CN205584691U - Heat radiation structure and contain water -cooled heat abstractor of this structure - Google Patents

Abstract

The utility model relates to a heat radiation structure and contain water -cooled heat abstractor of this structure, wherein heat radiation structure includes temperature -uniforming plate, plural heat pipe and radiating component, and the temperature -uniforming plate is equipped with the fretwork groove of running through the temperature -uniforming plate, and the temperature -uniforming plate has the appearance chamber, each heat pipe establish immediately respectively the temperature -uniforming plate and with hold the chamber intercommunication, the plural fin that radiating component contains the base plate and extends from base plate an organic whole, radiating component seals the fretwork groove with the base plate. The utility model discloses can promote the leading of heat radiation structure and water -cooled heat abstractor, cooling efficiency.

Description

Radiator structure and comprise the water-cooled power converter of this structure

Technical field

This utility model relates to heat dissipation technology, a kind of radiator structure for electronic heating component and comprise the water-cooled power converter of this structure.

Background technology

Along with the arithmetic speed of electronic building brick constantly promotes, produced by it, heat is more and more higher, for the problem efficiently solving this golf calorific value, industry radiator, heat pipe or temperature-uniforming plate to the alloy such as aluminum, copper carries out the application of popularity, but these radiator structures whether its heat conduction efficiency and make easness etc. and all there are the space waiting to be improved.

Existing radiator, mainly includes that a base plate and the radiating fin extended from base plate are constituted, although this kind of radiator has good heat radiating characteristic, but its heat conduction efficiency cannot effectively obtain lifting.Then the radiator structure including temperature-uniforming plate and aforementioned heat sink is had to be developed, it is to be fixed on temperature-uniforming plate through welding materials such as tin creams by radiator, temperature-uniforming plate then includes on one coverboard and once coverboard, and it is equiped with capillary structure respectively in the inner space of upper coverboard and lower coverboard, the most again by upper coverboard and the lower corresponding seam of coverboard, working fluid is inserted upper coverboard and lower casing intralaminar part again, finally imposes the processing procedures such as deairing and sealing and complete.

But, existing radiator structure, although having heat conduction and heat dissipation, but there is problem below point in actual use, owing to its temperature-uniforming plate is limited to the restriction in space, be only capable of with horizontal gas flow pattern to carry out the diversion of heat, thus result in its lead, heat dissipation is difficult to be effectively increased.Another welding material coated between temperature-uniforming plate and the interface of radiator, easily causes the obstruction that heat transmits, it would be highly desirable to improved.

Summary of the invention

The purpose of this utility model is the water-cooled power converter providing a kind of radiator structure and comprising this structure, it is to utilize connecting of temperature-uniforming plate and heat pipe and assembling of radiating component and temperature-uniforming plate, and then can the leading of heat radiation structure and water-cooled power converter, heat dissipation.

In order to reach above-mentioned purpose, this utility model provides a kind of radiator structure, and including a temperature-uniforming plate, plural number heat pipe and a radiating component, this temperature-uniforming plate is provided with the hollow slots running through this temperature-uniforming plate, and this temperature-uniforming plate has a cavity volume；Each heat pipe erects at this temperature-uniforming plate respectively and connects with this cavity volume；This radiating component comprises a substrate and the plural fin integrally extended from this substrate, and this radiating component closes this hollow slots with this substrate.

Preferably, aforesaid substrate has a bottom surface, and above-mentioned temperature-uniforming plate has a heating surface, and this bottom surface of this substrate and this heating surface form a coplanar structure.

Preferably, radiator structure further includes several dissipation fins, each radiating fin offers the most corresponding most perforation, periphery in each perforation has each extended over a ringwall, each radiating fin is socketed each heat pipe with each perforation, and mutually repeatedly connecing through each ringwall, thus it is formed with a fluid passage between two these adjacent radiating fins in office.

Preferably, above-mentioned hollow slots is formed at the zone line of this temperature-uniforming plate.

Preferably, undertaking section it is provided with on one at the temperature-uniforming plate top of above-mentioned hollow slots outer peripheral edge, aforesaid substrate comprises a basal segment, the riser section bending extension from these basal segment both sides the most upward and bends a lap segment of extension from this riser section in the horizontal direction, this bottom surface is formed at the outside of this basal segment, this basal segment closes the bottom of this hollow slots, and the most corresponding each upper undertaking section of each lap segment is amplexiformed.

Preferably, above-mentioned each riser section amplexiforms the internal face in this hollow slots respectively.

Preferably, above-mentioned each fin with extrude or backing-off cutting processing and be spaced be formed in this basal segment and each lap segment.

Preferably, it is provided with the section of undertaking bottom this temperature-uniforming plate of above-mentioned hollow slots outer peripheral edge, aforesaid substrate comprises a basal segment and the lap segment extended in the horizontal direction from these basal segment both sides, this bottom surface is formed at the outside of this basal segment, this basal segment closes the bottom of this hollow slots, and the most corresponding each lower undertaking section of each lap segment is amplexiformed.

Preferably, aforesaid substrate comprises a basal segment, and this bottom surface is formed at the outside of this basal segment, and this basal segment closes the bottom of this hollow slots, and each fin amplexiforms the internal face in this hollow slots respectively.

In order to reach above-mentioned purpose, this utility model provides a kind of water-cooled power converter, and including a radiator structure and a lid, this radiator structure includes a temperature-uniforming plate, plural number heat pipe and a radiating component, this temperature-uniforming plate is provided with the hollow slots running through this temperature-uniforming plate, and this temperature-uniforming plate has a cavity volume；Each heat pipe erects at this temperature-uniforming plate respectively and connects with this cavity volume；This radiating component comprises a substrate and the plural fin integrally extended from this substrate, and this radiating component closes this hollow slots with this substrate；This lid cover cap is formed with a liquid chamber, each heat pipe and each fin on this temperature-uniforming plate and between this lid and this temperature-uniforming plate and is formed in this liquid chamber, and this lid offers a water inlet and the outlet connecting this liquid chamber.

Preferably, aforesaid substrate has a bottom surface, and this temperature-uniforming plate has a heating surface, and this bottom surface of this substrate and this heating surface form a coplanar structure.

Preferably, above-mentioned radiator structure further includes several dissipation fins, each radiating fin offers the most corresponding most perforation, periphery in each perforation has each extended over a ringwall, each radiating fin is socketed each heat pipe with each perforation, and mutually repeatedly connecing through each ringwall, thus between two these adjacent radiating fins in office, shape has a fluid passage.

Preferably, above-mentioned hollow slots is formed at the zone line of this temperature-uniforming plate, undertaking section it is provided with on one at this temperature-uniforming plate top of this hollow slots outer peripheral edge, this substrate comprises a basal segment, the riser section bending extension from these basal segment both sides the most upward and bends a lap segment of extension from this riser section in the horizontal direction, this bottom surface is formed at the outside of this basal segment, this basal segment closes the bottom of this hollow slots, and the most corresponding each upper undertaking section of each lap segment is amplexiformed.

Preferably, above-mentioned each riser section amplexiforms the internal face in this hollow slots respectively.

Preferably, above-mentioned each fin with extrude or backing-off cutting processing and be spaced be formed in this basal segment and each lap segment.

Preferably, above-mentioned hollow slots is formed at the zone line of this temperature-uniforming plate, the section of undertaking it is provided with bottom this temperature-uniforming plate of this hollow slots outer peripheral edge, this substrate comprises a basal segment and the lap segment extended in the horizontal direction from these basal segment both sides, this bottom surface is formed at the outside of this basal segment, this basal segment closes the bottom of this hollow slots, and the most corresponding each lower undertaking section of each lap segment is amplexiformed.

Preferably, aforesaid substrate comprises a basal segment, and this bottom surface is formed at the outside of this basal segment, and this basal segment closes the bottom of this hollow slots, and each fin amplexiforms the internal face in this hollow slots respectively.

Preferably, above-mentioned temperature-uniforming plate end face is provided with an annular and inserts ditch, and the root edge of this lid embeds sealing corresponding to this slotting ditch.

Preferably, water-cooled power converter further includes a water inlet pipe and at least one outlet pipe, it is characterised in that above-mentioned water inlet pipe is to connecting by water inlet, and this outlet pipe is to connecting by outlet.

Preferably, water-cooled power converter further includes a dividing plate, and this dividing plate folder is pulled between each heat pipe and this lid, at this dividing plate to the position of water inlet pipe being provided with a fluid passage.

This utility model also has following effect, by connecting of temperature-uniforming plate and heat pipe so that internal working fluid can carry out the diversion of heat with horizontal and vertical gas flow pattern.Utilizing temperature-uniforming plate and substrate to do heat transfer with pyrotoxin, the characteristic being able to low thermal resistance transmits heat rapidly simultaneously.The zone line being formed at temperature-uniforming plate with radiating component transmits with the maximum hot-zone with pyrotoxin, and then can effectively the diversion rapidly of the heat of pyrotoxin be dissipated out.

Accompanying drawing explanation

Fig. 1 is the three-dimensional exploded view of this utility model radiator structure first embodiment.

Fig. 2 is the combination appearance figure of this utility model radiator structure first embodiment.

Fig. 3 is the assembled sectional view of this utility model radiator structure first embodiment.

Fig. 4 is the view sub-anatomy of this utility model radiator structure the second embodiment.

Fig. 5 is the assembled sectional view of this utility model radiator structure the second embodiment.

Fig. 6 is the view sub-anatomy of this utility model radiator structure the 3rd embodiment.

Fig. 7 is the assembled sectional view of this utility model radiator structure the 3rd embodiment.

Fig. 8 is the assembled sectional view of this utility model water-cooled power converter.

[critical piece symbol description]

1,1a, 1b ... radiator structure

10 ... temperature-uniforming plate

11 ... cavity volume

12 ... the first capillary structure

13 ... working fluid

14 ... heating surface

15 ... hollow slots

16 ... the above section of undertaking

17 ... insert ditch

18 ... under the section of undertaking

20 ... heat pipe

21 ... chamber

22 ... the second capillary structure

30,30a, 30b ... radiating component

31 ... substrate

311 ... bottom surface

312 ... basal segment

313 ... riser section

314 ... lap segment

32 ... fin

40 ... radiating fin

41 ... perforation

42 ... ringwall

43 ... fluid passage

A ... coplanar structure

5 ... lid

51 ... water inlet

52 ... outlet

6 ... water inlet pipe

7 ... outlet pipe

8 ... dividing plate

81 ... fluid passage

B ... liquid reservoir.

Detailed description of the invention

The detailed description of relevant this utility model and technology contents, coordinate accompanying drawing to be described as follows, but appended accompanying drawing only provides reference and explanation use, is not used for being any limitation as this utility model.

Referring to shown in Fig. 1 to Fig. 3, this utility model provides a kind of radiator structure, and this radiator structure 1 mainly includes a temperature-uniforming plate 10 (Vapor Chamber), plural number heat pipe 20 (Heat Pipe) and a radiating component 30.

Temperature-uniforming plate 10 is internal has a cavity volume 11, it is laid with inside cavity volume 11 by mesh grid, one first capillary structure 12 of the composition such as sintering metal thing, the assemblies such as the supporter (not shown) being made up of helical spring or cylinder etc., and it is filled with a working fluid 13 of pure water etc., use and utilize the phase change of working fluid 13 to reach heat conduction efficiency, the temperature-uniforming plate 10 of the present embodiment is substantially in a cuboid, but it is not limited with this kind of shape, it also can be circular or other shape, outer bottom mask at temperature-uniforming plate 10 has a heating surface 14, zone line at temperature-uniforming plate 10 offers the hollow slots 15 running through temperature-uniforming plate 10, and temperature-uniforming plate 10 top of this hollow slots 15 outer peripheral edge be provided with one stepped on accept section 16.

The inside of heat pipe 20 has a chamber 21, one second capillary structure 22 being made up of mesh grid, groove, sintering metal thing etc. it is laid with inside chamber 21, each heat pipe 20 of the present embodiment is to erect respectively on aforementioned temperature-uniforming plate 10 and each chamber 21 is interconnected with aforesaid housing compartment 11, and each second capillary structure 22 is connected to aforementioned first capillary structure 12, and then the good circulation effect of internal process fluid 13 can be reached.

Radiating component 30 can be made by copper, aluminum or its alloy, it mainly includes a rectangular substrate 31 and plural number fin 32, substrate 31 has a bottom surface 311, the substrate 31 of the present embodiment mainly comprises a basal segment 312, the riser section 313 bending extension from basal segment 312 both sides the most upward and bends a lap segment 314 of extension from riser section 313 in the horizontal direction, and aforementioned bottom surface 311 is formed at the outside of basal segment 312.Each fin 32 can extrude or the processing mode such as backing-off cutting is spaced and is formed in basal segment 312 and lap segment 314.

Radiating component 30 is corresponding to the hollow slots 15 position installing of temperature-uniforming plate 10, wherein basal segment 312 closes the bottom of hollow slots 15, lap segment 314 corresponds respectively to undertaking section 16 and amplexiforms, riser section 313 is amplexiformed in the internal face of hollow slots 15, lap segment 314 and on accept between section 16 and between the internal face of riser section 313 and hollow slots 15, can pass through heat-conducting medium (not shown) and give affixed, so that the bottom surface 311 of substrate 31 forms coplanar structure A with heating surface 14, this coplanar structure A is in order to contact with a pyrotoxin (not shown) attaching.

In addition, radiator structure 1 further includes several dissipation fins 40, each radiating fin 40 offers most perforation 41 corresponding each other, and each extended over a ringwall 42 in the periphery of each perforation 41, radiating fin 40 is to be socketed on aforementioned heat pipe 20 with its perforation 41, and each radiating fin 40 storehouse each other, and shape between wantonly two adjacent radiating fins 40 is made to have a fluid passage 43 with each repeatedly connecing of ringwall 42.

Utilize the bottom surface 311 of substrate 31 and the heating surface 14 of temperature-uniforming plate 10 to thermally contact with pyrotoxin during use simultaneously, the heat of a portion can be directly passed to fin 32 along basal segment 312 and give dissipation and go out, the heat of another part is then changed next quick diversion by the phase of temperature-uniforming plate 10, and give dissipation again via each radiating fin 40 again through each heat pipe 20 to go out, and then promote its heat dissipation.

Refer to shown in Fig. 4 and Fig. 5, radiator structure of the present utility model is except can be in addition to above-described embodiment, the radiator structure 1a of the present embodiment is provided with a stepped lower undertaking section 18 bottom the temperature-uniforming plate 10 of hollow slots 15 outer peripheral edge, the substrate 31 of radiating component 30a comprises a basal segment 312 and the lap segment 314 extended in the horizontal direction from basal segment 312 both sides, wherein basal segment 312 closes the bottom of hollow slots 15, each lap segment 314 corresponds respectively to each lower undertaking section 18 and amplexiforms, between lap segment 314 and lower undertaking section 18, can pass through heat-conducting medium give affixed, so that the bottom surface 311 of substrate 31 forms coplanar structure A with heating surface 14.

Refer to shown in Fig. 6 and Fig. 7, the radiator structure 1b of the present embodiment closes the bottom of hollow slots 15 with its basal segment 312, the fin 32 of both sides is utilized to amplexiform with the inwall of hollow slots 15, between the inwall of fin 32 and hollow slots 15, can pass through heat-conducting medium give affixed, so that the bottom surface 311 of substrate 31 forms coplanar structure A with heating surface 14.

Refer to shown in Fig. 8, this utility model more provides a kind of water-cooled power converter comprising aforementioned radiator structure, mainly include radiator structure 1 and a lid 5, wherein lid 5 cover cap is on temperature-uniforming plate 10, sealing is embedded corresponding to aforesaid slotting ditch 17 with the root edge of lid 5, and between lid 5 and temperature-uniforming plate 10, it is formed with a liquid chamber B, each heat pipe 20, each fin 32 and each radiating fin 40 are respectively formed in liquid chamber B, separately offer water inlet 51 and two outlets 52 of connection liquid chamber B at lid 5.

In addition, water-cooled power converter of the present utility model farther includes water inlet pipe 6, two outlet pipe 7 and a dividing plate 8, wherein water inlet pipe 6 connects corresponding to aforementioned water inlet 51, each outlet pipe 7 then corresponds respectively to aforementioned outlet 52 and connects, dividing plate 8 folder is pulled between each heat pipe 20 and the top board of the top of each fin 22 and lid 5, and is provided with a fluid passage 81 in dividing plate 8 middle of corresponding water inlet pipe 6.When fluid will directly impact each fin 32 and basal segment 312 after water inlet pipe 6 enters liquid chamber B, and main heat produced by each fin 32 and basal segment 312 is taken away, followed by flow translateral each heat pipe 20 and each radiating fin 40 and secondary heat is taken away, thereafter the passage that formed further along the top board of dividing plate 8 with lid 5 and flow out from each outlet pipe 7, so to reach the flow process of water-cooled power converter internal flow.

In sum, the radiator structure of this utility model and comprise the water-cooled power converter of this structure, really can reach the application target of expection, and solve known disappearance, again because of great novelty and progressive, comply fully with new patent application important document, file an application according to Patent Law, please detailed survey grant quasi-this case patent, to ensure the right of applicant.

Claims (20)

1. a radiator structure, it is characterised in that including:

One temperature-uniforming plate, is provided with the hollow slots running through this temperature-uniforming plate, and this temperature-uniforming plate has a cavity volume；

Plural number heat pipe, erects at this temperature-uniforming plate respectively and connects with this cavity volume；And

One radiating component, comprises a substrate and the plural fin integrally extended from this substrate, and this radiating component closes this hollow slots with this substrate.

2. radiator structure as claimed in claim 1, it is characterised in that aforesaid substrate has a bottom surface, and above-mentioned temperature-uniforming plate has a heating surface, and this bottom surface of this substrate and this heating surface form a coplanar structure.

3. radiator structure as claimed in claim 2, it is characterized in that further including several dissipation fins, each radiating fin offers the most corresponding most perforation, periphery in each perforation has each extended over a ringwall, each radiating fin is socketed each heat pipe with each perforation, and mutually repeatedly connecing through each ringwall, thus it is formed with a fluid passage between two these adjacent radiating fins in office.

4. radiator structure as claimed in claim 2, it is characterised in that above-mentioned hollow slots is formed at the zone line of this temperature-uniforming plate.

5. radiator structure as claimed in claim 4, it is characterized in that being provided with on one undertaking section at the temperature-uniforming plate top of above-mentioned hollow slots outer peripheral edge, aforesaid substrate comprises a basal segment, the riser section bending extension from these basal segment both sides the most upward and bends a lap segment of extension from this riser section in the horizontal direction, this bottom surface is formed at the outside of this basal segment, this basal segment closes the bottom of this hollow slots, and the most corresponding each upper undertaking section of each lap segment is amplexiformed.

6. radiator structure as claimed in claim 5, it is characterised in that above-mentioned each riser section amplexiforms the internal face in this hollow slots respectively.

7. radiator structure as claimed in claim 5, it is characterised in that above-mentioned each fin with extrude or backing-off cutting processing and be spaced and be formed in this basal segment and each lap segment.

8. radiator structure as claimed in claim 4, it is characterized in that being provided with the section of undertaking bottom this temperature-uniforming plate of above-mentioned hollow slots outer peripheral edge, aforesaid substrate comprises a basal segment and the lap segment extended in the horizontal direction from these basal segment both sides, this bottom surface is formed at the outside of this basal segment, this basal segment closes the bottom of this hollow slots, and the most corresponding each lower undertaking section of each lap segment is amplexiformed.

9. radiator structure as claimed in claim 4, it is characterised in that aforesaid substrate comprises a basal segment, and this bottom surface is formed at the outside of this basal segment, and this basal segment closes the bottom of this hollow slots, and each fin amplexiforms the internal face in this hollow slots respectively.

10. a water-cooled power converter, it is characterised in that including:

One radiator structure, including:

One temperature-uniforming plate, is provided with the hollow slots running through this temperature-uniforming plate, and this temperature-uniforming plate has a cavity volume；

Plural number heat pipe, erects at this temperature-uniforming plate respectively and connects with this cavity volume；And

One radiating component, comprises a substrate and the plural fin integrally extended from this substrate, and this radiating component closes this hollow slots with this substrate；And

One lid, cover cap is formed with a liquid reservoir, each heat pipe and each fin on this temperature-uniforming plate and between this lid and this temperature-uniforming plate and is formed in this liquid reservoir, and this lid offers a water inlet and the outlet connecting this liquid reservoir.

11. water-cooled power converters as claimed in claim 10, it is characterised in that aforesaid substrate has a bottom surface, and this temperature-uniforming plate has a heating surface, this bottom surface of this substrate and this heating surface form a coplanar structure.

12. water-cooled power converters as claimed in claim 11, it is characterized in that above-mentioned radiator structure further includes several dissipation fins, each radiating fin offers the most corresponding most perforation, periphery in each perforation has each extended over a ringwall, each radiating fin is socketed each heat pipe with each perforation, and mutually repeatedly connecing through each ringwall, thus between two these adjacent radiating fins in office, shape has a fluid passage.

13. water-cooled power converters as claimed in claim 11, it is characterized in that above-mentioned hollow slots is formed at the zone line of this temperature-uniforming plate, undertaking section it is provided with on one at this temperature-uniforming plate top of this hollow slots outer peripheral edge, this substrate comprises a basal segment, the riser section bending extension from these basal segment both sides the most upward and bends a lap segment of extension from this riser section in the horizontal direction, this bottom surface is formed at the outside of this basal segment, this basal segment closes the bottom of this hollow slots, and the most corresponding each upper undertaking section of each lap segment is amplexiformed.

14. water-cooled power converters as claimed in claim 13, it is characterised in that above-mentioned each riser section amplexiforms the internal face in this hollow slots respectively.

15. water-cooled power converters as claimed in claim 13, it is characterised in that above-mentioned each fin with extrude or backing-off cutting processing and be spaced be formed in this basal segment and each lap segment.

16. water-cooled power converters as claimed in claim 11, it is characterized in that above-mentioned hollow slots is formed at the zone line of this temperature-uniforming plate, the section of undertaking it is provided with bottom this temperature-uniforming plate of this hollow slots outer peripheral edge, this substrate comprises a basal segment and the lap segment extended in the horizontal direction from these basal segment both sides, this bottom surface is formed at the outside of this basal segment, this basal segment closes the bottom of this hollow slots, and the most corresponding each lower undertaking section of each lap segment is amplexiformed.

17. water-cooled power converters as claimed in claim 11, it is characterised in that aforesaid substrate comprises a basal segment, and this bottom surface is formed at the outside of this basal segment, and this basal segment closes the bottom of this hollow slots, and each fin amplexiforms the internal face in this hollow slots respectively.

18. water-cooled power converters as claimed in claim 11, it is characterised in that above-mentioned temperature-uniforming plate end face is provided with an annular and inserts ditch, and the root edge of this lid embeds sealing corresponding to this slotting ditch.

19. water-cooled power converters as claimed in claim 11, it is characterised in that further include a water inlet pipe and at least one outlet pipe, it is characterised in that above-mentioned water inlet pipe is to connecting by water inlet, and this outlet pipe is to connecting by outlet.

20. water-cooled power converters as claimed in claim 19, it is characterised in that further include a dividing plate, this dividing plate folder is pulled between each heat pipe and this lid, at this dividing plate to the position of water inlet pipe being provided with a fluid passage.