CN208753300U - A kind of radiating module of cooling fin alternate permutation type - Google Patents

Abstract

The utility model discloses a kind of radiating module of cooling fin alternate permutation type, if including stacking gradually heat sink modules ontology made of arrangement as dry plate cooling fin, the top edge of every cooling fin is equipped with bent acies portion, several flange parts and several concave edge portions are equipped at intervals in bent acies portion, flange part on adjacent two panels cooling fin staggeredly or is shifted to install with concave edge portion, and the flange part on adjacent two panels cooling fin mutually can block or stop concave edge portion.The utility model is provided with flange part and concave edge portion on the cooling fin being laminated at every, and the flange part on adjacent two panels cooling fin staggeredly or is shifted to install with concave edge portion, when radiator fan rotates, generates air-flow on the bent edge radiating surface of heat sink modules ontology；When air-flow passes through groove air duct, blocking downward crossfire of the fraction by adjacent ribs portion.Heat sink modules can be made to reach comparable heat dissipation effect by the radiating airflow that fan is blown out, and then make heat sink modules that there is more preferably heat dissipation effect and heat dissipation operation effect.

Description

A kind of radiating module of cooling fin alternate permutation type

Technical field

The utility model relates to radiator, in particular to a kind of radiating module of cooling fin alternate permutation type.

Background technique

Heater element such as processor (CPU), chip by existing computer system or other electronic devices, on motherboard (Chip) etc., usually radiated using radiating module, and its related heat dissipation in computer system (or electronic device) running Processing, be concern computer performance play and the considerable link of service life, and radiating module be mainly with dissipate Hot blade group is reached, and also often further cooperation cooling tube or radiator fan assist reaching heat dissipation effect more preferably.

Currently, the radiator that existing heat elimination module of computer uses is the heat transfer by cooling fin mostly come diffusion heat Amount, and for further rapid cooling, needing to make the heat on cooling fin also can quickly circulate, most of currently on the market Radiator be to improve on a heat sink, have plenty of increase cooling fin between space air passage gaps, it is this Structure will increase the installation space of radiator, be unfavorable for space utilization.The unit space having plenty of on a heat sink is arranged more Intensive radiating fin spreads the heat on cooling fin faster, and the heat dissipation effect of the radiating module of this structure also by The limitation of the distance between fin, causes the speed of air circulation lower, heat dissipation effect is bad.

Utility model content

The purpose of this utility model is in view of the above drawbacks of the prior art, to provide a kind of dissipating for cooling fin alternate permutation type Thermal modules guarantee that air-flow smooth can pass through when comparatively dense fin is arranged in unit space, and high efficiency completes thermal energy exchange.

For solve the prior art drawbacks described above, technical solution provided by the utility model is: a kind of cooling fin staggered row The radiating module of column, if including as dry plate cooling fin stack gradually arrangement made of heat sink modules ontology, every it is described dissipate The top edge of backing is equipped with bent acies portion, is equipped at intervals with several flange parts and several concave edge portions in the song acies portion, Flange part on cooling fin described in adjacent two panels staggeredly or is shifted to install with concave edge portion, on cooling fin described in adjacent two panels Flange part mutually can block or stop the concave edge portion.

A kind of improvement of radiating module as the utility model cooling fin alternate permutation type, every cooling fin it is upper Edge is equipped at intervals with multiple partitions, and cooling fin described in adjacent two panels, which is superimposed and is separated by the partition, forms certain dissipate Temperature gap.

A kind of improvement of radiating module as the utility model cooling fin alternate permutation type, if on cooling fin described in dry plate The superposition of bent acies portion, form bent edge radiating surface, fan be installed on the song edge radiating surface.

A kind of improvement of radiating module as the utility model cooling fin alternate permutation type, the length of the every cooling fin Degree is equipped at intervals with several perforation on direction, and the perforation on the every cooling fin corresponds.

A kind of improvement of radiating module as the utility model cooling fin alternate permutation type further includes cooling pipe device, The cooling pipe device is made of several cooling tubes, and several cooling tubes are worn respectively to the perforation, the cooling tube It is interior to be equipped with cooling liquid.

A kind of improvement of radiating module as the utility model cooling fin alternate permutation type, the cooling tube are to unroll to wear The more bend pipes or single bend pipe being located on the heat sink modules ontology.

A kind of improvement of radiating module as the utility model cooling fin alternate permutation type, if on cooling fin described in dry plate Homoaxial concave edge portion and flange part combine to form a nonlinear groove air duct.

A kind of improvement of radiating module as the utility model cooling fin alternate permutation type, when the fan rotates, institute It states and generates air-flow on the bent edge radiating surface of heat sink modules ontology；When air-flow passes through the groove air duct, fraction is by adjacent The downward crossfire of the blocking of flange part.

Compared with prior art, the utility model has the advantages that: the utility model every be laminated cooling fin on set Flange part and concave edge portion are set, the flange part on adjacent two panels cooling fin staggeredly or shifts to install, radiator fan with concave edge portion When rotation, air-flow is generated on the bent edge radiating surface of heat sink modules ontology；When air-flow passes through groove air duct, fraction is by adjacent The downward crossfire of the blocking of flange part.Heat sink modules can be made to reach comparable heat dissipation effect by the radiating airflow that fan is blown out, And then make heat sink modules that there is more preferably heat dissipation effect and heat dissipation operation effect.

Detailed description of the invention

Just the utility model and its beneficial technical effect are made with specific embodiment with reference to the accompanying drawings below further detailed Thin description, in which:

Fig. 1 is the utility model heat sink modules exploded structural schematic diagram.

Fig. 2 is the utility model heat sink structure illustration.

Fig. 3 is the assembling schematic diagram of the utility model heat sink modules.

Fig. 4 is the schematic diagram that the utility model air-flow operates in groove air duct.

Appended drawing reference title: 10, heat sink modules ontology 11, cooling fin 12, perforation 13, bent acies portion 14, concave edge portion 15, Flange part 16, partition 17, bent edge radiating surface 20, cooling pipe device 21, cooling tube 30, fan.

Specific embodiment

Just the utility model is further described with specific embodiment with reference to the accompanying drawings below, but the implementation of the utility model Mode is not limited to this.

As shown in Figure 1 to 4, a kind of radiating module of cooling fin alternate permutation type, if including by dry plate cooling fin 11 according to Heat sink modules ontology 10 made of secondary stacked arrangement, the top edge of every cooling fin 11 are equipped with bent acies portion 13, bent acies Several flange parts 15 and several concave edge portions 14 are equipped at intervals in portion 13, the flange part 15 on adjacent two panels cooling fin with it is recessed Edge 14 interlocks or shifts to install, and the flange part 15 on adjacent two panels cooling fin 11 mutually can block or stop concave edge portion 14。

Preferably, the top edge of every cooling fin 11 is equipped at intervals with multiple partitions 16, and adjacent two panels cooling fin 11 is folded Add and separated by partition 16 and forms certain heat dissipation gap.

Preferably, if the bent acies portion 13 on dry plate cooling fin 11 is superimposed, bent edge radiating surface 17, bent edge radiating surface 17 are formed On fan 30 is installed.When starting fan 30, air-flow passes through 14 axial advancement of concave edge portion of the cooling fin 11, and fraction will It is blocked/is stopped by the flange part 15 of next adjacent cooling fin 11, and the fraction is made to be able to downward (i.e. abutting fins Gap between 11) channelling；And another portion air-flow is being advanced by the concave edge portion 14 of the adjoining cooling fin 11, generates part gas after connecting The same phenomenon for flowing channelling still further below, the air-flow for enabling the fan 30 produced when operating considerably are guided into each adjacent Gap between cooling fin 11 carries out sufficient heat spreading function, and is able to promote the heat dissipation effect of integral heat sink piece module body 10. Certainly, by the excellent design of its cooling fin 11 of the heat sink modules ontology 10, the air-flow of the fan 30 is fully acted on It radiates in the heat sink modules ontology 10, therefore the design of the power power consumption wattage of the fan 30 can also be reduced specifically, and obtain To save comparable electric power energy, and has its economic benefit deeply.

Preferably, several perforation 12 are equipped at intervals on the length direction of every cooling fin 11, on every cooling fin 11 Perforation 12 corresponds.

It preferably, further include cooling pipe device 20, cooling pipe device 20 is made of several cooling tubes 21, several coolings Pipe 21 is worn respectively to perforation 12, and cooling liquid is equipped in cooling tube 21.

Preferably, cooling tube 20 is the unroll more bend pipes being threaded through on heat sink modules ontology 10 or single bend pipe.Make The coolant liquid flows in the cooling tube 21 carries out heat exchange；The perforation 12 that 21 system of cooling tube is arranged in the cooling fin 11 is nibbled, And so that the cooling tube 21 is worn and unroll in the heat sink modules ontology 10, and the quantity of the cooling tube 21 and its worn in this Hole 12 wears or wears the mode of unrolling and without limitations.

Preferably, if homoaxial concave edge portion 14 and the combination of flange part 15 on dry plate cooling fin 11 form a nonlinear type Groove air duct.

Preferably, when 10 rotary work of fan, air-flow is generated on the bent edge radiating surface 17 of heat sink modules ontology 10；Air-flow When by groove air duct, blocking downward crossfire of the fraction by adjacent ribs portion 15.And another portion air-flow is being dissipated by the adjoining The concave edge portion 14 of backing 11 advances, after connecting the same phenomenon for generating fraction channelling still further below, so that the fan 30 operates When produced air-flow can considerably be guided into the gap between each abutting fins 11, carry out sufficient heat spreading function.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and structure, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and their equivalents.

Claims (8)

1. a kind of radiating module of cooling fin alternate permutation type, if including stacking gradually heat dissipation made of arrangement as dry plate cooling fin Piece module body, which is characterized in that the top edge of the every cooling fin is equipped with bent acies portion, is spaced in the song acies portion Equipped with several flange parts and several concave edge portions, the flange part and concave edge portion on cooling fin described in adjacent two panels are staggeredly or wrong Position is arranged, and the flange part on cooling fin described in adjacent two panels mutually can block or stop the concave edge portion.

2. the radiating module of cooling fin alternate permutation type according to claim 1, which is characterized in that the every cooling fin Top edge be equipped at intervals with multiple partitions, cooling fin described in adjacent two panels be superimposed and separated by the partition formed it is certain Heat dissipation gap.

3. the radiating module of cooling fin alternate permutation type according to claim 2, which is characterized in that if radiating described in dry plate The bent acies portion of on piece is superimposed, and is formed bent edge radiating surface, is equipped with fan on the song edge radiating surface.

4. the radiating module of cooling fin alternate permutation type according to claim 3, which is characterized in that the every cooling fin Length direction on be equipped at intervals with several perforation, the perforation on the every cooling fin corresponds.

5. the radiating module of cooling fin alternate permutation type according to claim 4, which is characterized in that further include cooling tube dress It sets, the cooling pipe device is made of several cooling tubes, and several cooling tubes are worn respectively to the perforation, the cooling Cooling liquid is equipped in pipe.

6. the radiating module of cooling fin alternate permutation type according to claim 5, which is characterized in that the cooling tube is back Around the more bend pipes being threaded through on the heat sink modules ontology or single bend pipe.

7. the radiating module of cooling fin alternate permutation type according to claim 6, which is characterized in that if radiating described in dry plate The homoaxial concave edge portion of on piece and flange part combine to form a nonlinear groove air duct.

8. the radiating module of cooling fin alternate permutation type according to claim 7, which is characterized in that the fan rotation When, air-flow is generated on the bent edge radiating surface of the heat sink modules ontology；Air-flow pass through the groove air duct when, fraction by The downward crossfire of the blocking in adjacent ribs portion.