CN201993010U

CN201993010U - Radiator

Info

Publication number: CN201993010U
Application number: CN2010206458839U
Authority: CN
Inventors: 杜建军
Original assignee: Shenzhen Fluence Technology Co Ltd
Current assignee: Huizhou Fluence Optoelectronic Technology Co Ltd
Priority date: 2010-12-07
Filing date: 2010-12-07
Publication date: 2011-09-28
Anticipated expiration: 2020-12-07

Abstract

The utility model provides a radiator, which comprises a supporting seat, a radiating fin group, a heat pipe, an upper cover body, and a water inlet connector and a water outlet connector, wherein the supporting seat is a plate structure, and a groove is arranged on the lower surface of the supporting seat; the radiating fin group is arranged above the supporting seat and comprises a plurality of radiating fins which are arranged at intervals; the heat pipe comprises a heat absorbing part and a heat radiating part, the heat absorbing part is fixed in the groove, and the heat radiating part is arranged in the radiating fin group in a penetrating way; the upper cover body is arranged on the upper surface of the supporting seat and combined with the upper surface of the supporting seat to form a cavity body; and the water inlet connector and the water outlet connector are communicated with the cavity body respectively. By adopting the method, as heat pipe cooling and water cooling are combined, the parts in need of heat radiating can be effectively cooled, the radiating effect is improved, and the requirement on high heat radiating is satisfied.

Description

A kind of radiator

[technical field]

The utility model relates to a kind of radiator, relates in particular to the radiator of a kind of water-cooled and heat pipe cooling and mixing.

[background technology]

Radiator mainly has fan radiator, heat-pipe radiator etc. at present.Reasons such as the fan radiator is because low price, and installing/dismounting is easy become the main flow radiator of installation configuration all the time.But, in some application, replaced by heat-pipe radiator just gradually because it is fragile, need shortcoming such as regularly cleaning.Existing heat-pipe radiator generally comprises heat pipe, supporting base and radiating fin group.Heat pipe one end is fixed in the supporting seat, the other end wear with the radiator fin group in.But existing heat-pipe radiator can't satisfy the demand of some high heat radiation.

[summary of the invention]

The utility model provides a kind of radiator, and the parts that can effectively dispel the heat to need dispel the heat, and have better heat radiating effect, can satisfy the demand of high heat radiation.

The utility model provides a kind of radiator, and this radiator comprises: supporting base, and supporting base is a platy structure, and lower surface is provided with groove; Radiating fin group, radiating fin group are arranged at the supporting base top, and comprise spaced a plurality of radiating fin; Heat pipe, heat pipe comprise endothermic section and radiating part, and the endothermic section is fixed in the groove, and radiating part is arranged in the radiating fin group; Upper cover body, upper cover body are arranged on the upper surface of supporting base, and cooperate formation one cavity with the upper surface of supporting base; Go into water swivel and water out adapter, be communicated with cavity respectively.

According to one of the utility model preferred embodiment, radiator further comprises lower cover, and lower cover is arranged on the lower surface of supporting base, and cooperates the clamping endothermic section with supporting base.

According to one of the utility model preferred embodiment, the endothermic section is formed with compressive plane, and compressive plane is concordant with the lower surface of supporting base, and compressive plane directly contact is treated heat-delivery surface.

According to one of the utility model preferred embodiment, radiator further comprises the switching piece, and the switching piece is arranged between water swivel and water out adapter and the upper cover body, and is communicated with to go into water swivel and water out adapter and cavity.

According to one of the utility model preferred embodiment, the upper surface of upper cover body is provided with blasthole and apopore, be provided with into aquaporin and exhalant canal in the switching piece, first end of going into aquaporin connects into the water hole, second end of going into aquaporin connects into water swivel, first end of exhalant canal connects apopore, and second end of exhalant canal connects water out adapter.

According to one of the utility model preferred embodiment, the switching piece is fixed on the upper surface of upper cover body, first end of going into aquaporin is arranged at the lower surface of switching piece and is formed with first flange, first flange is inserted in the blasthole, first end of exhalant canal is arranged at the lower surface of switching piece and is formed with second flange, and second flange is inserted in the apopore.

According to one of the utility model preferred embodiment, radiator further comprises and is arranged at first sealing ring between first flange and the blasthole and is arranged at second sealing ring between second flange and the apopore.

According to one of the utility model preferred embodiment, second end of going into aquaporin is arranged at the side of switching piece, the upper surface of going into water swivel and upper cover body extends in parallel, and second end of exhalant canal is arranged at the side of switching piece, and the upper surface of water out adapter and upper cover body extends in parallel.

According to one of the utility model preferred embodiment, radiator further includes water pipe and outlet pipe, and oral siphon and outlet pipe are arranged between switching piece and the upper cover body, and is communicated with switching piece and cavity.

According to one of the utility model preferred embodiment, the upper surface of upper cover body is provided with blasthole and apopore, be provided with into aquaporin and exhalant canal in the switching piece, first end of oral siphon connects into the water hole, second end of oral siphon connects into first end of aquaporin, and second end of going into aquaporin connects into water swivel, and first end of outlet pipe connects apopore, second end of outlet pipe connects first end of exhalant canal, and second end of exhalant canal connects water out adapter.

According to one of the utility model preferred embodiment, oral siphon and outlet pipe extend perpendicular to the upper surface of upper cover body and are arranged in the radiating fin group.

According to one of the utility model preferred embodiment, the switching piece is fixed in the top of radiating fin group, the lower surface that first end of going into aquaporin is arranged at the piece of transferring is formed with first jointing holes, second end of oral siphon is inserted in first jointing holes, first end of exhalant canal is arranged at the lower surface of switching piece and is formed with second jointing holes, and second end of outlet pipe is inserted in second jointing holes.

According to one of the utility model preferred embodiment, radiator further comprises second end and first sealing ring between first jointing holes and second end that is arranged at outlet pipe and second sealing ring between second jointing holes that is arranged at oral siphon.

According to one of the utility model preferred embodiment, the upper surface of supporting base is provided with a plurality of fins.

According to one of the utility model preferred embodiment, a plurality of fins extend in parallel.

By the way, the heat pipe cooling is combined with water-cooled, the parts that can effectively dispel the heat to need dispel the heat, and have improved radiating effect, have satisfied the demand of high heat radiation.

[description of drawings]

Fig. 1 is the stereogram of first embodiment of radiator of the present utility model.

Fig. 2 be among Fig. 1 radiator remove explosive view behind radiating fin group and the heat pipe.

Fig. 3 is the sectional view of the switching piece among Fig. 1.

Fig. 4 is the front view of second embodiment of radiator of the present utility model.

Fig. 5 be among Fig. 4 radiator remove explosive view behind radiating fin group and the heat pipe.

Fig. 6 is the sectional view of the switching piece among Fig. 4.

[specific embodiment]

Below in conjunction with drawings and Examples utility model is elaborated.

Shown in Fig. 1-2, Fig. 1 is the stereogram of first embodiment of radiator of the present utility model; Fig. 2 be among Fig. 1 radiator remove explosive view behind radiating fin group and the heat pipe.Radiator 10 of the present utility model comprises supporting base 110, radiating fin group 120, heat pipe 130, lower cover 140, upper cover body 150, goes into water swivel 160 and water out adapter 170.

Supporting base 110 is a platy structure, and lower surface is provided with groove 111 (referring to Fig. 2).The upper surface of supporting base 110 is provided with a plurality of fins 112, and these a plurality of fins 112 are perpendicular to the upper surface of supporting base 110 and extend in parallel.Supporting base 110 is preferably radiating effect good metal such as copper, aluminum or aluminum alloy and constitutes.Radiating fin group 120 is arranged at supporting base 110 tops, and comprises spaced a plurality of radiating fin 121.Same, radiating fin 121 is preferably radiating effect good metal such as copper, aluminum or aluminum alloy and constitutes.Heat pipe 130 comprises endothermic section and radiating part, and the endothermic section is fixed in the groove 111, and radiating part is arranged in the radiating fin group 120.

Lower cover 140 is arranged on the lower surface of supporting base 110, and cooperates the endothermic section of clamping heat pipe 130 with supporting base 110.In the present embodiment, groove 141 is set, cooperates the groove 111 of the lower surface setting of supporting base 110 to grip the endothermic section of heat pipe 130 in the relevant position of the upper surface of lower cover 140.In addition, the endothermic section of heat pipe 130 also can be fixed in the groove 111 by modes such as welding or clampings.That is to say that lower cover 140 is not a necessary element of the present utility model.In other embodiments of the invention, the endothermic section of heat pipe 130 is formed with compressive plane, and compressive plane is concordant with the lower surface of supporting base 110.At this moment, the compressive plane of endothermic section is the parts of contact need heat radiation directly, to promote radiating efficiency.Heat pipe is preferably U-shaped heat pipe or L shaped heat pipe.

Upper cover body 150 is arranged on the upper surface of supporting base 110, and forms a cavity (not shown) with the upper surface of supporting base 110.A plurality of fins 112 are closed in the cavity.Upper cover body 150 is fixing with supporting base 110 by bolt 191.In order to guarantee the sealing in the cavity, can locate with sealings such as glue in the upper cover body 150 and the slit of supporting base 110.In other embodiments, can use method such as welding to upper cover body 150 and supporting base 110 sealing and fixing.Going into water swivel 160 and water out adapter 170 is communicated with above-mentioned cavity respectively.

In the present embodiment, radiator 10 further is provided with and goes into switching piece 181 that water swivel 160 is connected and the switching piece 182 that is connected with water out adapter 170.Switching piece 181 further is connected upper cover body 150 with switching piece 182, promptly the transfer piece 181 and the piece 182 of transferring be arranged at upper cover body 150 and go into water swivel 160 and water out adapter 170 between, and water swivel 160 and water out adapter 170 and cavity are gone in connection respectively.The upper surface of upper cover body 150 is provided with blasthole 156 and apopore 157, is provided with into aquaporin 186 (as shown in Figure 3) in the switching piece 181, is provided with exhalant canal 187 (as shown in Figure 3) in the switching piece 182.Switching piece 181 is fixed on the upper surface of upper cover body 150 with switching piece 182, and first end of going into aquaporin 186 is arranged at the lower surface of switching piece 181 and is formed with first flange, 183, the first flanges 183 and is inserted in the blasthole 156.First end of exhalant canal 187 is arranged at the lower surface of switching piece 182 and is formed with second flange, 184, the second flanges 184 and is inserted in the apopore 157.First end of going into aquaporin 186 connects into water hole 156 by first flange 183, and second end of going into aquaporin 186 connects into water swivel 160.First end of exhalant canal 187 connects apopore 157 by second flange 184, and second end of exhalant canal 187 connects water out adapter 170.Switching piece 181 and switching piece 182 with go into being connected between water swivel 160 and the water out adapter 170 and can realize by screw thread, welding and mode such as one-body molded.

In the present embodiment, second end of going into aquaporin 186 is arranged at the side of switching piece 181, extends in parallel so that go into the upper surface of water swivel 160 and upper cover body 150.Second end of exhalant canal 187 is arranged at the side of switching piece 182, so that the upper surface of water out adapter 170 and upper cover body 150 extends in parallel.Switching piece 181 and switching piece 182 are fixed in the upper surface of upper cover body 150 by bolt 192.In other embodiment, can use will transfer piece 181 and switching piece 182 of the method for welding to be fixed in the upper surface of upper cover body 150.

Radiator 10 further comprises and is arranged at first sealing ring 196 between first flange 183 and the blasthole 156 and is arranged at second sealing ring 197 between second flange 184 and the apopore 157.First sealing ring 196 and second sealing ring 197 are used for preventing have water to leak or ooze out into aquaporin and exhalant canal.

Shown in Fig. 4-5, Fig. 4 is the front view of second embodiment of radiator of the present utility model; Fig. 5 be among Fig. 4 radiator remove explosive view behind radiating fin group and the heat pipe.Radiator 20 of the present utility model comprises supporting base 210, radiating fin group 220, heat pipe 230, lower cover 240, upper cover body 250, goes into water swivel 260, water out adapter 270, adapter 280, oral siphon 293 and outlet pipe 294.

Supporting base 210 is a platy structure, and lower surface is provided with groove 211.The upper surface of supporting base 210 is provided with a plurality of fins 212, and these a plurality of fins 212 are perpendicular to the upper surface of supporting base 210 and extend in parallel.Supporting base 210 is preferably radiating effect good metal such as copper, aluminum or aluminum alloy and constitutes.Radiating fin group 220 is arranged at supporting base 210 tops, and comprises spaced a plurality of radiating fin 221.Same, radiating fin 221 is preferably radiating effect good metal such as copper, aluminum or aluminum alloy and constitutes.Heat pipe 230 comprises endothermic section and radiating part, and the endothermic section is fixed in the groove 211, and radiating part is arranged in the radiating fin group 220.Lower cover 240 is arranged on the lower surface of supporting base 210, and cooperates the endothermic section of clamping heat pipe 230 with supporting base 210.In the present embodiment, groove 241 is set, cooperates the groove 211 of the lower surface setting of supporting base 210 to grip the endothermic section of heat pipe 230 in the relevant position of the upper surface of lower cover 240.In addition, the endothermic section of heat pipe 230 also can be fixed in the groove 211 by modes such as welding or clampings.That is to say that lower cover 240 is not a necessary element of the present utility model.In other embodiments of the invention, the endothermic section of heat pipe 230 is formed with compressive plane, and compressive plane is concordant with the lower surface of supporting base 210.At this moment, the compressive plane of endothermic section is the parts of contact need heat radiation directly, to promote radiating efficiency.Heat pipe is preferably U-shaped heat pipe or L shaped heat pipe.

Upper cover body 250 is arranged on the upper surface of supporting base 210, and forms a cavity (not shown) with the upper surface of supporting base 210.A plurality of fins 212 are closed in the cavity.Upper cover body 250 is closely fixing by bolt 291 and supporting base 210.In order to guarantee the sealing in the cavity, can locate with sealings such as glue in the upper cover body 250 and the slit of supporting base 210.In other embodiments, can use method such as welding to upper cover body 250 and supporting base 210 sealing and fixing.

In the present embodiment, radiator 20 further includes water pipe 293 and outlet pipe 294, and oral siphon 293 and outlet pipe 294 are arranged between switching piece 280 and the upper cover body 250, and is communicated with switching piece 280 and cavity.The upper surface of upper cover body 250 is provided with blasthole 256 and apopore 257, is provided with into aquaporin 286 (as shown in Figure 6) and exhalant canal 287 (as shown in Figure 6) in the switching piece 280.First end of oral siphon 293 connects into water hole 256, and second end of oral siphon 293 connects into first end of aquaporin 286, and first end of outlet pipe 294 connects apopore 257, and second end of outlet pipe 294 connects first end of exhalant canal 287.

Specifically, switching piece 280 is fixed in the top of radiating fin group 230, and oral siphon 293 and outlet pipe 294 extend perpendicular to the upper surface of upper cover body 250 and be arranged in the radiating fin group 230.In the present embodiment, switching piece 280 is fixed in the top of radiating fin group 230 by bolt 292, and in other embodiments, can use known method such as welding to fix.

First end of oral siphon 293 and first end of outlet pipe 294 can be connected to blasthole 256 and apopore 257 by welding manner.The lower surface that first end of going into aquaporin 286 is arranged at the piece 280 of transferring is formed with first jointing holes 283, and second end of oral siphon 293 is inserted in first jointing holes 283, thereby connects into first end of aquaporin 286.First end of exhalant canal 287 is arranged at the lower surface of switching piece 280 and is formed with second jointing holes 284, and second end of outlet pipe 294 is inserted in second jointing holes 284, thereby connects first end of exhalant canal 287.Second end of going into aquaporin 286 connects into water swivel 260, and second end of exhalant canal 287 connects water out adapter 270.

Radiator 20 further comprises second end and first sealing ring 296 between first jointing holes 283 and second end that is arranged at outlet pipe 294 and second sealing ring 297 between second jointing holes 284 that is arranged at oral siphon 293.Second end of going into aquaporin 286 is arranged at the side of switching piece 280, extends in parallel so that go into the upper surface of water swivel 260 and upper cover body 250.Second end of exhalant canal 287 is arranged at the side of switching piece 250, so that the upper surface of water out adapter 270 and upper cover body extends in parallel.

In the above-described embodiments, only utility model has been carried out exemplary description, but those skilled in the art can carry out various modifications to utility model after reading present patent application under the situation of the spirit and scope that do not break away from utility model.

Claims

1. a radiator is characterized in that, described radiator comprises:

Supporting base, described supporting base is a platy structure, and lower surface is provided with groove;

Radiating fin group, described radiating fin group are arranged at described supporting base top, and comprise spaced a plurality of radiating fin;

Heat pipe, described heat pipe comprises endothermic section and radiating part, and described endothermic section is fixed in the described groove, and described radiating part is arranged in the described radiating fin group;

Upper cover body, described upper cover body is arranged on the upper surface of described supporting base, and cooperates formation one cavity with the upper surface of described supporting base;

Go into water swivel and water out adapter, be communicated with described cavity respectively.

2. radiator according to claim 1 is characterized in that described radiator further comprises lower cover, and described lower cover is arranged on the lower surface of described supporting base, and cooperates the described endothermic section of clamping with described supporting base.

3. radiator according to claim 1 is characterized in that described endothermic section is formed with compressive plane, and described compressive plane is concordant with the lower surface of described supporting base, and described compressive plane directly contact is treated heat-delivery surface.

4. radiator according to claim 1, it is characterized in that, described radiator further comprises the switching piece, and described switching piece is arranged at describedly goes between water swivel and described water out adapter and the described upper cover body, and is communicated with described go into water swivel and described water out adapter and described cavity.

5. radiator according to claim 4, it is characterized in that, the upper surface of described upper cover body is provided with blasthole and apopore, be provided with into aquaporin and exhalant canal in the described switching piece, described first end of going into aquaporin connects described blasthole, described second end of going into aquaporin connects the described water swivel of going into, and first end of described exhalant canal connects described apopore, and second end of described exhalant canal connects described water out adapter.

6. radiator according to claim 5, it is characterized in that, described switching piece is fixed on the upper surface of described upper cover body, described first end of going into aquaporin is arranged at the lower surface of described switching piece and is formed with first flange, described first flange is inserted in the described blasthole, first end of described exhalant canal is arranged at the lower surface of described switching piece and is formed with second flange, and described second flange is inserted in the described apopore.

7. radiator according to claim 6 is characterized in that, described radiator further comprises and is arranged at first sealing ring between described first flange and the described blasthole and is arranged at second sealing ring between described second flange and the described apopore.

8. radiator according to claim 7, it is characterized in that, described second end of going into aquaporin is arranged at the side of described switching piece, described upper surface of going into water swivel and described upper cover body extends in parallel, second end of described exhalant canal is arranged at the side of described switching piece, and the upper surface of described water out adapter and described upper cover body extends in parallel.

9. radiator according to claim 4 is characterized in that described radiator further includes water pipe and outlet pipe, and described oral siphon and described outlet pipe are arranged between described switching piece and the described upper cover body, and is communicated with described switching piece and described cavity.

10. radiator according to claim 9, it is characterized in that, the upper surface of described upper cover body is provided with blasthole and apopore, be provided with into aquaporin and exhalant canal in the described switching piece, first end of described oral siphon connects described blasthole, second end of described oral siphon connects described first end of going into aquaporin, described second end of going into aquaporin connects the described water swivel of going into, first end of described outlet pipe connects described apopore, second end of described outlet pipe connects first end of described exhalant canal, and second end of described exhalant canal connects described water out adapter.

11. radiator according to claim 10 is characterized in that, described oral siphon and described outlet pipe extend perpendicular to the upper surface of described upper cover body and are arranged in the described radiating fin group.

12. radiator according to claim 11, it is characterized in that, described switching piece is fixed in the top of described radiating fin group, the lower surface that described first end of going into aquaporin is arranged at described switching piece is formed with first jointing holes, second end of described oral siphon is inserted in described first jointing holes, first end of described exhalant canal is arranged at the lower surface of described switching piece and is formed with second jointing holes, and second end of described outlet pipe is inserted in described second jointing holes.

13. radiator according to claim 12, it is characterized in that described radiator further comprises second end and first sealing ring between described first jointing holes and second end that is arranged at described outlet pipe and second sealing ring between described second jointing holes that is arranged at described oral siphon.

14. radiator according to claim 12, it is characterized in that, described second end of going into aquaporin is arranged at the side of described switching piece, described upper surface of going into water swivel and described upper cover body extends in parallel, second end of described exhalant canal is arranged at the side of described switching piece, and the upper surface of described water out adapter and described upper cover body extends in parallel.

15. radiator according to claim 1 is characterized in that, the upper surface of described supporting base is provided with a plurality of fins.

16. radiator according to claim 15 is characterized in that, described a plurality of fins extend in parallel.