CN201515582U - External radiator and related electronic device thereof - Google Patents
External radiator and related electronic device thereof Download PDFInfo
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- CN201515582U CN201515582U CN2009201781489U CN200920178148U CN201515582U CN 201515582 U CN201515582 U CN 201515582U CN 2009201781489 U CN2009201781489 U CN 2009201781489U CN 200920178148 U CN200920178148 U CN 200920178148U CN 201515582 U CN201515582 U CN 201515582U
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- heat
- conducting piece
- radiating module
- circumscribed
- electronic installation
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Abstract
The utility model discloses an external radiator which is used for connecting a radiating module inside an electronic device. The external radiator comprises a heat conducting part, wherein one end of the heat conducting part is used for being inserted into an open pore of the electronic device so as to be connected to the radiating module in an extractable manner; and the heat conducting part is used for conducting the heat of the radiating module. The external radiator additionally comprises a heat dissipation part or a heat storage part which is arranged at the other end of the heat conducting part; and the heat dissipation part or the heat storage part is respectively used for radiating or storing the heat of the radiating module transferred by the heat conducting part.
Description
Technical field
The utility model relates to a kind of heat abstractor, especially relates to a kind of circumscribed heat abstractor that can be used to be connected in a radiating module of an electronic installation inside.
Background technology
Along with development of science and technology, heat dissipation problem still is the difficult problem that a urgent need overcomes in the application of cooling system now, and in the streets various dissimilar cooling system also adopts various different radiating mode.Right existing heat dissipation technology has not been applied and has been solved a large amount of heats that produce of various thermal source, thus there is the application of many heat dissipation technologys just to arise at the historic moment, so that electronic installation can be kept the effect of normal working temperature.Yet the air cooling system that generally uses no matter how the usefulness of cooling fan improves, still has its restriction, as the shortcoming of noise and power consumption on the solution heat dissipation problem at present.Especially now electronic product moves towards lightening trend gradually, the radiating efficiency that is arranged at the heat dissipation element of small space of electronic product inside and fan has been not enough to deal with required, so how to design effectively the heat abstractor of the heat that inner member produces of runaway electron device just is the important topic of the required effort of electronic industry now.
The utility model content
The purpose of this utility model is to provide a kind of circumscribed heat abstractor that can be used to be connected in a radiating module of an electronic installation inside, to solve the above problems.
The purpose of this utility model is to realize like this, promptly disclose a kind of circumscribed heat abstractor, it is used for being connected in a radiating module of an electronic installation inside, this circumscribed heat abstractor includes a heat-conducting piece, one end of this heat-conducting piece is used for inserting a perforate of this electronic installation, be used for being connected in this radiating module in the mode of pullable, this heat-conducting piece is used for conducting the heat of this radiating module; And a heat sink, it is arranged at the other end of this heat-conducting piece, and this heat sink is used for loosing and removes heat by this radiating module that this heat-conducting piece transmitted.
The utility model discloses a kind of electronic installation that connects the circumscribed heat abstractor in addition, and it includes a shell, is formed with a perforate on it; One thermal source, it is arranged in this shell; One radiating module, it is installed in this shell and is arranged at a side of this thermal source, and this radiating module is used for loosing and removes the heat that this thermal source produced; An and circumscribed heat abstractor.This circumscribed heat abstractor includes a heat-conducting piece, and an end of this heat-conducting piece is used for inserting this perforate of this shell, is used for being connected in this radiating module in the mode of pullable, and this heat-conducting piece is used for conducting the heat of this radiating module; And a heat sink, it is arranged at the other end of this heat-conducting piece, and this heat sink is used for loosing and removes heat by this radiating module that this heat-conducting piece transmitted.
The utility model discloses a kind of circumscribed heat abstractor in addition, it is used for being connected in a radiating module of an electronic installation inside, this circumscribed heat abstractor includes a heat-conducting piece, one end of this heat-conducting piece is used for inserting a perforate of this electronic installation, be used for being connected in this radiating module in the mode of pullable, this heat-conducting piece is used for conducting the heat of this radiating module; And a heat accumulation spare, it is arranged at the other end of this heat-conducting piece, and this heat accumulation spare is used for storing the heat of this radiating module that is transmitted by this heat-conducting piece.
The utility model discloses a kind of electronic installation that connects the circumscribed heat abstractor in addition, and it includes a shell, is formed with a perforate on it; One thermal source, it is arranged in this shell; One radiating module, it is installed in this shell and is arranged at a side of this thermal source, and this radiating module is used for loosing and removes the heat that this thermal source produced; An and circumscribed heat abstractor.This circumscribed heat abstractor includes a heat-conducting piece, and an end of this heat-conducting piece is used for inserting this perforate of this shell, is used for being connected in this radiating module in the mode of pullable, and this heat-conducting piece is used for conducting the heat of this radiating module; And a heat accumulation spare, it is arranged at the other end of this heat-conducting piece, and this heat accumulation spare is used for storing the heat of this radiating module that is transmitted by this heat-conducting piece.
Advantage of the present utility model is, it inserts heat-conducting piece to be connected directly to the radiating module of electronic installation inside from the perforate of electronic installation, so can effectively the heat of radiating module be conducted to the outside of electronic installation, and can improve radiating efficiency with the contact area that increases circumscribed heat abstractor and radiating module by being formed with corresponding a plurality of protuberance and a plurality of groove in addition at heat-conducting piece and radiating module surface.In addition, whether electronic installation of the present utility model can utilize diverter switch to detect the circumscribed heat abstractor and correctly install, and according to detecting the rotating speed that the result adjusts the fan of electronic installation, to reach power saving and quiet effect.
Description of drawings
Fig. 1 is the schematic diagram of the utility model first embodiment electronic installation;
Fig. 2 is the schematic diagram of the utility model second embodiment radiating module and circumscribed heat abstractor;
Fig. 3 is the schematic diagram of the utility model the 3rd embodiment radiating module and circumscribed heat abstractor;
Fig. 4 is the schematic diagram of the utility model the 4th embodiment electronic installation.
The main element symbol description
10 electronic installations, 12 shells
14 perforates, 16 thermals source
18 radiating modules, 20 circumscribed heat abstractors
22 heat-conducting pieces, 24 heat sinks
26 circumscribed fans, 28 fans
30 diverter switches, 32 heat accumulation spares
Embodiment
See also Fig. 1, Fig. 1 is the schematic diagram of the utility model first embodiment one electronic installation 10.Electronic installation 10 includes a shell 12, is formed with a perforate 14 on it; One thermal source 16, it is arranged in the shell 12, and thermal source 16 can be electronic components such as process chip; And a radiating module 18, it is installed in the shell 12 and is arranged at thermal source 16 1 sides, and radiating module 18 is used for loosing and removes the heat that thermal source 16 is produced.Electronic installation 10 includes a circumscribed heat abstractor 20 in addition, and it includes at least one heat-conducting piece 22, and it can be a metal rod.One end of heat-conducting piece 22 is used for inserting the perforate 14 of shell 12, be used for being connected in radiating module 18 in the mode of pullable, wherein heat-conducting piece 22 can tight fit and mode such as clamping be connected in radiating module 18, and heat-conducting piece 22 is used for the heat of heat loss through conduction module 18.Circumscribed heat abstractor 20 includes at least one heat sink 24 in addition, and it is arranged at an end of heat-conducting piece 22, and heat sink 24 is used for loosing and removes the heat of the radiating module 18 that is transmitted by heat-conducting piece 22, and heat sink 24 can be a radiating fin.Circumscribed heat abstractor 20 can include a circumscribed fan 26 in addition, and it is arranged at a side of heat sink 24, and circumscribed fan 26 is used for the heat that dissipation heat sink 24 is distributed.In addition, electronic installation 10 can include a fan 28 in addition, and it is arranged in the shell 12, and fan 28 can be used to the diffusing heat that removes radiating module 18.Electronic installation 10 can include one in addition and switch switch 30, and it is electrically connected on fan 28, and diverter switch 30 is used for being triggered the switch that is used to adjust the rotating speed of fan 28 or adjusts fan 28 when the perforate 14 that this end of heat-conducting piece 22 inserts electronic installation 10.Wherein, can be not limited to the foregoing description described for be provided with position and the number of heat-conducting piece 22 and heat sink 24, looks closely practical application and decide.
See also Fig. 2, Fig. 2 is the schematic diagram of the utility model second embodiment radiating module 18 and circumscribed heat abstractor 20.In order to improve the radiating efficiency of heat-conducting piece 22, can be formed with a plurality of protuberances 221 on the heat-conducting piece 22 with the increase area of dissipation, and protuberance 221 can be a clamp ring.In addition, can be formed with a plurality of corresponding grooves 181 on the radiating module 18, it is used for being sticked in a plurality of protuberances 221 of heat-conducting piece 22.A plurality of protuberances 221 and a plurality of grooves 181 can be used to increase the contact area of heat-conducting piece 22 and radiating module 18, wherein a plurality of protuberances 221 of heat-conducting piece 22 can be formed by abrasion resisting material, so the protuberance 221 of heat-conducting piece 22 can reduce the degree of wear of protuberance 221 when combining with the groove 181 of radiating module 18.Position, number are set, can be not limited to shown in the present embodiment with moulding of protuberance 221 and groove 181 looked closely design requirement and decided.
And protuberance 221 of the foregoing description and the configuration of groove 181 also interchangeable see also Fig. 3, and Fig. 3 is the schematic diagram of the utility model the 3rd embodiment radiating module 18 and circumscribed heat abstractor 20.Compared to second embodiment, in the 3rd embodiment, can be formed with a plurality of grooves 223 on the heat-conducting piece 22 to increase area of dissipation.In addition, radiating module 18 can be formed with a plurality of corresponding protuberances 183, and it is used for being sticked in a plurality of grooves 223 of heat-conducting piece 22.A plurality of grooves 223 and a plurality of protuberances 183 are used for increasing the contact area of heat-conducting piece 22 and radiating module 18, wherein a plurality of protuberances 183 of radiating module 18 can be formed by abrasion resisting material, so the protuberance 183 of radiating module 18 can reduce the degree of wear of protuberance 183 when combining with the groove 223 of heat-conducting piece 22.Position, number are set, can be not limited to shown in the present embodiment with moulding of groove 223 and protuberance 183 looked closely design requirement and decided.
By Fig. 1 to Fig. 3 as can be known, circumscribed heat abstractor 20 of the present utility model can be a rod shaped structure thing, is used for inserting from the perforate 14 of shell 12, to be connected to the radiating module 18 of electronic installation 10 inside.When circumscribed heat abstractor 20 is not connected in radiating module 18, the works that radiating module 18 does not have to conduct heat can be connected to shell 12, so radiating module 18 can not improve the ambient temperature of perforate 14, and only pass through the diffusing equably heat that removes radiating module 18 of wind-force of fan 28.When circumscribed heat abstractor 20 is connected in radiating module 18, heat-conducting piece 22 can be used to the heat of heat loss through conduction module 18 to heat sink 24, loose more quickly by the heat sink 24 that is placed in electronic installation 10 outsides again and remove the heat that is transmitted by heat-conducting piece 22, or be aided with the heat that circumscribed fan 26 comes dissipation heat sink 24 to be distributed in the mode of forced convertion.In order to reach preferable radiating efficiency, circumscribed heat abstractor 20 can tight fit or the mode of clamping be connected in radiating module 18, to guarantee having maximum contact area.In addition, electronic installation 10 can form corresponding a plurality of protuberance and a plurality of groove respectively with radiating module 18 in the heat-conducting piece 22 of circumscribed heat abstractor 20 in addition, it is used for when heat-conducting piece 22 is connected in radiating module 18 corresponding a plurality of protuberances being engaged mutually with a plurality of grooves, to increase contact area and to improve stability.It is described that the connected mode of heat-conducting piece 22 and radiating module 18 is not limited to the foregoing description, and for example it can be by modes such as reed clamping or screw lockings to strengthen the compactness that is connected of heat-conducting piece 22 and radiating module 18, looks closely practical application and decide.
Moreover, when this end of heat-conducting piece 22 inserts the perforate 14 of electronic installation 10, the heat of radiating module 18 can conduct to heat sink 24 to loose except that the space outerpace to electronic installation 10 by heat-conducting piece 22, because circumscribed heat abstractor 20 can have been assisted radiating module 18 to loose and removed the heat that thermal source 16 is produced, event can design when the perforate 14 of this end insertion electronic installation 10 of heat-conducting piece 22 can trigger diverter switch 30, so that the signal of diverter switch 30 output control fans 28, meaning is that diverter switch 30 can be used to be triggered when circumscribed heat abstractor 20 correctly is connected in radiating module 18, be used to adjust the rotating speed (for example reduce the rotating speed of fan 28 or close fan 28) of fan 28, and can reach power consumption of saving electronic installation 10 and the effect that reduces noise.Therefore, the mode of operation of circumscribed fan 26 and fan 28 (On/Off) and speed setting (high rotating speed/slow-speed of revolution) can adjust with the connection status of circumscribed heat abstractor 20 according to heat and the radiating module 18 that thermal source 16 produced, and look closely actual demand and decide.
See also Fig. 4, Fig. 4 is the schematic diagram of the utility model the 4th embodiment electronic installation 10.Element with the previous embodiment same numeral among this embodiment has same structure and function, so be not described in detail in this.Electronic installation 10 includes a heat accumulation spare 32 in addition, and it is arranged at the other end of heat-conducting piece 22.Heat accumulation spare 32 can be used to store the heat of the radiating module 18 that is transmitted by heat-conducting piece 22.Heat accumulation spare 32 can be a heater, and a thermal conductive container for example can ccontaining essential oil on it, and when heat-conducting piece 22 conducted heat to heat accumulation spare 32, heat accumulation spare 32 can heat essential oil, and reaches the effect of stacte lamp; Moreover heat accumulation spare 32 or can be a heat conducting disk can be furnished on it and wait the article that are incubated or heat, and as thermos cup etc., when heat-conducting piece 22 conducted heat to heat accumulation spare 32, heat accumulation spare 32 can be incubated or heat article, and reaches the effect of insulation or heating.Because the heat of the radiating module 18 that transmitted of heat-conducting piece 22 is a used heat,, and reclaims again to be used in addition and heat or be incubated other article, for example essence oil lamp, water tumbler or the like so the design of heat accumulation spare 32 promptly can be used to store used heat.The purposes of heat accumulation spare 32 can be not limited to above-mentioned described, looks closely actual demand and decides.
Be compared to background technology, circumscribed heat abstractor of the present utility model inserts heat-conducting piece to be connected directly to the radiating module of electronic installation inside from the perforate of electronic installation, so can effectively the heat of radiating module be conducted to the outside of electronic installation, and can improve radiating efficiency with the contact area that increases circumscribed heat abstractor and radiating module by being formed with corresponding a plurality of protuberance and a plurality of groove in addition in heat-conducting piece and radiating module surface.In addition, whether electronic installation of the present utility model can utilize diverter switch to detect the circumscribed heat abstractor and correctly install, and according to detecting the rotating speed that the result adjusts the fan of electronic installation, to reach power saving and quiet effect.
The above only is preferred embodiment of the present utility model, and all equalizations of being done according to the utility model claim change and modify, and all should belong to covering scope of the present utility model.
Claims (48)
1. circumscribed heat abstractor, it is used for being connected in the radiating module of electronic installation inside, it is characterized in that, this circumscribed heat abstractor includes: heat-conducting piece and heat sink, one end of this heat-conducting piece is used for inserting a perforate of this electronic installation, is used for being connected in this radiating module in the mode of pullable, and this heat-conducting piece is used for conducting the heat of this radiating module, this heat sink is arranged at the other end of this heat-conducting piece, and this heat sink is used for diffusing except that the heat by this radiating module that this heat-conducting piece transmitted.
2. circumscribed heat abstractor as claimed in claim 1 is characterized in that, this circumscribed heat abstractor includes in addition: the circumscribed fan, and it is arranged at a side of this heat sink, and this circumscribed fan is used for the heat that this heat sink of dissipation is distributed.
3. circumscribed heat abstractor as claimed in claim 1 is characterized in that this heat-conducting piece is connected in this radiating module in friction tight mode.
4. circumscribed heat abstractor as claimed in claim 3 is characterized in that, this heat-conducting piece is connected in this radiating module in the mode of clamping.
5. circumscribed heat abstractor as claimed in claim 1, it is characterized in that, on this heat-conducting piece, be formed with a plurality of protuberances, this radiating module is formed with a plurality of corresponding grooves, it is used for being sticked in these a plurality of protuberances when this heat-conducting piece is connected in this radiating module, and these a plurality of protuberances are used for increasing the contact area of this heat-conducting piece and this radiating module.
6. circumscribed heat abstractor as claimed in claim 5 is characterized in that, these a plurality of protuberances are formed with abrasion resisting material.
7. circumscribed heat abstractor as claimed in claim 1, it is characterized in that, be formed with a plurality of grooves on this heat-conducting piece, this radiating module is formed with a plurality of corresponding protuberances, it is used for being sticked in these a plurality of grooves when this heat-conducting piece is connected in this radiating module, and these a plurality of grooves are used for increasing the contact area of this heat-conducting piece and this radiating module.
8. circumscribed heat abstractor as claimed in claim 7 is characterized in that, these a plurality of protuberances are formed with abrasion resisting material.
9. circumscribed heat abstractor as claimed in claim 1 is characterized in that, triggers one of this electronic installation inside and switch switch when this perforate that this end of this heat-conducting piece inserts this electronic installation, so that this diverter switch is exported a signal.
10. circumscribed heat abstractor as claimed in claim 9 is characterized in that this diverter switch is used for exporting this signal, is used to adjust the rotating speed of a fan of this electronic installation.
11. circumscribed heat abstractor as claimed in claim 1 is characterized in that, this heat sink is a radiating fin.
12. circumscribed heat abstractor as claimed in claim 1 is characterized in that, this heat-conducting piece is a metal rod.
13. the electronic installation that can connect the circumscribed heat abstractor, it includes: shell is formed with perforate on it; Thermal source, it is arranged in this shell; Radiating module, it is installed in this shell and is arranged at a side of this thermal source, and this radiating module is used for loosing and removes the heat that this thermal source produced; And circumscribed heat abstractor, it is characterized in that, this circumscribed heat abstractor includes: heat-conducting piece and heat sink, one end of this heat-conducting piece is used for inserting this perforate of this shell, be used for being connected in this radiating module in the mode of pullable, this heat-conducting piece is used for conducting the heat of this radiating module, and this heat sink is arranged at the other end of this heat-conducting piece, and this heat sink is used for diffusing except that the heat by this radiating module that this heat-conducting piece transmitted.
14. electronic installation as claimed in claim 13 is characterized in that, this circumscribed heat abstractor includes the circumscribed fan in addition, and it is arranged at a side of this heat sink, and this circumscribed fan is used for the heat that this heat sink of dissipation is distributed.
15. electronic installation as claimed in claim 13 is characterized in that, this heat-conducting piece is connected in this radiating module in friction tight mode.
16. electronic installation as claimed in claim 15 is characterized in that, this heat-conducting piece is connected in this radiating module in the mode of clamping.
17. electronic installation as claimed in claim 13, it is characterized in that, be formed with a plurality of protuberances on this heat-conducting piece, this radiating module is formed with a plurality of corresponding grooves, it is used for being sticked in these a plurality of protuberances when this heat-conducting piece is connected in this radiating module, and these a plurality of protuberances are used for increasing the contact area of this heat-conducting piece and this radiating module.
18. electronic installation as claimed in claim 17 is characterized in that, these a plurality of protuberances are formed with abrasion resisting material.
19. electronic installation as claimed in claim 13, it is characterized in that, be formed with a plurality of grooves on this heat-conducting piece, this radiating module is formed with a plurality of corresponding protuberances, it is used for being sticked in these a plurality of grooves when this heat-conducting piece is connected in this radiating module, and these a plurality of grooves are used for increasing the contact area of this heat-conducting piece and this radiating module.
20. electronic installation as claimed in claim 19 is characterized in that, these a plurality of protuberances are formed with abrasion resisting material.
21. electronic installation as claimed in claim 13 is characterized in that, this electronic installation includes in addition: fan, and it is arranged in this shell; And diverter switch, it is electrically connected on this fan, and this diverter switch is triggered when being used for this perforate that this end at this heat-conducting piece inserts this electronic installation, is used to adjust the rotating speed of this fan.
22. electronic installation as claimed in claim 13 is characterized in that, this heat sink is a radiating fin.
23. electronic installation as claimed in claim 13 is characterized in that, this heat-conducting piece is a metal rod.
24. circumscribed heat abstractor, it is used for being connected in the radiating module of electronic installation inside, it is characterized in that, this circumscribed heat abstractor includes: heat-conducting piece and heat accumulation spare, one end of this heat-conducting piece is used for inserting a perforate of this electronic installation, is used for being connected in this radiating module in the mode of pullable, and this heat-conducting piece is used for conducting the heat of this radiating module, this heat accumulation spare is arranged at the other end of this heat-conducting piece, and this heat accumulation spare is used for storing the heat of this radiating module that is transmitted by this heat-conducting piece.
25. circumscribed heat abstractor as claimed in claim 24 is characterized in that, this heat accumulation spare is a heater.
26. circumscribed heat abstractor as claimed in claim 25 is characterized in that, this heat accumulation spare is a thermal conductive container, and it is used for heating essential oil.
27. circumscribed heat abstractor as claimed in claim 25 is characterized in that, this heat accumulation spare is a heat conducting disk.
28. circumscribed heat abstractor as claimed in claim 24 is characterized in that this heat-conducting piece is connected in this radiating module in friction tight mode.
29. circumscribed heat abstractor as claimed in claim 28 is characterized in that, this heat-conducting piece is connected in this radiating module in the mode of clamping.
30. circumscribed heat abstractor as claimed in claim 24, it is characterized in that, be formed with a plurality of protuberances on this heat-conducting piece, this radiating module is formed with a plurality of grooves, it is used for being sticked in these a plurality of protuberances when this heat-conducting piece is connected in this radiating module, and these a plurality of protuberances are used for increasing the contact area of this heat-conducting piece and this radiating module.
31. circumscribed heat abstractor as claimed in claim 30 is characterized in that, these a plurality of protuberances are formed with abrasion resisting material.
32. circumscribed heat abstractor as claimed in claim 24, it is characterized in that, be formed with a plurality of grooves on this heat-conducting piece, this radiating module is formed with a plurality of protuberances, it is used for being sticked in these a plurality of grooves when this heat-conducting piece is connected in this radiating module, and these a plurality of grooves are used for increasing the contact area of this heat-conducting piece and this radiating module.
33. circumscribed heat abstractor as claimed in claim 32 is characterized in that, these a plurality of protuberances are formed with abrasion resisting material.
34. circumscribed heat abstractor as claimed in claim 24 is characterized in that, triggers the diverter switch of this electronic installation inside when this perforate that this end of this heat-conducting piece inserts this electronic installation, so that this diverter switch is exported a signal.
35. circumscribed heat abstractor as claimed in claim 34 is characterized in that this diverter switch is used for exporting this signal, is used to adjust the rotating speed of the fan of this electronic installation.
36. circumscribed heat abstractor as claimed in claim 24 is characterized in that, this heat-conducting piece is a metal rod.
37. the electronic installation that can connect the circumscribed heat abstractor, it includes: shell is formed with perforate on it; Thermal source, it is arranged in this shell; Radiating module, it is installed in this shell and is arranged at a side of this thermal source, and this radiating module is used for loosing and removes the heat that this thermal source produced; And circumscribed heat abstractor, it is characterized in that, this circumscribed heat abstractor includes: heat-conducting piece and heat accumulation spare, one end of this heat-conducting piece is used for inserting this perforate of this shell, be used for being connected in this radiating module in the mode of pullable, this heat-conducting piece is used for conducting the heat of this radiating module, and this heat accumulation spare is arranged at the other end of this heat-conducting piece, and this heat accumulation spare is used for storing the heat of this radiating module that is transmitted by this heat-conducting piece.
38. electronic installation as claimed in claim 37 is characterized in that, this heat accumulation spare is a heater.
39. electronic installation as claimed in claim 38 is characterized in that, this heat accumulation spare is a thermal conductive container, and it is used for heating essential oil.
40. electronic installation as claimed in claim 38 is characterized in that, this heat accumulation spare is a heat conducting disk.
41. electronic installation as claimed in claim 37 is characterized in that, this heat-conducting piece is connected in this radiating module in friction tight mode.
42. electronic installation as claimed in claim 41 is characterized in that, this heat-conducting piece is connected in this radiating module in the mode of clamping.
43. electronic installation as claimed in claim 37, it is characterized in that, be formed with a plurality of protuberances on this heat-conducting piece, this radiating module is formed with a plurality of corresponding grooves, it is used for being sticked in these a plurality of protuberances when this heat-conducting piece is connected in this radiating module, and these a plurality of protuberances are used for increasing the contact area of this heat-conducting piece and this radiating module.
44. electronic installation as claimed in claim 43 is characterized in that, these a plurality of protuberances are formed with abrasion resisting material.
45. electronic installation as claimed in claim 37, it is characterized in that, be formed with a plurality of grooves on this heat-conducting piece, this radiating module is formed with a plurality of corresponding protuberances, it is used for being sticked in these a plurality of grooves when this heat-conducting piece is connected in this radiating module, and these a plurality of grooves are used for increasing the contact area of this heat-conducting piece and this radiating module.
46. electronic installation as claimed in claim 45 is characterized in that, these a plurality of protuberances are formed with abrasion resisting material.
47. electronic installation as claimed in claim 37 is characterized in that, this electronic installation includes in addition: fan, and it is arranged in this shell; And diverter switch, it is electrically connected on this fan, and this diverter switch is triggered when being used for this perforate that this end at this heat-conducting piece inserts this electronic installation, is used to adjust the rotating speed of this fan.
48. electronic installation as claimed in claim 37 is characterized in that, this heat-conducting piece is a metal rod.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009201781489U CN201515582U (en) | 2009-09-24 | 2009-09-24 | External radiator and related electronic device thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009201781489U CN201515582U (en) | 2009-09-24 | 2009-09-24 | External radiator and related electronic device thereof |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201515582U true CN201515582U (en) | 2010-06-23 |
Family
ID=42486992
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2009201781489U Expired - Lifetime CN201515582U (en) | 2009-09-24 | 2009-09-24 | External radiator and related electronic device thereof |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201515582U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106527621A (en) * | 2015-09-10 | 2017-03-22 | 讯凯国际股份有限公司 | Electronic system and external auxiliary cooling apparatus thereof |
| CN106973544A (en) * | 2016-01-14 | 2017-07-21 | 讯凯国际股份有限公司 | Electronic system |
-
2009
- 2009-09-24 CN CN2009201781489U patent/CN201515582U/en not_active Expired - Lifetime
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106527621A (en) * | 2015-09-10 | 2017-03-22 | 讯凯国际股份有限公司 | Electronic system and external auxiliary cooling apparatus thereof |
| CN106527621B (en) * | 2015-09-10 | 2019-08-23 | 讯凯国际股份有限公司 | Electronic system and its circumscribed auxiliary radiating device |
| CN106973544A (en) * | 2016-01-14 | 2017-07-21 | 讯凯国际股份有限公司 | Electronic system |
| CN106973544B (en) * | 2016-01-14 | 2019-03-15 | 讯凯国际股份有限公司 | Electronic system |
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