CN2762507Y - Cooling module on radiating plate - Google Patents

Abstract

The utility model relates to a temperature equalizing module of a radiating plate, which comprises a temperature equalizing plate and at least two radiating fin sets arranged on the temperature equalizing plate, wherein the temperature equalizing plate is provided with a bending plate-shaped hollow casing, and the casing is bent and formed with at least one concave space which is surrounded by a plate body; one radiating fin set is arranged in the concave space and is attached on the surface of the casing, and the other radiating fin set is attached to the radiating position of the temperature equalizing plate. The temperature equalizing plate has large are and the bending shape, the heat can be conducted quickly and the due heat conduction efficiency of the temperature equalizing plate can be maintained.

Description

Heat radiating module of temperature equalization plate

Technical field

The utility model relates to a kind of heat radiating module of temperature equalization plate, relates in particular to a kind of temperature-uniforming plate with built-in a plurality of heat pipes, makes the flexible and heat radiating module of temperature equalization plate that constitutes of this temperature-uniforming plate.

Background technology

Fast development along with science and technology; make computer more and more faster on computing is carried out; especially when the arithmetic speed of central processing unit is high more; the caloric value that is produced during its running is also more and more high; in order this intensive heat effectively to be distributed in the outer environment of main frame, move under permissive temperature to keep central processing unit, usually heat abstractor can be set on central processing unit; be used to assist the central processing unit heat radiation, increase heat-sinking capability.But along with the arithmetic speed of central processing unit is high more, under the also more and more high situation of the caloric value that it produced, if general heat abstractor is when still being made of aluminium extruded type radiator and radiator fan, and its heat radiation to central processing unit can't be loaded at all.

As shown in Figure 1, be a kind of known radiating module 1a.Radiating module 1a comprises that one is attached to the U-shaped heat pipe 11a that thermal conduction base 10a and on pyrotoxin (as the CPU) 2a is erected on the thermal conduction base 10a and constitutes, and U-shaped heat pipe 11a is provided with a plurality of radiating fin 12a.When pyrotoxin 2a produces heat, conduct to U-shaped heat pipe 11a bottom by thermal conduction base 10a after with heat absorption, by U-shaped heat pipe 11a heat is conducted on each radiating fin 12a fast again, by each radiating fin 12a heat is discharged one by one.

Because radiating module 1a carries out heat transferred with U-shaped heat pipe 11a, though heat pipe can conduct high heat, but because of the heat pipe caliber little, for thermal conduction base 10a, belong to a little or the contact of line, so the heat conduction efficiency of its single-point is relatively poor, and under the situation of high heat, making heat excessively hoard at heating end easily can't transmit, thereby surpass the maximum heat biography amount of heat pipe, cause heat pipe can't bring into play its heat conduction usefulness finally.

From the above, above-mentioned known radiating module on reality is used, obviously has in addition improved inconvenience and defective existence.

Given this, the design artificially improves and solves the defective that exists in the above-mentioned prior art, through concentrating on studies and cooperating the utilization of scientific principle, proposes a kind of reasonable in design and effectively improve the utility model of above-mentioned defective finally.

Content of the present utility model

Main purpose of the present utility model is to provide a kind of heat radiating module of temperature equalization plate, it utilizes a sweeping temperature-uniforming plate, has bigger area by this temperature-uniforming plate, transmit more heat and can make face with contacting of face with pyrotoxin, simultaneously, because this temperature-uniforming plate is crooked shape, therefore heat can be conducted to fast away from the pyrotoxin part, with quick heat radiating, thereby keep the due heat conduction usefulness of this temperature-uniforming plate.

To achieve these goals, the utility model provides a kind of heat radiating module of temperature equalization plate, comprises a temperature-uniforming plate and at least two radiating fin groups that are arranged on this temperature-uniforming plate, and this temperature-uniforming plate has one and is crooked tabular hollow housing.Be provided with a plurality of heat pipes in this enclosure interior, each heat pipe extend along the bending of this housing and side by side row put.Wherein, this buckling of shells be formed with at least one by its plate body around the concave shaped space that forms, a described radiating fin group is arranged in this concave shaped space and is attached on this surface of shell, described another radiating fin group then is attached to this temperature-uniforming plate heat radiation position.Thus, can realize above-mentioned purpose.

Heat radiating module of temperature equalization plate of the present utility model can quick heat radiating, keeps the due heat conduction usefulness of this temperature-uniforming plate.

Brief description of drawings

Fig. 1 is the user mode schematic diagram of known radiating module

Fig. 2 is the three-dimensional exploded view of the utility model first embodiment;

Fig. 3 is the three-dimensional combination figure of the utility model first embodiment;

Fig. 4 is the user mode schematic diagram () of the utility model first embodiment;

Fig. 5 is the user mode schematic diagram (two) of the utility model first embodiment;

Fig. 6 is the floor map of the utility model second embodiment;

Fig. 7 is the floor map of the utility model the 3rd embodiment;

Fig. 8 is the floor map of the utility model the 4th embodiment;

Fig. 9 is the floor map of the utility model the 5th embodiment.

In the accompanying drawing, the list of parts of each label representative is as follows:

The 1a-radiating module

10a-thermal conduction base 11a-U shape heat pipe

The 12a-radiating fin

The 2a-pyrotoxin

The 1-radiating module

10-temperature-uniforming plate 100-housing

101-top shell 102-drain pan

103-heat pipe 104-concave shaped space

106-top, 105-bottom

107-center section part 108-rise part

109-top 11-radiating fin group

The 110-radiating fin

The 2-pyrotoxin

Embodiment

In order to make those skilled in the art further understand feature of the present utility model and technology contents, see also following about detailed description of the present utility model and accompanying drawing, accompanying drawing only provide with reference to and usefulness is described, be not to be used for limiting the utility model.

Fig. 2 and Fig. 3 are respectively three-dimensional exploded view and the three-dimensional combination figure of the utility model first embodiment.The utility model provides a kind of heat radiating module of temperature equalization plate, and as shown in Figures 2 and 3, radiating module 1 comprises a sweeping temperature-uniforming plate 10 and at least two radiating fin groups 11 that are arranged on the temperature-uniforming plate 10; Wherein:

Temperature-uniforming plate 10 has one and is crooked tabular hollow housing 100; The utility model for each embodiment in, top shell 101 and drain pan 102 that housing 100 is made by heat sink material constitute.Be hollow form in the housing 100, and capillary structure (wick structure) and working fluid (working fluid) (not shown) can be set in housing 100 inside, maybe can be provided with a plurality of heat pipes 103 (as Fig. 4 and shown in Figure 5), each heat pipe 103 extend along the bending of housing 100 and side by side row put.In the present embodiment, each heat pipe 103 in the temperature-uniforming plate 10 is covered with in housing 100 inside, and is flat-shaped with housing 100, and the tube wall of each heat pipe 103 can be contacted with top, drain pan 101,102 medial surfaces of housing 100.

Radiating fin group 11 is arranged to put side by side by a plurality of radiating fins 110 and is formed, and is arranged on the temperature-uniforming plate 10.Simultaneously, the housing 100 because of temperature-uniforming plate 10 is formed with at least one concave shaped space 104 that forms that centered on by its plate body through bending.Radiating fin group 11 is located in concave shaped space 104 and is attached on housing 100 surfaces of temperature-uniforming plate 10, and each radiating fin group 11 mainly can be attached to the position that is heated and dispels the heat of temperature-uniforming plate 10, to share the heat that temperature-uniforming plate 10 absorbed and to dispel the heat.

In the utility model first embodiment, as shown in Figures 2 and 3, housing 100 bendings of temperature-uniforming plate 10 are one " S " font, the first half and the Lower Half that are " S " font at housing 100 form a concave shaped space 104 respectively, and housing 100 is the bottom 105 of " S " font and top 106 and is all one and is horizontal plane, after two radiating fin groups 11 are separately positioned on two concave shaped space 104, can be attached to the end, 105,106 places, top of housing 100 respectively.106 at the top that is subjected to thermal site, housing 100 that the bottom 105 of housing 100 is temperature-uniforming plate 10 is the heat radiation position of temperature-uniforming plate 10.

In the utility model second embodiment, as shown in Figure 6, the housing 100 of temperature-uniforming plate 10 is identical with first embodiment.The center section part 107 that housing 100 is " S " font also is one to be horizontal plane, and a radiating fin group 11 is attached to center section part 107 places of housing 100, and another radiating fin group 11 then is located in 106 places, top of housing 100.

In the utility model the 3rd embodiment, as shown in Figure 7, the housing 100 of temperature-uniforming plate 10 further extends upward a rise part 108 by top 106 ends that are " S " font among first embodiment, and on rise part 108, further set up a radiating fin group 11, rise part 108 is the heat radiation position of temperature-uniforming plate 10.

In the utility model the 4th embodiment, as shown in Figure 8, housing 100 flexible one " b " fonts that are of temperature-uniforming plate 10.The Lower Half that is " b " font at housing 100 forms a concave shaped space 104, and a radiating fin group 11 is set within it.In addition, the first half that is " b " font at housing 100 can further be provided with a radiating fin group 11, and housing 100 is the heat radiation position that the first half of " b " font is temperature-uniforming plate 10.

In the utility model the 5th embodiment, as shown in Figure 9, housing 100 flexible one " G " fonts that are of temperature-uniforming plate 10.The upper and lower half that is " G " font at housing 100 forms a concave shaped space 104 respectively, is provided with radiating fin group 11 in two concave shaped space 104.In addition, a radiating fin group 11 can be further set up at the top 109 that is " G " font at housing 100, promptly is arranged on the heat radiation position of temperature-uniforming plate 10.

By above-mentioned contexture, can obtain the utility model heat radiating module of temperature equalization plate.

As Fig. 4 and shown in Figure 5, first embodiment does explanation with the utility model.In the time of on radiating module 1 is applied to just like pyrotoxins such as central processing unit 2, the heat absorption that temperature-uniforming plate 10 can be produced pyrotoxin 2 earlier, and each heat pipe 103 by its housing 100 inside, heat is passed to top 106 by the bottom 105 of housing 100 rapidly, too high and influence ambient temperature around the pyrotoxin 2 with the temperature of avoiding temperature-uniforming plate 10 bottoms 105.Simultaneously, each radiating fin group 11 more can help heat radiation, and the heat that each heat pipe 103 is conducted can be discharged from smoothly.Therefore can keep the normal operation of the phase change of each heat pipe 103, thereby the heat that pyrotoxin 2 is constantly produced can continue to be conducted at a distance by temperature-uniforming plate 10, and keep pyrotoxin 2 normally operation under the temperature of its permission.

In sum, the utility model is real to be rare novel practical novel product, it can reach the application target of expection really, solve the defective in the known technology, have novelty and creativeness, meet the requirement of utility application fully, file an application according to Patent Law, would like to ask detailed survey and authorize this case patent, to ensure designer's right.

The above only is a preferred embodiment of the present utility model, be not so promptly limit claim of the present utility model, the equivalent structure transformation that every utilization the utility model specification and accompanying drawing content are done, directly or indirectly be used in other relevant technical field, all in like manner be included in the claim of the present utility model.

Claims (15)

1. a heat radiating module of temperature equalization plate is characterized in that, comprises a temperature-uniforming plate and at least two radiating fin groups that are arranged on the described temperature-uniforming plate, and described temperature-uniforming plate has one and is crooked tabular hollow housing;

Wherein, described buckling of shells is formed with at least one concave shaped space that forms that centered on by its plate body, wherein a described radiating fin group is arranged in the described concave shaped space and is attached on the described surface of shell, and described another radiating fin group then is attached to described temperature-uniforming plate heat radiation position.

2. heat radiating module of temperature equalization plate as claimed in claim 1, it is characterized in that described radiating fin group by a plurality of radiating fins side by side row put and form.

3. heat radiating module of temperature equalization plate as claimed in claim 1 is characterized in that top shell and drain pan that described housing is made by heat sink material constitute.

4. heat radiating module of temperature equalization plate as claimed in claim 1, it is characterized in that described buckling of shells is one " S " font, the Lower Half that is " S " font at described housing forms a described concave shaped space, one described radiating fin group is arranged on described concave shaped space place, and is provided with another described radiating fin group at the top that described housing is " S " font.

5. heat radiating module of temperature equalization plate as claimed in claim 4 is characterized in that described another radiating fin group is arranged on the place, top that described housing is " S " font.

6. heat radiating module of temperature equalization plate as claimed in claim 1, it is characterized in that described buckling of shells is one " S " font, the Lower Half that is " S " font at described housing forms a described concave shaped space, one described radiating fin group is arranged on described concave shaped space place, and extend upward a rise part at described housing by the top end that it is " S " font, another described radiating fin group further is set on described rise part.

7. heat radiating module of temperature equalization plate as claimed in claim 1, it is characterized in that described buckling of shells is one " S " font, the first half and the Lower Half that are " S " font at described housing form a described concave shaped space respectively, and two described radiating fin groups are arranged on described two concave shaped space places respectively.

8. heat radiating module of temperature equalization plate as claimed in claim 7 is characterized in that described housing extends upward a rise part by the top end that it is " S " font, and another described radiating fin group further is set on described rise part.

9. heat radiating module of temperature equalization plate as claimed in claim 1, it is characterized in that described buckling of shells is one " b " font, the Lower Half that is " b " font at described housing forms a described concave shaped space, one described radiating fin group is arranged on described concave shaped space place, and the first half place that is " b " font at described housing is provided with another described radiating fin group.

10. heat radiating module of temperature equalization plate as claimed in claim 1, it is characterized in that described buckling of shells is one " G " font, the first half and the Lower Half that are " G " font at described housing form a described concave shaped space respectively, and two described radiating fin groups are arranged on described two concave shaped space places respectively.

11. heat radiating module of temperature equalization plate as claimed in claim 10 is characterized in that the top place that described housing is " G " font further is provided with another described radiating fin group.

12., it is characterized in that described enclosure interior is provided with capillary structure and working fluid as each described heat radiating module of temperature equalization plate in the claim 1 to 11.

13. as each described heat radiating module of temperature equalization plate in the claim 1 to 11, it is characterized in that described enclosure interior is provided with a plurality of heat pipes, each described heat pipe extend along the bending of described housing and side by side row put.

14., it is characterized in that described heat pipe is covered with in described enclosure interior as claim 13 a described heat radiating module of temperature equalization plate.

15. heat radiating module of temperature equalization plate as claimed in claim 13 is characterized in that described heat pipe is flat-shaped with described housing, each described thermotube wall contacts with described housing medial surface.

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