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator (100) is for supplying to arrange electric energy illuminator (200), the another side of radiator (100) is the cup-shaped concave inward structure of tool, the adelphostele (103) of the multiple crown-shaped indentation of upper end tool (105) and tool through hole (113) around cup-shaped concave inward structure, forms adelphostele (103) and is lower multi-ringed structure compared with high and peripheral tool crown-shaped indentation (105); Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator (100);

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator (200) is set;

Above-mentioned radiator (100) further comprises that radiator (100), in electric energy illuminator (200) the cup-shaped structure dorsad around multiple crown-shaped indentation of upper end tool (105) and adelphostele (103) are set, forms adelphostele (103) compared with the higher structure of multi-ringed structure of low and peripheral tool crown-shaped indentation (105);

The multi-ringed structure of above-mentioned multiple crown-shaped indentation (105) for refer to two-layer or two-layer more than.

8. be applied to a cup-shaped radiator for electric energy illuminator, further in radiator (100), arrange that electric energy illuminator (200) arranges taper cylinder dorsad and cup-shaped structure is fork-shaped circulus, it is characterized in that, its main composition is as follows:

--radiator (100): comprise and be parallel or taper or back taper cup profile; Wherein: the one side of radiator (100) is for supplying to arrange electric energy illuminator (200), the another side of radiator (100) is the cup-shaped concave inward structure of tool, and cup-shaped concave inward structure is for having the tapered tubular center pillar (103) of fork-shaped circulus (106) and tool through hole (113); Around and/or cup inner ring surface both or one of them, surface is for being plane or structure wavy or tool heat-dissipating fin for the cup of radiator (100);

Outside and/or the inner surface of cup-shaped radiator, for electric energy illuminator (200) is set.

9. the cup-shaped radiator that is applied to electric energy illuminator as claimed in claim 1, is characterized in that, further comprises:

One, the top dorsad that in radiator (100) electric energy illuminator (200) is set adds protecting wire net (109);

Two, in radiator (100), electric energy illuminator (200) top is dorsad set top cover (110) is set, and have scavenge port (112) and arrange to be made for and connect the pillar (111) supporting between the two;

Three, above-mentioned one and two arrange simultaneously.

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