CN101403492B

CN101403492B - Radiating module with fins embedded in ring shape

Info

Publication number: CN101403492B
Application number: CN2008102189440A
Authority: CN
Inventors: 黄崇贤
Original assignee: Individual
Current assignee: Tsung-Hsien Huang
Priority date: 2008-11-07
Filing date: 2008-11-07
Publication date: 2011-08-17
Anticipated expiration: 2028-11-07
Also published as: CN101403492A

Abstract

The invention relates to a radiating module design formed by chimeric fins which are circular. The design mainly comprises a radiating pipe, a radiating fin group and a radiating plate; a plurality of fins are embedded into the periphery wall of the radiating pipe in a radial arrangement mode and therefore a stable riveting is formed; the adjacent fins are combined in a mutual fastening way; and the radiating plate is fixedly arranged at the lower end of the radiating pipe for sticking and contacting with the heating units (such as an LED luminescence unit or a CPU). The radiating module provides better radiating efficiency and is extremely applicable to LED lamp, which can improve the radiating efficiency of the LED lamp and further increase the lighting power.

Description

Fin is the radiating module of chimeric composition in the form of a ring

Technical field

The present invention system is about a kind of structural design of radiating module, especially refer to the radiating module design of chimeric composition in the form of a ring of a kind of fin, comprise that radiating tube, radiating fin group and heat dissipation plate form, system makes a plurality of fins be riveting in the radiating tube periphery wall with radial arrangement, heat dissipation plate then is fixed in the radiating tube lower end, trigger hot cell for pasting, better radiating efficiency is provided.

Background technology

Known radiating module, system comprises that a radiating fin group and a base form, common aluminium, copper material, with the adjacent radiating fin group that is arranged in of a plurality of fins, and fin welding (hot melt) is incorporated into base, so must be with tin cream or bonding agent media as solder bond, if material difference, then must handle to weld again connecing in advance with electronickelling, thus the complicated inconvenience of entire combination assembling, the manufacturing cost height, fraction defective is also high, and heat conduction efficiency is not good, and electronickelling is handled also has contaminative, is not inconsistent environmental friendly principle.

In addition, as traditional LED projection light fixture, though have the low power consumption characteristic, but in fact the heat-resisting degree because of the LED illuminator is very low, therefore the heat radiation that how to overcome high temperature is a very important problem, and the known radiating module that is used in the LED light fixture, because of radiating module fast and effectively can't be provided, so lower powered illumination can only be provided.The radiating module of known LED projection light fixture, its be configuration in conjunction with a heat radiation shell block with mold casting forming, this heat radiation shell block belongs to mold casting forming because of gold mining, so it is very heavy, radiating effect also not as expection, makes that on the contrary more apparent heaviness of LED light fixture and cost are very high, obviously can't reach practical level.

Summary of the invention

The present invention's main purpose, be to be to provide the radiating module design of chimeric composition in the form of a ring of a kind of fin, system comprises that a radiating tube, a radiating fin group and a heat dissipation plate form, the a plurality of fins that constitute this radiating module are to embed the periphery wall of radiating tube and form riveted with radial arrangement mode, and each adjacent fin also is mutual hasp combination, heat dissipation plate then is fixed in the radiating tube lower end, its combination is firm, can paste the triggering hot cell by heat dissipation plate and by radiating tube high temperature is passed to the radiating fin group again, and finish heat radiation rapidly, its radiating efficiency is high.

The present invention's secondary objective, be to be to provide the radiating module design of chimeric composition in the form of a ring of a kind of fin, it is to be fit to very much configuration to be applied to the LED light fixture, utilizing heat dissipation plate and a plurality of luminescence unit that is made of the LED serial to form direct subsides touches, so the high temperature of luminescence unit can be passed to the radiating fin group via radiating tube rapidly, reach the quick heat radiating effect, therefore can improve the radiating efficiency of LED light fixture, and promote the lighting power of light fixture.

Another object of the present invention, be to be to provide the radiating module design of chimeric composition in the form of a ring of a kind of fin, the upper end that this radiating module ties up to each fin and bottom be provided with respectively more than one group can corresponding coupling the hasp sheet, make each adjacent fin form mutual hasp combination, and the hasp sheet of bottom system can distribute along class's face of heat dissipation plate periphery, make the hasp sheet can adhere on the circumferential surface of heat dissipation plate,, and then promote its high temperature transmission efficiency in order to the contact area of increase fin and heat dissipation plate.

The present invention's a purpose again, be to be to provide the radiating module design of chimeric composition in the form of a ring of a kind of fin, this radiating module forms a pressure pleat root in the inwall end system of each fin, be riveting in the coupling caulking groove of radiating tube periphery wall in order to correspondence, what make that each fin can be firm fast finishes the embedding riveted, and the contact area of increase fin root and radiating tube, its heat transfer efficiency of more effective raising.

The present invention's another purpose, be to be to provide the radiating module design of chimeric composition in the form of a ring of a kind of fin, this radiating module is in the formed pressure pleat of each fin inwall end root, system can form a pressure pleat root with selected shape through doubling or bending process, the shape of this pressure pleat root is regardless of, for example root upset can be fallen folding and directly paste and press the pleat moulding, or root upset fallen to paste that to press pleat L-shaped behind the folding again, triangle, polygonal, inverted T-shaped, or root upset fallen to paste behind the folding again to press pleat and is a curl shape, above pressure pleat root form all belongs to simple and feasible, so the restriction of no given shape.

The present invention's another purpose, be to be to provide the radiating module design of chimeric composition in the form of a ring of a kind of fin, the radiating tube of this radiating module can be a hollow tube, be provided with most caulking grooves so can adopt crowded type technology in the tube wall moulding, therefore simplify the manufacturing of radiating tube, be fit to very much produce in a large number and reduce cost.

Description of drawings

Fig. 1 is applied to the combination stereogram of LED light fixture for the present invention.

Fig. 2 is applied to the exploded perspective view of LED light fixture for the present invention.

Fig. 3 is applied to the compound section figure of LED light fixture for the present invention.

Fig. 4 is the local enlarged diagram of radiating tube among the present invention.

Fig. 5 is the riveted sectional drawing of radiating tube among the present invention and fin.

Fig. 6 is the stereogram of single fin among the present invention.

Fig. 7 sets up the embodiment partial schematic diagram of pressing the pleat root for the present invention in fin inwall end.

Fig. 8 is the riveted sectional drawing of fin shown in Figure 7 and radiating tube.

Fig. 9 sets up the embodiment partial schematic diagram of L shaped pressure pleat root in fin inwall end for the present invention.

Figure 10 is the riveted sectional drawing of fin shown in Figure 9 and radiating tube.

Figure 11 sets up the embodiment partial schematic diagram that triangle is pressed the pleat root for the present invention in fin inwall end.

Figure 12 is the riveted sectional drawing of fin shown in Figure 11 and radiating tube.

Figure 13 sets up the embodiment partial schematic diagram that curl shape is pressed the pleat root for the present invention in fin inwall end.

Figure 14 is the riveted sectional drawing of fin shown in Figure 13 and radiating tube.

Figure 15 sets up the embodiment partial schematic diagram that inverted T-shaped is pressed the pleat root for the present invention in fin inwall end.

Figure 16 is the riveted sectional drawing of fin shown in Figure 15 and radiating tube.

When Figure 17 is applied to the LED light fixture for the present invention at another embodiment decomposing schematic representation of the sheathed again outer shell base in radiating fin group outside.

Figure 18 is the combination stereogram of Figure 17.

When Figure 19 is applied to the LED light fixture for the present invention in radiating fin group outside the another enforcement illustration of sheathed another kind of outer shell base again.

The drawing reference numeral explanation:

LED light fixture 10

Electrical connector 101

Radiating tube 1

Radiating fin group 2

Heat dissipation plate 3

LED substrate 4

Luminescence unit 5

Lampshade plate 6

Outer shell base

7,8

Caulking groove 11

Working groove 12

Interlocking hole 13

Fin 21

Inwall end 211

Press

pleat root

211a, 211b, 211c, 211d, 211e

Hasp sheet 212,213

Button hole

2121,2131

Protruding button

2122,2132

Breach 214

Multistage level portion 31

Lockhole 32,33

Bolt 41

Louvre 71

The specific embodiment

Below in conjunction with the accompanying drawing and the specific embodiment the present invention is further described.

As shown in Figure 1 to Figure 3, system shows the specific embodiment of the present invention's " fin is radiating module of chimeric composition in the form of a ring " adaptation application in a LED light fixture 10 combinations, but in fact, the object of adaptation application of the present invention or use field, be not restriction with the LED light fixture, such as other heat-generating units (as CPU) also all can in like manner be used, and closes first Chen Ming; The embodiment that please refer to drawing discloses, the present invention do " fin is the radiating module of chimeric composition in the form of a ring " design, it mainly is to comprise that a radiating tube 1, a radiating fin group 2 and a heat dissipation plate 3 form, aforementioned components can be made by other metal material of copper or aluminium or tool thermal diffusivity, and wherein:

Radiating tube 1, as Fig. 2 and shown in Figure 4, it is a hollow tube, and offer a plurality of adjacent caulking grooves 11 in the body periphery wall, and between two whenever adjacent caulking grooves 11, all preset the working groove 12 of a V-arrangement, the body internal perisporium then is provided with the interlocking hole 13 of several extensions, this caulking groove 11 is to implant one by one for the fin 21 (as the 5th, six figure) of radiating fin group 2, utilize the machining deformation of working groove 12 again and each fin 21 embedding is riveting in the body periphery wall, the interlocking hole 13 of body upper end is the electrical connector 101 (as Fig. 2) for sealed binding one LED light fixture 10.

Radiating fin group 2, system is made of with radial arrangement a plurality of fins 21, and shown in second, five figure, the inwall end 211 of each fin 21 is the caulking groove 11 that coupling embeds radiating tube 1, and center on the periphery wall that is riveting in radiating tube 1 by the machining deformation of working groove 12, form firm combination.

Heat dissipation plate 3, system is fixed at the lower end of radiating tube 1, and form with radiating fin group 2 as card ends combining of state, heat dissipation plate 3 belows system forms to post with heat-generating units and combines, take off in embodiment, described heat-generating units means a LED substrate 4 and one group of luminescence unit 5 that is made of a plurality of LED serials, this luminescence unit 5 can produce high temperature, only make high temperature be passed to radiating fin group 2 by heat dissipation plate 3, and this heat-generating units also may be CPU in case of necessity, the luminescence unit 5 with the LED light fixture does not exceed, in addition, and as second, shown in three figure, heat dissipation plate 3 is to be embodied as the square position body that a periphery has multistage level portion 31, disc surfaces offers a plurality of

lockholes

32,33, can be locked in the extension interlocking hole 13 of radiating tube 1 lower end respectively, and provide the lock of LED substrate 4 to establish fixing.

Utilize above-mentioned radiating tube 1, the radiating module that radiating fin group 2 and heat dissipation plate 3 are formed, mainly be to paste with heat dissipation plate 3 to touch in the corresponding heat-generating units of coupling, produce high when hot in heat-generating units, can be in regular turn by heat dissipation plate 3 and radiating tube 1 and high temperature is passed to radiating fin group 2, therefore can finish heat radiation work fast and high efficiency, as shown in the figure, system discloses the radiating module configuration and is located at LED light fixture 10, produce high when hot in the luminescence unit 5 of LED light fixture 10, can pass through LED substrate 4, heat dissipation plate 3, radiating tube 1 is passed to radiating fin group 2 fast with high temperature, and finish heat radiation, its integral heat sink efficient is high, so can increase the lighting power of LED light fixture 10 relatively.And in like manner as can be known, this radiating module also can be applicable to various heat-generating units such as CPU, and it needs heat dissipation plate 3 to paste to touch in the heating region of CPU can produce identical radiating effect.

The electrical connector 101 of above-mentioned LED light fixture 10, LED substrate 4 or luminescence unit 5 are known member, and be high because of radiating efficiency of the present invention, so described luminescence unit 5 is to be made of more a plurality of LED serials, improves lighting power by this.

As shown in Figure 6, each fin 21 of above-mentioned radiating fin group 2, its upper end and bottom system is respectively equipped with the hasp sheet 212,213 that a group or more can corresponding coupling, make each adjacent fin 21 can form mutual hasp combination, and then formation radiating fin group 2 as shown in Figure 2, the hasp sheet 212,213 of above-mentioned again upper end and bottom, system is respectively equipped with

button hole

2121,2131 and protruding

button

2122,2132, protruding button 2122 wherein and protruding button 2132 are to can be respectively down and different projections up, and the whole hasp that therefore makes radiating fin group 2 is in conjunction with more firm.

Several hasp sheets 213 of above-mentioned each fin 21 bottom, it is to be the height coupling to distribute along class's face of 3 multistage grades of portions of heat dissipation plate 31, and the breach 214 shown in the figure mainly is to offer in order to dodge bolt 41.The hasp sheet 213 of above-mentioned bottom except have mutual hasp in conjunction with function, and can increase the contact area of each fin 21 and heat dissipation plate 3, to promote the high temperature transmission efficiency.In addition, the bottom nozzle of radiating fin group 2 also can depend on the lampshade plate 6 in conjunction with a printing opacity again except that with heat dissipation plate 3 combines.

As Fig. 7 and shown in Figure 8, the inwall end system of above-mentioned each fin 21 also can form one and press pleat root 211a, embeds the periphery wall that is riveting in radiating tube 1 in order to correspondence, makes in conjunction with more firm, and the contact area of increase fin 21 roots and radiating tube 1, therefore its heat transfer efficiency of more effective raising.

Above-mentioned pressure pleat root 211a, its form does not have the given shape restriction, every pressure pleat root through doubling or the moulding of bending process institute, all belong to feasible, for example Fig. 9 and L-shaped pressure pleat root 211b, Figure 11 shown in Figure 10 and pressure pleat root 211c, Figure 13 triangular in shape shown in Figure 12 and the pressure pleat root 211d that is curl shape shown in Figure 14, or Figure 15 and the pressure pleat root 211e that is inverted T-shaped shown in Figure 16, promptly disclose various difform

pressure pleat root

211b, 211c, 211d, 211e respectively.

In addition, the radiating tube 1 among the present invention, it is can adopt to squeeze the type technology and be provided with most caulking grooves 11 and staggered working groove 12 in the tube wall moulding, therefore can simplify the manufacturing of radiating tube 1, reduces cost so be fit to very much a large amount of productions.

As Figure 17 and shown in Figure 180, when the present invention is applied to the light fixture combination of LED, the outer shell base 7 that is nested with a bowl-type can be mated again in system outside radiating fin group 2, and outer shell base 7 and radiating fin group 2 can be that packing engages or mode such as snapping combination and assemblying, outer shell base 7 can be offered a plurality of louvres 71 again, dispels the heat for high temperature.Another kind of outer shell base 8 forms as shown in figure 19, it is to be a simple ring shape, in like manner can make the exposed part of radiating fin group 2 more, better heat-radiation effect for being fitted to each other in the outermost end of radiating fin group 2.

According to design spirit of the present invention, in like manner as can be known, described radiating tube 1 is in also adopting solid body to replace enforcement in case of necessity, can offer a plurality of adjacent caulking grooves and staggered alternate working groove in the periphery wall of solid body, so radiating tube 1 can be hollow or solid body, or even the tubular form of radiating tube 1 do not exceed with the pipe body yet, all in like manner can adopt as triangle, quadrangle, polygon or other geometry, and there is no particular restriction; Again in like manner, shape, size or specification about each fin, or the arrangement construction form of each fin, the necessity that equally all is not particularly limited, the radiating fin group of its formation of arranging, certainly change arbitrarily, so all simple change or equivalent replacement behaviors of doing based on constructed content all still do not break away from the present invention and apply for the technology category.

Claims

1. the fin radiating module of chimeric composition in the form of a ring is to comprise that a radiating tube, a radiating fin group and a heat dissipation plate form, and it is characterized in that:

Radiating tube is a body, and offers a plurality of adjacent caulking grooves in the body periphery wall, implants one by one for the fin of radiating fin group;

The radiating fin group, system is made of with radial arrangement a plurality of fins, make the caulking groove of the inwall end system coupling embedding radiating tube of each fin, and be riveting in the periphery wall of radiating tube around embedding, and be provided with the hasp sheet of corresponding coupling more than a group respectively in each fin upper end and bottom, so that each adjacent fin forms mutual hasp combination;

Heat dissipation plate is the lower end of being fixed in radiating tube, forms to post below this heat dissipation plate and with heat-generating units to combine;

The radiating module that utilizes above-mentioned radiating tube, radiating fin group and heat dissipation plate to form, heat dissipation plate is pasted the heat-generating units that touches in the coupling correspondence, produce highly when hot in heat-generating units,, finish heat radiation work in regular turn by heat dissipation plate and radiating tube and high temperature is passed to the radiating fin group.

2. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: this radiating tube, radiating fin group and heat dissipation plate system are made by copper or aluminium.

3. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: but this radiating tube is all preset the working groove of a machining deformation between two whenever adjacent caulking grooves.

4. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: this radiating tube is provided with the interlocking hole of several extensions in the body internal perisporium.

5. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: this radiating tube body upper end is sealed binding one electrical connector, and heat-generating units is a LED substrate and one group of luminescence unit that is made of a plurality of LED serials, and lock is established and is fixed in heat dissipation plate.

6. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: the hasp sheet of each fin upper end and bottom is to be respectively equipped with button hole and protruding button.

7. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: this heat dissipation plate is the square position body that a periphery has multistage level portion, and the hasp sheet of each fin bottom and be the height coupling along class's face of the multistage level of heat dissipation plate portion and distribute.

8. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: the inwall end of each fin is a corresponding pressure pleat root that is riveting in the radiating tube periphery wall that embeds.

9. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: this heat radiation piping adopts crowded type technology and is provided with most caulking grooves and staggered working groove in the moulding of body periphery wall.

10. fin according to claim 1 is the radiating module of chimeric composition in the form of a ring, it is characterized in that: the outside system coupling of this radiating fin group is nested with an outer shell base.