CN1268413A - Composite radiator and its prodn. method - Google Patents

Abstract

A composite type radiator and its making method are disclosed. The said composite type radiator includes a base seat and two sets of heat radiating finued plate installed on the base seat. The said base seat is made by extrusion, the central part of the base seat has a convex rib and on its two sides there are second convex ribs. The heat radiating finned plates are made of metal sheet through punch-pressing into corrugated form. The bottom plate with several common planes the side plates extended upward from the bottom plate, and the top plates positioned between two neighbouring side plates and relatively staggered arranged with the bottom plate are formed.

Description

Combined radiator and manufacture method thereof

The present invention especially refers to a kind of radiating effect is good and overall structure is firm combined radiator and manufacture method thereof about a kind of combined radiator and manufacture method thereof.

More and more wide along with the fast development of information industry and range of application thereof, also more and more high to the requirement of computer internal electronic element processing speed.Be accompanied by the raising of the speed of service, the heat that associated electronic components produces also rolls up, and if untimely with this heat discharge, the stability of use and quality will be greatly affected.

The existing radiator that is used for assisting electronic component to discharge heat is constructed, can be with reference to United States Patent (USP) the 5th, 304, and No. 846.As shown in Figure 1, this radiator 1 comprises a pedestal 3 and some it is fitted on the associated electronic components with pedestal 3 bottom surfaces from pedestal 3 upwardly extending radiating fins 5, and the heat that electronic component produces is in time discharged.Owing to adopting tradition (Extruding) mode that extrudes, radiator 1 gets, therefore under the restriction of manufacturing technology level, mould strength etc., on the design of the radiating effects that concern such as radiating fin density or integral heat sink surface area is considered, be difficult to realistic user demand.

Moreover, combined radiator is as shown in Figure 2 also arranged, this radiator 10 is made up of a pedestal 11 and some radiating fins 15 that is plugged on the pedestal 11.Make because the radiating fin 15 of this type of radiator 10 changes with impact style, therefore on radiating fin density and integral heat sink surface area, have bigger design space.But because the radiating fin 15 of this type of radiator 10 with the direct inlay card of plant mode in the groove 13 of pedestal 11, so integrally-built steadiness is obviously not enough, and the joint at radiating fin 15 and pedestal 11 grooves 13 also is easy to generate the space, and influences the radiating effect of radiator 10 greatly.

In addition, Figure 3 shows that another type radiator, this radiator 20 is made of a pedestal 21 and some radiating fin groups 23 that is bonded on the pedestal 21.Because this type of radiator 20 only clings this radiating fin group 23 and pedestal 21 with heat-conducting glue, therefore obviously not enough on integrally-built steadiness, and since this heat-conducting glue be in for a long time under the hot environment, therefore very easily aging and cause viscosity to descend or lose viscosity.

Therefore, how to provide the radiator that a kind of radiating effect is good and overall structure is firm, become the task of top priority.

The objective of the invention is to: a kind of radiating effect is good and overall structure is firm combined radiator and manufacture method thereof are provided.

Combined radiator of the present invention and manufacture method thereof are reached above-mentioned purpose by following means, and this combined radiator comprises a pedestal and two radiating fin groups that are installed on the pedestal.This pedestal is formed by the mode of extruding, and its end face extends upward one and is positioned at the first central boss, and two second boss that lay respectively at both side edges.This radiating fin group is bent into wavy through punching press by sheet metal, with form several coplanar egative films, from the upwardly extending lateral plate in egative film both sides, and be positioned between adjacent two lateral plates and relative staggered top flat with egative film.

Compare prior art, the resulting radiator of the present invention has the advantage that radiating effect is good and overall structure is firm.

The accompanying drawing simple declaration:

Fig. 1 is the three-dimensional view of existing radiator.

Fig. 2 is the three-dimensional view of another kind of existing radiator.

Fig. 3 is the three-dimensional view of another existing radiator.

Fig. 4 is the isometric exploded view of combined radiator first embodiment of the present invention.

Fig. 5 is the three-dimensional assembled view of Fig. 4.

Fig. 6 is the isometric exploded view of another embodiment of combined radiator of the present invention.

Fig. 7 is the three-dimensional assembled view of Fig. 6.

The present invention is further illustrated below in conjunction with embodiment and with reference to accompanying drawing:

Please together consulting Fig. 4 and Fig. 5, is first embodiment of combined radiator of the present invention and manufacture method thereof, and this combined radiator 30 comprises a pedestal 31 and two radiating fin groups 41 that are installed on the pedestal 31.

This pedestal 31 is formed by the mode of extruding, and its end face 33 extends upward first boss 34 that is positioned at central authorities, and two second boss 35 that lay respectively at both side edges.This first boss 34 forms one first groove 38 respectively and slightly is ＂ T ＂ font in both sides, this second boss 35 then forms one second groove 39 in the inboard.

This radiating fin group 41 is bent into wavy through punching press by sheet metal, with form several coplanar egative films 42, from the upwardly extending lateral plate 43 in egative film 42 both sides, and be positioned at 43 of adjacent two lateral plates and with egative film 42 relative staggered top flats 45.This egative film 42 further extends a protuberance 46 outwardly respectively at two ends, this protuberance 46 protrudes in outside lateral plate 43 lateral margins, with match with first groove 38 of pedestal 31 and second groove, 39 structures (back detailed description).

During assembling, the size by 39 of protuberance 46 and pedestal 31 first grooves 38 and second grooves cooperates, and two radiating fin groups 41 are slipped on the end face 33 that is installed in pedestal 31.Afterwards, utilize suitable tool to impact on first boss 34 of pedestal 31 and second boss 35 position again corresponding to radiating fin group 41 protuberances 46, promptly form inside pressing part 37 towards lower recess on this first boss 34 and second boss 35 this moment, with the protuberance 46 that firmly compresses radiating fin group 41, and radiating fin group 41 firmly is installed on the pedestal 31.

Moreover 33 of the egative film 42 of this radiating fin group 41 and the end faces of pedestal 31 can add suitable heat-conducting medium, as heat-conducting cream (thermal grease) or heat conduction adhesive tape (thermal tape) etc., with further raising radiating effect.

Please consult Fig. 6 and Fig. 7 again, be second embodiment of combined radiator of the present invention and manufacture method thereof, its overall structure and manufacture method are similar to aforementioned first embodiment.This combined radiator 30 ' pedestal 31 ' first boss 34 ' and second boss 35 ' all be simple raised line shape, be not formed with groove structure, and correspondingly, this radiating fin group 41 ' egative film 42 ' two ends and lateral plate 43 ' lateral margin flush, do not protrude in outside lateral plate 43 ' lateral margin.During assembling, utilize tool impact pedestal 31 ' first boss 34 ' and second boss 35 ' go up position corresponding to radiating fin group 41 ' egative film 42 ' two ends, this first boss 34 ' and second boss 35 ' on inwardly promptly form pressing part 37 towards lower recess ', with firmly compress radiating fin group 41 ' egative film 42 ', and with radiating fin group 41 ' firmly be installed in pedestal 31 ' on.

Claims (15)

1. a combined radiator is characterized in that, this combined radiator comprises: a pedestal, its end face in position extend upward at least one first boss and one second boss; At least one radiating fin group, correspondence are installed between first boss and second boss of this pedestal; And first boss of this pedestal and second boss inwardly be formed with towards lower recess and compressing radiating fin group counter structure and the radiating fin group firmly is installed in pressing part on the pedestal on the ad-hoc location.

2. combined radiator as claimed in claim 1 is characterized in that: this pedestal is formed by the mode of extruding, and its end face extends upward second boss that first boss and two that is positioned at base top surface central authorities lays respectively at the both side edges of base top surface.

3. combined radiator as claimed in claim 2 is characterized in that: this radiator comprises that two correspondences are installed in first boss of pedestal and the radiating fin group between second boss.

4. as claim 2 or 3 described combined radiators, it is characterized in that: this first boss forms one first groove respectively and slightly is ＂ T ＂ font in both sides.

5. combined radiator as claimed in claim 4 is characterized in that: this second boss forms one second groove in the inboard.

6. as claim 1,2 or 3 described combined radiators, it is characterized in that: this radiating fin group is bent into wavy by sheet metal through punching press repeatedly, with form several coplanar egative films, from the upwardly extending lateral plate in egative film both sides, and be positioned between adjacent two lateral plates and relative staggered top flat with egative film.

7. combined radiator as claimed in claim 6 is characterized in that: the two ends of this egative film directly compress and flush with the lateral margin of lateral plate with pressing part on second boss for first boss of pedestal.

8. combined radiator as claimed in claim 6 is characterized in that: this egative film further extends an outstanding lateral plate lateral margin outer and first boss of confession pedestal and the protuberance that the pressing part on second boss compresses outwardly respectively at two ends.

9. combined radiator as claimed in claim 6 is characterized in that: between the egative film of this radiating fin group and the end face of pedestal, further be equipped with heat-conducting medium.

10. the manufacture method of a combined radiator, it is characterized in that, this manufacture method may further comprise the steps: obtain a pedestal in the mode of extruding, this base top surface extends upward at least one first boss that is positioned at central authorities, and two second boss that lay respectively at both side edges; Sheet metal is carried out punching press bending and obtains two and be wavy radiating fin group, each radiating fin group has several coplanar egative films, from the upwardly extending lateral plate in egative film both sides, and be positioned between adjacent two lateral plates and relative staggered top flat with egative film; This radiating fin correspondence is assembled between first boss and second boss of base top surface; Utilize tool to impact first boss of pedestal and the appropriate location of second boss, make inwardly to form towards lower recess to compress radiating fin group counter structure the pressing part that the radiating fin group firmly is installed on the pedestal on first boss and second boss.

11. the manufacture method of combined radiator as claimed in claim 10 is characterized in that: this first boss form one first groove respectively in both sides and rough being " T " font, second boss then forms one second groove in the inboard.

12. the manufacture method of combined radiator as claimed in claim 11 is characterized in that: the egative film of this radiating fin group further extends one outwardly respectively and protrudes in outside the lateral plate lateral margin and the protuberance that matches with first groove and second groove structure of pedestal at two ends.

13. the manufacture method of a combined radiator is characterized in that, this manufacture method may further comprise the steps: obtain a pedestal in the mode of extruding, this base top surface extends upward two boss that lay respectively at both side edges; Sheet metal is carried out punching press bending and obtains one and be wavy radiating fin group, this radiating fin group has several coplanar egative films, from the upwardly extending lateral plate in egative film both sides, and be positioned between adjacent two lateral plates and relative staggered top flat with egative film; This radiating fin group correspondence is installed between two boss of base top surface; Utilize tool to impact the appropriate location of pedestal two boss, make inwardly to form towards lower recess with the counter structure that compresses the radiating fin group pressing part that the radiating fin group firmly is installed on the pedestal on the boss.

14. the manufacture method of combined radiator as claimed in claim 13 is characterized in that: each boss of this pedestal all forms a groove in the inboard.

15. the manufacture method of combined radiator as claimed in claim 14 is characterized in that: the egative film of this radiating fin group extends respectively outwardly further at two ends that at least one letter protrudes in outside the lateral plate lateral margin and the protuberance that matches with the groove structure of pedestal.

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